sparse-revlog: implement algorithm to write sparse delta chains (issue5480) The classic behavior of revlog._isgooddeltainfo is to consider the span size of the whole delta chain, and limit it to 4 * textlen. Once sparse-revlog writing is allowed (and enforced with a requirement), revlog._isgooddeltainfo considers the span of the largest chunk as the distance used in the verification, instead of using the span of the whole delta chain. In order to compute the span of the largest chunk, we need to slice into chunks a chain with the new revision at the top of the revlog, and take the maximal span of these chunks. The sparse read density is a parameter to the slicing, as it will stop when the global read density reaches this threshold. For instance, a density of 50% means that 2 of 4 read bytes are actually used for the reconstruction of the revision (the others are part of other chains). This allows a new revision to be potentially stored with a diff against another revision anywhere in the history, instead of forcing it in the last 4 * textlen. The result is a much better compression on repositories that have many concurrent branches. Here are a comparison between using deltas from current upstream (aggressive-merge-deltas on by default) and deltas from a sparse-revlog Comparison of `.hg/store/` size: mercurial (6.74% merges): before: 46,831,873 bytes after: 46,795,992 bytes (no relevant change) pypy (8.30% merges): before: 333,524,651 bytes after: 308,417,511 bytes -8% netbeans (34.21% merges): before: 1,141,847,554 bytes after: 1,131,093,161 bytes -1% mozilla-central (4.84% merges): before: 2,344,248,850 bytes after: 2,328,459,258 bytes -1% large-private-repo-A (merge 19.73%) before: 41,510,550,163 bytes after: 8,121,763,428 bytes -80% large-private-repo-B (23.77%) before: 58,702,221,709 bytes after: 8,351,588,828 bytes -76% Comparison of `00manifest.d` size: mercurial (6.74% merges): before: 6,143,044 bytes after: 6,107,163 bytes pypy (8.30% merges): before: 52,941,780 bytes after: 27,834,082 bytes -48% netbeans (34.21% merges): before: 130,088,982 bytes after: 119,337,636 bytes -10% mozilla-central (4.84% merges): before: 215,096,339 bytes after: 199,496,863 bytes -8% large-private-repo-A (merge 19.73%) before: 33,725,285,081 bytes after: 390,302,545 bytes -99% large-private-repo-B (23.77%) before: 49,457,701,645 bytes after: 1,366,752,187 bytes -97% The better delta chains provide a performance boost in relevant repositories: pypy, bundling 1000 revisions: before: 1.670s after: 1.149s -31% Unbundling got a bit slower. probably because the sparse algorithm is still pure python. pypy, unbundling 1000 revisions: before: 4.062s after: 4.507s +10% Performance of bundle/unbundle in repository with few concurrent branches (eg: mercurial) are unaffected. No significant differences have been noticed then timing `hg push` and `hg pull` locally. More state timings are being gathered. Same as for aggressive-merge-delta, better delta comes with longer delta chains. Longer chains have a performance impact. For example. The length of the chain needed to get the manifest of pypy's tip moves from 82 item to 1929 items. This moves the restore time from 3.88ms to 11.3ms. Delta chain length is an independent issue that affects repository without this changes. It will be dealt with independently. No significant differences have been observed on repositories where `sparse-revlog` have not much effect (mercurial, unity, netbeans). On pypy, small differences have been observed on some operation affected by delta chain building and retrieval. pypy, perfmanifest before: 0.006162s after: 0.017899s +190% pypy, commit: before: 0.382 after: 0.376 -1% pypy, status: before: 0.157 after: 0.168 +7% More comprehensive and stable timing comparisons are in progress.

Create a repository:

#if no-extraextensions
  $ hg config
  devel.all-warnings=true
  devel.default-date=0 0
  extensions.fsmonitor= (fsmonitor !)
  largefiles.usercache=$TESTTMP/.cache/largefiles
  lfs.usercache=$TESTTMP/.cache/lfs
  ui.slash=True
  ui.interactive=False
  ui.mergemarkers=detailed
  ui.promptecho=True
  web.address=localhost
  web\.ipv6=(?:True|False) (re)
  web.server-header=testing stub value
#endif

  $ hg init t
  $ cd t

Prepare a changeset:

  $ echo a > a
  $ hg add a

  $ hg status
  A a

Writes to stdio succeed and fail appropriately

#if devfull
  $ hg status 2>/dev/full
  A a

  $ hg status >/dev/full
  abort: No space left on device
  [255]
#endif

#if devfull
  $ hg status >/dev/full 2>&1
  [255]

  $ hg status ENOENT 2>/dev/full
  [255]
#endif

  $ hg commit -m test

This command is ancient:

  $ hg history
  changeset:   0:acb14030fe0a
  tag:         tip
  user:        test
  date:        Thu Jan 01 00:00:00 1970 +0000
  summary:     test
  

Verify that updating to revision 0 via commands.update() works properly

  $ cat <<EOF > update_to_rev0.py
  > from mercurial import ui, hg, commands
  > myui = ui.ui.load()
  > repo = hg.repository(myui, path=b'.')
  > commands.update(myui, repo, rev=b"0")
  > EOF
  $ hg up null
  0 files updated, 0 files merged, 1 files removed, 0 files unresolved
  $ $PYTHON ./update_to_rev0.py
  1 files updated, 0 files merged, 0 files removed, 0 files unresolved
  $ hg identify -n
  0


Poke around at hashes:

  $ hg manifest --debug
  b789fdd96dc2f3bd229c1dd8eedf0fc60e2b68e3 644   a

  $ hg cat a
  a

Verify should succeed:

  $ hg verify
  checking changesets
  checking manifests
  crosschecking files in changesets and manifests
  checking files
  1 files, 1 changesets, 1 total revisions

Repository root:

  $ hg root
  $TESTTMP/t
  $ hg log -l1 -T '{reporoot}\n'
  $TESTTMP/t

At the end...

  $ cd ..