It's not clear why removing this makes things work. I've submitted
PRs that passed CI with fetch-depth=1. Maybe it only fails when
PRs are submitted from external contributors?
Either way, for now, we remove this and absorb the extra cost in
order to get PRs passing CI again.
PR #1501
We can just ask the channel whether any work has been loaded. Normally
querying a channel for its length is a strong predictor of bugs, but in
this case, we do it before we ever attempt a `recv`, so it should work.
Kudos to @zsugabubus for suggesting this!
It turns out that the previous version wasn't quite correct. Namely, it
was possible for the following sequence to occur:
1. Consider that all workers, except for one, are `waiting`.
2. The last remaining worker finds one more job to do and sends it on
the channel.
3. One of the previously `waiting` workers wakes up from the job that
the last running worker sent, but `self.resume()` has not been
called yet.
4. The last worker, from (2), calls `get_work` and sees that the
channel has nothing on it, so it executes `self.waiting() ==
1`. Since the worker in (3) hasn't called `self.resume()` yet,
`self.waiting() == 1` evaluates to true.
5. This sets off a chain reaction that stops all workers, despite that
fact that (3) got more work (which could itself spawn more work).
The end result is that the traversal may terminate while their are still
outstanding work items to process. This problem was observed through
spurious failures in CI. I was not actually able to reproduce the bug
locally.
We fix this by changing our strategy to detect termination using a
counter. Namely, we increment the counter just before sending new work
and decrement the counter just after finishing work. In this way, we
guarantee that the counter only ever reaches 0 once there is no more
work to process.
See #1337 for more discussion. Many thanks to @zsugabubus for helping me
work through this.
The transient failures appear to be persisting and they are quite
difficult to debug. So include a full directory listing in the output of
every test failure.
The reason why it wasn't working was the integration tests. Namely, the
integration tests attempted to execute the 'rg' binary directly from
inside cross's docker container. But this obviously doesn't work when
'rg' was compiled for a totally different architecture.
Cross normally does this by hooking into the Rust test infrastructure
and causing tests to run with 'qemu'. But our integration tests didn't
do that. This commit fixes our test setup to check for cross's
environment variable that points to the 'qemu' binary. Once we have
that, we just use 'qemu-foo rg' instead of 'rg'. Piece of cake.
The top-level listing was just getting a bit too long for my taste. So
put all of the code in one directory and shrink the large top-level mess
to a small top-level mess.
NOTE: This commit only contains renames. The subsequent commit will
actually make ripgrep build again. We do it this way with the naive hope
that this will make it easier for git history to track the renames.
Sigh.
This is why I was so intent on clearing the PR queue. This will
effectively invalidate all existing patches, so I wanted to start from a
clean slate.
We do make one little tweak: we put the default type definitions in
their own file and tell rustfmt to keep its grubby mits off of it. We
also sort it lexicographically and hopefully will enforce that from here
on.
Change the meaning of `Quit` message. Now it means terminate. The final
"dance" is unnecessary, because by the time quitting begins, no thread
will ever spawn a new `Work`. The trick was to replace the heuristic
spin-loop with blocking receive.
Closes#1337
Due to how walkdir works if symlinks are not followed, symlinks to
directories are seen as simple files by ripgrep. This caused a panic
in some cases due to receiving a WalkEvent::Exit event without a
corresponding WalkEvent::Dir event.
This is fixed by looking at the metadata of the file in the case of a
symlink to determine if it's a directory. We are careful to only do
this stat check when the depth of the entry is 0, as this bug only
impacts us when 1) we aren't following symlinks generally and 2) the
user provides a symlinked directory that we do follow as a top-level
path to search.
Fixes#1389, Closes#1397
This adds a universal --no-unicode flag that is intended to work for all
supported regex engines. There is no point in retaining
--no-pcre2-unicode, so we make them aliases to the new flags and
deprecate them.
This flag prevents ripgrep from requiring one to search a git repository
in order to respect git-related ignore rules (global, .gitignore and
local excludes). This actually corresponds to behavior ripgrep had long
ago, but #934 changed that. It turns out that users were relying on this
buggy behavior. In most cases, fixing it as simple as converting one's
rules to .ignore or .rgignore files. Unfortunately, there are other use
cases---like Perforce automatically respecting .gitignore files---that
make a strong case for ripgrep to at least support this.
The UX of a flag like this is absolutely atrocious. It's so obscure that
it's really not worth explicitly calling it out anywhere. Moreover, the
error cases that occur when this flag isn't used (but its behavior is
desirable) will not be intuitive, do not seem easily detectable and will
not guide users to this flag. Nevertheless, the motivation for this is
just barely strong enough for me to begrudgingly accept this.
Fixes#1414, Closes#1416
This commit fixes an inconsistency between the serial and the parallel
directory walkers around visiting a directory for which the user holds
insufficient permissions to descend into.
The serial walker does produce a successful entry for a directory that
it cannot descend into due to insufficient permissions. However, before
this change that has not been the case for the parallel walker, which
would produce an `Err` item not only when descending into a directory
that it cannot read from but also for the directory entry itself.
This change brings the behaviour of the parallel variant in line with
that of the serial one.
Fixes#1346, Closes#1365
This appears to be another transcription bug from copying this code from
the prefix literal detection from inside the regex crate. Namely, when
it comes to inner literals, we only want to treat counted repetition as
two separate cases: the case when the minimum match is 0 and the case
when the minimum match is more than 0. In the former case, we treat
`e{0,n}` as `e*` and in the latter we treat `e{m,n}` where `m >= 1` as
just `e`.
We could definitely do better here. e.g., This means regexes like
`(foo){10}` will only have `foo` extracted as a literal, where searching
for the full literal would likely be faster.
The actual bug here was that we were not implementing this logic
correctly. Namely, we weren't always "cutting" the literals in the
second case to prevent them from being expanded.
Fixes#1319, Closes#1367
On top of the parallel-walk's closures, this provides a Visitor API.
This clarifies the role of the two different closures in the `run`
API and allows implementing of `Drop` for post-processing once traversal
is finished.
The closure API is maintained not just for compatibility but also
convinience for simple cases.
Fixes#469, Closes#1430
This makes it so the caller can more easily refactor from
single-threaded to multi-threaded walking. If they want to support both,
this makes it easier to do so with a single initialization code-path. In
particular, it side-steps the need to put everything into an `Arc`.
This is not a breaking change because it strictly increases the number
of allowed inputs to `WalkParallel::run`.
Closes#1410, Closes#1432
Git looks for this file in GIT_COMMON_DIR, which is usually the same
as GIT_DIR (.git). However, when searching inside a linked worktree,
.git is usually a file that contains the path of the actual git dir,
which in turn contains a file "commondir" which references the directory
where info/exclude may reside, alongside other configuration shared across
all worktrees. This directory is usually the git dir of the main worktree.
Unlike git this does *not* read environment variables GIT_DIR and
GIT_COMMON_DIR, because it is not clear how to interpret them when
searching multiple repositories.
Fixes#1445, Closes#1446
It turns out that querying the CWD while in a directory that no longer
exists results in an error. Since the CWD is queried every time ripgrep
starts---whether it needs it or not---for dealing with glob matching,
ripgrep winds up being completely useless inside a non-existent
directory.
We fix this in a few different ways:
* Firstly, if std::env::current_dir() fails, then we fall back to trying
to read the `PWD` environment variable.
* If that fails, that we return a more sensible error message so that a
user can at least react to the problem. Previously, the error message
was inscrutable.
* Finally, we try to avoid the problem altogether by building empty glob
matchers if not globs were provided, thus side-stepping querying the
CWD completely.
Fixes#1291, Closes#1400
This commit adds a new --no-ignore-exclude flag that permits disabling
the use of .git/info/exclude filtering. Local exclusions are manual
configurations to a repository and are not shared, so it is sometimes
useful to disable to get a consistent view of a repository.
This also adds a new section to the man page that describes automatic
filtering.
Closes#1420
Previously, ripgrep would always defer to the regex engine's capturing
matches in order to implement word matching. Namely, ripgrep would
determine the correct match offsets via a capturing group, since the
word regex is itself generated from the user supplied regex.
Unfortunately, the regex engine's capturing mode is still fairly slow,
so this commit adds a fast path to avoid capturing mode in the vast
majority of cases. See comments in the code for details.
When the -w/--word-regexp was used, ripgrep would in many cases fail to
apply literal optimizations. This occurs specifically when the regex
given by the user is an alternation of literals with no common prefixes
or suffixes, e.g.,
rg -w 'foo|bar|baz|quux'
In this case, the inner literal detector fails. Normally, this would
result in literal prefixes being detected by the regex engine. But
because of the -w/--word-regexp flag, the actual regex that we run ends
up looking like this:
(^|\W)(foo|bar|baz|quux)($|\W)
which of course defeats any prefix or suffix literal optimizations in
the regex crate's somewhat naive extractor. (A better extractor could
still do literal optimizations in the above case.)
So this commit fixes this by falling back to prefix or suffix literals
when they're available instead of prematurely giving up and assuming the
regex engine will do the rest.
This fixes an interesting performance bug where the inner literal
extractor would sometimes choose a sub-optimal literal. For example,
consider the regex:
\x20+Sherlock Holmes\x20+
(The `\x20` is the ASCII code for a space character, which we use here
to just make it clearer. It otherwise does not matter.)
Previously, this would see the initial \x20 and then stop collecting
literals after the `+` repetition operator. This was because the inner
literal detector was adapter from the prefix literal detector, which had
to stop here. Namely, while \x20S would be a valid prefix (for example),
\x20\x20S would also be a valid prefix. As would \x20\x20\x20S and so
on. So the prefix detector would have to stop at the repetition
operator. Otherwise, only searching for \x20S could potentially scan
farther then the starting position of the next match.
However, for inner literals, this calculus no longer makes sense. We can
freely search for, e.g., \x20S without missing matches that start with
\x20\x20S precisely because we know this is an inner literal which may
not correspond to the start of a match.
With this fix, the literal that is now detected is
\x20Sherlock Holmes\x20
Which is much better. We achieve this by no longer "cutting" literals
after seeing a `+` repetition operator. Instead, we permit literals to
continue to be extended.
The reason why this is important is because using \x20 as the literal to
search for is generally bad juju since it is so common. In fact, we
should probably add more logic here to either avoid such things or give
up entirely on the inner literal optimization if it detected a literal
that we think is very common. But we punt on such things here.
I improved the help documentation in the following manner and for the
following reasons:
1. It's only logical to put the default sub-option on the first possible
line, as well as to separately mention that it is indeed the default
sub-option.
2. Additional options for the flags should describe the main points of
their purpose without requiring user to read the whole help entry. In my
opinion, the information sub-options' influence on multi-threading and
speed are important enough to warrant their inclusion in each
sub-option's description line text.
Closes#1434
This flag, when used in conjunction with --count or --count-matches,
will print a result for each file searched even if there were zero
matches in that file. This is off by default but can be enabled to make
ripgrep behave more like grep.
This also clarifies some of the defaults for the
grep-printer::SummaryBuilder type.
Closes#1370, Closes#1405
`benches/bench.rs` uses lazy_static but Cargo.toml does not declare a
dependency on it. This causes rustc to use its own internal private
copy instead. Sometimes this causes unintuitive errors like this Debian
bug: https://bugs.debian.org/cgi-bin/bugreport.cgi?bug=942243
The underlying issue is https://github.com/rust-lang/rust#27812 but it
can be avoided by explicitly declaring the dependency, which you are
supposed to do anyways.
Closes#1435
--context-separator='' still adds a new line separator, which could
still potentially be useful. So we add a new `--no-context-separator`
flag that completely disables context separators even when the -A/-B/-C
context flags are used.
Closes#1390
I'm surprised this wasn't caught until now, but if a test directory
already exists, then it was reused. This can result in hard to debug
problems with tests when, e.g., file names are changed and a recursive
search is executed.