Currently, if the user modifies a modify/delete conflict, we always
consider the result resolved. That happens because we materialize the
missing side of the conflict as an empty string but when we parse the
conflict, we expect only the number of sides in the input
conflict. For example, if the input is a regular modify/delete
conflict with one remove and one add, the materialized markers will
have one remove and two adds (one of them empty), but when we try to
parse it, we expect one remove and only one add. When we fail to parse
it, we consider it resolved.
This commit fixes the bug by using
`conflicts::Conflict<Option<TreeValue>>` and keeping track of which
sides were supposed to be empty. We could have fixed the bug without
switching to `conflicts::Conflict`, but we want to switch anyway, and
the fix happens naturally when switching.
I made a typo and got something like this:
```
Error: Commit or change id prefix "wl" is ambiguous
```
Since we can tell commit ids from change ids these days, let's make
the error message say which kind of id it is. Changing that also kind
of forced me to make a special error for empty strings. Otherwise we
would have to arbitrarily say that an empty string is a commit id or
change id. A specific error message for empty strings seems helpful,
so that's probably for the better anyway.
We can't get rid of the other "impl Index"es because .as_composite() must
return a real reference type. Maybe we could turn CompositeIndex into an
owned wrapper, but I don't know if that would be worth the effort.
It might sound scary to add public .mutable_index() accessor, but I think
it's okay because immutable MutableIndex reference has no more power than
Index.
This allows us to implement Index for lifetime-bound type such as
CompositeIndex<'_>.
The idea is that .as_composite() is equivalent to .as_index(), but for the
implementation type. I'm going to add "impl Index for CompositeIndex" to
clean up index references passed to revset engine.
Otherwise, "jj init --git-repo ." would create extra table files per commit,
and merge them.
I considered adding an explicit GitBackend method to be called from
git::import_refs(), but the call order matters. The method should be invoked
before calling store.get_commit(..) or mut_repo.add_head(..). Since commits
are likely to be loaded from the head, we can instead make read_commit()
import ancestor metadata at all.
Alternatively, we could make a Git commit hidden until it's inserted into
the extra table. It's rather big change, and I wouldn't like to do that
without thinking more thoroughly.
My first attempt was to fix up corrupted index when merging, but it turned
out to be not easy because the self side may contain corrupted data. It's
also possible that two concurrent commit operations have exactly the same
view state (because change id isn't hashed into commit id), and only the
table heads diverge.
#924
This bug concerns the way `import_refs` that gets called by `fetch` computes
the heads that should be visible after the import.
Previously, the list of such heads was computed *before* local branches were
updated based on changes to the remote branches. So, commits that should have
been abandoned based on this update of the local branches weren't properly
abandoned.
Now, `import_refs` tracks the heads that need to be visible because of some ref
in a mapping keyed by the ref. If the ref moves or is deleted, the
corresponding heads are updated.
Fixes#864
Now that we return the written commit from `write_commit()`, let's
make the timestamps match what was actually written, accounting for
the whole-second precision and the adjustment we do to avoid
collisions.
This has several advantages:
* Makes it possible to downcast to non-Git custom backends (might be
useful at Google, but we haven't needed it yet)
* Lets us access more specific functionality on the `GitBackend`,
making it possible to access the `git2::Repository` without
creating a copy of it.
* Removes the dependency on Git from the backend
In large repos, the unique prefixes can get somewhat long (~6 hex
digits seems typical in the Linux repo), which makes them less useful
for manually entering on the CLI. The user typically cares most about
a small set of commits, so it would be nice to give shorter unique ids
to those. That's what Mercurial enables with its
`experimental.revisions.disambiguatewithin` config. This commit
provides an implementation of that feature in `IdPrefixContext`.
In very large repos, it can also be slow to calculate the unique
prefixes, especially if it involves a request to a server. This
feature becomes much more important in such repos.
When creating `RevsetExpression` programmatically, I think we should
use commit ids instead of symbols in the expression. This commit adds
a check for that by using a `SymbolResolver` that always errors
out.
I would eventually want the `SymbolResolver` to be customizable (in
custom `jj` binaries), so we want to make sure we always use the
customized version of it.
I left `RevsetExpression::resolve()` unchanged. I consider that to be
for programmatically created expressions.
The current behavior was introduced by 20eb9ecec1 "git: don't abandon
HEAD commit when it loses a branch." While the change made HEAD mutation
behavior more consistent with a plain ref operation, HEAD can also move on
checkout, and checkout shouldn't be considered a history rewriting operation.
I'm not saying the new behavior is always correct, but I think it's safer
than losing old HEAD branch. I also think this change will help if we want
to extract HEAD management function from git::import_refs().
Fixes#1042.
The substitution rule and tests are copied from ancestors/parents. The backend
logic will be reimplemented later. For now, it naively repeats children().
It no longer needs to be on the `Index` trait, thereby removing the
last direct use of `IndexEntry` in the trait (it's still used
indirectly in `walk_revs()`).
New ResolvedExpression enum ensures that the evaluation engine doesn't have
to know the symbol resolution details. In this commit, I've moved Filter
and NotIn resolution to resolve_visibility(). Implicit All/VisibleHeads
resolution will be migrated later.
It's tempting to combine resolve_symbols() and resolve_visibility() to get
rid of panic!()s, but the resolution might have to be two passes to first
resolve&collect explicit commit ids, and then substitute "all()" with
"(:visible_heads())|commit_id|..". It's also possible to apply some tree
transformation after symbol resolution.
The `heads()` revset function with one argument is the counterpart to
`roots()`. Without arguments, it returns the visible heads in the
repo, i.e. `heads(all())`. The two use cases are quite different, and
I think it would be good to clarify that the no-arg form returns the
visible heads, so let's split that out to a new `visible_heads()`
function.
This basically removes hidden 'all() &' from union/negation of filters. To
achieve that, I have two options: 1. add separate evaluation path (like the
one this commit introduced), or 2. wrap "all()" revset to override predicate
as Box::new(|_| true) function. I took the former since it's less ad-hoc.
We can add an explicit RevsetExpression node to branch between evaluate()
and evaluate_predicate(), but I don't think it would simplify the
implementation at this point. We might need such node if we want to resolve
"all()" at resolve_symbols(). It might be even better to extract a subset of
RevsetExpression enum, which only contains evaluatable nodes.
The cost of 'all() &' isn't significant for most filters. '~merges()' is
the exception. For jj repo,
revsets/:v0.3.0 & (author(martinvonz) | committer(martinvonz))
--------------------------------------------------------------
base 1.06 11.2±0.04m
new 1.00 10.5±0.05m
revsets/~merges()
-----------------
base 1.69 750.0±8.47µ
new 1.00 444.1±3.50µ
This makes it clear that RevsetExpression::Present node is noop at the
evaluation stage.
RevsetEvaluationError::StoreError is unused right now, but I'm not sure if
it should be removed. It makes some sense that evaluate() can propagate
StoreError as it has access to the store.
The `Repo` is a higher-level type that the index shouldn't have to
know about. With this change, a custom revset implementation should be
able evaluate the revset on a server without knowing which repo it
refers to.
The `public_heads()` revset only contains the root commit in
practice. I'm not sure what we want to do about phases, but since we
don't have any real support for them yet, let's just remove this
revset. I didn't update the changelog because we don't seem to have
documented the revset function (and it seems unlikely that users who
found out about it found it useful enough to use it when they could
just use `root`).
This serves the role of limit() in Mercurial. Since revsets in JJ is
(conceptually) an unordered set, a "limit" predicate should define its
ordering criteria. That's why the added predicate is named as "latest".
Closes#1110
There are no remaining places where we iterate over a revset and need
the `IndexEntry`s, so we can now make `Revset::iter()` yield
`CommitId`s instead.
I'm about to make `Revset::iter()` yield just `CommitId`s, but the
tests in `test_default_revset_graph_iterator.rs` need an `IndexEntry`
iterator so they can pass it into `RevsetGraphIterator::new()`. This
commits prepares for the change by adding a
`RevsetImpl::iter_graph_impl()` that returns `RevsetGraphIterator`,
keeping `InternalRevset` still hidden within the revset engine. We
could instead have made that (and `ToPredicateFn`) visible to tests. I
can't say which is better.
One of the remaining places we depend on index positions is when
creating a `ChangeIdIndex`. This moves that into the revset engine
(which is coupled to the commit index implementation) by adding a
`Revset::change_id_index()` method. We will also use this function
later when add support for resolving change id prefixes within a small
revset.
The current implementation simply creates an in-memory index using the
existing `IdIndex` we have in `repo.rs`.
The custom implementation at Google might do the same for small
revsets that are available on the client, but for revsets involving
many commits on the server, it might use a suboptimmal implementation
that uses longer-than-necessary prefixes for performance reasons. That
can be done by querying a server-side index including changes not in
the revset, and then verifying that the resulting commits are actually
in the revset.
The function is only used in tests, so it doesn't belong in
`default_revset_engine`. Also, it's not specific to that
implementation, so I rewrote as a revset evaluation.
I'd like to be able to pass a `self` of `type `&ReadonlyRepo` to
functions that take a `&dyn Repo`. For that, we need `ReadonlyRepo`
itself to implement `Repo` instead of having `Arc<ReadonlyRepo>`
implement it. I could have solved it in a different way, but the `Arc`
requirement seems like an unnecessary constraint.
The index position is specific to the default index implementation and
we don't want to use it in outside of there. This commit removes the
use of it as a key for nodes in the graphlog.
I timed it on the git.git repo using `jj log -r 'all()' -T commit_id`
(the worst case I can think of) and it slowed down from ~2.02 s to
~2.20 s (~9%).
For large repos, it's useful to be able to use shorter change id and
commit id prefixes by resolving the prefix in a limited subset of the
repo (typically the same subset that you'd want to see in your default
log output). For very large repos, like Google's internal one, the
shortest unique prefix evaluated within the whole repo is practically
useless because it's long enough that the user would want to copy and
paste it anyway.
Mercurial supports this with its `revisions.disambiguatewithin` config
(added in https://www.mercurial-scm.org/repo/hg/rev/503f936489dd). I'd
like to add the same feature to jj. Mercurial's implementation works
by attempting to resolve the prefix in the whole repo and then, if the
prefix was ambiguous, it resolves it in the configured subset
instead. The advantage of doing it that way is that there's no extra
cost of resolving the revset defining the subset if the prefix was not
ambiguous within the whole repo. However, there are two important
reasons to do it differently in jj:
* We support very large repos using custom backends, and it's probably
cheaper to resolve a prefix within the subset because it can all be
cached on the client. Resolving the prefix within the whole repo
requires a roundtrip to the server.
* We want to be able to resolve change id prefixes, which is always
done in *some* revset. That revset is currently `all()`, i.e. all
visible commits. Even on local disk, it's probably cheaper to
resolve a small revset first and then resolve the prefix within that
than it is to build up the index of all visible change ids.
We could achieve the goal by letting each revset engine respect the
configured subset, but since the solution proposed above makes sense
also for local-disk repos, I think it's better to do it outside of the
revset engine, so all revset engines can share the code.
This commit prepares for the new functionality by moving the symbol
resolution out of `Index::evaluate_revset()`.
We want to allow custom revset engines define their own graph
iterator. This commit helps with that by adding a
`Revset::iter_graph()` function that returns an abstract iterator.
The current `RevsetGraphIterator` can be configured to skip or include
transitive edges. It skips them by default and we don't expose option
in the CLI. I didn't bother including that functionality in the new
`iter_graph()` either. At least for now, it will be up to the
implementation whether it includes such edges (it would of course be
free to ignore the caller's request even if we added an option for it
in the API).
We want to allow customization of the revset engine, so it can query
server indexes, for example. The current revset implementation will be
our default implementation for now. What's left in the `revset` module
after this commit is mostly parsing code.
The tests adding and removing heads to the repo mostly want to verify
that the set of heads is expected. Some of them also check that
commits are available in the index. But they shouldn't care about the
exact index stats.
I don't think there's much to gain from making the index match exactly
what's reachable from the view. FWIW, our cloud-based implementation
at Google will probably make everyone's commits visible in the index
regardless of which operation they're at.
This is another step towards allowing a custom `jj` binary to have its
own index type. We're going to have a server-backed index
implementation at Google, for example.
In `git_fetch()`, any glob present in `globs` is an "allow" mark. Using
`&[]` to represent an "allow-all" may be misleading, as it could
indicate that no branch (only the git HEAD) should be fetched.
By using an `Option<&[&str]>`, it is clearer that `None` means that
all branches are fetched.
To be able to make e.g. `jj log some/path` perform well on cloud-based
repos, a custom revset engine needs to be able to see the paths to
filter by. That way it is able pass those to a server-side index. This
commit helps with that by effectively converting `jj log -r foo
some/path` into `jj log -r 'foo & file(some/path)'`.
I'm about to make `RepoLoader::init()` return a `Result`, and I don't
want to have to wrap that in a new error in
`ReadonlyRepo::load_at_head()` since that's only used in tests.
This should fix#1304. I think the added test simulates the behavior of
multiple rebase conflicts, but I don't have expertise around this.
add_index could be replaced with a peekable iterator, but the iterator version
wouldn't be as readable as the current implementation.
The type doesn't seem to provide any benefit. I don't think I had a
good reason for creating it in the first place; it was probably just
unfamiliarity with Rust.
I was thinking of replacing `RevsetIterator` by a regular
`Iterator<Item=IndexEntry>`. However, that would make it easier to
pass in an iterator that produces revisions in a non-topological order
into `RevsetGraphIterator`, which would produce unexpected results (it
would result in nodes that are not connected to their parents, if
their parents had already been emitted). I think it makes sense to
instead pass in a revset into `RevsetGraphIterator`.
Incidentally, it will also be useful to have the full revset available
in `RevsetGraphIterator` if we rewrite the algorithm to be more
similar to Mercurial's and Sapling's algorithm, which involves asking
the revset if it contains parent revisions.
We write conflict to the working copy by materializing them as
conflict markers in a file. When the file has been modified (or just
the mtime has changed), we parse the markers to reconstruct the
conflict. For example, let's say we see this conflict marker:
```
<<<<<<<
+++++++
b
%%%%%%%
-a
+c
>>>>>>>
```
Then we will create a hunk with ["a"] as removed and ["b", "c"] as
added.
Now, since commit b84be06c08, when we materialize conflicts, we
minimize the diff part of the marker (the `%%%%%%%` part). The problem
is that that minimization may result in a different order of the
positive conflict terms. That's particularly bad because we do the
minimization per hunk, so we can end up reconstructing an input that
never existed.
This commit fixes the bug by only considering the next add and the one
after that, and emitting either only the first with `%%%%%%%`, or both
of them, with the first one in `++++++++` and the second one in
`%%%%%%%`.
Note that the recent fix to add context to modify/delete conflicts
means that when we parse modified such conflicts, we'll always
consider them resolved, since the expected adds/removes we pass will
not match what's actually in the file. That doesn't seem so bad, and
it's not obvious what the fix should be, so I'll leave that for later.
It took a while before I realized that conflicts could be modeled as
simple algebraic expressions with positive and negative terms (they
were modeled as recursive 3-way conflicts initially). We've been
thinking of them that way for a while now, so let's make the
`ConflictPart` name match that model.
When we materialize modify/delete conflicts, we currently don't
include any context lines. That's because modify/delete conflicts have
only two sides, so there's no common base to compare to. Hunks that
are unchanged on the "modify" side are therefore not considered
conflicting, and since they they don't contribute new changes, they're
simply skipped (here:
3dfedf5814/lib/src/files.rs (L228-L230)).
It seems more useful to instead pretend that the missing side is an
empty file. That way we'll get a conflict in the entire file.
We can still decide later to make e.g. `jj resolve` prompt the user on
modify/delete conflicts just like `hg resolve` does (or maybe it
actually happens earlier there, I don't remember).
Closes#1244.
This is just a little preparation for extracting a `Repo` trait that's
implemented by both `ReadonlyRepo` and `MutableRepo`. The `index()`
function in that trait will of course have to return the same type in
both implementations, and that type will be `&dyn Index`.
Even though we don't know the details yet, we know that we want to
make the index pluggable like the commit and opstore
backends. Defining a trait for it should be a good step. We can refine
the trait later.
By separating the value spaces change ids and commit ids, we can
simplify lookup of a prefix. For example, if we know that a prefix is
for a change id, we don't have to try to find matching commit ids. I
think it might also help new users more quickly understand that change
ids are not commit ids.
This commit is a step towards that separation. It allows resolving
change ids by using hex digits from the back of the alphabet instead
of 0-f, so 'z'='0', 'y'='1', etc, and 'k'='f'. Thanks to @ilyagr for
the idea. The regular hex digits are still allowed.
Git's HEAD ref is similar to other refs and can logically have
conflicts just like the other refs in `git_refs`. As with the other
refs, it can happen if you run concurrent commands importing two
different updates from Git. So let's treat `git_head` the same as
`git_refs` by making it an `Option<RefTarget>`.
Add a new git.auto-local-branch config option. When set to false, a
remote-tracking branch imported from Git will not automatically create a
local branch target. This is implemented by a new GitSettings struct
that passes Git-related settings from UserSettings.
This behavior is particularly useful in a co-located jj and Git repo,
because a Git remote might have branches that are not of everyday
interest to the user, so it does not make sense to export them as local
branches in Git. E.g. https://github.com/gitster/git, the maintainer's
fork of Git, has 379 branches, most of which are topic branches kept
around for historical reasons, and Git developers wouldn't be expected
to have local branches for each remote-tracking branch.
I've preferred "working-copy commit" over "checkout" for a while
because I think it's clearer, but there were lots of places still
using "checkout". I've left "checkout" in places where it refers to
the action of updating the working copy or the working-copy commit.
`SimpleOpHeadsStore` currently stores its files in
`.jj/repo/op_heads/simple_op_heads/`. The `.jj/repo/op_heads/type`
file indicates the type of op-heads backend. If that contains
"simple_op_head_store", we use the `SimpleOpHeadsStore`
backend. There's no need for the `simple_op_heads` directory to also
indicate the type of backend in its name. I kept just the `heads` in
the name to make it less redundant with the parent directory (which is
`op_heads)`. We could alternatively call the directory `values` or
similar.
Make op resolution a closed operation, powered by a callback provided by the
caller which runs under an internal lock scope. This allows for greatly
simplifying the internal lifetime structuring.
- branches has the signature branches([needle]), meaning the needle is optional (branches() is equivalent to branches("")) and it matches all branches whose name contains needle as a substring
- remote_branches has the signature remote_branches([branch_needle[, remote_needle]]), meaning it can be called with no arguments, or one argument (in which case, it's similar to branches), or two arguments where the first argument matches branch names and the second argument matches remote names (similar to branches, remote_branches(), remote_branches("") and remote_branches("", "") are all equivalent)
I don't think Workspace::load() should be permissive in that regard.
WorkspaceLoader could provide such function, but I feel it's more like
CLI business. CLI can also look for parent '.git' directory to suggest
'jj init --git-repo=..' if needed.
We already have `create_random_commit()`, which returns a
`CommitBuilder`. Most callers directly write that to a
`MutableRepo`. That currently returns a `Commit`, but I'm about to
make it propagate errors from the backend. That would add an
`unwrap()` to this sequence, making it longer. Let's create a simple
helper for these callers to simplify this common pattern.
When you're done with the `CommitBuilder`, you're going to have to
call `write_to_repo()`, passing it a mutable `MutableRepo`
reference. It's a bit simpler to pass that reference when we create
the `CommitBuilder` instead, so that's what this patch does.
A drawback of passing in the mutable reference when we create the
builder is that we can't have multiple unfinished `CommitBuilder`
instance live at the same time. We don't have any such use cases yet,
and it's not hard to work around them, so I think this change is worth
it.
The next commit will introduce a newtype for -m/--message argument which
can be converted Into<String>.
Since CommitBuilder is a thin wrapper, code bloat caused by generic parameters
wouldn't matter. I have another set of commits that makes all builder methods
accept Into/IntoIterator, which will remove some of .clone() calls from tests.
I ran an upgraded Clippy on the codebase. All the changes seem to be
about using variables directly in format strings instead of passing
them as separate arguments.
This will be a building block of 'parents(base)' revset. 'base---' will
be .filter_by_generation(3..4) for example. I think 'ancestors(base)' can
also have an optional generation parameter, but I haven't considered any
particular syntax yet.
This basically transforms 's1 & (f() | s2)' to
's1.iter().filter(all && f || s2)'. Still the predicate part includes "all",
the filter function doesn't need to load commit data for every entry since
's1.iter().filter(all)' is tested first. To optimize "all" predicate out,
maybe we can add a wrapper that returns '|_: &IndexEntry| true'.
Instead of inserting AsFilter(_) node, I could add a recursive is_filter()
function. That would also work so long as the height of RevsetExpression tree
is limited. I chose node insertion just for ease of snapshot testing.
@yuja asked on #701 about the difference between the state in the
`git_export_view` and what we have in `mut_repo.view()`. It's true
that the branches in `mut_repo.view().git_refs()` should match what we
wrote to disk. We can therefore remove the on-disk storage and
simplify quite a bit. For now, I create the `last_export_view` from
the `mut_repo.view().git_refs()` before calling
`export_changes()`. I'll clean up a bit more next.
I think this is correct even considering e.g. undo. Let's consider
what would happen in a non-colocated Git repo (not because tricky
cases cannot happen there but because the explicit exports and imports
make it easier to discuss, and more cases can occur). If the user
moved a branch and then did `jj git export`, `jj undo`, and then `jj
git export` again, we would think on the second export that we should
perform the same changes to the Git repo, which should have no effect.
This patch also fixes the bug we were forced to work around in the
test case in the previous patch.
This removes one of our uses of Thrift.
This fixes the bugs shown by the tests added in the previous patch by
checking that the git branches we're about to update have not been
updated by git since our last export. If they have, we fail those
branches. The user can then re-import from the git repo and resolve
any conflicts before exporting again.
I had to update the `test_export_import_sequence` to make it
pass. That shows a new bug, which I'll fix next. The problem is that
the exported view doesn't get updated on import, so we would try to
export changes compared to an earlier export, even though we actually
knew (because of the `jj git import`) that the state in git had
changed.
If you update a branch using regular `git` (or some Git-based tool)
between two `jj git export`, we will overwrite that change if you had
also changed the branch in jj land. There's a similar problem if you
delete the branch in jj land. Let's have a test for that. I'm going to
make us not overwrite it soon. This patch adds a test for those cases,
plus many other cases in consistent way. Since the new test covers
some cases tested by existing tests, I removed those tests.
It seems that we didn't have a test for this simple case. I wrote this
test case while working on #111 but I don't know why I didn't push it
back then.
A new FileType, GitSubmodule is added which is ignored. Files or
directories having this type are not added to the work queue and
are ignored in snapshot. Submodules are not created by jujutsu
when resetting or checking out a tree, they should be currently
managed using git.
Because a unary negation node '~y' is more primitive than the corresponding
difference node 'x~y', '~y' is easier to deal with while rewriting the tree.
That's the main reason to add RevsetExpression::NotIn node.
As we have a NotIn node, it makes sense to add an operator for that. This
patch reuses '~' token, which I feel intuitive since the other set operators
looks like bitwise ops. Another option is '!'.
The unary '~' operator has the highest precedence among the set operators,
but they are lower than the ranges. This might be counter intuitive, but
useful because a prefix range ':x' can be negated without parens.
Maybe we can remove the redundant infix operator 'x ~ y', but it isn't
decided yet.
Let's acknowledge everyone's contributions by replacing "Google LLC"
in the copyright header by "The Jujutsu Authors". If I understand
correctly, it won't have any legal effect, but maybe it still helps
reduce concerns from contributors (though I haven't heard any
concerns).
Google employees can read about Google's policy at
go/releasing/contributions#copyright.
Follows up c5ed3e1477. Now change/commit ids are resolved at the same
precedence, which means there are at least three types of ambiguity.
I don't think we would need to discriminate these.
Because the use of the change id is recommended, any operation should abort
if a valid change id happens to match a commit id. We still try the commit
id lookup first as the change id lookup is more costly.
Ambiguous change/commit id is reported as AmbiguousCommitIdPrefix for now.
Maybe we can merge AmbiguousCommit/ChangeIdPrefix errors into one?
Closes#799
The CLI will load aliases from config, insert them one by one, and warn if
declaration part is invalid. That's why RevsetAliasesMap is a public struct
and needs to be instantiated by the caller.
To reduce conflicts between branches like `main` and `main/sub`, it's
better to first delete refs in git that have been deleted in jj, and
then add/update refs that have been added/updated in jj.
Since we now write a (partial) view object of the exported branches to
disk (since 7904474320), we can safely skip exporting some
branches. We already skip conflicted branches. This commit makes us
also skip branches that we fail to write to the backing Git repo,
instead of failing the whole operation (after possibly updating some
Git refs).
I made the `export_refs()` function return the branches that
failed. We should probably make that a struct later and have a
separate field for branches that we skipped due to conflicts.
Closes#493.
This adds a test for attempting to export both a branch called `main`
and one called `main/sub` (#493), as well as for exporting a branch
with an empty string as name (reported directly to me by @lkorinth).
The expression 'x ~ empty()' is identical to 'x & file(".")', but more
intuitive.
Note that 'x ~ empty()' is slower than 'x & file(".")' since the negative
intersection isn't optimized right now. I think that can be handled as
follows: 'x ~ filter(f)' -> 'x & filter(!f)' -> 'filter(!f, x)'
There are no "non-normal" files, so "normal" is not needed. We have
symlinks and conflicts, but they are not files, so I think just "file"
is unambiguous.
I left `testutils::write_normal_file()` because there it's used to
mean "not executable file" (there's also a `write_executable_file()`).
I left `working_copy::FileType::Normal` since renaming `Normal` there
to `File` would also suggest we should rename `FileType`, and I don't
know what would be a better name for that type.
We currently get the hostname and username from the `whoami` crate. We
do that in lib crate, without giving the caller a way to override
them. That seems wrong since it might be used in a server and
performing operations on behalf of some other user. This commit makes
the hostname and username configurable, so the calling crate can pass
them in. If they have not been passed in, we still default to the
values from the `whoami` crate.
When we export branches to Git, we didn't update our own record of
Git's refs. This frequently led to spurious conflicts in these refs
(e.g. #463). This is typically what happened:
1. Import a branch pointing to commit A from Git
2. Modify the branch in jj to point to commit B
3. Export the branch to Git
4. Update the branch in Git to point to commit C
5. Import refs from Git
In step 3, we forgot to update our record of the branch in the repo
view's `git_refs` field. That led to the import in step 5 to think
that the branch moved from A to C in Git, which conflicts with the
internal branch target of B.
This commit fixes the bug by updating the refs in the `MutableRepo`.
Closes#463.
As I said in the previous patch, I don't know why I made the initial
export to Git a no-op. Exporting everything makes more sense to
(current-)me. It will make it slightly easier to skip exporting
conflicted branches (#463). It also lets us remove a `jj export` call
from `test_templater.rs`.
To fix#463, I think we want to skip conflicted branches when we
export instead of erroring out. It seems we didn't have test case for
the current behavior, so let's add one.
