Yuya Nishihara <yuya@tcha.org> [Mon, 09 Jan 2017 17:58:19 +0900] rev 30804
revset: abuse x:y syntax to specify line range of followlines()
This slightly complicates the parsing (see the previous patch), but the
overall result seems not bad.
I keep x:, :y and : for future extension.
Yuya Nishihara <yuya@tcha.org> [Mon, 09 Jan 2017 16:55:56 +0900] rev 30803
revset: do not transform range* operators in parsed tree
This allows us to handle x:y range as a general range object. A primary user
of it is followlines().
Yuya Nishihara <yuya@tcha.org> [Mon, 09 Jan 2017 17:45:11 +0900] rev 30802
revset: add default value to getinteger() helper
This seems handy.
Yuya Nishihara <yuya@tcha.org> [Mon, 09 Jan 2017 17:39:44 +0900] rev 30801
revset: factor out getinteger() helper
We have 4 revset functions that take integer arguments, and they handle
their arguments in slightly different ways. This patch unifies them:
- getstring() in place of getsymbol(), which is more consistent with the
handling of integer revisions (both 1 and '1' are valid)
- say "expects" instead of "requires" for type errors
We don't need to catch TypeError since getstring() must return a string.
Yuya Nishihara <yuya@tcha.org> [Mon, 09 Jan 2017 16:16:26 +0900] rev 30800
revset: rename rev argument of followlines() to startrev
The rev argument has the same meaning as startrev of follow(), and I think
startrev is more informative.
followlines() is new function, we can make BC now.
Yuya Nishihara <yuya@tcha.org> [Fri, 13 Jan 2017 23:48:21 +0900] rev 30799
help: use :hg: role and canonical name to point to revset string patterns
Follows up
5dd67f0993ce. Now revisions.txt and revsets.txt has been merged,
so use revisions.* as a pointer.
Gregory Szorc <gregory.szorc@gmail.com> [Mon, 02 Jan 2017 13:27:20 -0800] rev 30798
util: compression APIs to support revlog decompression
Previously, compression engines had APIs for performing revlog
compression but no mechanism to perform revlog decompression. This
patch changes that.
Revlog decompression is slightly more complicated than compression
because in the compression case there is (currently) only a single
engine that can be used at a time. However for decompression, a
revlog could contain chunks from multiple compression engines. This
means decompression needs to map to multiple engines and
decompressors. This functionality is outside the scope of this patch.
But it drives the decision for engines to declare a byte header
sequence that identifies revlog data as belonging to an engine and
an API for obtaining an engine from a revlog header.
Anton Shestakov <av6@dwimlabs.net> [Sun, 08 Jan 2017 10:08:29 +0800] rev 30797
crecord: add an experimental option for space key to move cursor down
I really want to have an option of toggling a selection on a line and also
moving cursor down as a single keystroke. It also kinda makes sense for space
key to do this, because some other curses UIs in the wild do this (e.g. various
file managers, htop). So I got an idea to make a config option that defaults to
False for compatibility, but allows making crecord UI a lot more useful for
people with big hunks.
We add this an experimental option to experiment with this behavior.
Gregory Szorc <gregory.szorc@gmail.com> [Mon, 02 Jan 2017 12:02:08 -0800] rev 30796
perf: support multiple compression engines in perfrevlogchunks
Now that the revlog has a reference to a compressor, it is
possible to swap in other compression engines. So, teach
`hg perfrevlogchunks` to do that.
The default behavior of `hg perfrevlogchunks` is now to measure the
compression performance of all compression engines implementing the
revlog compressor API. This effectively adds the no-op "none"
compressor and zstd (when available) into the default set.
While we can't yet plug alternate compressors into revlogs, this
command gives us a preview of the performance. On the mozilla-unified
repository:
$ hg perfrevlogchunks -c
! compress w/ none
! wall 0.115159 comb 0.110000 user 0.110000 sys 0.000000 (best of 86)
! compress w/ zlib
! wall 5.681406 comb 5.680000 user 5.680000 sys 0.000000 (best of 3)
! compress w/ zstd
! wall 2.624781 comb 2.620000 user 2.620000 sys 0.000000 (best of 4)
$ hg perfrevlogchunks -m
! compress w/ none
! wall 0.124486 comb 0.120000 user 0.120000 sys 0.000000 (best of 79)
! compress w/ zlib
! wall 10.144701 comb 10.150000 user 10.150000 sys 0.000000 (best of 3)
! compress w/ zstd
! wall 4.383118 comb 4.390000 user 4.390000 sys 0.000000 (best of 3)
Those numbers for zstd look promising. But they aren't the full story.
For that, we'll need to look at decompression times and storage sizes.
Stay tuned...
Gregory Szorc <gregory.szorc@gmail.com> [Mon, 02 Jan 2017 11:22:52 -0800] rev 30795
revlog: use compression engine API for compression
This commit swaps in the just-added revlog compressor API into
the revlog class.
Instead of implementing zlib compression inline in compress(), we
now store a cached-on-first-use revlog compressor on each revlog
instance and invoke its "compress()" method.
As part of this, revlog.compress() has been refactored a bit to use
a cleaner code flow and modern formatting (e.g. avoiding
parenthesis around returned tuples).
On a mozilla-unified repo, here are the "compress" times for a few
commands:
$ hg perfrevlogchunks -c
! wall 5.772450 comb 5.780000 user 5.780000 sys 0.000000 (best of 3)
! wall 5.795158 comb 5.790000 user 5.790000 sys 0.000000 (best of 3)
$ hg perfrevlogchunks -m
! wall 9.975789 comb 9.970000 user 9.970000 sys 0.000000 (best of 3)
! wall 10.019505 comb 10.010000 user 10.010000 sys 0.000000 (best of 3)
Compression times did seem to slow down just a little. There are
360,210 changelog revisions and 359,342 manifest revisions. For the
changelog, mean time to compress a revision increased from ~16.025us to
~16.088us. That's basically a function call or an attribute lookup. I
suppose this is the price you pay for abstraction. It's so low that
I'm not concerned.
Gregory Szorc <gregory.szorc@gmail.com> [Mon, 02 Jan 2017 12:39:03 -0800] rev 30794
util: compression APIs to support revlog compression
As part of "zstd all of the things," we need to teach revlogs to
use non-zlib compression formats. Because we're routing all compression
via the "compression manager" and "compression engine" APIs, we need to
introduction functionality there for performing revlog operations.
Ideally, revlog compression and decompression operations would be
implemented in terms of simple "compress" and "decompress" primitives.
However, there are a few considerations that make us want to have a
specialized primitive for handling revlogs:
1) Performance. Revlogs tend to do compression and especially
decompression operations in batches. Any overhead for e.g.
instantiating a "context" for performing an operation can be
noticed. For this reason, our "revlog compressor" primitive is
reusable. For zstd, we reuse the same compression "context" for
multiple operations. I've measured this to have a performance
impact versus constructing new contexts for each operation.
2) Specialization. By having a primitive dedicated to revlog use,
we can make revlog-specific choices and leave the door open for
more functionality in the future. For example, the zstd revlog
compressor may one day make use of dictionary compression.
A future patch will introduce a decompress() on the compressor
object.
The code for the zlib compressor is basically copied from
revlog.compress(). Although it doesn't handle the empty input
case, the null first byte case, and the 'u' prefix case. These
cases will continue to be handled in revlog.py once that code is
ported to use this API.
Gregory Szorc <gregory.szorc@gmail.com> [Mon, 02 Jan 2017 13:00:16 -0800] rev 30793
revlog: move decompress() from module to revlog class (API)
Upcoming patches will convert revlogs to use the compression engine
APIs to perform all things compression. The yet-to-be-introduced
APIs support a persistent "compressor" object so the same object
can be reused for multiple compression operations, leading to
better performance. In addition, compression engines like zstd
may wish to tweak compression engine state based on the revlog
(e.g. per-revlog compression dictionaries).
A global and shared decompress() function will shortly no longer
make much sense. So, we move decompress() to be a method of the
revlog class. It joins compress() there.
On the mozilla-unified repo, we can measure the impact of this change
on reading performance:
$ hg perfrevlogchunks -c
! chunk
! wall 1.932573 comb 1.930000 user 1.900000 sys 0.030000 (best of 6)
! wall 1.955183 comb 1.960000 user 1.930000 sys 0.030000 (best of 6)
! chunk batch
! wall 1.787879 comb 1.780000 user 1.770000 sys 0.010000 (best of 6
! wall 1.774444 comb 1.770000 user 1.750000 sys 0.020000 (best of 6)
"chunk" appeared to become slower but "chunk batch" got faster. Upon
further examination by running both sets multiple times, the numbers
appear to converge across all runs. This tells me that there is no
perceived performance impact to this refactor.
Gregory Szorc <gregory.szorc@gmail.com> [Mon, 02 Jan 2017 11:50:17 -0800] rev 30792
revlog: make compressed size comparisons consistent
revlog.compress() compares the compressed size to the input size
and throws away the compressed data if it is larger than the input.
This is the correct thing to do, as storing compressed data that
is larger than the input takes up more storage space and makes reading
slower.
However, the comparison was implemented inconsistently. For the
streaming compression mode, we threw away the result if it was
greater than or equal to the input size. But for the one-shot
compression, we threw away the compression only if it was greater
than the input size!
This patch changes the comparison for the simple case so it is
consistent with the streaming case.
As a few tests demonstrate, this adds 1 byte to some revlog entries.
This is because of an added 'u' header on the chunk. It seems
somewhat wrong to increase the revlog size here. However, IMO the cost
of 1 byte in storage is insignificant compared to the performance gains
of avoiding decompression. This patch should invite questions around
the heuristic for throwing away compressed data. For example, I'd argue
we should be more liberal about rejecting compressed data, additionally
doing so where the number of bytes saved fails to reach a threshold.
But we can have this discussion another time.
Sean Farley <sean@farley.io> [Sat, 07 Jan 2017 20:43:49 -0800] rev 30791
similar: rename local variable to not collide with previous
Future patches will move the score function to the module level, so
let's not shadow that.
Sean Farley <sean@farley.io> [Mon, 09 Jan 2017 10:59:45 -0800] rev 30790
patch: add label for coloring the index extended header
Just like the summary says, this will colorize the:
index
3d3ba4b65e11..
57274a0f46b2 100644
line in the diff output.
Sean Farley <sean@farley.io> [Sat, 31 Dec 2016 15:41:57 -0600] rev 30789
patch: add index line for diff output
This helps highlighting in third-party diff coloring (which assumes git
output) and maintains pedantic correctness with diff --git.
Tests will be added at the end of the series.
Sean Farley <sean@farley.io> [Mon, 09 Jan 2017 11:13:47 -0800] rev 30788
patch: add config knob for displaying the index header
This config knob can take an integer between 0 and 40 or a
keyword ('none', 'short', 'full') to control the length of hash to
output. It will display diffs with the git index header as such,
diff --git a/mercurial/mdiff.py b/mercurial/mdiff.py
index 112edf7..d6b52c5 100644
We'll put this in the experimental section for now.
Martin von Zweigbergk <martinvonz@google.com> [Thu, 12 Jan 2017 12:05:23 -0800] rev 30787
bisect: refer directly to bisect() revset predicate in help
We have specific syntax for displaying the help text for a particular
revset predicate, so let's refer directly to the bisect() revset in
the verbose bisect help. It seems likely that the user doesn't care
about other revsets at that point, so they will probably not miss the
text about the other revset predicates.
Martin von Zweigbergk <martinvonz@google.com> [Thu, 12 Jan 2017 11:43:26 -0800] rev 30786
tests: use "hg help revisions.<predicate>" instead of grepping
We have specific syntax for displaying the help text for a particular
revset predicate, so use that instead of grepping through the full
output.
Martin von Zweigbergk <martinvonz@google.com> [Thu, 12 Jan 2017 11:52:05 -0800] rev 30785
help: remove now-redundant pointer to revsets help
"hg help revisions" and "hg help revsets" now point to the same text,
so drop the revsets reference.
Matt Harbison <matt_harbison@yahoo.com> [Sat, 07 Jan 2017 23:35:35 -0500] rev 30784
help: eliminate duplicate text for revset string patterns
There's no reason to duplicate this so many times, and it's likely an instance
will be missed if support for a new pattern is added and documented. The
stringmatcher is mostly used by revsets, though it is also used for the 'tag'
related templates, and namespace filtering in the journal extension. So maybe
there's a better place to document it. `hg help patterns` seems inappropriate,
because that is all file pattern matching.
While here, indicate how to perform case insensitive regex searches.
Matt Harbison <matt_harbison@yahoo.com> [Sat, 07 Jan 2017 21:26:32 -0500] rev 30783
revset: add regular expression support to 'desc'
This is a case insensitive predicate like 'author', so it conforms to the
existing behavior of performing a case insensitive regex.
Matt Harbison <matt_harbison@yahoo.com> [Wed, 11 Jan 2017 22:42:10 -0500] rev 30782
revset: stop lowercasing the regex pattern for 'author'
It was probably unintentional for regex, as the meaning of some sequences like
\S and \s is actually inverted by changing the case. For backward compatibility
however, the matching is forced to case insensitive.
Gregory Szorc <gregory.szorc@gmail.com> [Thu, 24 Nov 2016 18:45:29 -0800] rev 30781
repair: clean up stale lock file from store backup
Since we did a directory rename on the stores, the source
repository's lock path now references the dest repository's
lock path and the dest repository's lock path now references
a non-existent filename.
So releasing the lock on the source will unlock the dest and
releasing the lock on the dest will no-op because it fails due
to file not found. So we clean up the dest's lock manually.
Gregory Szorc <gregory.szorc@gmail.com> [Thu, 24 Nov 2016 18:34:50 -0800] rev 30780
repair: copy non-revlog store files during upgrade
The store contains more than just revlogs. This patch teaches the
upgrade code to copy regular files as well.
As the test changes demonstrate, the phaseroots file is now copied.
Gregory Szorc <gregory.szorc@gmail.com> [Sun, 18 Dec 2016 17:00:15 -0800] rev 30779
repair: migrate revlogs during upgrade
Our next step for in-place upgrade is to migrate store data. Revlogs
are the biggest source of data within the store and a store is useless
without them, so we implement their migration first.
Our strategy for migrating revlogs is to walk the store and call
`revlog.clone()` on each revlog. There are some minor complications.
Because revlogs have different storage options (e.g. changelog has
generaldelta and delta chains disabled), we need to obtain the
correct class of revlog so inserted data is encoded properly for its
type.
Various attempts at implementing progress indicators that didn't lead
to frustration from false "it's almost done" indicators were made.
I initially used a single progress bar based on number of revlogs.
However, this quickly churned through all filelogs, got to 99% then
effectively froze at 99.99% when it got to the manifest.
So I converted the progress bar to total revision count. This was a
little bit better. But the manifest was still significantly slower
than filelogs and it took forever to process the last few percent.
I then tried both revision/chunk bytes and raw bytes as the
denominator. This had the opposite effect: because so much data is in
manifests, it would churn through filelogs without showing much
progress. When it got to manifests, it would fill in 90+% of the
progress bar.
I finally gave up having a unified progress bar and instead implemented
3 progress bars: 1 for filelog revisions, 1 for manifest revisions, and
1 for changelog revisions. I added extra messages indicating the total
number of revisions of each so users know there are more progress bars
coming.
I also added extra messages before and after each stage to give extra
details about what is happening. Strictly speaking, this isn't
necessary. But the numbers are impressive. For example, when converting
a non-generaldelta mozilla-central repository, the messages you see are:
migrating 2475593 total revisions (1833043 in filelogs, 321156 in manifests, 321394 in changelog)
migrating 1.67 GB in store; 2508 GB tracked data
migrating 267868 filelogs containing 1833043 revisions (1.09 GB in store; 57.3 GB tracked data)
finished migrating 1833043 filelog revisions across 267868 filelogs; change in size: -415776 bytes
migrating 1 manifests containing 321156 revisions (518 MB in store; 2451 GB tracked data)
That "2508 GB" figure really blew me away. I had no clue that the raw
tracked data in mozilla-central was that large. Granted, 2451 GB is in
the manifest and "only" 57.3 GB is in filelogs. But still.
It's worth noting that gratuitous loading of source revlogs in order
to display numbers and progress bars does serve a purpose: it ensures
we can open all source revlogs. We don't want to spend several minutes
copying revlogs only to encounter a permissions error or similar later.
As part of this commit, we also add swapping of the store directory
to the upgrade function. After revlogs are converted, we move the
old store into the backup directory then move the temporary repo's
store into the old store's location. On well-behaved systems, this
should be 2 atomic operations and the window of inconsistency show be
very narrow.
There are still a few improvements to be made to store copying and
upgrading. But this commit gets the bulk of the work out of the way.
Gregory Szorc <gregory.szorc@gmail.com> [Sun, 18 Dec 2016 17:02:57 -0800] rev 30778
revlog: add clone method
Upcoming patches will introduce functionality for in-place
repository/store "upgrades." Copying the contents of a revlog
feels sufficiently low-level to warrant being in the revlog
class. So this commit implements that functionality.
Because full delta recomputation can be *very* expensive (we're
talking several hours on the Firefox repository), we support
multiple modes of execution with regards to delta (re)use. This
will allow repository upgrades to choose the "level" of
processing/optimization they wish to perform when converting
revlogs.
It's not obvious from this commit, but "addrevisioncb" will be
used for progress reporting.
Gregory Szorc <gregory.szorc@gmail.com> [Sun, 18 Dec 2016 16:59:04 -0800] rev 30777
repair: begin implementation of in-place upgrading
Now that all the upgrade planning work is in place, we can start
doing the real work: actually upgrading a repository.
The main goal of this commit is to get the "framework" for running
in-place upgrade actions in place.
Rather than get too clever and low-level with regards to in-place
upgrades, our strategy is to create a new, temporary repository,
copy data to it, then replace the old data with the new. This allows
us to reuse a lot of code in localrepo.py around store interaction,
which will eventually consume the bulk of the upgrade code.
But we have to start small. This patch implements adding new
repository requirements. But it still sets up a temporary
repository and locks it and the source repo before performing the
requirements file swap. This means all the plumbing is in place
to implement store copying in subsequent commits.
Gregory Szorc <gregory.szorc@gmail.com> [Sun, 18 Dec 2016 16:51:09 -0800] rev 30776
repair: determine what upgrade will do
This commit introduces code for determining what actions/improvements
an upgrade should perform.
The "upgradefindimprovements" function introduces a mechanism to
return a list of improvements that can be made to a repository.
Each improvement is effectively an action that an upgrade will
perform. Associated with each of these improvements is metadata
that will be used to inform users what's wrong and what an
upgrade will do.
Each "improvement" is categorized as a "deficiency" or an
"optimization." TBH, I'm not thrilled about the terminology and
am receptive to constructive bikeshedding. The main difference
between a "deficiency" and an "optimization" is a deficiency
is always corrected (if it deviates from the current config) and
an "optimization" is an optional action that goes above and beyond
to improve the state of the repository (usually by requiring more
CPU during upgrade).
Our initial set of improvements identifies missing repository
requirements, a single, easily correctable problem with
changelog storage, and a set of "optimizations" related to delta
recalculation.
The main "upgraderepo" function has been expanded to handle
improvements. It queries for the list of improvements and determines
which of them will run based on the current repository state and user
I went through numerous iterations of the output format before
settling on a ReST-inspired definition list format. (I used
bulleted lists in the first submission of this commit and could
not get it to format just right.) Even with the various iterations,
I'm still not super thrilled with the format. But, this is a debug*
command, so that should mean we can refine the output without BC
concerns.
Gregory Szorc <gregory.szorc@gmail.com> [Sun, 18 Dec 2016 16:16:54 -0800] rev 30775
repair: implement requirements checking for upgrades
This commit introduces functionality for upgrading a repository in
place. The first part that's implemented is testing for upgrade
"compatibility." This is done by examining repository requirements.
There are 5 functions returning sets of requirements that control
upgrading. Why so many functions? Mainly to support extensions.
Functions are easier to monkeypatch than module variables.
Astute readers will see that we don't support "manifestv2" and
"treemanifest" requirements in the upgrade mechanism. I don't have
a great answer for why other than this is a complex set of patches
and I don't want to deal with the complexity of these experimental
features just yet. We can teach the upgrade mechanism about them
later, once the basic upgrade mechanism is in place.
This commit also introduces the "upgraderepo" function. This will be
our main routine for performing an in-place upgrade. Currently, it
just implements requirements checking. The structure of some code in
this function may look a bit weird (e.g. the inline function that is
only called once). But this will make sense after future commits.