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- Yes, push does not lock, but that does not mean it is not meant for multi-user repository. It just ought to perform correctly without using locks. - Let's not pretend we know _the_ right way. Signed-off-by: Junio C Hamano <junkio@cox.net>
247 lines
10 KiB
Plaintext
247 lines
10 KiB
Plaintext
Git for CVS users
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=================
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Ok, so you're a CVS user. That's ok, it's a treatable condition, and the
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first step to recovery is admitting you have a problem. The fact that
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you are reading this file means that you may be well on that path
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already.
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The thing about CVS is that it absolutely sucks as a source control
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manager, and you'll thus be happy with almost anything else. Git,
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however, may be a bit _too_ different (read: "good") for your taste, and
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does a lot of things differently.
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One particular suckage of CVS is very hard to work around: CVS is
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basically a tool for tracking _file_ history, while git is a tool for
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tracking _project_ history. This sometimes causes problems if you are
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used to doing very strange things in CVS, in particular if you're doing
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things like making branches of just a subset of the project. Git can't
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track that, since git never tracks things on the level of an individual
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file, only on the whole project level.
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The good news is that most people don't do that, and in fact most sane
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people think it's a bug in CVS that makes it tag (and check in changes)
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one file at a time. So most projects you'll ever see will use CVS
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_as_if_ it was sane. In which case you'll find it very easy indeed to
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move over to Git.
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First off: this is not a git tutorial. See Documentation/tutorial.txt
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for how git actually works. This is more of a random collection of
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gotcha's and notes on converting from CVS to git.
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Second: CVS has the notion of a "repository" as opposed to the thing
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that you're actually working in (your working directory, or your
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"checked out tree"). Git does not have that notion at all, and all git
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working directories _are_ the repositories. However, you can easily
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emulate the CVS model by having one special "global repository", which
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people can synchronize with. See details later, but in the meantime
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just keep in mind that with git, every checked out working tree will
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have a full revision control history of its own.
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Importing a CVS archive
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-----------------------
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Ok, you have an old project, and you want to at least give git a chance
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to see how it performs. The first thing you want to do (after you've
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gone through the git tutorial, and generally familiarized yourself with
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how to commit stuff etc in git) is to create a git'ified version of your
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CVS archive.
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Happily, that's very easy indeed. Git will do it for you, although git
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will need the help of a program called "cvsps":
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http://www.cobite.com/cvsps/
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which is not actually related to git at all, but which makes CVS usage
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look almost sane (ie you almost certainly want to have it even if you
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decide to stay with CVS). However, git will want at _least_ version 2.1
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of cvsps (available at the address above), and in fact will currently
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refuse to work with anything else.
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Once you've gotten (and installed) cvsps, you may or may not want to get
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any more familiar with it, but make sure it is in your path. After that,
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the magic command line is
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git cvsimport -v -d <cvsroot> -C <destination> <module>
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which will do exactly what you'd think it does: it will create a git
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archive of the named CVS module. The new archive will be created in the
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subdirectory named <destination>; it'll be created if it doesn't exist.
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Default is the local directory.
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It can take some time to actually do the conversion for a large archive
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since it involves checking out from CVS every revision of every file,
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and the conversion script is reasonably chatty unless you omit the '-v'
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option, but on some not very scientific tests it averaged about twenty
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revisions per second, so a medium-sized project should not take more
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than a couple of minutes. For larger projects or remote repositories,
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the process may take longer.
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After the (initial) import is done, the CVS archive's current head
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revision will be checked out -- thus, you can start adding your own
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changes right away.
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The import is incremental, i.e. if you call it again next month it'll
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fetch any CVS updates that have been happening in the meantime. The
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cut-off is date-based, so don't change the branches that were imported
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from CVS.
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You can merge those updates (or, in fact, a different CVS branch) into
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your main branch:
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git resolve HEAD origin "merge with current CVS HEAD"
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The HEAD revision from CVS is named "origin", not "HEAD", because git
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already uses "HEAD". (If you don't like 'origin', use cvsimport's
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'-o' option to change it.)
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Emulating CVS behaviour
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-----------------------
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So, by now you are convinced you absolutely want to work with git, but
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at the same time you absolutely have to have a central repository.
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Step back and think again. Okay, you still need a single central
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repository? There are several ways to go about that:
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1. Designate a person responsible to pull all branches. Make the
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repository of this person public, and make every team member
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pull regularly from it.
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2. Set up a public repository with read/write access for every team
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member. Use "git pull/push" as you used "cvs update/commit". Be
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sure that your repository is up to date before pushing, just
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like you used to do with "cvs commit"; your push will fail if
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what you are pushing is not up to date.
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3. Make the repository of every team member public. It is the
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responsibility of each single member to pull from every other
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team member.
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CVS annotate
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------------
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So, something has gone wrong, and you don't know whom to blame, and
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you're an ex-CVS user and used to do "cvs annotate" to see who caused
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the breakage. You're looking for the "git annotate", and it's just
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claiming not to find such a script. You're annoyed.
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Yes, that's right. Core git doesn't do "annotate", although it's
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technically possible, and there are at least two specialized scripts out
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there that can be used to get equivalent information (see the git
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mailing list archives for details).
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Git has a couple of alternatives, though, that you may find sufficient
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or even superior depending on your use. One is called "git-whatchanged"
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(for obvious reasons) and the other one is called "pickaxe" ("a tool for
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the software archeologist").
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The "git-whatchanged" script is a truly trivial script that can give you
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a good overview of what has changed in a file or a directory (or an
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arbitrary list of files or directories). The "pickaxe" support is an
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additional layer that can be used to further specify exactly what you're
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looking for, if you already know the specific area that changed.
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Let's step back a bit and think about the reason why you would
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want to do "cvs annotate a-file.c" to begin with.
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You would use "cvs annotate" on a file when you have trouble
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with a function (or even a single "if" statement in a function)
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that happens to be defined in the file, which does not do what
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you want it to do. And you would want to find out why it was
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written that way, because you are about to modify it to suit
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your needs, and at the same time you do not want to break its
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current callers. For that, you are trying to find out why the
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original author did things that way in the original context.
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Many times, it may be enough to see the commit log messages of
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commits that touch the file in question, possibly along with the
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patches themselves, like this:
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$ git-whatchanged -p a-file.c
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This will show log messages and patches for each commit that
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touches a-file.
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This, however, may not be very useful when this file has many
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modifications that are not related to the piece of code you are
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interested in. You would see many log messages and patches that
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do not have anything to do with the piece of code you are
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interested in. As an example, assuming that you have this piece
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of code that you are interested in in the HEAD version:
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if (frotz) {
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nitfol();
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}
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you would use git-rev-list and git-diff-tree like this:
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$ git-rev-list HEAD |
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git-diff-tree --stdin -v -p -S'if (frotz) {
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nitfol();
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}'
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We have already talked about the "--stdin" form of git-diff-tree
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command that reads the list of commits and compares each commit
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with its parents. The git-whatchanged command internally runs
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the equivalent of the above command, and can be used like this:
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$ git-whatchanged -p -S'if (frotz) {
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nitfol();
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}'
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When the -S option is used, git-diff-tree command outputs
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differences between two commits only if one tree has the
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specified string in a file and the corresponding file in the
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other tree does not. The above example looks for a commit that
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has the "if" statement in it in a file, but its parent commit
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does not have it in the same shape in the corresponding file (or
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the other way around, where the parent has it and the commit
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does not), and the differences between them are shown, along
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with the commit message (thanks to the -v flag). It does not
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show anything for commits that do not touch this "if" statement.
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Also, in the original context, the same statement might have
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appeared at first in a different file and later the file was
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renamed to "a-file.c". CVS annotate would not help you to go
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back across such a rename, but GIT would still help you in such
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a situation. For that, you can give the -C flag to
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git-diff-tree, like this:
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$ git-whatchanged -p -C -S'if (frotz) {
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nitfol();
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}'
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When the -C flag is used, file renames and copies are followed.
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So if the "if" statement in question happens to be in "a-file.c"
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in the current HEAD commit, even if the file was originally
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called "o-file.c" and then renamed in an earlier commit, or if
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the file was created by copying an existing "o-file.c" in an
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earlier commit, you will not lose track. If the "if" statement
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did not change across such a rename or copy, then the commit that
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does rename or copy would not show in the output, and if the
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"if" statement was modified while the file was still called
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"o-file.c", it would find the commit that changed the statement
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when it was in "o-file.c".
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[ BTW, the current versions of "git-diff-tree -C" is not eager
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enough to find copies, and it will miss the fact that a-file.c
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was created by copying o-file.c unless o-file.c was somehow
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changed in the same commit.]
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You can use the --pickaxe-all flag in addition to the -S flag.
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This causes the differences from all the files contained in
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those two commits, not just the differences between the files
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that contain this changed "if" statement:
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$ git-whatchanged -p -C -S'if (frotz) {
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nitfol();
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}' --pickaxe-all
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[ Side note. This option is called "--pickaxe-all" because -S
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option is internally called "pickaxe", a tool for software
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archaeologists.]
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