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I've been using Perforce for a number of years. I'd like to switch to using git for my personal code, but all of the git tutorials that I've seen either assume that you'e a complete source control n00b (which makes them incredibly tedious) or that you're used to svn (which I'm not).

I know p4, and I also understand the idea behind a distributed source control system (so I don't need a sales pitch, thanks). What I'd like is a translation table from p4 command to equivalent git commands, as well as the "can't live without" commands that have no p4 equivalent.

Since I suspect every p4 user uses a different subset of p4, here are some of the things I regularly do in p4 that I'd like to be able to do in git that aren't immediately obvious from the docs I've looked at:

  1. create multiple pending changelists in a single client. (p4 change)
  2. edit a pending changelist. (also p4 change)
  3. see a list of all of my pending changelists (p4 changes -s pending)
  4. list of all of the changed files in my client (p4 opened) or in a pending changelist (p4 describe)
  5. see a diff of a pending changelist (I use a wrapper script for this which uses p4 diff and p4 describe)
  6. for a given file, see which submitted changelists affected which lines (p4 annotate)
  7. for a given file, see a list of the descriptions of the changelists that affected the file (p4 log)
  8. submit a pending changelist (p4 submit -c)
  9. abort a pending changelist (p4 revert)

A lot of these revolve around "changelists". "changelist" is p4 terminology. What's the git equivalent term?

It sounds like branches might be what git users use in place of what p4 calls changelists. A bit confusing, since p4 also has something called a branch though they seem to be only vaguely related concepts. (Though I always thought p4's concept of a branch was pretty weird it is different yet again from the classic RCS concept of a branch.)

Anyway... I'm not sure how to accomplish what I normally do in p4 changelists with git's branches. In p4 I can do something like this:

$ p4 edit a.txt
$ p4 change a.txt
Change 12345 created.

At this point I have a changlist that contains a.txt. I can edit the description and continue working without submitting the changelist. Also, if it turns out that I need to make some changes to some other files, like say a bugfix in some other layer of the code, I can do that in the same client:

$ p4 edit z.txt
$ p4 change z.txt
Change 12346 created.

Now I have two separate changelists in the same client. I can work on these concurrently, and I don't need to do anything to "switch between" them. When it comes time to commit, I can submit them separately:

$ p4 submit -c 12346  # this will submit the changes to z.txt
$ p4 submit -c 12345  # this will submit the changes to a.txt

I can't figure out how to replicate this in git. From my experiments, it doesn't appear that git add is associated with the current branch. As far as I can tell, when I git commit it's going to commit all files that I git add-ed no matter what branch I was in at the time:

$ git init
Initialized empty Git repository in /home/laurence/git-playground/.git/
$ ls
a.txt  w.txt  z.txt
$ git add -A .
$ git commit
 Initial commit.
 3 files changed, 3 insertions(+), 0 deletions(-)
 create mode 100644 a.txt
 create mode 100644 w.txt
 create mode 100644 z.txt
$ vi a.txt z.txt 
2 files to edit
$ git status
# On branch master
# Changed but not updated:
#   (use "git add <file>..." to update what will be committed)
#   (use "git checkout -- <file>..." to discard changes in working directory)
#
#   modified:   a.txt
#   modified:   z.txt
#
no changes added to commit (use "git add" and/or "git commit -a")
$ git branch aardvark
$ git checkout aardvark
M   a.txt
M   z.txt
Switched to branch 'aardvark'
$ git add a.txt 
$ git checkout master
M   a.txt
M   z.txt
Switched to branch 'master'
$ git branch zebra
$ git checkout zebra
M   a.txt
M   z.txt
Switched to branch 'zebra'
$ git add z.txt 
$ git status
# On branch zebra
# Changes to be committed:
#   (use "git reset HEAD <file>..." to unstage)
#
#   modified:   a.txt
#   modified:   z.txt
#
$ git checkout aardvark
M   a.txt
M   z.txt
Switched to branch 'aardvark'
$ git status
# On branch aardvark
# Changes to be committed:
#   (use "git reset HEAD <file>..." to unstage)
#
#   modified:   a.txt
#   modified:   z.txt

In this example, the aardvark and zebra branches seem to contain exactly the same set of changes, and based on the output of git status it appears that doing a commit in either will have the same effect. Am I doing something wrong?

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2  
You could just use perforce for your personal code assuming the free 5 clients is enough. –  Logan Capaldo Sep 7 '10 at 22:16
2  
That's what I'd been doing, but I'd like to switch to something that's open-source and also used by open-source projects. I've been considering both git and Mercurial. I've been leaning towards git because it seems to have more momentum. –  Laurence Gonsalves Sep 8 '10 at 21:42
    
You'd do better to learn Git from scratch. The workflow prescribed by Git is very different to the workflow prescribed by Perforce. Translated workflows will be awkward, and trying to equate features will confound your understanding. Fortunately, the Git community offers a wealth of documentation for beginners, eg. git-scm.com/book –  Colonel Panic Mar 12 '13 at 14:43
    
@ColonelPanic I can see your point, but the problem with such documentation is that it wastes time explaining things basic things that every Perforce user would already know. Reading such documentation is just as annoying as trying to read a tutorial on another programming language that spends a chapter explaining what variables are. –  Laurence Gonsalves Mar 13 '13 at 17:59
    
@ColonelPanic That said, I did read some other git documentation, including Git From the Bottom Up and Git for Computer Scientists that were actually quite useful. I've been using Git for a few years now (note when this question was originally asked), and I feel like the main problems with learning git are not lack of documentation, but poor nomenclature, internal inconsistency, badly overloaded commands, and certain unfinished parts that aren't ready for real use. I kind of wish someone would go and clean up all of the cruft, but that would annoy those who've grown used to it. –  Laurence Gonsalves Mar 13 '13 at 18:11

5 Answers 5

up vote 49 down vote accepted

I haven't used perforce much so this may not be exactly be a 1:1 translation. Then again distributed source control systems like git and mercurial have a different workflow anyway so there really isn't (and there shouldn't) be a 1:1 translation. Anyway, here goes:

  • Create multiple pending changelists -> Use branches instead. In git branches are light and quick, takes less than a second to create and typically less than two seconds to merge. Don't be afraid of branching and rebase often.

    git branch new-branch-name
    git checkout new-branch-name
    

    Or do it all in one line:

    git checkout -b new-branch-name
    
  • See a list of all pending changelists -> Since the equivalent of multiple pending changelist is multiple branches just view the branches:

    git branch
    

    If you want to view remote branches as well:

    git branch -a
    

    It is considered good practice to immediately delete a branch after a successful merge so you don't have to keep track of which branch are pending to be merged and which have already been merged.

  • List all changed files -> For a single pending "changelist" in a specific branch git has a concept of the index or cache. In order to commit a change you must first add files to this index. This allows you to manually select which group of files represent a single change or to ignore irrelevant files. To see the status of which files are added, or not to this index just do:

    git status
    
  • See a diff of a pending changelist -> There are two parts to this. First to see a diff between the working directory and the index:

    git diff
    

    But if you want to know the diff between what you're typing now and the last commit then you are really asking for a diff between the working directory+index and the HEAD:

    git diff HEAD
    
  • For a given file, see which submitted changelists affected which lines -> This is easy:

    git blame filename
    

    or even better, if you are in a windowing environment:

    git gui blame filename
    

    Git gui takes longer to parse the file (it was written in tcl instead of C) but it has lots of neat features including the ability to "time travel" back into the past by clicking on a commit ID. I only wish they'd implement a feature to "time travel" to the future so I can find out how a given bug will finally be resolved ;-)

  • For a given file, see a list of the descriptions of the changelists that affected the file -> also easy:

    git log filename
    

    But git log is a much more powerful tool than just this. In fact most of my personal scripts piggyback off-of git log to read the repository. Read the man page.

  • Submit a pending changelist -> Also easy:

    git commit
    

See my answer to a previous question to see my typical git workflow: http://stackoverflow.com/questions/3558036/learning-git-need-to-know-if-i-am-on-the-right-track/3558626#3558626

If you follow the workflow I outlined then you'll find tools like gitk to be much more valuable since it allows you to clearly see groups of changes.


Additional answer:

Git is very flexible and there are several ways to do what you describe. The thing to remember is to always start a new branch for each feature you're working on. This means the master branch isn't touched so you can always go back to it to do bug fixes. Working in git one should almost always start with:

git checkout -b new-feature-a

Now you can edit file a.txt. To work concurrently on another feature do:

git checkout master
git checkout -b new-feature-z

Now you can edit file z.txt. To switch back to a.txt:

git checkout new-feature-a

But wait, there are changes to new-feature-z and git won't let you switch branches. At this point you have two choices. The first is the simplest, commit all changes to the current branch:

git add .
git commit
git checkout new-feature-a

This is what I'd recommend. But if you are really not ready to commit the code, you can temporarily stash it:

git stash

Now you can switch to branch new-feature-a. To go back to the code you were working on just pop the stash:

git checkout new-feature-z
git stash pop

When all is done merge back all changes to master:

git merge --no-ff new-feature-a
git merge --no-ff new-feature-z

Because merges are so quick and easy (easy because conflicts are so rare and conflict resolution, when one does happen, not too hard) we use branches in git for everything.

Here's another example of a common use of branches in git that you don't see in other source control tools (except perhaps mercurial):

Need to keep changing your config files to reflect your dev environment? Then use a branch:

git checkout -b dev-config

Now edit your config files in your favourite editor then commit changes:

git add .
git commit

Now every new branch can start from the dev-config branch instead of master:

git checkout dev-config
git checkout -b new-feature-branch

Once you're done remove the edits in dev-config from new-feature-branch using interactive rebase:

git rebase -i master

Delete the commits you don't want then save. Now you have a clean branch without custom config edits. Time to merge back to master:

git checkout master
git merge --no-ff new-feature-branch
# because master have changed, it's a good idea to rebase dev-config:
git checkout dev-config
git rebase master

It should be noted that removing edits with git rebase -i even works when all changes happen in the same file. Git remembers changes, not file content*.

*note: actually, technically not entirely true but as a user that's what it feels like


More additional answer:

So, from you comments it looks like you want to have two branches to exist simultaneously so you can test how the combined code works. Well, this is a good way to illustrate the power and flexibility of branches.

First, a word on the implication of cheap branching and modifiable history on your workflow. When I was using CVS and SVN I was always a bit reluctant to commit. That's because committing unstable code would inevitably f**k up other people's working code. But with git I lost that fear. That's because in git other people won't get my changes until I merge them to master. So now I find myself committing code every 5 lines I write. You don't need perfect foresight to commit. You just need to change your mindset: commit-to-branch==add-to-changeset, merge-to-master==commit-changeset.

So, back to examples. Here's how I would do it. Say you have a branch new-feature-z and you want to test it with new-feature-a. I would just create a new branch to test it:

# assume we are currently in branch new-feature-z
# branch off this branch for testing
git checkout -b feature-z-and-feature-a
# now temporarily merge new-feature-a
git merge --no-ff new-feature-a

Now you can test. If you need to modify something to make feature-z work with feature-a then do so. If so you can merge back the changes to the relevant branch. Use git rebase -i to remove irrelevant changes from the merge.

Alternatively, you can also use git rebase to temporarily change the base of new-feature-z to point to new-feature-a:

# assume we are currently in branch new-feature-z
git rebase new-feature-a

Now the branch history is modified so that new-feature-z will be based off new-feature-a instead of master. Now you can test. Any changes committed in this branch will belong to the branch new-feature-z. If you need to modify new-feature-a just switch back to it and the rebase to get the new changes:

git checkout new-feature-a
# edit code, add, commit etc..
git checkout new-feature-z
git rebase new-feature-a
# now new-feature-z will contain new changes from new-feature-a

When you're done, simply rebase back to master to remove changes from new-feature-a:

# assume we are currently in branch new-feature-z
git rebase master

Don't be afraid to start a new branch. Don't be afraid to start a throwaway branch. Don't be afraid to throw away branches. And since merge==submit and commit==add-to-changeset don't be afraid to commit often. Remember, commit is a developer's ultimate undo tool.

Oh, and another thing, in git deleted branches still exist in your repository. So if you've accidentally deleted something that you later realise is useful after all you can always get it back by searching the history. So don't be afraid to throw away branches.

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1  
Does each branch have its own "index", or is there a single index shared between the branches? My experiment seems to suggest the latter, but you say "a specific branch git has a concept of the index or cache" which suggests the former. –  Laurence Gonsalves Sep 7 '10 at 20:16
3  
It's a different tool. You need a different workflow and with that a different mindset and habit. No git doesn't work the way you describe. It's branches and nothing else. But there are very powerful branch manipulation tools. I suggest you consider youself a newbie who doesn't know anything about source control and read the basic tutorials. Consider your current mindset "bad habbit" that you have to be re-educated against in git-land. Sorry.. –  slebetman Sep 7 '10 at 21:35
2  
Read my updated answer. You're still thinking in terms of uncommitted changes when you should be thinking about unmerged branches. –  slebetman Sep 7 '10 at 22:11
1  
Ah, so you want both changes to exist at the same time. No problem, create a temporary branch to test or (depending on what you want to do) use rebase. Remember, the majority of the effort is to change your thinking and get used to what git can do. Wait, I'll update my answer. –  slebetman Sep 8 '10 at 5:30
1  
Very extensive answer. At what point should this be wikified? –  Tim Clemons Oct 15 '10 at 18:46

I suffer like you with the lack of the "changelist" concept which is not exactly the same as git branches.

I would write a small script that will create a changelist file with the list of files in that changelist.

Another command to submit just a certain changelist by simply calling git commit -a @change_list_contents.txt and then "git commit"

Hope that helps, Elias

share|improve this answer
    
Yes, I have actually considered doing something like this, though at the time I asked this question I was new to git and so I wanted to know the "native" solution. Now I find that the main thing I miss is the ability to work on a commit message without actually committing. Thus could be solved by having a file to hold the "pending commit message", and perhaps some magic to automatically read it when writing a commit message. –  Laurence Gonsalves Apr 7 '12 at 6:12
    
@LaurenceGonsalves, the workflow I use is to commit imperfect commit messages (or even just "WIP") while I am focused on the work, then later amend then during my rebase. As commits are purely local, they do not need to be final until you make your branch available (by pushing it to your remote or similar). –  RJFalconer Apr 16 '12 at 13:16

I don't have enough p4 experience to produce an actual cheat sheet, but there are at least some similarities to fall back on. A p4 "changeset" is a git "commit".

Changes to your local work space get added to the "index" with git add, and the index later gets committed with git commit. So the index is your pending changelist, for all intents and purposes.

You look at changes with git diff and git status, where git diff usually shows changes between the workspace and the index, but git diff --cached shows changes between the index and the repository (= your pending changelist).

For more in depth information, I recommend http://progit.org/book/. Since you know version control in general, you can probably skim a lot of it and extract the git-specific information...

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1  
I would disagree that "a p4 changeset is a git commit"; they're the closest equivalents, true, but a p4 changeset is much closer to a set of git commits. A p4 changeset represents a feature, whereas a git branch represents a feature. –  RJFalconer Apr 16 '12 at 13:12
    
@RJFalconer Erm. A "branch" is a branch in Perforce too, no? And a "changeset" is an atomic collection of changes to one or more files, very much like a commit? If not, what would you say is the p4 equivalent of commit? –  Jakob Borg May 22 '12 at 7:38
    
I would say that p4 has no equivalent, simply because the degree of atomicity isn't the same; in git I can make a several changes in a given file then commit them in different commits (git add -p), thus separating refactoring/cleanup in the history from feature/bug fix. If I were to do this in p4 I'd have to develop the two separately. Even then my commits may not be continuous as other developers can submit in between them (unless I private branch, which involves oft-impractical duplicating on disk). –  RJFalconer May 22 '12 at 10:58
    
Disclaimer: I've only used p4 for a few months and it's quite possible that there's some feature of it that accomplishes this that I just haven't come across yet. –  RJFalconer May 22 '12 at 10:59
    
p4 changelists and p4 branches are logically the same as git commits and git branches. p4 shelve is the equivalent of git stash. Where they differ is in the implementation (i.e. distributed vs. client-server) and that difference results in p4 equivalent of git checkout involving multiple steps and considerable time. The overhead is such that multiple branches are typically preserved locally on disk instead of doing the equivalent of git checkout. p4 shelves are stored on the server rather in the local repo. –  Josh Heitzman Nov 19 '12 at 7:14

This doesn't answer your question specifically, but I don't know if you are aware that a 2 User, 5 Workspace version of perforce is free to download and use from the perforce website.

This way you can use perforce at home for your personal projects if you wish. The one annoyance is the 5 workspaces which can be a bit limiting, but its pretty incredible to have perforce available for home use.

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2  
That's what I'd been doing, but I'd like to switch to something that's open-source and also used by open-source projects. –  Laurence Gonsalves Sep 10 '10 at 20:09

There is a more lightweight alternative in git that could form part of your workflow; using the git staging area.

I often just make changes then submit as several commits (e.g. add debug statements, refactor, actually fix a bug). Rather than setting up your perforce changelists, then make changes, then submit, you can just make your changes then choose how to submit them (optionally using the git staging area).

You can commit particular files from the command line with:

git commit a.txt
git commit z.txt

Or explicitly staging the files first:

git add a.txt
git commit
git add z.txt
git commit

git gui will let you select lines or hunks from within files to build up a commit in the staging area. This is very useful if you have changes in one file that you want to be in different commits. Having moved from git to perforce and this is one thing that I really miss.

There is a small caveat to bear in mind with this workflow. If you make changes A and B to a file, test the file, then commit A then you haven't tested that commit (independently of B).

share|improve this answer
    
It's certainly true that git lets you do even finer-grained commits than perforce (ie: lines and hunks). The thing I (still) miss from perforce is the ability to have it keep track of the change description (aka commit message) for what I'm currently working on. For example, when I'm going to fix bug #12345 I'd creat a changelist saying I was doing that (but not submit aka commit it). Then as I worked on it, I'd update the change description to indicate what I'd done. Finally, when I'm done, I'd commit the changelist. –  Laurence Gonsalves Aug 16 '13 at 21:10
    
In git it seems the rough equivalent is to commit those tiny (often non-working) bits to a dev branch, and then once everything is ok to merge the changes up. This still feels much more tedious and clunky to me. Also, I still haven't really gotten used to the idea of committing code that doesn't even compile. –  Laurence Gonsalves Aug 16 '13 at 21:11

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