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I know that the history in Git is stored in a data structure called a DAG. I've heard about DFS and know it's somewhat related.

I'm curious, how do programs such as git log --graph or hg graphlog draw the history? I always thought it's quite complicated to draw the lanes and everything in such a nice way.

Could someone write some pseudo code that demonstrates it?

note: I tried looking around Git or hg's code but it's very hard to follow and get a general idea of what's going on.

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Here’s Git’s graph.c for reference. –  Josh Lee Feb 8 '11 at 14:10
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Post a simplified (but well-specified) version of the "how to display a DAG as a textual graph" problem as an SO question and tag it as code-golf. You will get many clever solutions, in Python, Ruby, C, Perl... You might ask people to post their original non-golf-ified code as well as their "squeezing out every last character" version. –  MatrixFrog Feb 13 '11 at 7:22
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Also, Git’s history graph API is useful. –  Josh Lee Apr 25 '11 at 15:49
    
@Josh Lee answer provides api, usage and samples. With that you should understand how git log --graph operates. You can find api too in api-history-graph.txt. You need asciidoc to get html from it. –  albfan Apr 7 '13 at 1:04

5 Answers 5

I just wrote one tool that can generate pretty git commits graph using HTML/Canvas. And the algorithm implementation in python.

preview

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First, one obtains a list of commits (as with git rev-list), and parents of each commit. A "column reservation list" is kept in memory.

For each commit then:

  • If the commit has no column reserved for it, assign it to a free column. This is how the branch heads will start.
  • Print the tree graphics according to the column reservation list, and then the commit message
  • The reservation's list entry for the current column/commit is updated with the first parent of the current commit, such that the parent is going to be printed in the same column.
  • Other parents get a new free column.
  • If this was a merge, the next line will try to link the second parent to a column where the commit is expected (this makes for the loops and the "≡ bridge")

Example showing output of git-forest on aufs2-util with an extra commit to have more than one branch).[1]

alt

With lookahead, one can anticipate how far down the merge point will be and squeeze the wood between two columns to give a more aesthetically pleasing result [2].

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I tried looking around Git or hg's code but it's very hard to follow and get a general idea of what's going on.

For hg, did you try to follow the code in hg itself, or in graphlog?

Because the code of graphlog is pretty short. You can find it in hgext/graphlog.py, and really the important part is the top ~200 lines, the rest is the extension's bootstrapping and finding the revision graph selected. The code generation function is ascii, with its last parameter being the result of a call to asciiedge (the call itself is performed on the last line of generate, the function being provided to generate by graphlog)

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This particular problem isn't that hard, compared to graph display in general. Because you want to keep the nodes in the order they were committed the problem gets much simpler.

Also note that the display model is grid based, rows are commits and columns are edges into the past/future.

While I didn't read the git source you probably just walk the list of commits, starting from the newest, and maintain a list of open edges into the past. Following the edges naturally leads to splitting/merging columns and you end up with the kind of tree git/hg display.

When merging edges you want to avoid crossing other edges, so you'll have to try to order your columns ahead of time. This is actally the only part that may not be straightforward. For example one could do a two-pass algorithm, making up a column order for the edges in the first pass and doing the drawing in the second pass.

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The output of git log --graph frequently has edges crossing, and it's not in chronological order. I think it's a little less trivial than you're suggesting, even if it is a relatively case of graph display. –  Jefromi Jan 19 '11 at 21:07
    
Well, by starting with the newest at top and following edges into the past, most of what I said still applies even without a strict ordering of commits. Having frequent edge crossings may be impossible to avoid depending on the commit graph, and they probably don't spend much on figuring out an ideal order. I didn't want to suggest it's trivial though, just straightforward to come up with a good solution. –  Zarat Jan 20 '11 at 6:47

You will find another example of git log graph (in text mode) with tig,
with the code in tig.c.

alt text

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