summaryrefslogtreecommitdiffstats
path: root/t/t6429-merge-sequence-rename-caching.sh
diff options
context:
space:
mode:
authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 14:47:53 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 14:47:53 +0000
commitc8bae7493d2f2910b57f13ded012e86bdcfb0532 (patch)
tree24e09d9f84dec336720cf393e156089ca2835791 /t/t6429-merge-sequence-rename-caching.sh
parentInitial commit. (diff)
downloadgit-c8bae7493d2f2910b57f13ded012e86bdcfb0532.tar.xz
git-c8bae7493d2f2910b57f13ded012e86bdcfb0532.zip
Adding upstream version 1:2.39.2.upstream/1%2.39.2upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 't/t6429-merge-sequence-rename-caching.sh')
-rwxr-xr-xt/t6429-merge-sequence-rename-caching.sh767
1 files changed, 767 insertions, 0 deletions
diff --git a/t/t6429-merge-sequence-rename-caching.sh b/t/t6429-merge-sequence-rename-caching.sh
new file mode 100755
index 0000000..d02fa16
--- /dev/null
+++ b/t/t6429-merge-sequence-rename-caching.sh
@@ -0,0 +1,767 @@
+#!/bin/sh
+
+test_description="remember regular & dir renames in sequence of merges"
+
+. ./test-lib.sh
+
+#
+# NOTE 1: this testfile tends to not only rename files, but modify on both
+# sides; without modifying on both sides, optimizations can kick in
+# which make rename detection irrelevant or trivial. We want to make
+# sure that we are triggering rename caching rather than rename
+# bypassing.
+#
+# NOTE 2: this testfile uses 'test-tool fast-rebase' instead of either
+# cherry-pick or rebase. sequencer.c is only superficially
+# integrated with merge-ort; it calls merge_switch_to_result()
+# after EACH merge, which updates the index and working copy AND
+# throws away the cached results (because merge_switch_to_result()
+# is only supposed to be called at the end of the sequence).
+# Integrating them more deeply is a big task, so for now the tests
+# use 'test-tool fast-rebase'.
+#
+
+
+#
+# In the following simple testcase:
+# Base: numbers_1, values_1
+# Upstream: numbers_2, values_2
+# Topic_1: sequence_3
+# Topic_2: scruples_3
+# or, in english, rename numbers -> sequence in the first commit, and rename
+# values -> scruples in the second commit.
+#
+# This shouldn't be a challenge, it's just verifying that cached renames isn't
+# preventing us from finding new renames.
+#
+test_expect_success 'caching renames does not preclude finding new ones' '
+ git init caching-renames-and-new-renames &&
+ (
+ cd caching-renames-and-new-renames &&
+
+ test_seq 2 10 >numbers &&
+ test_seq 2 10 >values &&
+ git add numbers values &&
+ git commit -m orig &&
+
+ git branch upstream &&
+ git branch topic &&
+
+ git switch upstream &&
+ test_seq 1 10 >numbers &&
+ test_seq 1 10 >values &&
+ git add numbers values &&
+ git commit -m "Tweaked both files" &&
+
+ git switch topic &&
+
+ test_seq 2 12 >numbers &&
+ git add numbers &&
+ git mv numbers sequence &&
+ git commit -m A &&
+
+ test_seq 2 12 >values &&
+ git add values &&
+ git mv values scruples &&
+ git commit -m B &&
+
+ #
+ # Actual testing
+ #
+
+ git switch upstream &&
+
+ test-tool fast-rebase --onto HEAD upstream~1 topic &&
+ #git cherry-pick upstream~1..topic
+
+ git ls-files >tracked-files &&
+ test_line_count = 2 tracked-files &&
+ test_seq 1 12 >expect &&
+ test_cmp expect sequence &&
+ test_cmp expect scruples
+ )
+'
+
+#
+# In the following testcase:
+# Base: numbers_1
+# Upstream: rename numbers_1 -> sequence_2
+# Topic_1: numbers_3
+# Topic_2: numbers_1
+# or, in english, the first commit on the topic branch modifies numbers by
+# shrinking it (dramatically) and the second commit on topic reverts its
+# parent.
+#
+# Can git apply both patches?
+#
+# Traditional cherry-pick/rebase will fail to apply the second commit, the
+# one that reverted its parent, because despite detecting the rename from
+# 'numbers' to 'sequence' for the first commit, it fails to detect that
+# rename when picking the second commit. That's "reasonable" given the
+# dramatic change in size of the file, but remembering the rename and
+# reusing it is reasonable too.
+#
+# We do test here that we expect rename detection to only be run once total
+# (the topic side of history doesn't need renames, and with caching we
+# should be able to only run rename detection on the upstream side one
+# time.)
+test_expect_success 'cherry-pick both a commit and its immediate revert' '
+ git init pick-commit-and-its-immediate-revert &&
+ (
+ cd pick-commit-and-its-immediate-revert &&
+
+ test_seq 11 30 >numbers &&
+ git add numbers &&
+ git commit -m orig &&
+
+ git branch upstream &&
+ git branch topic &&
+
+ git switch upstream &&
+ test_seq 1 30 >numbers &&
+ git add numbers &&
+ git mv numbers sequence &&
+ git commit -m "Renamed (and modified) numbers -> sequence" &&
+
+ git switch topic &&
+
+ test_seq 11 13 >numbers &&
+ git add numbers &&
+ git commit -m A &&
+
+ git revert HEAD &&
+
+ #
+ # Actual testing
+ #
+
+ git switch upstream &&
+
+ GIT_TRACE2_PERF="$(pwd)/trace.output" &&
+ export GIT_TRACE2_PERF &&
+
+ test-tool fast-rebase --onto HEAD upstream~1 topic &&
+ #git cherry-pick upstream~1..topic &&
+
+ grep region_enter.*diffcore_rename trace.output >calls &&
+ test_line_count = 1 calls
+ )
+'
+
+#
+# In the following testcase:
+# Base: sequence_1
+# Upstream: rename sequence_1 -> values_2
+# Topic_1: rename sequence_1 -> values_3
+# Topic_2: add unrelated sequence_4
+# or, in english, both sides rename sequence -> values, and then the second
+# commit on the topic branch adds an unrelated file called sequence.
+#
+# This testcase presents no problems for git traditionally, but having both
+# sides do the same rename in effect "uses it up" and if it remains cached,
+# could cause a spurious rename/add conflict.
+#
+test_expect_success 'rename same file identically, then reintroduce it' '
+ git init rename-rename-1to1-then-add-old-filename &&
+ (
+ cd rename-rename-1to1-then-add-old-filename &&
+
+ test_seq 3 8 >sequence &&
+ git add sequence &&
+ git commit -m orig &&
+
+ git branch upstream &&
+ git branch topic &&
+
+ git switch upstream &&
+ test_seq 1 8 >sequence &&
+ git add sequence &&
+ git mv sequence values &&
+ git commit -m "Renamed (and modified) sequence -> values" &&
+
+ git switch topic &&
+
+ test_seq 3 10 >sequence &&
+ git add sequence &&
+ git mv sequence values &&
+ git commit -m A &&
+
+ test_write_lines A B C D E F G H I J >sequence &&
+ git add sequence &&
+ git commit -m B &&
+
+ #
+ # Actual testing
+ #
+
+ git switch upstream &&
+
+ GIT_TRACE2_PERF="$(pwd)/trace.output" &&
+ export GIT_TRACE2_PERF &&
+
+ test-tool fast-rebase --onto HEAD upstream~1 topic &&
+ #git cherry-pick upstream~1..topic &&
+
+ git ls-files >tracked &&
+ test_line_count = 2 tracked &&
+ test_path_is_file values &&
+ test_path_is_file sequence &&
+
+ grep region_enter.*diffcore_rename trace.output >calls &&
+ test_line_count = 2 calls
+ )
+'
+
+#
+# In the following testcase:
+# Base: olddir/{valuesZ_1, valuesY_1, valuesX_1}
+# Upstream: rename olddir/valuesZ_1 -> dirA/valuesZ_2
+# rename olddir/valuesY_1 -> dirA/valuesY_2
+# rename olddir/valuesX_1 -> dirB/valuesX_2
+# Topic_1: rename olddir/valuesZ_1 -> dirA/valuesZ_3
+# rename olddir/valuesY_1 -> dirA/valuesY_3
+# Topic_2: add olddir/newfile
+# Expected Pick1: dirA/{valuesZ, valuesY}, dirB/valuesX
+# Expected Pick2: dirA/{valuesZ, valuesY}, dirB/{valuesX, newfile}
+#
+# This testcase presents no problems for git traditionally, but having both
+# sides do the same renames in effect "use it up" but if the renames remain
+# cached, the directory rename could put newfile in the wrong directory.
+#
+test_expect_success 'rename same file identically, then add file to old dir' '
+ git init rename-rename-1to1-then-add-file-to-old-dir &&
+ (
+ cd rename-rename-1to1-then-add-file-to-old-dir &&
+
+ mkdir olddir/ &&
+ test_seq 3 8 >olddir/valuesZ &&
+ test_seq 3 8 >olddir/valuesY &&
+ test_seq 3 8 >olddir/valuesX &&
+ git add olddir &&
+ git commit -m orig &&
+
+ git branch upstream &&
+ git branch topic &&
+
+ git switch upstream &&
+ test_seq 1 8 >olddir/valuesZ &&
+ test_seq 1 8 >olddir/valuesY &&
+ test_seq 1 8 >olddir/valuesX &&
+ git add olddir &&
+ mkdir dirA &&
+ git mv olddir/valuesZ olddir/valuesY dirA &&
+ git mv olddir/ dirB/ &&
+ git commit -m "Renamed (and modified) values*" &&
+
+ git switch topic &&
+
+ test_seq 3 10 >olddir/valuesZ &&
+ test_seq 3 10 >olddir/valuesY &&
+ git add olddir &&
+ mkdir dirA &&
+ git mv olddir/valuesZ olddir/valuesY dirA &&
+ git commit -m A &&
+
+ >olddir/newfile &&
+ git add olddir/newfile &&
+ git commit -m B &&
+
+ #
+ # Actual testing
+ #
+
+ git switch upstream &&
+ git config merge.directoryRenames true &&
+
+ GIT_TRACE2_PERF="$(pwd)/trace.output" &&
+ export GIT_TRACE2_PERF &&
+
+ test-tool fast-rebase --onto HEAD upstream~1 topic &&
+ #git cherry-pick upstream~1..topic &&
+
+ git ls-files >tracked &&
+ test_line_count = 4 tracked &&
+ test_path_is_file dirA/valuesZ &&
+ test_path_is_file dirA/valuesY &&
+ test_path_is_file dirB/valuesX &&
+ test_path_is_file dirB/newfile &&
+
+ grep region_enter.*diffcore_rename trace.output >calls &&
+ test_line_count = 3 calls
+ )
+'
+
+#
+# In the following testcase, upstream renames a directory, and the topic branch
+# first adds a file to the directory, then later renames the directory
+# differently:
+# Base: olddir/a
+# olddir/b
+# Upstream: rename olddir/ -> newdir/
+# Topic_1: add olddir/newfile
+# Topic_2: rename olddir/ -> otherdir/
+#
+# Here we are just concerned that cached renames might prevent us from seeing
+# the rename conflict, and we want to ensure that we do get a conflict.
+#
+# While at it, though, we do test that we only try to detect renames 2
+# times and not three. (The first merge needs to detect renames on the
+# upstream side. Traditionally, the second merge would need to detect
+# renames on both sides of history, but our caching of upstream renames
+# should avoid the need to re-detect upstream renames.)
+#
+test_expect_success 'cached dir rename does not prevent noticing later conflict' '
+ git init dir-rename-cache-not-occluding-later-conflict &&
+ (
+ cd dir-rename-cache-not-occluding-later-conflict &&
+
+ mkdir olddir &&
+ test_seq 3 10 >olddir/a &&
+ test_seq 3 10 >olddir/b &&
+ git add olddir &&
+ git commit -m orig &&
+
+ git branch upstream &&
+ git branch topic &&
+
+ git switch upstream &&
+ test_seq 3 10 >olddir/a &&
+ test_seq 3 10 >olddir/b &&
+ git add olddir &&
+ git mv olddir newdir &&
+ git commit -m "Dir renamed" &&
+
+ git switch topic &&
+
+ >olddir/newfile &&
+ git add olddir/newfile &&
+ git commit -m A &&
+
+ test_seq 1 8 >olddir/a &&
+ test_seq 1 8 >olddir/b &&
+ git add olddir &&
+ git mv olddir otherdir &&
+ git commit -m B &&
+
+ #
+ # Actual testing
+ #
+
+ git switch upstream &&
+ git config merge.directoryRenames true &&
+
+ GIT_TRACE2_PERF="$(pwd)/trace.output" &&
+ export GIT_TRACE2_PERF &&
+
+ test_must_fail test-tool fast-rebase --onto HEAD upstream~1 topic >output &&
+ #git cherry-pick upstream..topic &&
+
+ grep CONFLICT..rename/rename output &&
+
+ grep region_enter.*diffcore_rename trace.output >calls &&
+ test_line_count = 2 calls
+ )
+'
+
+# Helper for the next two tests
+test_setup_upstream_rename () {
+ git init $1 &&
+ (
+ cd $1 &&
+
+ test_seq 3 8 >somefile &&
+ test_seq 3 8 >relevant-rename &&
+ git add somefile relevant-rename &&
+ mkdir olddir &&
+ test_write_lines a b c d e f g >olddir/a &&
+ test_write_lines z y x w v u t >olddir/b &&
+ git add olddir &&
+ git commit -m orig &&
+
+ git branch upstream &&
+ git branch topic &&
+
+ git switch upstream &&
+ test_seq 1 8 >somefile &&
+ test_seq 1 8 >relevant-rename &&
+ git add somefile relevant-rename &&
+ git mv relevant-rename renamed &&
+ echo h >>olddir/a &&
+ echo s >>olddir/b &&
+ git add olddir &&
+ git mv olddir newdir &&
+ git commit -m "Dir renamed"
+ )
+}
+
+#
+# In the following testcase, upstream renames a file in the toplevel directory
+# as well as its only directory:
+# Base: relevant-rename_1
+# somefile
+# olddir/a
+# olddir/b
+# Upstream: rename relevant-rename_1 -> renamed_2
+# rename olddir/ -> newdir/
+# Topic_1: relevant-rename_3
+# Topic_2: olddir/newfile_1
+# Topic_3: olddir/newfile_2
+#
+# In this testcase, since the first commit being picked only modifies a
+# file in the toplevel directory, the directory rename is irrelevant for
+# that first merge. However, we need to notice the directory rename for
+# the merge that picks the second commit, and we don't want the third
+# commit to mess up its location either. We want to make sure that
+# olddir/newfile doesn't exist in the result and that newdir/newfile does.
+#
+# We also test that we only do rename detection twice. We never need
+# rename detection on the topic side of history, but we do need it twice on
+# the upstream side of history. For the first topic commit, we only need
+# the
+# relevant-rename -> renamed
+# rename, because olddir is unmodified by Topic_1. For Topic_2, however,
+# the new file being added to olddir means files that were previously
+# irrelevant for rename detection are now relevant, forcing us to repeat
+# rename detection for the paths we don't already have cached. Topic_3 also
+# tweaks olddir/newfile, but the renames in olddir/ will have been cached
+# from the second rename detection run.
+#
+test_expect_success 'dir rename unneeded, then add new file to old dir' '
+ test_setup_upstream_rename dir-rename-unneeded-until-new-file &&
+ (
+ cd dir-rename-unneeded-until-new-file &&
+
+ git switch topic &&
+
+ test_seq 3 10 >relevant-rename &&
+ git add relevant-rename &&
+ git commit -m A &&
+
+ echo foo >olddir/newfile &&
+ git add olddir/newfile &&
+ git commit -m B &&
+
+ echo bar >>olddir/newfile &&
+ git add olddir/newfile &&
+ git commit -m C &&
+
+ #
+ # Actual testing
+ #
+
+ git switch upstream &&
+ git config merge.directoryRenames true &&
+
+ GIT_TRACE2_PERF="$(pwd)/trace.output" &&
+ export GIT_TRACE2_PERF &&
+
+ test-tool fast-rebase --onto HEAD upstream~1 topic &&
+ #git cherry-pick upstream..topic &&
+
+ grep region_enter.*diffcore_rename trace.output >calls &&
+ test_line_count = 2 calls &&
+
+ git ls-files >tracked &&
+ test_line_count = 5 tracked &&
+ test_path_is_missing olddir/newfile &&
+ test_path_is_file newdir/newfile
+ )
+'
+
+#
+# The following testcase is *very* similar to the last one, but instead of
+# adding a new olddir/newfile, it renames somefile -> olddir/newfile:
+# Base: relevant-rename_1
+# somefile_1
+# olddir/a
+# olddir/b
+# Upstream: rename relevant-rename_1 -> renamed_2
+# rename olddir/ -> newdir/
+# Topic_1: relevant-rename_3
+# Topic_2: rename somefile -> olddir/newfile_2
+# Topic_3: modify olddir/newfile_3
+#
+# In this testcase, since the first commit being picked only modifies a
+# file in the toplevel directory, the directory rename is irrelevant for
+# that first merge. However, we need to notice the directory rename for
+# the merge that picks the second commit, and we don't want the third
+# commit to mess up its location either. We want to make sure that
+# neither somefile or olddir/newfile exists in the result and that
+# newdir/newfile does.
+#
+# This testcase needs one more call to rename detection than the last
+# testcase, because of the somefile -> olddir/newfile rename in Topic_2.
+test_expect_success 'dir rename unneeded, then rename existing file into old dir' '
+ test_setup_upstream_rename dir-rename-unneeded-until-file-moved-inside &&
+ (
+ cd dir-rename-unneeded-until-file-moved-inside &&
+
+ git switch topic &&
+
+ test_seq 3 10 >relevant-rename &&
+ git add relevant-rename &&
+ git commit -m A &&
+
+ test_seq 1 10 >somefile &&
+ git add somefile &&
+ git mv somefile olddir/newfile &&
+ git commit -m B &&
+
+ test_seq 1 12 >olddir/newfile &&
+ git add olddir/newfile &&
+ git commit -m C &&
+
+ #
+ # Actual testing
+ #
+
+ git switch upstream &&
+ git config merge.directoryRenames true &&
+
+ GIT_TRACE2_PERF="$(pwd)/trace.output" &&
+ export GIT_TRACE2_PERF &&
+
+ test-tool fast-rebase --onto HEAD upstream~1 topic &&
+ #git cherry-pick upstream..topic &&
+
+ grep region_enter.*diffcore_rename trace.output >calls &&
+ test_line_count = 3 calls &&
+
+ test_path_is_missing somefile &&
+ test_path_is_missing olddir/newfile &&
+ test_path_is_file newdir/newfile &&
+ git ls-files >tracked &&
+ test_line_count = 4 tracked
+ )
+'
+
+# Helper for the next two tests
+test_setup_topic_rename () {
+ git init $1 &&
+ (
+ cd $1 &&
+
+ test_seq 3 8 >somefile &&
+ mkdir olddir &&
+ test_seq 3 8 >olddir/a &&
+ echo b >olddir/b &&
+ git add olddir somefile &&
+ git commit -m orig &&
+
+ git branch upstream &&
+ git branch topic &&
+
+ git switch topic &&
+ test_seq 1 8 >somefile &&
+ test_seq 1 8 >olddir/a &&
+ git add somefile olddir/a &&
+ git mv olddir newdir &&
+ git commit -m "Dir renamed" &&
+
+ test_seq 1 10 >somefile &&
+ git add somefile &&
+ mkdir olddir &&
+ >olddir/unrelated-file &&
+ git add olddir &&
+ git commit -m "Unrelated file in recreated old dir"
+ )
+}
+
+#
+# In the following testcase, the first commit on the topic branch renames
+# a directory, while the second recreates the old directory and places a
+# file into it:
+# Base: somefile
+# olddir/a
+# olddir/b
+# Upstream: olddir/newfile
+# Topic_1: somefile_2
+# rename olddir/ -> newdir/
+# Topic_2: olddir/unrelated-file
+#
+# Note that the first pick should merge:
+# Base: somefile
+# olddir/{a,b}
+# Upstream: olddir/newfile
+# Topic_1: rename olddir/ -> newdir/
+# For which the expected result (assuming merge.directoryRenames=true) is
+# clearly:
+# Result: somefile
+# newdir/{a, b, newfile}
+#
+# While the second pick does the following three-way merge:
+# Base (Topic_1): somefile
+# newdir/{a,b}
+# Upstream (Result from 1): same files as base, but adds newdir/newfile
+# Topic_2: same files as base, but adds olddir/unrelated-file
+#
+# The second merge is pretty trivial; upstream adds newdir/newfile, and
+# topic_2 adds olddir/unrelated-file. We're just testing that we don't
+# accidentally cache directory renames somehow and rename
+# olddir/unrelated-file to newdir/unrelated-file.
+#
+# This testcase should only need one call to diffcore_rename_extended().
+test_expect_success 'caching renames only on upstream side, part 1' '
+ test_setup_topic_rename cache-renames-only-upstream-add-file &&
+ (
+ cd cache-renames-only-upstream-add-file &&
+
+ git switch upstream &&
+
+ >olddir/newfile &&
+ git add olddir/newfile &&
+ git commit -m "Add newfile" &&
+
+ #
+ # Actual testing
+ #
+
+ git switch upstream &&
+
+ git config merge.directoryRenames true &&
+
+ GIT_TRACE2_PERF="$(pwd)/trace.output" &&
+ export GIT_TRACE2_PERF &&
+
+ test-tool fast-rebase --onto HEAD upstream~1 topic &&
+ #git cherry-pick upstream..topic &&
+
+ grep region_enter.*diffcore_rename trace.output >calls &&
+ test_line_count = 1 calls &&
+
+ git ls-files >tracked &&
+ test_line_count = 5 tracked &&
+ test_path_is_missing newdir/unrelated-file &&
+ test_path_is_file olddir/unrelated-file &&
+ test_path_is_file newdir/newfile &&
+ test_path_is_file newdir/b &&
+ test_path_is_file newdir/a &&
+ test_path_is_file somefile
+ )
+'
+
+#
+# The following testcase is *very* similar to the last one, but instead of
+# adding a new olddir/newfile, it renames somefile -> olddir/newfile:
+# Base: somefile
+# olddir/a
+# olddir/b
+# Upstream: somefile_1 -> olddir/newfile
+# Topic_1: rename olddir/ -> newdir/
+# somefile_2
+# Topic_2: olddir/unrelated-file
+# somefile_3
+#
+# Much like the previous test, this case is actually trivial and we are just
+# making sure there isn't some spurious directory rename caching going on
+# for the wrong side of history.
+#
+#
+# This testcase should only need two calls to diffcore_rename_extended(),
+# both for the first merge, one for each side of history.
+#
+test_expect_success 'caching renames only on upstream side, part 2' '
+ test_setup_topic_rename cache-renames-only-upstream-rename-file &&
+ (
+ cd cache-renames-only-upstream-rename-file &&
+
+ git switch upstream &&
+
+ git mv somefile olddir/newfile &&
+ git commit -m "Add newfile" &&
+
+ #
+ # Actual testing
+ #
+
+ git switch upstream &&
+
+ git config merge.directoryRenames true &&
+
+ GIT_TRACE2_PERF="$(pwd)/trace.output" &&
+ export GIT_TRACE2_PERF &&
+
+ test-tool fast-rebase --onto HEAD upstream~1 topic &&
+ #git cherry-pick upstream..topic &&
+
+ grep region_enter.*diffcore_rename trace.output >calls &&
+ test_line_count = 2 calls &&
+
+ git ls-files >tracked &&
+ test_line_count = 4 tracked &&
+ test_path_is_missing newdir/unrelated-file &&
+ test_path_is_file olddir/unrelated-file &&
+ test_path_is_file newdir/newfile &&
+ test_path_is_file newdir/b &&
+ test_path_is_file newdir/a
+ )
+'
+
+#
+# The following testcase just creates two simple renames (slightly modified
+# on both sides but without conflicting changes), and a directory full of
+# files that are otherwise uninteresting. The setup is as follows:
+#
+# base: unrelated/<BUNCH OF FILES>
+# numbers
+# values
+# upstream: modify: numbers
+# modify: values
+# topic: add: unrelated/foo
+# modify: numbers
+# modify: values
+# rename: numbers -> sequence
+# rename: values -> progression
+#
+# This is a trivial rename case, but we're curious what happens with a very
+# low renameLimit interacting with the restart optimization trying to notice
+# that unrelated/ looks like a trivial merge candidate.
+#
+test_expect_success 'avoid assuming we detected renames' '
+ git init redo-weirdness &&
+ (
+ cd redo-weirdness &&
+
+ mkdir unrelated &&
+ for i in $(test_seq 1 10)
+ do
+ >unrelated/$i || exit 1
+ done &&
+ test_seq 2 10 >numbers &&
+ test_seq 12 20 >values &&
+ git add numbers values unrelated/ &&
+ git commit -m orig &&
+
+ git branch upstream &&
+ git branch topic &&
+
+ git switch upstream &&
+ test_seq 1 10 >numbers &&
+ test_seq 11 20 >values &&
+ git add numbers &&
+ git commit -m "Some tweaks" &&
+
+ git switch topic &&
+
+ >unrelated/foo &&
+ test_seq 2 12 >numbers &&
+ test_seq 12 22 >values &&
+ git add numbers values unrelated/ &&
+ git mv numbers sequence &&
+ git mv values progression &&
+ git commit -m A &&
+
+ #
+ # Actual testing
+ #
+
+ git switch --detach topic^0 &&
+
+ test_must_fail git -c merge.renameLimit=1 rebase upstream &&
+
+ git ls-files -u >actual &&
+ test_line_count = 2 actual
+ )
+'
+
+test_done