Compare and Contrast

For a while now I've been using subversion for my personal projects.

More and more I keep hearing great things about Git and Mercurial, and DVCS in general.

I'd like to give the whole DVCS thing a whirl, but I'm not too familiar with either option.

What are some of the differences between Mercurial and Git?

Note that I'm not trying to find out which one is "best" or even which one I should start with. I'm mainly looking for key areas where they are similar and where they are different, because I am interested to know how they differ in terms of implementation and philosophy.


Disclaimer: I use Git, follow Git development on git mailing list, and even contribute a bit to Git (gitweb mainly). I know Mercurial from documentation and some from discussion on #revctrl IRC channel on FreeNode.

Thanks to all people on on #mercurial IRC channel who provided help about Mercurial for this writeup



Summary

Here it would be nice to have some syntax for table, something like in PHPMarkdown / MultiMarkdown / Maruku extension of Markdown

  • Repository structure: Mercurial doesn't allow octopus merges (with more than two parents), nor tagging non-commit objects.
  • Tags: Mercurial uses versioned .hgtags file with special rules for per-repository tags, and has also support for local tags in .hg/localtags ; in Git tags are refs residing in refs/tags/ namespace, and by default are autofollowed on fetching and require explicit pushing.
  • Branches: In Mercurial basic workflow is based on anonymous heads; Git uses lightweight named branches, and has special kind of branches (remote-tracking branches) that follow branches in remote repository.
  • Revision naming and ranges: Mercurial provides revision numbers, local to repository, and bases relative revisions (counting from tip, ie current branch) and revision ranges on this local numbering; Git provides a way to refer to revision relative to branch tip, and revision ranges are topological (based on graph of revisions)
  • Mercurial uses rename tracking , while Git uses rename detection to deal with file renames
  • Network: Mercurial supports SSH and HTTP "smart" protocols, and static HTTP protocol; modern Git supports SSH, HTTP and GIT "smart" protocols, and HTTP(S) "dumb" protocol. Both have support for bundles files for off-line transport.
  • Mercurial uses extensions (plugins) and established API; Git has scriptability and established formats.

  • There are a few things that differ Mercurial from Git, but there are other things that make them similar. Both projects borrow ideas from each other. For example hg bisect command in Mercurial (formerly bisect extension) was inspired by git bisect command in Git, while idea of git bundle was inspired by hg bundle .

    Repository structure, storing revisions

    In Git there are four types of objects in its object database: blob objects which contain contents of a file, hierarchical tree objects which store directory structure, including file names and relevant parts of file permissions (executable permission for files, being a symbolic link), commit object which contain authorship info, pointer to snapshot of state of repository at revision represented by a commit (via a tree object of top directory of project) and references to zero or more parent commits, and tag objects which reference other objects and can be signed using PGP / GPG.

    Git uses two ways of storing objects: loose format, where each object is stored in a separate file (those files are written once, and never modified), and packed format where many objects are stored delta-compressed in a single file. Atomicity of operations is provided by the fact, that reference to a new object is written (atomically, using create + rename trick) after writing an object.

    Git repositories require periodic maintenance using git gc (to reduce disk space and improve performance), although nowadays Git does that automatically. (This method provides better compression of repositories.)

    Mercurial (as far as I understand it) stores history of a file in a filelog (together, I think, with extra metadata like rename tracking, and some helper information); it uses flat structure called manifest to store directory structure, and structure called changelog which store information about changesets (revisions), including commit message and zero, one or two parents.

    Mercurial uses transaction journal to provide atomicity of operations, and relies on truncating files to clean-up after failed or interrupted operation. Revlogs are append-only.

    Looking at repository structure in Git versus in Mercurial, one can see that Git is more like object database (or a content-addressed filesystem), and Mercurial more like traditional fixed-field relational database.

    Differences:
    In Git the tree objects form a hierarchical structure; in Mercurial manifest file is flat structure. In Git blob object store one version of a contents of a file; in Mercurial filelog stores whole history of a single file (if we do not take into account here any complications with renames). This means that there are different areas of operations where Git would be faster than Mercurial, all other things considered equal (like merges, or showing history of a project), and areas where Mercurial would be faster than Git (like applying patches, or showing history of a single file). This issue might be not important for end user.

    Because of the fixed-record structure of Mercurial's changelog structure, commits in Mercurial can have only up to two parents ; commits in Git can have more than two parents (so called "octopus merge"). While you can (in theory) replace octopus merge by a series of two-parent merges, this might cause complications when converting between Mercurial and Git repositories.

    As far as I know Mercurial doesn't have equivalent of annotated tags (tag objects) from Git. A special case of annotated tags are signed tags (with PGP / GPG signature); equivalent in Mercurial can be done using GpgExtension, which extension is being distributed along with Mercurial. You can't tag non-commit object in Mercurial like you can in Git, but that is not very important, I think (some git repositories use tagged blob to distribute public PGP key to use to verify signed tags).

    References: branches and tags

    In Git references (branches, remote-tracking branches and tags) reside outside DAG of commits (as they should). References in refs/heads/ namespace ( local branches ) point to commits, and are usually updated by "git commit"; they point to the tip (head) of branch, that's why such name. References in refs/remotes/<remotename>/ namespace ( remote-tracking branches ) point to commit, follow branches in remote repository <remotename> , and are updated by "git fetch" or equivalent. References in refs/tags/ namespace ( tags ) point usually to commits (lightweight tags) or tag objects (annotated and signed tags), and are not meant to change.

    Tags

    In Mercurial you can give persistent name to revision using tag ; tags are stored similarly to the ignore patterns. It means that globally visible tags are stored in revision-controlled .hgtags file in your repository. That has two consequences: first, Mercurial has to use special rules for this file to get current list of all tags and to update such file (eg it reads the most recently committed revision of the file, not currently checked out version); second, you have to commit changes to this file to have new tag visible to other users / other repositories (as far as I understand it).

    Mercurial also supports local tags, stored in hg/localtags , which are not visible to others (and of course are not transferable)

    In Git tags are fixed (constant) named references to other objects (usually tag objects, which in turn point to commits) stored in refs/tags/ namespace. By default when fetching or pushing a set of revision, git automatically fetches or pushes tags which point to revisions being fetched or pushed. Nevertheless you can control to some extent which tags are fetched or pushed.

    Git treats lightweight tags (pointing directly to commits) and annotated tags (pointing to tag objects, which contain tag message which optionally includes PGP signature, which in turn point to commit) slightly differently, for example by default it considers only annotated tags when describing commits using "git describe".

    Git doesn't have a strict equivalent of local tags in Mercurial. Nevertheless git best practices recommend to setup separate public bare repository, into which you push ready changes, and from which others clone and fetch. This means that tags (and branches) that you don't push, are private to your repository. On the other hand you can also use namespace other than heads , remotes or tags , for example local-tags for local tags.

    Personal opinion: In my opinion tags should reside outside revision graph, as they are external to it (they are pointers into graph of revisions). Tags should be non-versioned, but transferable. Mercurial's choice of using a mechanism similar to the one for ignoring files, means that it either has to treat .hgtags specially (file in-tree is transferable, but ordinary it is versioned), or have tags which are local only ( .hg/localtags is non-versioned, but untransferable).

    Branches

    In Git local branch (branch tip, or branch head) is a named reference to a commit, where one can grow new commits. Branch can also mean active line of development, ie all commits reachable from branch tip. Local branches reside in refs/heads/ namespace, so eg fully qualified name of 'master' branch is 'refs/heads/master'.

    Current branch in Git (meaning checked out branch, and branch where new commit will go) is the branch which is referenced by the HEAD ref. One can have HEAD pointing directly to a commit, rather than being symbolic reference; this situation of being on an anonymous unnamed branch is called detached HEAD ("git branch" shows that you are on '(no branch)').

    In Mercurial there are anonymous branches (branch heads), and one can use bookmarks (via bookmark extension). Such bookmark branches are purely local, and those names were (up to version 1.6) not transferable using Mercurial. You can use rsync or scp to copy the .hg/bookmarks file to a remote repository. You can also use hg id -r <bookmark> <url> to get the revision id of a current tip of a bookmark.

    Since 1.6 bookmarks can be pushed/pulled. The BookmarksExtension page has a section on Working With Remote Repositories. There is a difference in that in Mercurial bookmark names are global, while definition of 'remote' in Git describes also mapping of branch names from the names in remote repository to the names of local remote-tracking branches; for example refs/heads/*:refs/remotes/origin/* mapping means that one can find state of 'master' branch ('refs/heads/master') in the remote repository in the 'origin/master' remote-tracking branch ('refs/remotes/origin/master').

    Mercurial has also so called named branches, where the branch name is embedded in a commit (in a changeset). Such name is global (transferred on fetch). Those branch names are permanently recorded as part of the changesetu2019s metadata. With modern Mercurial you can close "named branch" and stop recording branch name. In this mechanism tips of branches are calculated on the fly.

    Mercurial's "named branches" should in my opinion be called commit labels instead, because it is what they are. There are situations where "named branch" can have multiple tips (multiple childless commits), and can also consist of several disjoint parts of graph of revisions.

    There is no equivalent of those Mercurial "embedded branches" in Git; moreover Git's philosophy is that while one can say that branch includes some commit, it doesn't mean that a commit belongs to some branch.

    Note that Mercurial documentation still proposes to use separate clones (separate repositories) at least for long-lived branches (single branch per repository workflow), aka branching by cloning.

    Branches in pushing

    Mercurial by default pushes all heads . If you want to push a single branch ( single head ), you have to specify tip revision of the branch you want to push. You can specify branch tip by its revision number (local to repository), by revision identifier, by bookmark name (local to repository, doesn't get transferred), or by embedded branch name (named branch).

    As far as I understand it, if you push a range of revisions that contain commits marked as being on some "named branch" in Mercurial parlance, you will have this "named branch" in the repository you push to. This means that names of such embedded branches ("named branches") are global (with respect to clones of given repository / project).

    By default (subject to push.default configuration variable) "git push" or "git push <remote>" Git would push matching branches , ie only those local branches that have their equivalent already present in remote repository you push into. You can use --all option to git-push ("git push --all") to push all branches , you can use "git push <remote> <branch>" to push a given single branch , and you can use "git push <remote> HEAD" to push current branch .

    All of the above assumes that Git isn't configured which branches to push via remote.<remotename>.push configuration variables.

    Branches in fetching

    Note: here I use Git terminology where "fetch" means downloading changes from remote repository without integrating those changes with local work. This is what " git fetch " and " hg pull " does.

    If I understand it correctly, by default Mercurial fetches all heads from remote repository, but you can specify branch to fetch via " hg pull --rev <rev> <url> " or " hg pull <url>#<rev> " to get single branch . You can specify <rev> using revision identifier, "named branch" name (branch embedded in changelog), or bookmark name. Bookmark name however (at least currently) doesn't get transferred. All "named branches" revisions you get belong to get transferred. "hg pull" stores tips of branches it fetched as anonymous, unnamed heads.

    In Git by default (for 'origin' remote created by "git clone", and for remotes created using "git remote add") " git fetch " (or " git fetch <remote> ") gets all branches from remote repository (from refs/heads/ namespace), and stores them in refs/remotes/ namespace. This means for example that branch named 'master' (full name: 'refs/heads/master') in remote 'origin' would get stored (saved) as 'origin/master' remote-tracking branch (full name: 'refs/remotes/origin/master').

    You can fetch single branch in Git by using git fetch <remote> <branch> - Git would store requested branch(es) in FETCH_HEAD, which is something similar to Mercurial unnamed heads.

    Those are but examples of default cases of powerful refspec Git syntax: with refspecs you can specify and/or configure which branches one want to fetch, and where to store them. For example default "fetch all branches" case is represented by '+refs/heads/*:refs/remotes/origin/*' wildcard refspec, and "fetch single branch" is shorthand for 'refs/heads/<branch>:'. Refspecs are used to map names of branches (refs) in remote repository to local refs names. But you don't need to know (much) about refspecs to be able to work effectively with Git (thanks mainly to "git remote" command).

    Personal opinion: I personally think that "named branches" (with branch names embedded in changeset metadata) in Mercurial are misguided design with its global namespace, especially for a distributed version control system. For example let's take case where both Alice and Bob have "named branch" named 'for-joe' in their repositories, branches which have nothing in common. In Joe's repository however those two branches would be mistreated as a single branch. So you have somehow come up with convention protecting against branch name clashes. This is not problem with Git, where in Joe's repository 'for-joe' branch from Alice would be 'alice/for-joe', and from Bob it would be 'bob/for-joe'. See also Separating branch name from branch identity issue raised on Mercurial wiki.

    Mercurial's "bookmark branches" currently lack in-core distribution mechanism.

    Differences:
    This area is one of the main differences between Mercurial and Git, as james woodyatt and Steve Losh said in their answers. Mercurial, by default, uses anonymous lightweight codelines, which in its terminology are called "heads". Git uses lightweight named branches, with injective mapping to map names of branches in remote repository to names of remote-tracking branches. Git "forces" you to name branches (well, with exception of single unnamed branch, situation called detached HEAD), but I think this works better with branch-heavy workflows such as topic branch workflow, meaning multiple branches in single repository paradigm.

    Naming revisions

    In Git there are many ways of naming revisions (described eg in git rev-parse manpage):

  • The full SHA1 object name (40-byte hexadecimal string), or a substring of such that is unique within the repository
  • A symbolic ref name, eg 'master' (referring to 'master' branch), or 'v1.5.0' (referring to tag), or 'origin/next' (referring to remote-tracking branch)
  • A suffix ^ to revision parameter means the first parent of a commit object, ^n means n-th parent of a merge commit. A suffix ~n to revision parameter means n-th ancestor of a commit in straight first-parent line. Those suffixes can be combined, to form revision specifier following path from a symbolic reference, eg 'pu~3^2~3'
  • Output of "git describe", ie a closest tag, optionally followed by a dash and a number of commits, followed by a dash, a 'g', and an abbreviated object name, for example 'v1.6.5.1-75-g5bf8097'.
  • There are also revision specifiers involving reflog, not mentioned here. In Git each object, be it commit, tag, tree or blob has its SHA-1 identifier; there is special syntax like eg 'next:Documentation' or 'next:README' to refer to tree (directory) or blob (file contents) at specified revision.

    Mercurial also has many ways of naming changesets (described eg in hg manpage):

  • A plain integer is treated as a revision number. One need to remember that revision numbers are local to given repository; in other repository they can be different.
  • Negative integers are treated as sequential offsets from the tip, with -1 denoting the tip, -2 denoting the revision prior to the tip, and so forth. They are also local to repository.
  • An unique revision identifier (40-digit hexadecimal string) or its unique prefix.
  • A tag name (symbolic name associated with given revision), or a bookmark name (with extension: symbolic name associated with given head, local to repository), or a "named branch" (commit label; revision given by "named branch" is tip (childless commit) of all commits with given commit label, with largest revision number if there are more than one such tip)
  • The reserved name "tip" is a special tag that always identifies the most recent revision.
  • The reserved name "null" indicates the null revision.
  • The reserved name "." indicates the working directory parent.
  • Differences
    As you can see comparing above lists Mercurial offers revision numbers, local to repository, while Git doesn't. On the other hand Mercurial offers relative offsets only from 'tip' (current branch), which are local to repository (at least without ParentrevspecExtension), while Git allows to specify any commit following from any tip.

    The most recent revision is named HEAD in Git, and "tip" in Mercurial; there is no null revision in Git. Both Mercurial and Git can have many root (can have more than one parentless commits; this is usually result of formerly separate projects joining).

    See also: Many different kinds of revision specifiers article on Elijah's Blog (newren's).

    Personal opinion: I think that revision numbers are overrated (at least for distributed development and/or nonlinear / branchy history). First, for a distributed version control system they have to be either local to repository, or require treating some repository in a special way as a central numbering authority. Second, larger projects, with longer history, can have number of revisions in 5 digits range so they are offer only slight advantage over shortened to 6-7 character revision identifiers, and imply strict ordering while revisions are only partially ordered (I mean here that revisions n and n+1 doesn't need to be parent and child).

    Revision ranges

    In Git revision ranges are topological . Commonly seen A..B syntax, which for linear history means revision range starting at A (but excluding A), and ending at B (ie range is open from below), is shorthand ("syntactic sugar") for ^AB , which for history traversing commands mean all commits reachable from B, excluding those reachable from A. This means that the behavior of A..B range is entirely predictable (and quite useful) even if A is not ancestor of B: A..B means then range of revisions from common ancestor of A and B (merge base) to revision B.

    In Mercurial revision ranges are based on range of revision numbers . Range is specified using A:B syntax, and contrary to Git range acts as a closed interval. Also range B:A is the range A:B in reverse order, which is not the case in Git (but see below note on A...B syntax). But such simplicity comes with a price: revision range A:B makes sense only if A is ancestor of B or vice versa, ie with linear history; otherwise (I guess that) the range is unpredictable, and the result is local to repository (because revision numbers are local to repository).

    This is fixed with Mercurial 1.6, which has new topological revision range , where 'A..B' (or 'A::B') is understood as the set of changesets that are both descendants of X and ancestors of Y. This is, I guess, equivalent to '--ancestry-path A..B' in Git.

    Git also has notation A...B for symmetric difference of revisions; it means AB --not $(git merge-base AB) , which means all commits reachable from either A or B, but excluding all commits reachable from both of them (reachable from common ancestors).

    Renames

    Mercurial uses rename tracking to deal with file renames. This means that the information about the fact that a file was renamed is saved at the commit time; in Mercurial this information is saved in the "enhanced diff" form in filelog (file revlog) metadata. The consequence of this is that you have to use hg rename / hg mv ... or you need to remember to run hg addremove to do similarity based rename detection.

    Git is unique among version control systems in that it uses rename detection to deal with file renames. This means that the fact that file was renamed is detected at time it is needed: when doing a merge, or when showing a diff (if requested / configured). This has the advantage that rename detection algorithm can be improved, and is not frozen at time of commit.

    Both Git and Mercurial require using --follow option to follow renames when showing history of a single file. Both can follow renames when showing line-wise history of a file in git blame / hg annotate .

    In Git the git blame command is able to follow code movement, also moving (or copying) code from one file to the other, even if the code movement is not part of wholesome file rename. As far as I know this feature is unique to Git (at the time of writing, October 2009).

    Network protocols

    Both Mercurial and Git have support for fetching from and pushing to repositories on the same filesystem, where repository URL is just a filesystem path to repository. Both also have support for fetching from bundle files.

    Mercurial support fetching and pushing via SSH and via HTTP protocols. For SSH one needs an accessible shell account on the destination machine and a copy of hg installed / available. For HTTP access the hg-serve or Mercurial CGI script running is required, and Mercurial needs to be installed on server machine.

    Git supports two kinds of protocols used to access remote repository:

  • "smart" protocols, which include access via SSH and via custom git:// protocol (by git-daemon ), require having git installed on server. The exchange in those protocols consist of client and server negotiating about what objects they have in common, and then generating and sending a packfile. Modern Git includes support for "smart" HTTP protocol.
  • "dumb" protocols, which include HTTP and FTP (only for fetching), and HTTPS (for pushing via WebDAV), do not require git installed on server, but they do require that repository contains extra information generated by git update-server-info (usually run from a hook). The exchange consist of client walking the commit chain and downloading loose objects and packfiles as needed. The downside is that it downloads more than strictly required (eg in corner case when there is only single packfile it would get downloaded whole even when fetching only a few revisions), and that it can require many connections to finish.
  • Extending: scriptability vs extensions (plugins)

    Mercurial is implemented in Python , with some core code written in C for performance. It provides API for writing extensions (plugins) as a way of adding extra features. Some of functionality, like "bookmark branches" or signing revisions, is provided in extensions distributed with Mercurial and requires turning it on.

    Git is implemented in C , Perl and shell scripts . Git provides many low level commands (plumbing) suitable to use in scripts. The usual way of introducing new feature is to write it as Perl or shell script, and when user interface stabilizes rewrite it in C for performance, portability, and in the case of shell script avoiding corner cases (this procedure is called builtinification).

    Git relies and is built around [repository] formats and [network] protocols. Instead of language bindings there are (partial or complete) reimplementations of Git in other languages (some of those are partially reimplementations, and partially wrappers around git commands): JGit (Java, used by EGit, Eclipse Git Plugin), Grit (Ruby), Dulwich (Python), git# (C#).


    TL;DR


    I think you can get a feeling of what those systems are similar or different in by whatching those two videos:

    Linus Torvalds on Git (http://www.youtube.com/watch?v=4XpnKHJAok8)
    Bryan O'Sullivan on Mercurial (http://www.youtube.com/watch?v=JExtkqzEoHY)

    Both of them are very similar in design but very different in implementations.

    I use Mercurial. As far as I understand Git, one major thing git is different is that it tracks contents of files instead of files themselves. Linus says that if you move a function from one file to another, Git will tell you the history of that single function across the move.

    They also say that git is slower over HTTP but it has it's own network protocol and server.

    Git works better as an SVN thick client than Mercurial. You can pull and push against an SVN server. This functionality is still under development in Mercurial

    Both Mercurial and Git have very nice web hosting solutions available (BitBucket and GitHub), but Google Code supports Mercurial only. By the way, they have a very detailed comparison of Mercurial and Git they did for deciding which one to support (http://code.google.com/p/support/wiki/DVCSAnalysis). It has a lot of good info.


    I wrote a blog entry about Mercurial's branching models a while ago, and included comparisons to git's branching model. Maybe you'll find it interesting: http://stevelosh.com/blog/entry/2009/8/30/a-guide-to-branching-in-mercurial/

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