Conflicts
Overview
Teaching: 45 min
Exercises: 0 minQuestions
What do I do when my changes conflict with someone else’s?
Objectives
Explain what conflicts are and when they can occur.
Resolve conflicts resulting from a merge.
As soon as people can work in parallel, they’ll likely step on each other’s toes. This will even happen with a single person: if we are working on a piece of software on both our laptop and a server in the lab, we could make different changes to each copy. Version control helps us manage these conflicts by giving us tools to resolve overlapping changes.
To see how we can resolve conflicts, we must first create one. The file
user-input.sh
currently looks like this in both partners’ copies of our shell-script
repository:
$ cat user-input.sh
echo "What is your name?"
read name
echo "Hello $name."
Let’s add a line to the collaborator’s copy only:
$ nano user-input.sh
$ cat user-input.sh
echo "What is your name?"
read name
echo "Hello $name."
#the read command requests user input, we use `$` to recall the variable established by `read`
#this line is added by collaborator
and then push the change to GitHub:
$ git add user-input.sh
$ git commit -m "Add a line in our home copy"
[main 5ae9631] Add a line in our home copy
1 file changed, 1 insertion(+)
$ git push origin main
Enumerating objects: 5, done.
Counting objects: 100% (5/5), done.
Delta compression using up to 8 threads
Compressing objects: 100% (3/3), done.
Writing objects: 100% (3/3), 331 bytes | 331.00 KiB/s, done.
Total 3 (delta 2), reused 0 (delta 0)
remote: Resolving deltas: 100% (2/2), completed with 2 local objects.
To https://github.com/user/shell-script.git
29aba7c..dabb4c8 main -> main
Now let’s have the owner make a different change to their copy without updating from GitHub:
$ nano user-input.sh
$ cat user-input.sh
echo "What is your name?"
read name
echo "Hello $name."
#the read command requests user input, we use `$` to recall the variable established by `read`
#this line is added by Owner
We can commit the change locally:
$ git add user-input.sh
$ git commit -m "Add a line in my copy"
[main 07ebc69] Add a line in my copy
1 file changed, 1 insertion(+)
but Git won’t let us push it to GitHub:
$ git push origin main
To https://github.com/user/shell-script.git
! [rejected] main -> main (fetch first)
error: failed to push some refs to 'https://github.com/user/shell-script.git'
hint: Updates were rejected because the remote contains work that you do
hint: not have locally. This is usually caused by another repository pushing
hint: to the same ref. You may want to first integrate the remote changes
hint: (e.g., 'git pull ...') before pushing again.
hint: See the 'Note about fast-forwards' in 'git push --help' for details.
Git rejects the push because it detects that the remote repository has new updates that have not been incorporated into the local branch. What we have to do is pull the changes from GitHub, merge them into the copy we’re currently working in, and then push that. Let’s start by pulling:
$ git pull origin main
remote: Enumerating objects: 5, done.
remote: Counting objects: 100% (5/5), done.
remote: Compressing objects: 100% (1/1), done.
remote: Total 3 (delta 2), reused 3 (delta 2), pack-reused 0
Unpacking objects: 100% (3/3), done.
From https://github.com/user/shell-script
* branch main -> FETCH_HEAD
29aba7c..dabb4c8 main -> origin/main
Auto-merging user-input.sh
CONFLICT (content): Merge conflict in user-input.sh
Automatic merge failed; fix conflicts and then commit the result.
The git pull
command updates the local repository to include those
changes already included in the remote repository.
After the changes from remote branch have been fetched, Git detects that changes made to the local copy
overlap with those made to the remote repository, and therefore refuses to merge the two versions to
stop us from trampling on our previous work. The conflict is marked in
in the affected file:
$ cat user-input.sh
echo "What is your name?"
read name
echo "Hello $name."
#the read command requests user input, we use `$` to recall the variable established by `read`
<<<<<<< HEAD
We added a different line in the other copy
=======
This line added to their copy
>>>>>>> dabb4c8c450e8475aee9b14b4383acc99f42af1d
Our change is preceded by <<<<<<< HEAD
.
Git has then inserted =======
as a separator between the conflicting changes
and marked the end of the content downloaded from GitHub with >>>>>>>
.
(The string of letters and digits after that marker
identifies the commit we’ve just downloaded.)
It is now up to us to edit this file to remove these markers and reconcile the changes. We can do anything we want: keep the change made in the local repository, keep the change made in the remote repository, write something new to replace both, or get rid of the change entirely. Let’s replace both so that the file looks like this:
$ cat user-input.sh
echo "What is your name?"
read name
echo "Hello $name."
#the read command requests user input, we use `$` to recall the variable established by `read`
#We removed the conflict on this line
To finish merging,
we add user-input.sh
to the changes being made by the merge
and then commit:
$ git add user-input.sh
$ git status
On branch main
All conflicts fixed but you are still merging.
(use "git commit" to conclude merge)
Changes to be committed:
modified: user-input.sh
$ git commit -m "Merge changes from GitHub"
[main 2abf2b1] Merge changes from GitHub
Now we can push our changes to GitHub:
$ git push origin main
Enumerating objects: 10, done.
Counting objects: 100% (10/10), done.
Delta compression using up to 8 threads
Compressing objects: 100% (6/6), done.
Writing objects: 100% (6/6), 645 bytes | 645.00 KiB/s, done.
Total 6 (delta 4), reused 0 (delta 0)
remote: Resolving deltas: 100% (4/4), completed with 2 local objects.
To https://github.com/user/shell-script.git
dabb4c8..2abf2b1 main -> main
Git keeps track of what we’ve merged with what, so we don’t have to fix things by hand again when the collaborator who made the first change pulls again:
$ git pull origin main
remote: Enumerating objects: 10, done.
remote: Counting objects: 100% (10/10), done.
remote: Compressing objects: 100% (2/2), done.
remote: Total 6 (delta 4), reused 6 (delta 4), pack-reused 0
Unpacking objects: 100% (6/6), done.
From https://github.com/user/shell-script
* branch main -> FETCH_HEAD
dabb4c8..2abf2b1 main -> origin/main
Updating dabb4c8..2abf2b1
Fast-forward
user-input.sh | 2 +-
1 file changed, 1 insertion(+), 1 deletion(-)
We get the merged file:
$ cat user-input.sh
echo "What is your name?"
read name
echo "Hello $name."
#the read command requests user input, we use `$` to recall the variable established by `read`
#We removed the conflict on this line
We don’t need to merge again because Git knows someone has already done that.
Git’s ability to resolve conflicts is very useful, but conflict resolution costs time and effort, and can introduce errors if conflicts are not resolved correctly. If you find yourself resolving a lot of conflicts in a project, consider these technical approaches to reducing them:
- Pull from upstream more frequently, especially before starting new work
- Use topic branches to segregate work, merging to main when complete
- Make smaller more atomic commits
- Where logically appropriate, break large files into smaller ones so that it is less likely that two authors will alter the same file simultaneously
Conflicts can also be minimized with project management strategies:
- Clarify who is responsible for what areas with your collaborators
- Discuss what order tasks should be carried out in with your collaborators so that tasks expected to change the same lines won’t be worked on simultaneously
- If the conflicts are stylistic churn (e.g. tabs vs. spaces), establish a
project convention that is governing and use code style tools (e.g.
htmltidy
,perltidy
,rubocop
, etc.) to enforce, if necessary
Solving Conflicts that You Create
Clone the repository created by your instructor. Add a new file to it, and modify an existing file (your instructor will tell you which one). When asked by your instructor, pull her changes from the repository to create a conflict, then resolve it.
Conflicts on Non-textual files
What does Git do when there is a conflict in an image or some other non-textual file that is stored in version control?
Solution
Let’s try it. Suppose We takes a picture and calls it example files,
ex-files.jpg
.If you do not have an image file of ex-files available, you can create a dummy binary file like this:
$ head -c 1024 /dev/urandom > ex-files.jpg $ ls -lh ex-files.jpg
-rw-r--r-- 1 user 57095 1.0K Mar 8 20:24 ex-files.jpg
ls
shows us that this created a 1-kilobyte file. It is full of random bytes read from the special file,/dev/urandom
.Now, suppose we add
ex-files.jpg
to our repository:$ git add ex-files.jpg $ git commit -m "Add picture of Martian surface"
[main 8e4115c] Add picture of Martian surface 1 file changed, 0 insertions(+), 0 deletions(-) create mode 100644 ex-files.jpg
Suppose that our collaborator has added a similar picture in the meantime. Theirs is a picture of the Martian sky, but it is also called
ex-files.jpg
. When We tried to push, they gets a familiar message:$ git push origin main
To https://github.com/user/shell-script.git ! [rejected] main -> main (fetch first) error: failed to push some refs to 'https://github.com/user/shell-script.git' hint: Updates were rejected because the remote contains work that you do hint: not have locally. This is usually caused by another repository pushing hint: to the same ref. You may want to first integrate the remote changes hint: (e.g., 'git pull ...') before pushing again. hint: See the 'Note about fast-forwards' in 'git push --help' for details.
We’ve learned that we must pull first and resolve any conflicts:
$ git pull origin main
When there is a conflict on an image or other binary file, git prints a message like this:
$ git pull origin main remote: Counting objects: 3, done. remote: Compressing objects: 100% (3/3), done. remote: Total 3 (delta 0), reused 0 (delta 0) Unpacking objects: 100% (3/3), done. From https://github.com/user/shell-script.git * branch main -> FETCH_HEAD 6a67967..439dc8c main -> origin/main warning: Cannot merge binary files: ex-files.jpg (HEAD vs. 439dc8c08869c342438f6dc4a2b615b05b93c76e) Auto-merging ex-files.jpg CONFLICT (add/add): Merge conflict in ex-files.jpg Automatic merge failed; fix conflicts and then commit the result.
The conflict message here is mostly the same as it was for
user-input.sh
, but there is one key additional line:warning: Cannot merge binary files: ex-files.jpg (HEAD vs. 439dc8c08869c342438f6dc4a2b615b05b93c76e)
Git cannot automatically insert conflict markers into an image as it does for text files. So, instead of editing the image file, we must check out the version we want to keep. Then we can add and commit this version.
On the key line above, Git has conveniently given us commit identifiers for the two versions of
ex-files.jpg
. Our version isHEAD
, and their version is439dc8c0...
. If we want to use our version, we can usegit checkout
:$ git checkout HEAD ex-files.jpg $ git add ex-files.jpg $ git commit -m "Use image of surface instead of sky"
[main 21032c3] Use image of surface instead of sky
If instead we want to use their version, we can use
git checkout
with their commit identifier,439dc8c0
:$ git checkout 439dc8c0 ex-files.jpg $ git add ex-files.jpg $ git commit -m "Use image of sky instead of surface"
[main da21b34] Use image of sky instead of surface
We can also keep both images. The catch is that we cannot keep them under the same name. But, we can check out each version in succession and rename it, then add the renamed versions. First, check out each image and rename it:
$ git checkout HEAD ex-files.jpg $ git mv ex-files.jpg ex-files02.jpg $ git checkout 439dc8c0 ex-files.jpg $ mv ex-files.jpg ex-files01.jpg
Then, remove the old
ex-files.jpg
and add the two new files:$ git rm ex-files.jpg $ git add ex-files02.jpg $ git add ex-files01.jpg $ git commit -m "Use two images: surface and sky"
[main 94ae08c] Use two images: surface and sky 2 files changed, 0 insertions(+), 0 deletions(-) create mode 100644 ex-files01.jpg rename ex-files.jpg => ex-files02.jpg (100%)
Now both images of ex-files are checked into the repository, and
ex-files.jpg
no longer exists.
A Typical Work Session
You sit down at your computer to work on a shared project that is tracked in a remote Git repository. During your work session, you take the following actions, but not in this order:
- Make changes by appending the number
100
to a text filenumbers.txt
- Update remote repository to match the local repository
- Celebrate your success with some fancy beverage(s)
- Update local repository to match the remote repository
- Stage changes to be committed
- Commit changes to the local repository
In what order should you perform these actions to minimize the chances of conflicts? Put the commands above in order in the action column of the table below. When you have the order right, see if you can write the corresponding commands in the command column. A few steps are populated to get you started.
order action . . . . . . . . . . command . . . . . . . . . . 1 2 echo 100 >> numbers.txt
3 4 5 6 Celebrate! AFK
Solution
order action . . . . . . command . . . . . . . . . . . . . . . . . . . 1 Update local git pull origin main
2 Make changes echo 100 >> numbers.txt
3 Stage changes git add numbers.txt
4 Commit changes git commit -m "Add 100 to numbers.txt"
5 Update remote git push origin main
6 Celebrate! AFK
Key Points
Conflicts occur when two or more people change the same lines of the same file.
The version control system does not allow people to overwrite each other’s changes blindly, but highlights conflicts so that they can be resolved.