copies: add test that makes both the merging csets dirty and fails
This patch is a part of series which is about the case when both the merging
csets are not descendant of merge base. The existing code assumes if c1 is
dirty there shouldn't be any partial copies from c2 i.e both2['incomplete']
and same for c2, if c2 is dirty both1['incomplete'] should be empty,
but this is not the right assumption.
Now as we know we can have both c1 and c2 dirty at the same time, it
is possible that c1 is dirty and both2['incomplete'] has some value.
Or if c2 is dirty and both1['incomplete'] has some value.
Added test shows that because of this assumption it could fail.
Differential Revision: https://phab.mercurial-scm.org/D5962
#testcases filelog compatibility
$ cat >> $HGRCPATH << EOF
> [extensions]
> rebase=
> [alias]
> l = log -G -T '{rev} {desc}\n{files}\n'
> EOF
#if compatibility
$ cat >> $HGRCPATH << EOF
> [experimental]
> copies.read-from = compatibility
> EOF
#endif
$ REPONUM=0
$ newrepo() {
> cd $TESTTMP
> REPONUM=`expr $REPONUM + 1`
> hg init repo-$REPONUM
> cd repo-$REPONUM
> }
Simple rename case
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x'
$ hg mv x y
$ hg debugp1copies
x -> y
$ hg debugp2copies
$ hg ci -m 'rename x to y'
$ hg l
@ 1 rename x to y
| x y
o 0 add x
x
$ hg debugp1copies -r 1
x -> y
$ hg debugpathcopies 0 1
x -> y
$ hg debugpathcopies 1 0
y -> x
Test filtering copies by path. We do filtering by destination.
$ hg debugpathcopies 0 1 x
$ hg debugpathcopies 1 0 x
y -> x
$ hg debugpathcopies 0 1 y
x -> y
$ hg debugpathcopies 1 0 y
Copy a file onto another file
$ newrepo
$ echo x > x
$ echo y > y
$ hg ci -Aqm 'add x and y'
$ hg cp -f x y
$ hg debugp1copies
x -> y
$ hg debugp2copies
$ hg ci -m 'copy x onto y'
$ hg l
@ 1 copy x onto y
| y
o 0 add x and y
x y
$ hg debugp1copies -r 1
x -> y
Incorrectly doesn't show the rename
$ hg debugpathcopies 0 1
Copy a file onto another file with same content. If metadata is stored in changeset, this does not
produce a new filelog entry. The changeset's "files" entry should still list the file.
$ newrepo
$ echo x > x
$ echo x > x2
$ hg ci -Aqm 'add x and x2 with same content'
$ hg cp -f x x2
$ hg ci -m 'copy x onto x2'
$ hg l
@ 1 copy x onto x2
| x2
o 0 add x and x2 with same content
x x2
$ hg debugp1copies -r 1
x -> x2
Incorrectly doesn't show the rename
$ hg debugpathcopies 0 1
Copy a file, then delete destination, then copy again. This does not create a new filelog entry.
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x'
$ hg cp x y
$ hg ci -m 'copy x to y'
$ hg rm y
$ hg ci -m 'remove y'
$ hg cp -f x y
$ hg ci -m 'copy x onto y (again)'
$ hg l
@ 3 copy x onto y (again)
| y
o 2 remove y
| y
o 1 copy x to y
| y
o 0 add x
x
$ hg debugp1copies -r 3
x -> y
$ hg debugpathcopies 0 3
x -> y
Rename file in a loop: x->y->z->x
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x'
$ hg mv x y
$ hg debugp1copies
x -> y
$ hg debugp2copies
$ hg ci -m 'rename x to y'
$ hg mv y z
$ hg ci -m 'rename y to z'
$ hg mv z x
$ hg ci -m 'rename z to x'
$ hg l
@ 3 rename z to x
| x z
o 2 rename y to z
| y z
o 1 rename x to y
| x y
o 0 add x
x
$ hg debugpathcopies 0 3
Copy x to y, then remove y, then add back y. With copy metadata in the changeset, this could easily
end up reporting y as copied from x (if we don't unmark it as a copy when it's removed).
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x'
$ hg mv x y
$ hg ci -m 'rename x to y'
$ hg rm y
$ hg ci -qm 'remove y'
$ echo x > y
$ hg ci -Aqm 'add back y'
$ hg l
@ 3 add back y
| y
o 2 remove y
| y
o 1 rename x to y
| x y
o 0 add x
x
$ hg debugp1copies -r 3
$ hg debugpathcopies 0 3
Copy x to z, then remove z, then copy x2 (same content as x) to z. With copy metadata in the
changeset, the two copies here will have the same filelog entry, so ctx['z'].introrev() might point
to the first commit that added the file. We should still report the copy as being from x2.
$ newrepo
$ echo x > x
$ echo x > x2
$ hg ci -Aqm 'add x and x2 with same content'
$ hg cp x z
$ hg ci -qm 'copy x to z'
$ hg rm z
$ hg ci -m 'remove z'
$ hg cp x2 z
$ hg ci -m 'copy x2 to z'
$ hg l
@ 3 copy x2 to z
| z
o 2 remove z
| z
o 1 copy x to z
| z
o 0 add x and x2 with same content
x x2
$ hg debugp1copies -r 3
x2 -> z
$ hg debugpathcopies 0 3
x2 -> z
Create x and y, then rename them both to the same name, but on different sides of a fork
$ newrepo
$ echo x > x
$ echo y > y
$ hg ci -Aqm 'add x and y'
$ hg mv x z
$ hg ci -qm 'rename x to z'
$ hg co -q 0
$ hg mv y z
$ hg ci -qm 'rename y to z'
$ hg l
@ 2 rename y to z
| y z
| o 1 rename x to z
|/ x z
o 0 add x and y
x y
$ hg debugpathcopies 1 2
z -> x
y -> z
Fork renames x to y on one side and removes x on the other
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x'
$ hg mv x y
$ hg ci -m 'rename x to y'
$ hg co -q 0
$ hg rm x
$ hg ci -m 'remove x'
created new head
$ hg l
@ 2 remove x
| x
| o 1 rename x to y
|/ x y
o 0 add x
x
$ hg debugpathcopies 1 2
Copies via null revision (there shouldn't be any)
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x'
$ hg cp x y
$ hg ci -m 'copy x to y'
$ hg co -q null
$ echo x > x
$ hg ci -Aqm 'add x (again)'
$ hg l
@ 2 add x (again)
x
o 1 copy x to y
| y
o 0 add x
x
$ hg debugpathcopies 1 2
$ hg debugpathcopies 2 1
Merge rename from other branch
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x'
$ hg mv x y
$ hg ci -m 'rename x to y'
$ hg co -q 0
$ echo z > z
$ hg ci -Aqm 'add z'
$ hg merge -q 1
$ hg debugp1copies
$ hg debugp2copies
$ hg ci -m 'merge rename from p2'
$ hg l
@ 3 merge rename from p2
|\ x
| o 2 add z
| | z
o | 1 rename x to y
|/ x y
o 0 add x
x
Perhaps we should indicate the rename here, but `hg status` is documented to be weird during
merges, so...
$ hg debugp1copies -r 3
$ hg debugp2copies -r 3
$ hg debugpathcopies 0 3
x -> y
$ hg debugpathcopies 1 2
y -> x
$ hg debugpathcopies 1 3
$ hg debugpathcopies 2 3
x -> y
Copy file from either side in a merge
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x'
$ hg co -q null
$ echo y > y
$ hg ci -Aqm 'add y'
$ hg merge -q 0
$ hg cp y z
$ hg debugp1copies
y -> z
$ hg debugp2copies
$ hg ci -m 'copy file from p1 in merge'
$ hg co -q 1
$ hg merge -q 0
$ hg cp x z
$ hg debugp1copies
$ hg debugp2copies
x -> z
$ hg ci -qm 'copy file from p2 in merge'
$ hg l
@ 3 copy file from p2 in merge
|\ z
+---o 2 copy file from p1 in merge
| |/ z
| o 1 add y
| y
o 0 add x
x
$ hg debugp1copies -r 2
y -> z
$ hg debugp2copies -r 2
$ hg debugpathcopies 1 2
y -> z
$ hg debugpathcopies 0 2
$ hg debugp1copies -r 3
$ hg debugp2copies -r 3
x -> z
$ hg debugpathcopies 1 3
$ hg debugpathcopies 0 3
x -> z
Copy file that exists on both sides of the merge, same content on both sides
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x on branch 1'
$ hg co -q null
$ echo x > x
$ hg ci -Aqm 'add x on branch 2'
$ hg merge -q 0
$ hg cp x z
$ hg debugp1copies
x -> z
$ hg debugp2copies
$ hg ci -qm 'merge'
$ hg l
@ 2 merge
|\ z
| o 1 add x on branch 2
| x
o 0 add x on branch 1
x
$ hg debugp1copies -r 2
x -> z
$ hg debugp2copies -r 2
It's a little weird that it shows up on both sides
$ hg debugpathcopies 1 2
x -> z
$ hg debugpathcopies 0 2
x -> z (filelog !)
Copy file that exists on both sides of the merge, different content
$ newrepo
$ echo branch1 > x
$ hg ci -Aqm 'add x on branch 1'
$ hg co -q null
$ echo branch2 > x
$ hg ci -Aqm 'add x on branch 2'
$ hg merge -q 0
warning: conflicts while merging x! (edit, then use 'hg resolve --mark')
[1]
$ echo resolved > x
$ hg resolve -m x
(no more unresolved files)
$ hg cp x z
$ hg debugp1copies
x -> z
$ hg debugp2copies
$ hg ci -qm 'merge'
$ hg l
@ 2 merge
|\ x z
| o 1 add x on branch 2
| x
o 0 add x on branch 1
x
$ hg debugp1copies -r 2
$ hg debugp2copies -r 2
x -> z
$ hg debugpathcopies 1 2
$ hg debugpathcopies 0 2
x -> z
Copy x->y on one side of merge and copy x->z on the other side. Pathcopies from one parent
of the merge to the merge should include the copy from the other side.
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x'
$ hg cp x y
$ hg ci -qm 'copy x to y'
$ hg co -q 0
$ hg cp x z
$ hg ci -qm 'copy x to z'
$ hg merge -q 1
$ hg ci -m 'merge copy x->y and copy x->z'
$ hg l
@ 3 merge copy x->y and copy x->z
|\
| o 2 copy x to z
| | z
o | 1 copy x to y
|/ y
o 0 add x
x
$ hg debugp1copies -r 3
$ hg debugp2copies -r 3
$ hg debugpathcopies 2 3
x -> y
$ hg debugpathcopies 1 3
x -> z
Copy x to y on one side of merge, create y and rename to z on the other side. Pathcopies from the
first side should not include the y->z rename since y didn't exist in the merge base.
$ newrepo
$ echo x > x
$ hg ci -Aqm 'add x'
$ hg cp x y
$ hg ci -qm 'copy x to y'
$ hg co -q 0
$ echo y > y
$ hg ci -Aqm 'add y'
$ hg mv y z
$ hg ci -m 'rename y to z'
$ hg merge -q 1
$ hg ci -m 'merge'
$ hg l
@ 4 merge
|\
| o 3 rename y to z
| | y z
| o 2 add y
| | y
o | 1 copy x to y
|/ y
o 0 add x
x
$ hg debugp1copies -r 3
y -> z
$ hg debugp2copies -r 3
$ hg debugpathcopies 2 3
y -> z
$ hg debugpathcopies 1 3
Create x and y, then rename x to z on one side of merge, and rename y to z and modify z on the
other side.
$ newrepo
$ echo x > x
$ echo y > y
$ hg ci -Aqm 'add x and y'
$ hg mv x z
$ hg ci -qm 'rename x to z'
$ hg co -q 0
$ hg mv y z
$ hg ci -qm 'rename y to z'
$ echo z >> z
$ hg ci -m 'modify z'
$ hg merge -q 1
warning: conflicts while merging z! (edit, then use 'hg resolve --mark')
[1]
$ echo z > z
$ hg resolve -qm z
$ hg ci -m 'merge 1 into 3'
Try merging the other direction too
$ hg co -q 1
$ hg merge -q 3
warning: conflicts while merging z! (edit, then use 'hg resolve --mark')
[1]
$ echo z > z
$ hg resolve -qm z
$ hg ci -m 'merge 3 into 1'
created new head
$ hg l
@ 5 merge 3 into 1
|\ y z
+---o 4 merge 1 into 3
| |/ x z
| o 3 modify z
| | z
| o 2 rename y to z
| | y z
o | 1 rename x to z
|/ x z
o 0 add x and y
x y
$ hg debugpathcopies 1 4
$ hg debugpathcopies 2 4
$ hg debugpathcopies 0 4
x -> z (filelog !)
y -> z (compatibility !)
$ hg debugpathcopies 1 5
$ hg debugpathcopies 2 5
$ hg debugpathcopies 0 5
x -> z
Test for a case in fullcopytracing algorithm where both the merging csets are
"dirty"; where a dirty cset means that cset is descendant of merge base. This
test reflect that for this particular case this algorithm correctly find the copies:
$ cat >> $HGRCPATH << EOF
> [experimental]
> evolution.createmarkers=True
> evolution.allowunstable=True
> EOF
$ newrepo
$ echo a > a
$ hg add a
$ hg ci -m "added a"
$ echo b > b
$ hg add b
$ hg ci -m "added b"
$ hg mv b b1
$ hg ci -m "rename b to b1"
$ hg up ".^"
1 files updated, 0 files merged, 1 files removed, 0 files unresolved
$ echo d > d
$ hg add d
$ hg ci -m "added d"
created new head
$ echo baba >> b
$ hg ci --amend -m "added d, modified b"
$ hg l --hidden
@ 4 added d, modified b
| b d
| x 3 added d
|/ d
| o 2 rename b to b1
|/ b b1
o 1 added b
| b
o 0 added a
a
Grafting revision 4 on top of revision 2, showing that it respect the rename:
$ hg up 2 -q
$ hg graft -r 4 --base 3 --hidden
grafting 4:af28412ec03c "added d, modified b" (tip)
merging b1 and b to b1
$ hg l -l1 -p
@ 5 added d, modified b
| b1
~ diff -r 5a4825cc2926 -r 94a2f1a0e8e2 b1
--- a/b1 Thu Jan 01 00:00:00 1970 +0000
+++ b/b1 Thu Jan 01 00:00:00 1970 +0000
@@ -1,1 +1,2 @@
b
+baba
Test which demonstrate that fullcopytracing algorithm can fail to handle a case when both the csets are dirty
----------------------------------------------------------------------------------------------------------
$ newrepo
$ echo a > a
$ hg add a
$ hg ci -m "added a"
$ echo b > b
$ hg add b
$ hg ci -m "added b"
$ echo foobar > willconflict
$ hg add willconflict
$ hg ci -m "added willconflict"
$ echo c > c
$ hg add c
$ hg ci -m "added c"
$ hg l
@ 3 added c
| c
o 2 added willconflict
| willconflict
o 1 added b
| b
o 0 added a
a
$ hg up ".^^"
0 files updated, 0 files merged, 2 files removed, 0 files unresolved
$ echo d > d
$ hg add d
$ hg ci -m "added d"
created new head
$ echo barfoo > willconflict
$ hg add willconflict
$ hg ci --amend -m "added willconflict and d"
$ hg l
@ 5 added willconflict and d
| d willconflict
| o 3 added c
| | c
| o 2 added willconflict
|/ willconflict
o 1 added b
| b
o 0 added a
a
$ hg rebase -r . -d 2 -t :other
rebasing 5:5018b1509e94 "added willconflict and d" (tip)
$ hg up 3 -q
$ hg l --hidden
o 6 added willconflict and d
| d willconflict
| x 5 added willconflict and d
| | d willconflict
| | x 4 added d
| |/ d
+---@ 3 added c
| | c
o | 2 added willconflict
|/ willconflict
o 1 added b
| b
o 0 added a
a
Now if we trigger a merge between cset revision 3 and 6 using base revision 4, in this case
both the merging csets will be dirty as no one is descendent of base revision:
$ hg graft -r 6 --base 4 --hidden 2>&1 | grep "AssertionError"
AssertionError