The only callers using these strings were removed in commit
850e5bc24e (Delete the iplog generator, 2013-01-09).
Change-Id: Ia4f81b29b8d00782ee559d69de3befc0a6c4d403
If the HEAD is not present in a repository, then there is a
NullPointerException thrown in the delete code. Since this only
exists to verify if the deletion is not the HEAD reference, then
skip this check if the HEAD cannot be found.
Bug: 406722
Change-Id: I882497202d986096513a4d791cd07fa935a3f9e4
Signed-off-by: Alex Blewitt <alex.blewitt@gmail.com>
When ArchiveCommand is invoked directly on the command line, these
warnings to stderr
warning: mode of path/to/some/submodule ignored
are a useful hint, but in the more usual case where an archive is
being served by a server, the intended audience for that message
cannot see stderr.
Later it might be useful to accept a callback to return these warnings
out of band.
Change-Id: I22e79be69859176d85594031d67c6cb3371c4bd2
The only caller exits immediately after calling execute() so this
shouldn't make a difference, but it's good practice and should make it
easier to expose the functionality in a public API later.
Change-Id: Ia6cd2ce8382f1a62e576409107fc5c9a6b321fb6
JGit doesn't currently use java.util.logging.Logger. Remove this
never-used Logger introduced in ab99b78ca0 (Implement recursive
merge strategy, 2013-02-21) to make that easier to see.
Change-Id: I92c578e7f3617085a667de7c992174057be3eb71
This reverts commit 7aa54967a2.
The unit test dependend upon the specific order of names that
listFiles() returned members in. The order is completely undefined
and may differ even on different versions of Linux based systems.
A proper unit test for this code would have considered both cases,
where the deletion function was able to remove an empty subdirectory,
or fail to remove a subdirectory because a file was still present
within. This is not such a test.
Change-Id: Ib0a706fea01e4b1ed8c8e859247d247a1279b4bc
Adds a new method getConflictingStageStates() which returns a
Map<String, StageState> (path to stage state). StageState is an enum for
all possible stage combinations (BOTH_DELETED, ADDED_BY_US, ...).
This can be used to implement the conflict text for unmerged paths in
output of "git status" or in EGit for decorations/hints.
Bug: 403697
Change-Id: Ib461640a43111b7df4a0debe92ff69b82171329c
Signed-off-by: Chris Aniszczyk <zx@twitter.com>
Commit 3344b93c erroneously exported the package org.eclipse.jgit.lib
from the org.eclipse.jgit.test bundle which made this a split package
since the bundle org.eclipse.jgit exports the same package.
Split packages are evil in general and most probably caused the build
cycle errors observed recently when importing the jgit projects in
Eclipse [1].
[1] http://dev.eclipse.org/mhonarc/lists/jgit-dev/msg02012.html
Change-Id: I89919e56b928acdbff0b90e3919808025a8562c6
Signed-off-by: Matthias Sohn <matthias.sohn@sap.com>
Instead of counting objects processed, count number of bytes added
into the window. This should rescale the progress meter so that 30%
complete means 30% of the total uncompressed content size has been
inflated and fed into the window.
In theory the progress meter should be more accurate about its
percentage complete/remaining fraction than with objects. When
counting objects small objects move the progress meter more rapidly
than large objects, but demand a smaller amount of work than large
objects being compressed.
Change-Id: Id2848c16a2148b5ca51e0ca1e29c5be97eefeb48
Instead of assuming all objects cost the same amount of time to
delta compress, aggregate the byte size of objects in the list
and partition threads with roughly equal total bytes.
Before splitting the list select the N largest paths and assign
each one to its own thread. This allows threads to get through the
worst cases in parallel before attempting smaller paths that are
more likely to be splittable.
By running the largest path buckets first on each thread the likely
slowest part of compression is done early, while progress is still
reporting a low percentage. This gives users a better impression of
how fast the phase will run. On very complex inputs the slow part
is more likely to happen first, making a user realize its time to
go grab lunch, or even run it overnight.
If the worst sections are earlier, memory overruns may show up
earlier, giving the user a chance to correct the configuration and
try again before wasting large amounts of time. It also makes it
less likely the delta compression phase reaches 92% in 30 minutes
and then crawls for 10 hours through the remaining 8%.
Change-Id: I7621c4349b99e40098825c4966b8411079992e5f
By excluding objects the compactor can avoid storing objects that
are already well packed in the base GC packs, or any other pack
not being replaced by the current compaction operation.
For deltas the base object is still included even if the base exists
in another exclusion set. This favors keeping deltas for recent
history, to support faster fetch operations for clients.
Change-Id: Ie822fe075fe5072fe3171450fda2f0ca507796a1
Use recursive merge as the default strategy since it can successfully
merge more cases than the resolve strategy can. This is also the default
in native Git.
Change-Id: I38fd522edb2791f15d83e99038185edb09fed8e1
Signed-off-by: Matthias Sohn <matthias.sohn@sap.com>
Previously, the code assumed all commits in the old pack would also
be present in the new pack. This assumption caused an
ArrayIndexOutOfBoundsException during remapping of ids. Fix the
iterator to only return entries that may be remapped. Furthermore,
update getBitmap() to return null if commit does not exist in the
new pack.
Change-Id: I065babe8cd39a7654c916bd01c7012135733dddf
This fixes some problems with inputs around the size of the internal
buffer in AutoCRLFOutputStream (8000).
Tests supplied by Robin Stocker.
Bug: 405672
Change-Id: I6147897290392b3bfd4040e8006da39c302a3d49
* changes:
Always attempt delta compression when reuseDeltas is false
Avoid TemporaryBuffer.Heap on very small deltas
Correct distribution of allowed delta size along chain length
Split remaining delta work on path boundaries
Replace DeltaWindow array with circularly linked list
Micro-optimize copy instructions in DeltaEncoder
Micro-optimize DeltaWindow primary loop
Micro-optimize DeltaWindow maxMemory test to be != 0
Mark DeltaWindowEntry methods final
If reuseObjects=true but reuseDeltas=false the caller wants attempt
a delta for every object in the input list. Test for reuseDeltas
to ensure every object passes through the searchInWindow() method.
If no delta is possible for an object and it will be stored whole
(non-delta format), PackWriter may still reuse its content from any
source pack. This avoids an inflate()-deflate() cycle to recompress
the object contents.
Change-Id: I845caeded419ef4551ef1c85787dd5ffd73235d9
TemporaryBuffer is great when the output size is not known, but must
be bound by a relatively large upper limit that fits in memory, e.g.
64 KiB or 20 MiB. The buffer gracefully supports growing storage by
allocating 8 KiB blocks and storing them in an ArrayList.
In a Git repository many deltas are less than 8 KiB. Typical tree
objects are well below this threshold, and their deltas must be
encoded even smaller.
For these much smaller cases avoid the 8 KiB minimum allocation used
by TemporaryBuffer. Instead allocate a very small OutputStream
writing to an array that is sized at the limit.
Change-Id: Ie25c6d3a8cf4604e0f8cd9a3b5b701a592d6ffca
Nicolas Pitre discovered a very simple rule for selecting between two
different delta base candidates:
- if based whole object, must be <= 50% of target
- if at end of a chain, must be <= 1/depth * 50% of target
The rule penalizes deltas near the end of the chain, requiring them to
be very small in order to be kept by the packer. This favors deltas
that are based on a shorter chain, where the read-time unpack cost is
much lower. Fewer bytes need to be consulted from the source pack
file, and less copying is required in memory to rebuild the object.
Junio Hamano explained Nico's rule to me today, and this commit fixes
DeltaWindow to implement it as described.
When no base has been chosen the computation is simply the statements
denoted above. However once a base with depth of 9 has been chosen
(e.g. when pack.depth is limited to 10), a non-delta source may
create a new delta that is up to 10x larger than the already selected
base. This reflects the intent of Nico's size distribution rule no
matter what order objects are visited in the DeltaWindow.
With this patch and my other patches applied, repacking JGit with:
[pack]
reuseObjects = false
reuseDeltas = false
depth = 50
window = 250
threads = 4
compression = 9
CGit (all) 5,711,735 bytes; real 0m13.942s user 0m47.722s [1]
JGit heads 5,718,295 bytes; real 0m11.880s user 0m38.177s [2]
rest 9,809 bytes
The improved JGit result for the head pack is only 6.4 KiB larger than
CGit's resulting pack. This patch allowed JGit to find an additional
39.7 KiB worth of space savings. JGit now also often runs 2s faster
than CGit, despite also creating bitmaps and pruning objects after the
head pack creation.
[1] time git repack -a -d -F --window=250 --depth=50
[2] time java -Xmx128m -jar jgit debug-gc
Change-Id: I5caec31359bf7248cabdd2a3254c84d4ee3cd96b
When an idle thread tries to steal work from a sibling's remaining
toSearch queue, always try to split along a path boundary. This
avoids missing delta opportunities in the current window of the
thread whose work is being taken.
The search order is reversed to walk further down the chain from
current position, avoiding the risk of splitting the list within
the path the thread is currently processing.
When selecting which thread to split from use an accurate estimate
of the size to be taken. This avoids selecting a thread that has
only one path remaining but may contain more pending entries than
another thread with several paths remaining.
As there is now a race condition where the straggling thread can
start the next path before the split can finish, the stealWork()
loop spins until it is able to acquire a split or there is only
one path remaining in the siblings.
Change-Id: Ib11ff99f90a4d9efab24bf4a85342cc63203dba5
PackWriter generally chooses the order for objects when it builds the
object lists. This ordering already depends on history information to
guide placing more recent objects first and historical objects last.
Allow PackWriter to make the basic ordering decisions, instead of
trying to override them. The old approach of sorting the list caused
DfsReader to override any ordering change PackWriter might have tried
to make when repacking a repository.
This now better matches with WindowCursor's implementation, where
PackWriter solely determines the object ordering.
Change-Id: Ic17ab5631ec539f0758b962966c3a1823735b814
Typical window sizes are 10 and 250 (although others are accepted).
In either case the pointer overhead of 1 pointer in an array or
2 pointers for a double linked list is trivial. A doubly linked
list as used here for window=250 is only another 1024 bytes on a
32 bit machine, or 2048 bytes on a 64 bit machine.
The critical search loops scan through the array in either the
previous direction or the next direction until the cycle is finished,
or some other scan abort condition is reached. Loading the next
object's pointer from a field in the current object avoids the
branch required to test for wrapping around the edge of the array.
It also saves the array bounds check on each access.
When a delta is chosen the window is shuffled to hoist the currently
selected base as an earlier candidate for the next object. Moving
the window entry is easier in a double-linked list than sliding a
group of array entries.
Change-Id: I9ccf20c3362a78678aede0f0f2cda165e509adff
The copy instruction formatter should not to compute the shifts and
masks twice. Instead compute them once and assume there is a register
available to store the temporary "b" for compare with 0.
Change-Id: Ic7826f29dca67b16903d8f790bdf785eb478c10d
javac and the JIT are more likely to understand a boolean being
used as a branch conditional than comparing int against 0 and 1.
Rewrite NEXT_RES and NEXT_SRC constants to be booleans so the
code is clarified for the JIT.
Change-Id: I1bdd8b587a69572975a84609c779b9ebf877b85d
Instead of using a compare-with-0 use a does not equal 0.
javac bytecode has a special instruction for this, as it
is very common in software. We can assume the JIT knows
how to efficiently translate the opcode to machine code,
and processors can do != 0 very quickly.
Change-Id: Idb84c1d744d2874517fd4bfa1db390e2dbf64eac
This class and all of its methods are only package visible.
Clarify the methods as final for the benefit of the JIT to
inline trivial code.
Change-Id: I078841f9900dbf299fbe6abf2599f0208ae96856