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Committer: mbp at sourcefrog
Date: 2005-03-09 06:49:00 UTC
Revision ID: mbp@sourcefrog.net-20050309064900-74935ffb7350b24b

import more files from baz

files added:
build-api

doc/Makefile

doc/default.css

notes

notes/performance.txt

Show diffs side-by-side

added added

removed removed

notes/performance.txt

For a tree holding 2.4.18 (two copies), 2.4.19, 2.4.20

With gzip -9:

mbp@hope% du .bzr

195110 .bzr/text-store

20 .bzr/revision-store

12355 .bzr/inventory-store

216325 .bzr

mbp@hope% du -s .

523128 .

Without gzip:

This is actually a pretty bad example because of deleting and

re-importing 2.4.18, but still not totally unreasonable.

----

linux-2.4.0: 116399 kB

after addding everything: 119505kB

bzr status 2.68s user 0.13s system 84% cpu 3.330 total

bzr commit 'import 2.4.0' 4.41s user 2.15s system 11% cpu 59.490 total

242446 .

122068 .bzr

----

Performance (2005-03-01)

To add all files from linux-2.4.18: about 70s, mostly inventory

serialization/deserialization.

To commit:

- finished, 6.520u/3.870s cpu, 33.940u/10.730s cum

- 134.040 elapsed

Interesting that it spends so long on external processing! I wonder

if this is for running uuidgen? Let's try generating things

internally.

Great, this cuts it to 17.15s user 0.61s system 83% cpu 21.365 total

to add, with no external command time. The commit now seems to spend

most of its time copying to disk.

- finished, 6.550u/3.320s cpu, 35.050u/9.870s cum

- 89.650 elapsed

I wonder where the external time is now? We were also using uuids()

for revisions.

Let's remove everything and re-add. Detecting everything was removed

takes

- finished, 2.460u/0.110s cpu, 0.000u/0.000s cum

- 3.430 elapsed

which may be mostly XML deserialization?

Just getting the previous revision takes about this long:

bzr invoked at Tue 2005-03-01 15:53:05.183741 EST +1100

by mbp@sourcefrog.net on hope

arguments: ['/home/mbp/bin/bzr', 'get-revision-inventory', 'mbp@sourcefrog.net-20050301044608-8513202ab179aff4-44e8cd52a41aa705']

platform: Linux-2.6.10-4-686-i686-with-debian-3.1

- finished, 3.910u/0.390s cpu, 0.000u/0.000s cum

- 6.690 elapsed

Now committing the revision which removes all files should be fast.

- finished, 1.280u/0.030s cpu, 0.000u/0.000s cum

- 1.320 elapsed

Now re-add with new code that doesn't call uuidgen:

- finished, 1.990u/0.030s cpu, 0.000u/0.000s cum

- 2.040 elapsed

16.61s user 0.55s system 74% cpu 22.965 total

Status::

- finished, 2.500u/0.110s cpu, 0.010u/0.000s cum

- 3.350 elapsed

And commit::

Now patch up to 2.4.19. There were some bugs in handling missing

directories, but with that fixed we do much better::

bzr status 5.86s user 1.06s system 10% cpu 1:05.55 total

This is slow because it's diffing every file; we should use mtimes etc

to make this faster. The cpu time is reasonable.

I see difflib is pure Python; it might be faster to shell out to GNU

diff when we need it.

100

Export is very fast::

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- finished, 4.220u/1.480s cpu, 0.010u/0.000s cum

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- 10.810 elapsed

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bzr export 1 ../linux-2.4.18.export1 3.92s user 1.72s system 21% cpu 26.030 total

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Now to find and add the new changes::

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- finished, 2.190u/0.030s cpu, 0.000u/0.000s cum

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- 2.300 elapsed

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bzr commit 'import 2.4.19' 9.36s user 1.91s system 23% cpu 47.127 total

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And the result is exactly right. Try exporting::

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mbp@hope% bzr export 4 ../linux-2.4.19.export4

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bzr export 4 ../linux-2.4.19.export4 4.21s user 1.70s system 18% cpu 32.304 total

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and the export is exactly the same as the tarball.

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Now we can optimize the diff a bit more by not comparing files that

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have the right SHA-1 from within the commit

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For comparison::

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patch -p1 < ../kernel.pkg/patch-2.4.20 1.61s user 1.03s system 13% cpu 19.106 total

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Now status after applying the .20 patch. With full-text verification::

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bzr status 7.07s user 1.32s system 13% cpu 1:04.29 total

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with that turned off::

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bzr status 5.86s user 0.56s system 25% cpu 25.577 total

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After adding:

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bzr status 6.14s user 0.61s system 25% cpu 26.583 total

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Should add some kind of profile counter for quick compares vs slow

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compares.

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bzr commit 'import 2.4.20' 7.57s user 1.36s system 20% cpu 43.568

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total

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export: finished, 3.940u/1.820s cpu, 0.000u/0.000s cum, 50.990 elapsed

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also exports correctly

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now .21

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bzr commit 'import 2.4.1' 5.59s user 0.51s system 60% cpu 10.122 total

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265520 .

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137704 .bzr

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import 2.4.2

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317758 .

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183463 .bzr

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with everything through to 2.4.29 imported, the .bzr directory is

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1132MB, compared to 185MB for one tree. The .bzr.log is 100MB!. So

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the storage is 6.1 times larger, although we're holding 30 versions.

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It's pretty large but I think not ridiculous. By contrast the tarball

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for 2.4.0 is 104MB, and the tarball plus uncompressed patches are

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315MB.

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Uncompressed, the text store is 1041MB. So it is only three times

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worse than patches, and could be compressed at presumably roughly

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equal efficiency. It is large, but also a very simple design and

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perhaps adequate for the moment. The text store with each file

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individually gziped is 264MB, which is also a very simple format and

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makes it less than twice the size of the source tree.

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This is actually rather pessimistic because I think there are some

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orphaned texts in there.

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Measured by du, the compressed full-text store is 363MB; also probably

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tolerable.

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The real fix is perhaps to use some kind of weave, not so much for

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storage efficiency as for fast annotation and therefore possible

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annotation-based merge.

b'\\ No newline at end of file'

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