git/git-rebase.sh

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#!/bin/sh
#
# Copyright (c) 2005 Junio C Hamano.
#
SUBDIRECTORY_OK=Yes
OPTIONS_KEEPDASHDASH=
OPTIONS_STUCKLONG=t
OPTIONS_SPEC="\
git rebase [-i] [options] [--exec <cmd>] [--onto <newbase>] [<upstream>] [<branch>]
git rebase [-i] [options] [--exec <cmd>] [--onto <newbase>] --root [<branch>]
git rebase --continue | --abort | --skip | --edit-todo
--
Available options are
v,verbose! display a diffstat of what changed upstream
q,quiet! be quiet. implies --no-stat
autostash automatically stash/stash pop before and after
fork-point use 'merge-base --fork-point' to refine upstream
onto=! rebase onto given branch instead of upstream
rebase -i: introduce --rebase-merges=[no-]rebase-cousins When running `git rebase --rebase-merges` non-interactively with an ancestor of HEAD as <upstream> (or leaving the todo list unmodified), we would ideally recreate the exact same commits as before the rebase. However, if there are commits in the commit range <upstream>.. that do not have <upstream> as direct ancestor (i.e. if `git log <upstream>..` would show commits that are omitted by `git log --ancestry-path <upstream>..`), this is currently not the case: we would turn them into commits that have <upstream> as direct ancestor. Let's illustrate that with a diagram: C / \ A - B - E - F \ / D Currently, after running `git rebase -i --rebase-merges B`, the new branch structure would be (pay particular attention to the commit `D`): --- C' -- / \ A - B ------ E' - F' \ / D' This is not really preserving the branch topology from before! The reason is that the commit `D` does not have `B` as ancestor, and therefore it gets rebased onto `B`. This is unintuitive behavior. Even worse, when recreating branch structure, most use cases would appear to want cousins *not* to be rebased onto the new base commit. For example, Git for Windows (the heaviest user of the Git garden shears, which served as the blueprint for --rebase-merges) frequently merges branches from `next` early, and these branches certainly do *not* want to be rebased. In the example above, the desired outcome would look like this: --- C' -- / \ A - B ------ E' - F' \ / -- D' -- Let's introduce the term "cousins" for such commits ("D" in the example), and let's not rebase them by default. For hypothetical use cases where cousins *do* need to be rebased, `git rebase --rebase=merges=rebase-cousins` needs to be used. Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-04-25 20:29:40 +08:00
r,rebase-merges? try to rebase merges instead of skipping them
p,preserve-merges! try to recreate merges instead of ignoring them
s,strategy=! use the given merge strategy
no-ff! cherry-pick all commits, even if unchanged
m,merge! use merging strategies to rebase
i,interactive! let the user edit the list of commits to rebase
x,exec=! add exec lines after each commit of the editable list
k,keep-empty preserve empty commits during rebase
allow-empty-message allow rebasing commits with empty messages
f,force-rebase! force rebase even if branch is up to date
X,strategy-option=! pass the argument through to the merge strategy
stat! display a diffstat of what changed upstream
n,no-stat! do not show diffstat of what changed upstream
verify allow pre-rebase hook to run
rerere-autoupdate allow rerere to update index with resolved conflicts
root! rebase all reachable commits up to the root(s)
autosquash move commits that begin with squash!/fixup! under -i
committer-date-is-author-date! passed to 'git am'
ignore-date! passed to 'git am'
signoff passed to 'git am'
whitespace=! passed to 'git apply'
ignore-whitespace! passed to 'git apply'
C=! passed to 'git apply'
S,gpg-sign? GPG-sign commits
Actions:
continue! continue
abort! abort and check out the original branch
skip! skip current patch and continue
edit-todo! edit the todo list during an interactive rebase
quit! abort but keep HEAD where it is
show-current-patch! show the patch file being applied or merged
"
. git-sh-setup
set_reflog_action rebase
require_work_tree_exists
cd_to_toplevel
LF='
'
ok_to_skip_pre_rebase=
resolvemsg="
$(gettext 'Resolve all conflicts manually, mark them as resolved with
"git add/rm <conflicted_files>", then run "git rebase --continue".
You can instead skip this commit: run "git rebase --skip".
To abort and get back to the state before "git rebase", run "git rebase --abort".')
"
squash_onto=
unset onto
rebase: omit patch-identical commits with --fork-point When the `--fork-point` argument was added to `git rebase`, we changed the value of $upstream to be the fork point instead of the point from which we want to rebase. When $orig_head..$upstream is empty this does not change the behaviour, but when there are new changes in the upstream we are no longer checking if any of them are patch-identical with changes in $upstream..$orig_head. Fix this by introducing a new variable to hold the fork point and using this to restrict the range as an extra (negative) revision argument so that the set of desired revisions becomes (in fork-point mode): git rev-list --cherry-pick --right-only \ $upstream...$orig_head ^$fork_point This allows us to correctly handle the scenario where we have the following topology: C --- D --- E <- dev / B <- master@{1} / o --- B' --- C* --- D* <- master where: - B' is a fixed-up version of B that is not patch-identical with B; - C* and D* are patch-identical to C and D respectively and conflict textually if applied in the wrong order; - E depends textually on D. The correct result of `git rebase master dev` is that B is identified as the fork-point of dev and master, so that C, D, E are the commits that need to be replayed onto master; but C and D are patch-identical with C* and D* and so can be dropped, so that the end result is: o --- B' --- C* --- D* --- E <- dev If the fork-point is not identified, then picking B onto a branch containing B' results in a conflict and if the patch-identical commits are not correctly identified then picking C onto a branch containing D (or equivalently D*) results in a conflict. This change allows us to handle both of these cases, where previously we either identified the fork-point (with `--fork-point`) but not the patch-identical commits *or* (with `--no-fork-point`) identified the patch-identical commits but not the fact that master had been rewritten. Reported-by: Ted Felix <ted@tedfelix.com> Signed-off-by: John Keeping <john@keeping.me.uk> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2014-07-17 03:23:49 +08:00
unset restrict_revision
cmd=
strategy=
strategy_opts=
do_merge=
merge_dir="$GIT_DIR"/rebase-merge
apply_dir="$GIT_DIR"/rebase-apply
verbose=
diffstat=
test "$(git config --bool rebase.stat)" = true && diffstat=t
autostash="$(git config --bool rebase.autostash || echo false)"
fork_point=auto
git_am_opt=
git_format_patch_opt=
rebase_root=
force_rebase=
allow_rerere_autoupdate=
# Non-empty if a rebase was in progress when 'git rebase' was invoked
in_progress=
# One of {am, merge, interactive}
type=
# One of {"$GIT_DIR"/rebase-apply, "$GIT_DIR"/rebase-merge}
state_dir=
# One of {'', continue, skip, abort}, as parsed from command line
action=
rebase: introduce the --rebase-merges option Once upon a time, this here developer thought: wouldn't it be nice if, say, Git for Windows' patches on top of core Git could be represented as a thicket of branches, and be rebased on top of core Git in order to maintain a cherry-pick'able set of patch series? The original attempt to answer this was: git rebase --preserve-merges. However, that experiment was never intended as an interactive option, and it only piggy-backed on git rebase --interactive because that command's implementation looked already very, very familiar: it was designed by the same person who designed --preserve-merges: yours truly. Some time later, some other developer (I am looking at you, Andreas! ;-)) decided that it would be a good idea to allow --preserve-merges to be combined with --interactive (with caveats!) and the Git maintainer (well, the interim Git maintainer during Junio's absence, that is) agreed, and that is when the glamor of the --preserve-merges design started to fall apart rather quickly and unglamorously. The reason? In --preserve-merges mode, the parents of a merge commit (or for that matter, of *any* commit) were not stated explicitly, but were *implied* by the commit name passed to the `pick` command. This made it impossible, for example, to reorder commits. Not to mention to move commits between branches or, deity forbid, to split topic branches into two. Alas, these shortcomings also prevented that mode (whose original purpose was to serve Git for Windows' needs, with the additional hope that it may be useful to others, too) from serving Git for Windows' needs. Five years later, when it became really untenable to have one unwieldy, big hodge-podge patch series of partly related, partly unrelated patches in Git for Windows that was rebased onto core Git's tags from time to time (earning the undeserved wrath of the developer of the ill-fated git-remote-hg series that first obsoleted Git for Windows' competing approach, only to be abandoned without maintainer later) was really untenable, the "Git garden shears" were born [*1*/*2*]: a script, piggy-backing on top of the interactive rebase, that would first determine the branch topology of the patches to be rebased, create a pseudo todo list for further editing, transform the result into a real todo list (making heavy use of the `exec` command to "implement" the missing todo list commands) and finally recreate the patch series on top of the new base commit. That was in 2013. And it took about three weeks to come up with the design and implement it as an out-of-tree script. Needless to say, the implementation needed quite a few years to stabilize, all the while the design itself proved itself sound. With this patch, the goodness of the Git garden shears comes to `git rebase -i` itself. Passing the `--rebase-merges` option will generate a todo list that can be understood readily, and where it is obvious how to reorder commits. New branches can be introduced by inserting `label` commands and calling `merge <label>`. And once this mode will have become stable and universally accepted, we can deprecate the design mistake that was `--preserve-merges`. Link *1*: https://github.com/msysgit/msysgit/blob/master/share/msysGit/shears.sh Link *2*: https://github.com/git-for-windows/build-extra/blob/master/shears.sh Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-04-25 20:29:04 +08:00
rebase_merges=
rebase -i: introduce --rebase-merges=[no-]rebase-cousins When running `git rebase --rebase-merges` non-interactively with an ancestor of HEAD as <upstream> (or leaving the todo list unmodified), we would ideally recreate the exact same commits as before the rebase. However, if there are commits in the commit range <upstream>.. that do not have <upstream> as direct ancestor (i.e. if `git log <upstream>..` would show commits that are omitted by `git log --ancestry-path <upstream>..`), this is currently not the case: we would turn them into commits that have <upstream> as direct ancestor. Let's illustrate that with a diagram: C / \ A - B - E - F \ / D Currently, after running `git rebase -i --rebase-merges B`, the new branch structure would be (pay particular attention to the commit `D`): --- C' -- / \ A - B ------ E' - F' \ / D' This is not really preserving the branch topology from before! The reason is that the commit `D` does not have `B` as ancestor, and therefore it gets rebased onto `B`. This is unintuitive behavior. Even worse, when recreating branch structure, most use cases would appear to want cousins *not* to be rebased onto the new base commit. For example, Git for Windows (the heaviest user of the Git garden shears, which served as the blueprint for --rebase-merges) frequently merges branches from `next` early, and these branches certainly do *not* want to be rebased. In the example above, the desired outcome would look like this: --- C' -- / \ A - B ------ E' - F' \ / -- D' -- Let's introduce the term "cousins" for such commits ("D" in the example), and let's not rebase them by default. For hypothetical use cases where cousins *do* need to be rebased, `git rebase --rebase=merges=rebase-cousins` needs to be used. Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-04-25 20:29:40 +08:00
rebase_cousins=
preserve_merges=
autosquash=
keep_empty=
allow_empty_message=
signoff=
test "$(git config --bool rebase.autosquash)" = "true" && autosquash=t
case "$(git config --bool commit.gpgsign)" in
true) gpg_sign_opt=-S ;;
*) gpg_sign_opt= ;;
esac
read_basic_state () {
test -f "$state_dir/head-name" &&
test -f "$state_dir/onto" &&
rebase: refactor reading of state The code reading the state saved in $merge_dir or $rebase_dir is currently spread out in many places, making it harder to read and to introduce additional state. Extract this code into one method that reads the state. Only extract the code associated with the state that is written when the rebase is initiated. Leave the state that changes for each commmit, at least for now. Currently, when resuming a merge-based rebase using --continue or --skip, move_to_original_branch (via finish_rb_merge) will be called without head_name and orig_head set. These variables are then lazily read in move_to_original_branch if head_name is not set (together with onto, which is unnecessarily read again). Change this by always eagerly reading the state, for both am-based and merge-based rebase, in the --continue and --skip cases. Note that this does not change the behavior for am-based rebase, which read the state eagerly even before this commit. Reading the state eagerly means that part of the state will sometimes be read unnecessarily. One example is when the rebase is continued, but stops again at another merge conflict. Another example is when the rebase is aborted. However, since both of these cases involve user interaction, the delay is hopefully not noticeable. The call_merge/continue_merge loop is not affected. Helped-by: Junio C Hamano <gitster@pobox.com> Signed-off-by: Martin von Zweigbergk <martin.von.zweigbergk@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2011-02-07 02:43:31 +08:00
head_name=$(cat "$state_dir"/head-name) &&
onto=$(cat "$state_dir"/onto) &&
# We always write to orig-head, but interactive rebase used to write to
# head. Fall back to reading from head to cover for the case that the
# user upgraded git with an ongoing interactive rebase.
if test -f "$state_dir"/orig-head
then
orig_head=$(cat "$state_dir"/orig-head)
else
orig_head=$(cat "$state_dir"/head)
fi &&
GIT_QUIET=$(cat "$state_dir"/quiet) &&
test -f "$state_dir"/verbose && verbose=t
test -f "$state_dir"/strategy && strategy="$(cat "$state_dir"/strategy)"
test -f "$state_dir"/strategy_opts &&
strategy_opts="$(cat "$state_dir"/strategy_opts)"
test -f "$state_dir"/allow_rerere_autoupdate &&
allow_rerere_autoupdate="$(cat "$state_dir"/allow_rerere_autoupdate)"
test -f "$state_dir"/gpg_sign_opt &&
gpg_sign_opt="$(cat "$state_dir"/gpg_sign_opt)"
test -f "$state_dir"/signoff && {
signoff="$(cat "$state_dir"/signoff)"
force_rebase=t
}
rebase: refactor reading of state The code reading the state saved in $merge_dir or $rebase_dir is currently spread out in many places, making it harder to read and to introduce additional state. Extract this code into one method that reads the state. Only extract the code associated with the state that is written when the rebase is initiated. Leave the state that changes for each commmit, at least for now. Currently, when resuming a merge-based rebase using --continue or --skip, move_to_original_branch (via finish_rb_merge) will be called without head_name and orig_head set. These variables are then lazily read in move_to_original_branch if head_name is not set (together with onto, which is unnecessarily read again). Change this by always eagerly reading the state, for both am-based and merge-based rebase, in the --continue and --skip cases. Note that this does not change the behavior for am-based rebase, which read the state eagerly even before this commit. Reading the state eagerly means that part of the state will sometimes be read unnecessarily. One example is when the rebase is continued, but stops again at another merge conflict. Another example is when the rebase is aborted. However, since both of these cases involve user interaction, the delay is hopefully not noticeable. The call_merge/continue_merge loop is not affected. Helped-by: Junio C Hamano <gitster@pobox.com> Signed-off-by: Martin von Zweigbergk <martin.von.zweigbergk@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2011-02-07 02:43:31 +08:00
}
write_basic_state () {
echo "$head_name" > "$state_dir"/head-name &&
echo "$onto" > "$state_dir"/onto &&
echo "$orig_head" > "$state_dir"/orig-head &&
echo "$GIT_QUIET" > "$state_dir"/quiet &&
test t = "$verbose" && : > "$state_dir"/verbose
test -n "$strategy" && echo "$strategy" > "$state_dir"/strategy
test -n "$strategy_opts" && echo "$strategy_opts" > \
"$state_dir"/strategy_opts
test -n "$allow_rerere_autoupdate" && echo "$allow_rerere_autoupdate" > \
"$state_dir"/allow_rerere_autoupdate
test -n "$gpg_sign_opt" && echo "$gpg_sign_opt" > "$state_dir"/gpg_sign_opt
test -n "$signoff" && echo "$signoff" >"$state_dir"/signoff
}
output () {
case "$verbose" in
'')
output=$("$@" 2>&1 )
status=$?
test $status != 0 && printf "%s\n" "$output"
return $status
;;
*)
"$@"
;;
esac
}
move_to_original_branch () {
case "$head_name" in
refs/*)
message="rebase finished: $head_name onto $onto"
git update-ref -m "$message" \
$head_name $(git rev-parse HEAD) $orig_head &&
git symbolic-ref \
-m "rebase finished: returning to $head_name" \
HEAD $head_name ||
die "$(eval_gettext "Could not move back to \$head_name")"
;;
esac
}
apply_autostash () {
if test -f "$state_dir/autostash"
then
stash_sha1=$(cat "$state_dir/autostash")
if git stash apply $stash_sha1 >/dev/null 2>&1
then
echo "$(gettext 'Applied autostash.')" >&2
else
git stash store -m "autostash" -q $stash_sha1 ||
die "$(eval_gettext "Cannot store \$stash_sha1")"
gettext 'Applying autostash resulted in conflicts.
Your changes are safe in the stash.
You can run "git stash pop" or "git stash drop" at any time.
' >&2
fi
fi
}
finish_rebase () {
rm -f "$(git rev-parse --git-path REBASE_HEAD)"
apply_autostash &&
{ git gc --auto || true; } &&
rm -rf "$state_dir"
}
run_specific_rebase () {
if [ "$interactive_rebase" = implied ]; then
GIT_EDITOR=:
export GIT_EDITOR
autosquash=
fi
. git-rebase--$type
if test -z "$preserve_merges"
then
git_rebase__$type
else
git_rebase__preserve_merges
fi
ret=$?
if test $ret -eq 0
then
finish_rebase
elif test $ret -eq 2 # special exit status for rebase -i
then
apply_autostash &&
rm -rf "$state_dir" &&
die "Nothing to do"
fi
exit $ret
}
run_pre_rebase_hook () {
if test -z "$ok_to_skip_pre_rebase" &&
test -x "$(git rev-parse --git-path hooks/pre-rebase)"
then
"$(git rev-parse --git-path hooks/pre-rebase)" ${1+"$@"} ||
die "$(gettext "The pre-rebase hook refused to rebase.")"
fi
}
test -f "$apply_dir"/applying &&
die "$(gettext "It looks like 'git am' is in progress. Cannot rebase.")"
if test -d "$apply_dir"
then
type=am
state_dir="$apply_dir"
elif test -d "$merge_dir"
then
if test -d "$merge_dir"/rewritten
then
type=preserve-merges
interactive_rebase=explicit
preserve_merges=t
elif test -f "$merge_dir"/interactive
then
type=interactive
interactive_rebase=explicit
else
type=merge
fi
state_dir="$merge_dir"
fi
test -n "$type" && in_progress=t
total_argc=$#
while test $# != 0
do
case "$1" in
--no-verify)
ok_to_skip_pre_rebase=yes
;;
--verify)
ok_to_skip_pre_rebase=
;;
--continue|--skip|--abort|--quit|--edit-todo|--show-current-patch)
test $total_argc -eq 2 || usage
action=${1##--}
;;
--onto=*)
onto="${1#--onto=}"
;;
--exec=*)
cmd="${cmd}exec ${1#--exec=}${LF}"
test -z "$interactive_rebase" && interactive_rebase=implied
;;
--interactive)
interactive_rebase=explicit
;;
--keep-empty)
keep_empty=yes
;;
--allow-empty-message)
allow_empty_message=--allow-empty-message
;;
--no-keep-empty)
keep_empty=
;;
rebase: introduce the --rebase-merges option Once upon a time, this here developer thought: wouldn't it be nice if, say, Git for Windows' patches on top of core Git could be represented as a thicket of branches, and be rebased on top of core Git in order to maintain a cherry-pick'able set of patch series? The original attempt to answer this was: git rebase --preserve-merges. However, that experiment was never intended as an interactive option, and it only piggy-backed on git rebase --interactive because that command's implementation looked already very, very familiar: it was designed by the same person who designed --preserve-merges: yours truly. Some time later, some other developer (I am looking at you, Andreas! ;-)) decided that it would be a good idea to allow --preserve-merges to be combined with --interactive (with caveats!) and the Git maintainer (well, the interim Git maintainer during Junio's absence, that is) agreed, and that is when the glamor of the --preserve-merges design started to fall apart rather quickly and unglamorously. The reason? In --preserve-merges mode, the parents of a merge commit (or for that matter, of *any* commit) were not stated explicitly, but were *implied* by the commit name passed to the `pick` command. This made it impossible, for example, to reorder commits. Not to mention to move commits between branches or, deity forbid, to split topic branches into two. Alas, these shortcomings also prevented that mode (whose original purpose was to serve Git for Windows' needs, with the additional hope that it may be useful to others, too) from serving Git for Windows' needs. Five years later, when it became really untenable to have one unwieldy, big hodge-podge patch series of partly related, partly unrelated patches in Git for Windows that was rebased onto core Git's tags from time to time (earning the undeserved wrath of the developer of the ill-fated git-remote-hg series that first obsoleted Git for Windows' competing approach, only to be abandoned without maintainer later) was really untenable, the "Git garden shears" were born [*1*/*2*]: a script, piggy-backing on top of the interactive rebase, that would first determine the branch topology of the patches to be rebased, create a pseudo todo list for further editing, transform the result into a real todo list (making heavy use of the `exec` command to "implement" the missing todo list commands) and finally recreate the patch series on top of the new base commit. That was in 2013. And it took about three weeks to come up with the design and implement it as an out-of-tree script. Needless to say, the implementation needed quite a few years to stabilize, all the while the design itself proved itself sound. With this patch, the goodness of the Git garden shears comes to `git rebase -i` itself. Passing the `--rebase-merges` option will generate a todo list that can be understood readily, and where it is obvious how to reorder commits. New branches can be introduced by inserting `label` commands and calling `merge <label>`. And once this mode will have become stable and universally accepted, we can deprecate the design mistake that was `--preserve-merges`. Link *1*: https://github.com/msysgit/msysgit/blob/master/share/msysGit/shears.sh Link *2*: https://github.com/git-for-windows/build-extra/blob/master/shears.sh Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-04-25 20:29:04 +08:00
--rebase-merges)
rebase_merges=t
test -z "$interactive_rebase" && interactive_rebase=implied
;;
rebase -i: introduce --rebase-merges=[no-]rebase-cousins When running `git rebase --rebase-merges` non-interactively with an ancestor of HEAD as <upstream> (or leaving the todo list unmodified), we would ideally recreate the exact same commits as before the rebase. However, if there are commits in the commit range <upstream>.. that do not have <upstream> as direct ancestor (i.e. if `git log <upstream>..` would show commits that are omitted by `git log --ancestry-path <upstream>..`), this is currently not the case: we would turn them into commits that have <upstream> as direct ancestor. Let's illustrate that with a diagram: C / \ A - B - E - F \ / D Currently, after running `git rebase -i --rebase-merges B`, the new branch structure would be (pay particular attention to the commit `D`): --- C' -- / \ A - B ------ E' - F' \ / D' This is not really preserving the branch topology from before! The reason is that the commit `D` does not have `B` as ancestor, and therefore it gets rebased onto `B`. This is unintuitive behavior. Even worse, when recreating branch structure, most use cases would appear to want cousins *not* to be rebased onto the new base commit. For example, Git for Windows (the heaviest user of the Git garden shears, which served as the blueprint for --rebase-merges) frequently merges branches from `next` early, and these branches certainly do *not* want to be rebased. In the example above, the desired outcome would look like this: --- C' -- / \ A - B ------ E' - F' \ / -- D' -- Let's introduce the term "cousins" for such commits ("D" in the example), and let's not rebase them by default. For hypothetical use cases where cousins *do* need to be rebased, `git rebase --rebase=merges=rebase-cousins` needs to be used. Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-04-25 20:29:40 +08:00
--rebase-merges=*)
rebase_merges=t
case "${1#*=}" in
rebase-cousins) rebase_cousins=t;;
no-rebase-cousins) rebase_cousins=;;
*) die "Unknown mode: $1";;
esac
test -z "$interactive_rebase" && interactive_rebase=implied
;;
--preserve-merges)
preserve_merges=t
test -z "$interactive_rebase" && interactive_rebase=implied
;;
--autosquash)
autosquash=t
;;
--no-autosquash)
autosquash=
;;
--fork-point)
fork_point=t
;;
--no-fork-point)
fork_point=
;;
--merge)
do_merge=t
;;
--strategy-option=*)
strategy_opts="$strategy_opts $(git rev-parse --sq-quote "--${1#--strategy-option=}")"
do_merge=t
test -z "$strategy" && strategy=recursive
;;
--strategy=*)
strategy="${1#--strategy=}"
do_merge=t
;;
--no-stat)
diffstat=
;;
--stat)
diffstat=t
;;
--autostash)
autostash=true
;;
--no-autostash)
autostash=false
;;
--verbose)
verbose=t
diffstat=t
GIT_QUIET=
;;
--quiet)
GIT_QUIET=t
git_am_opt="$git_am_opt -q"
verbose=
diffstat=
;;
--whitespace=*)
git_am_opt="$git_am_opt --whitespace=${1#--whitespace=}"
case "${1#--whitespace=}" in
fix|strip)
force_rebase=t
;;
esac
;;
--ignore-whitespace)
git_am_opt="$git_am_opt $1"
;;
--signoff)
signoff=--signoff
;;
--no-signoff)
signoff=
;;
--committer-date-is-author-date|--ignore-date)
git_am_opt="$git_am_opt $1"
force_rebase=t
;;
-C*)
git_am_opt="$git_am_opt $1"
;;
--root)
rebase_root=t
;;
--force-rebase|--no-ff)
force_rebase=t
;;
--rerere-autoupdate|--no-rerere-autoupdate)
allow_rerere_autoupdate="$1"
;;
--gpg-sign)
gpg_sign_opt=-S
;;
--gpg-sign=*)
gpg_sign_opt="-S${1#--gpg-sign=}"
;;
--)
shift
break
;;
*)
usage
;;
esac
shift
done
test $# -gt 2 && usage
if test -n "$action"
then
test -z "$in_progress" && die "$(gettext "No rebase in progress?")"
# Only interactive rebase uses detailed reflog messages
if test -n "$interactive_rebase" && test "$GIT_REFLOG_ACTION" = rebase
then
GIT_REFLOG_ACTION="rebase -i ($action)"
export GIT_REFLOG_ACTION
fi
fi
if test "$action" = "edit-todo" && test -z "$interactive_rebase"
then
die "$(gettext "The --edit-todo action can only be used during interactive rebase.")"
fi
case "$action" in
continue)
# Sanity check
git rev-parse --verify HEAD >/dev/null ||
die "$(gettext "Cannot read HEAD")"
git update-index --ignore-submodules --refresh &&
git diff-files --quiet --ignore-submodules || {
echo "$(gettext "You must edit all merge conflicts and then
mark them as resolved using git add")"
exit 1
}
read_basic_state
run_specific_rebase
;;
skip)
output git reset --hard HEAD || exit $?
read_basic_state
run_specific_rebase
;;
abort)
git rerere clear
read_basic_state
case "$head_name" in
refs/*)
git symbolic-ref -m "rebase: aborting" HEAD $head_name ||
die "$(eval_gettext "Could not move back to \$head_name")"
;;
esac
output git reset --hard $orig_head
finish_rebase
exit
;;
quit)
exec rm -rf "$state_dir"
;;
edit-todo)
run_specific_rebase
;;
show-current-patch)
run_specific_rebase
die "BUG: run_specific_rebase is not supposed to return here"
;;
esac
# Make sure no rebase is in progress
if test -n "$in_progress"
then
state_dir_base=${state_dir##*/}
cmd_live_rebase="git rebase (--continue | --abort | --skip)"
cmd_clear_stale_rebase="rm -fr \"$state_dir\""
die "
$(eval_gettext 'It seems that there is already a $state_dir_base directory, and
I wonder if you are in the middle of another rebase. If that is the
case, please try
$cmd_live_rebase
If that is not the case, please
$cmd_clear_stale_rebase
and run me again. I am stopping in case you still have something
valuable there.')"
fi
if test -n "$rebase_root" && test -z "$onto"
then
test -z "$interactive_rebase" && interactive_rebase=implied
fi
if test -n "$keep_empty"
then
test -z "$interactive_rebase" && interactive_rebase=implied
fi
if test -n "$interactive_rebase"
then
if test -z "$preserve_merges"
then
type=interactive
else
type=preserve-merges
fi
state_dir="$merge_dir"
elif test -n "$do_merge"
then
type=merge
state_dir="$merge_dir"
else
type=am
state_dir="$apply_dir"
fi
if test -t 2 && test -z "$GIT_QUIET"
then
git_format_patch_opt="$git_format_patch_opt --progress"
fi
if test -n "$signoff"
then
test -n "$preserve_merges" &&
die "$(gettext "error: cannot combine '--signoff' with '--preserve-merges'")"
git_am_opt="$git_am_opt $signoff"
force_rebase=t
fi
if test -z "$rebase_root"
then
case "$#" in
0)
if ! upstream_name=$(git rev-parse --symbolic-full-name \
--verify -q @{upstream} 2>/dev/null)
then
. git-parse-remote
error_on_missing_default_upstream "rebase" "rebase" \
"against" "git rebase $(gettext '<branch>')"
fi
test "$fork_point" = auto && fork_point=t
;;
*) upstream_name="$1"
if test "$upstream_name" = "-"
then
upstream_name="@{-1}"
fi
shift
;;
esac
upstream=$(peel_committish "${upstream_name}") ||
die "$(eval_gettext "invalid upstream '\$upstream_name'")"
upstream_arg="$upstream_name"
else
if test -z "$onto"
then
empty_tree=$(git hash-object -t tree /dev/null)
onto=$(git commit-tree $empty_tree </dev/null)
squash_onto="$onto"
fi
unset upstream_name
unset upstream
test $# -gt 1 && usage
upstream_arg=--root
fi
# Make sure the branch to rebase onto is valid.
onto_name=${onto-"$upstream_name"}
case "$onto_name" in
*...*)
if left=${onto_name%...*} right=${onto_name#*...} &&
onto=$(git merge-base --all ${left:-HEAD} ${right:-HEAD})
then
case "$onto" in
?*"$LF"?*)
die "$(eval_gettext "\$onto_name: there are more than one merge bases")"
;;
'')
die "$(eval_gettext "\$onto_name: there is no merge base")"
;;
esac
else
die "$(eval_gettext "\$onto_name: there is no merge base")"
fi
;;
*)
onto=$(peel_committish "$onto_name") ||
die "$(eval_gettext "Does not point to a valid commit: \$onto_name")"
;;
esac
# If the branch to rebase is given, that is the branch we will rebase
# $branch_name -- branch/commit being rebased, or HEAD (already detached)
# $orig_head -- commit object name of tip of the branch before rebasing
# $head_name -- refs/heads/<that-branch> or "detached HEAD"
switch_to=
case "$#" in
1)
# Is it "rebase other $branchname" or "rebase other $commit"?
branch_name="$1"
switch_to="$1"
# Is it a local branch?
if git show-ref --verify --quiet -- "refs/heads/$branch_name" &&
orig_head=$(git rev-parse -q --verify "refs/heads/$branch_name")
then
head_name="refs/heads/$branch_name"
# If not is it a valid ref (branch or commit)?
elif orig_head=$(git rev-parse -q --verify "$branch_name")
then
head_name="detached HEAD"
else
die "$(eval_gettext "fatal: no such branch/commit '\$branch_name'")"
fi
;;
0)
# Do not need to switch branches, we are already on it.
if branch_name=$(git symbolic-ref -q HEAD)
then
head_name=$branch_name
branch_name=$(expr "z$branch_name" : 'zrefs/heads/\(.*\)')
else
head_name="detached HEAD"
branch_name=HEAD
fi
orig_head=$(git rev-parse --verify HEAD) || exit
;;
*)
die "BUG: unexpected number of arguments left to parse"
;;
esac
if test "$fork_point" = t
then
new_upstream=$(git merge-base --fork-point "$upstream_name" \
"${switch_to:-HEAD}")
if test -n "$new_upstream"
then
rebase: omit patch-identical commits with --fork-point When the `--fork-point` argument was added to `git rebase`, we changed the value of $upstream to be the fork point instead of the point from which we want to rebase. When $orig_head..$upstream is empty this does not change the behaviour, but when there are new changes in the upstream we are no longer checking if any of them are patch-identical with changes in $upstream..$orig_head. Fix this by introducing a new variable to hold the fork point and using this to restrict the range as an extra (negative) revision argument so that the set of desired revisions becomes (in fork-point mode): git rev-list --cherry-pick --right-only \ $upstream...$orig_head ^$fork_point This allows us to correctly handle the scenario where we have the following topology: C --- D --- E <- dev / B <- master@{1} / o --- B' --- C* --- D* <- master where: - B' is a fixed-up version of B that is not patch-identical with B; - C* and D* are patch-identical to C and D respectively and conflict textually if applied in the wrong order; - E depends textually on D. The correct result of `git rebase master dev` is that B is identified as the fork-point of dev and master, so that C, D, E are the commits that need to be replayed onto master; but C and D are patch-identical with C* and D* and so can be dropped, so that the end result is: o --- B' --- C* --- D* --- E <- dev If the fork-point is not identified, then picking B onto a branch containing B' results in a conflict and if the patch-identical commits are not correctly identified then picking C onto a branch containing D (or equivalently D*) results in a conflict. This change allows us to handle both of these cases, where previously we either identified the fork-point (with `--fork-point`) but not the patch-identical commits *or* (with `--no-fork-point`) identified the patch-identical commits but not the fact that master had been rewritten. Reported-by: Ted Felix <ted@tedfelix.com> Signed-off-by: John Keeping <john@keeping.me.uk> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2014-07-17 03:23:49 +08:00
restrict_revision=$new_upstream
fi
fi
if test "$autostash" = true && ! (require_clean_work_tree) 2>/dev/null
then
stash_sha1=$(git stash create "autostash") ||
die "$(gettext 'Cannot autostash')"
mkdir -p "$state_dir" &&
echo $stash_sha1 >"$state_dir/autostash" &&
stash_abbrev=$(git rev-parse --short $stash_sha1) &&
echo "$(eval_gettext 'Created autostash: $stash_abbrev')" &&
git reset --hard
fi
require_clean_work_tree "rebase" "$(gettext "Please commit or stash them.")"
# Now we are rebasing commits $upstream..$orig_head (or with --root,
# everything leading up to $orig_head) on top of $onto
# Check if we are already based on $onto with linear history,
# but this should be done only when upstream and onto are the same
# and if this is not an interactive rebase.
mb=$(git merge-base "$onto" "$orig_head")
if test -z "$interactive_rebase" && test "$upstream" = "$onto" &&
rebase: omit patch-identical commits with --fork-point When the `--fork-point` argument was added to `git rebase`, we changed the value of $upstream to be the fork point instead of the point from which we want to rebase. When $orig_head..$upstream is empty this does not change the behaviour, but when there are new changes in the upstream we are no longer checking if any of them are patch-identical with changes in $upstream..$orig_head. Fix this by introducing a new variable to hold the fork point and using this to restrict the range as an extra (negative) revision argument so that the set of desired revisions becomes (in fork-point mode): git rev-list --cherry-pick --right-only \ $upstream...$orig_head ^$fork_point This allows us to correctly handle the scenario where we have the following topology: C --- D --- E <- dev / B <- master@{1} / o --- B' --- C* --- D* <- master where: - B' is a fixed-up version of B that is not patch-identical with B; - C* and D* are patch-identical to C and D respectively and conflict textually if applied in the wrong order; - E depends textually on D. The correct result of `git rebase master dev` is that B is identified as the fork-point of dev and master, so that C, D, E are the commits that need to be replayed onto master; but C and D are patch-identical with C* and D* and so can be dropped, so that the end result is: o --- B' --- C* --- D* --- E <- dev If the fork-point is not identified, then picking B onto a branch containing B' results in a conflict and if the patch-identical commits are not correctly identified then picking C onto a branch containing D (or equivalently D*) results in a conflict. This change allows us to handle both of these cases, where previously we either identified the fork-point (with `--fork-point`) but not the patch-identical commits *or* (with `--no-fork-point`) identified the patch-identical commits but not the fact that master had been rewritten. Reported-by: Ted Felix <ted@tedfelix.com> Signed-off-by: John Keeping <john@keeping.me.uk> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2014-07-17 03:23:49 +08:00
test "$mb" = "$onto" && test -z "$restrict_revision" &&
# linear history?
! (git rev-list --parents "$onto".."$orig_head" | sane_grep " .* ") > /dev/null
then
if test -z "$force_rebase"
then
# Lazily switch to the target branch if needed...
test -z "$switch_to" ||
GIT_REFLOG_ACTION="$GIT_REFLOG_ACTION: checkout $switch_to" \
git checkout -q "$switch_to" --
if test "$branch_name" = "HEAD" &&
! git symbolic-ref -q HEAD
then
say "$(eval_gettext "HEAD is up to date.")"
else
say "$(eval_gettext "Current branch \$branch_name is up to date.")"
fi
finish_rebase
exit 0
else
if test "$branch_name" = "HEAD" &&
! git symbolic-ref -q HEAD
then
say "$(eval_gettext "HEAD is up to date, rebase forced.")"
else
say "$(eval_gettext "Current branch \$branch_name is up to date, rebase forced.")"
fi
fi
fi
# If a hook exists, give it a chance to interrupt
run_pre_rebase_hook "$upstream_arg" "$@"
if test -n "$diffstat"
then
if test -n "$verbose"
then
echo "$(eval_gettext "Changes from \$mb to \$onto:")"
fi
# We want color (if set), but no pager
GIT_PAGER='' git diff --stat --summary "$mb" "$onto"
fi
test -n "$interactive_rebase" && run_specific_rebase
# Detach HEAD and reset the tree
say "$(gettext "First, rewinding head to replay your work on top of it...")"
GIT_REFLOG_ACTION="$GIT_REFLOG_ACTION: checkout $onto_name" \
git checkout -q "$onto^0" || die "could not detach HEAD"
git update-ref ORIG_HEAD $orig_head
# If the $onto is a proper descendant of the tip of the branch, then
# we just fast-forwarded.
if test "$mb" = "$orig_head"
then
say "$(eval_gettext "Fast-forwarded \$branch_name to \$onto_name.")"
move_to_original_branch
finish_rebase
exit 0
fi
if test -n "$rebase_root"
then
revisions="$onto..$orig_head"
else
rebase: omit patch-identical commits with --fork-point When the `--fork-point` argument was added to `git rebase`, we changed the value of $upstream to be the fork point instead of the point from which we want to rebase. When $orig_head..$upstream is empty this does not change the behaviour, but when there are new changes in the upstream we are no longer checking if any of them are patch-identical with changes in $upstream..$orig_head. Fix this by introducing a new variable to hold the fork point and using this to restrict the range as an extra (negative) revision argument so that the set of desired revisions becomes (in fork-point mode): git rev-list --cherry-pick --right-only \ $upstream...$orig_head ^$fork_point This allows us to correctly handle the scenario where we have the following topology: C --- D --- E <- dev / B <- master@{1} / o --- B' --- C* --- D* <- master where: - B' is a fixed-up version of B that is not patch-identical with B; - C* and D* are patch-identical to C and D respectively and conflict textually if applied in the wrong order; - E depends textually on D. The correct result of `git rebase master dev` is that B is identified as the fork-point of dev and master, so that C, D, E are the commits that need to be replayed onto master; but C and D are patch-identical with C* and D* and so can be dropped, so that the end result is: o --- B' --- C* --- D* --- E <- dev If the fork-point is not identified, then picking B onto a branch containing B' results in a conflict and if the patch-identical commits are not correctly identified then picking C onto a branch containing D (or equivalently D*) results in a conflict. This change allows us to handle both of these cases, where previously we either identified the fork-point (with `--fork-point`) but not the patch-identical commits *or* (with `--no-fork-point`) identified the patch-identical commits but not the fact that master had been rewritten. Reported-by: Ted Felix <ted@tedfelix.com> Signed-off-by: John Keeping <john@keeping.me.uk> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2014-07-17 03:23:49 +08:00
revisions="${restrict_revision-$upstream}..$orig_head"
fi
run_specific_rebase