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.
I don't know if we ever resolve revsets in a mutable repo, but now
that we can get a change id index from a revset, it's easier to
implement this functionality that way.
This replaces the direct use of `IdIndex` in `ReadonlyRepo` by use of
`Revset::change_id_index()`.
I made the `Index` trait require `Send` and `Sync` in order to be able
to store an instance of it in `ReadonlyRepo` (via `ChangeIdIndex`) and
still have that be `Send` and `Sync`. We could alternatively store the
`ChangeIdIndex` in a `Mutex`. Now that will be up to the
`ChangeIdIndex` instead.
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.
When deciding the order to visit commits to rebase, we currently look
up parents in the index. I'm trying to remove the current `IndexEntry`
type and will probably have revsets iterators yield simply
`CommitId`. Let's therefore look up commit objects here.
I timed this by rewriting all commits in the jj repo. I couldn't
measure any difference. That makes sense since we cache the commits in
`Store` and we would read the commit when rebasing it anyway.
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 functions resolving a change id to commits currently return a
`Vec<IndexEntry>`. We want to avoid depending on `IndexEntry` and we
only need the commit ids here.
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%).
Since we hid the graph iterator implementation behind
`Revset::iter_graph()`, I don't think we have any callers of
`Revset::iter()` require the iteration to be in index position order,
so let's not promise that. We do want to promise that the iteration is
in topological order with children before parents, however.
We need 1.64 to bump `clap` to `4.1`. We don't really need to upgrade
to that, but being on an older version causes minor confusions like
#1393. Rust 1.64 is very close to 6 months old at this point.
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).
This commit adds an `evaluate_revset()` function to the `Index`
trait. It will require some further cleanup, but it already achieves
the goal of letting the index implementation decide which revset
engine to use.
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.
Now that there's a single implementation of `Revset`, I think it makes
more sense for `is_empty()` to be defined there. Maybe different
revset engines have different ways of implementing it. Even if they
don't, this is trivial to re-implement in each revset engine.
As the comment above `ToPredicateFn` says, it could be a private
type. This commit makes that happen by making the private `Revset`
implementations (`DifferenceRevset` etc.) instead implement an
internal revset type called `InternalRevset`. That type is what
extends `ToPredicateFn`, so the public type doesn't have to. The new
type will not need to implement the new functions I'm about to add to
the `Revset` trait.
We don't want the public `Revset` interface to know about
`ToPredicateFn`. In order to hide it, I'm wrapping the internal type
in another type, so only the internal type can keep implementing
`ToPredicateFn`.
I'd like to be able to change the return type of `evaluate_revset()`
to be an internal type. Since all external callers currently call the
function via `RevsetExpression::evaluate()`, it turns out it's easy to
make it private. To benefit from an internal type, we also need to
make the recursive calls be directly to the internal function.
