Mercurial > hg
view tests/test-lfs-bundle.t @ 51619:b08c5fbe0e70 stable
rust: blanket implementation of Graph for Graph references
The need comes from the fact that `AncestorsIterator` and many
Graph-related algorithms take ownership of the `Graph` they work with.
This, in turn is due to them needing to accept the `Index` instances
that are provided by the Python layers (that neither rhg nor `RHGitaly`
use, of course): the fact that nowadays the Python layer holds an object
that is itself implemented in Rust does not change the core problem that
they cannot be tracked by the borrow checker.
Even though it looks like cloning `Changelog` would be cheap, it seems
hard to guarantee that on the long run. The object is already too rich
for us to be comfortable with it, when using references is the most
natural and guaranteed way of proceeding.
The added test seems a bit superfleous, but it will act as a reminder
that this feature is really useful until something in the Mercurial code
base actually uses it.
| author | Georges Racinet <georges.racinet@octobus.net> |
|---|---|
| date | Mon, 22 Apr 2024 19:47:08 +0200 |
| parents | 3e381eb557f3 |
| children |
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In this test, we want to test LFS bundle application on both LFS and non-LFS repos. To make it more interesting, the file revisions will contain hg filelog metadata ('\1\n'). The bundle will have 1 file revision overlapping with the destination repo. # rev 1 2 3 # repo: yes yes no # bundle: no (base) yes yes (deltabase: 2 if possible) It is interesting because rev 2 could have been stored as LFS in the repo, and non-LFS in the bundle; or vice-versa. Init $ cat >> $HGRCPATH << EOF > [extensions] > lfs= > drawdag=$TESTDIR/drawdag.py > [lfs] > url=file:$TESTTMP/lfs-remote > EOF Helper functions $ commitxy() { > hg debugdrawdag "$@" <<'EOS' > Y # Y/X=\1\nAAAA\nE\nF > | # Y/Y=\1\nAAAA\nG\nH > X # X/X=\1\nAAAA\nC\n > # X/Y=\1\nAAAA\nD\n > EOS > } $ commitz() { > hg debugdrawdag "$@" <<'EOS' > Z # Z/X=\1\nAAAA\nI\n > | # Z/Y=\1\nAAAA\nJ\n > | # Z/Z=\1\nZ > Y > EOS > } $ enablelfs() { > cat >> .hg/hgrc <<EOF > [lfs] > track=all() > EOF > } Generate bundles $ for i in normal lfs; do > NAME=src-$i > hg init $TESTTMP/$NAME > cd $TESTTMP/$NAME > [ $i = lfs ] && enablelfs > commitxy > commitz > hg bundle -q --base X -r Y+Z $TESTTMP/$NAME.bundle > SRCNAMES="$SRCNAMES $NAME" > done Prepare destination repos $ for i in normal lfs; do > NAME=dst-$i > hg init $TESTTMP/$NAME > cd $TESTTMP/$NAME > [ $i = lfs ] && enablelfs > commitxy > DSTNAMES="$DSTNAMES $NAME" > done Apply bundles $ for i in $SRCNAMES; do > for j in $DSTNAMES; do > echo ---- Applying $i.bundle to $j ---- > cp -R $TESTTMP/$j $TESTTMP/tmp-$i-$j > cd $TESTTMP/tmp-$i-$j > if hg unbundle $TESTTMP/$i.bundle -q 2>/dev/null; then > hg verify -q && echo OK > else > echo CRASHED > fi > done > done ---- Applying src-normal.bundle to dst-normal ---- OK ---- Applying src-normal.bundle to dst-lfs ---- OK ---- Applying src-lfs.bundle to dst-normal ---- OK ---- Applying src-lfs.bundle to dst-lfs ---- OK Hint if the cache location cannot be inferred from the environment #if windows $ unset LOCALAPPDATA $ unset APPDATA $ HGRCPATH= hg config lfs --source abort: unknown lfs usercache location (define LOCALAPPDATA or APPDATA in the environment, or set lfs.usercache) [255] #endif #if osx $ unset HOME $ HGRCPATH= hg config lfs --source abort: unknown lfs usercache location (define HOME in the environment, or set lfs.usercache) [255] #endif #if no-windows no-osx $ unset XDG_CACHE_HOME $ unset HOME $ HGRCPATH= hg config lfs --source abort: unknown lfs usercache location (define XDG_CACHE_HOME or HOME in the environment, or set lfs.usercache) [255] #endif