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| == ["Tutorial"] - merging conflicting changes == | == Tutorial - Merging conflicting Changes == ''(This page is part of the [[Tutorial]] series. Previous part is TutorialMerge, next part is TutorialConclusion)'' |
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| We learned how to deal with simple ["Merge"]s in TutorialMerge. | We learned how to deal with simple [[Merge|merges]] in TutorialMerge. |
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| ["Mercurial"] handles more complex ["Merge"] cases, too. It is not all that uncommon for two people to edit the exact same lines of a file, and then have to figure out what to do. We call these cases conflicts; figuring out what to do about a conflict is called resolving it. | Mercurial handles more complex merge cases, too. It is not all that uncommon for two people to edit the exact same lines of a file, and then have to figure out what to do. These cases are called [[Conflict|conflicts]]; figuring out what to do about a conflict is called resolving it. |
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| We need to create an artificial conflict situation. Let's start by making a ["Clone"] of ''my-hello'': | Let's first create an artificial conflict situation. As we did previously, let's start by making a clone of {{{my-hello}}}: |
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| $ cd .. $ hg clone my-hello my-hello-not-cvs |
$ cd .. $ hg clone my-hello my-hello-not-cvs updating working directory 2 files updated, 0 files merged, 0 files removed, 0 files unresolved |
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Now let's add a new line of output to ''hello.c'': |
Now let's add a new line of output to {{{hello.c}}}: |
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| $ cd my-hello-not-cvs | $ cd my-hello-not-cvs $ vi hello.c |
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| We change {{{main}}} to read like this: | |
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| We'll change ''main'' to read like this: | {{{#!cplusplus numbers=off int main(int argc, char **argv) { printf("hello, world!\n"); printf("sure am glad I'm not using CVS!\n"); return 0; } }}} And we commit the change: |
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| int main(int argc, char **argv) { printf("hello, world!\n"); printf("sure am glad I'm not using CVS!\n"); return 0; } |
$ hg commit -m "Give thanks for dodging bullet" |
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And ["Commit"] the change: |
Recall that in TutorialFirstChange, we created a [[ChangeSet|changeset]] in {{{my-hello-new-output}}} that ''also'' added a second line of output. What happens when we try to pull that change in here? |
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| $ hg commit -t'Give thanks for dodging bullet' | $ hg pull ../my-hello-new-output pulling from ../my-hello-new-output searching for changes adding changesets adding manifests adding file changes added 1 changesets with 1 changes to 1 files (+1 heads) (run 'hg heads' to see heads, 'hg merge' to merge) |
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Recall that in TutorialFirstChange, we created a ChangeSet in ''my-hello-new-output'' that /also/ added a second line of output. What happens when we try to ["Pull"] that change in here? |
So far, so good. Let's try an [[Update|update]]. |
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| $ hg pull ../my-hello-new-output/ pulling from ../my-hello-new-output/ searching for changes adding changesets adding manifests adding file revisions modified 1 files, added 1 changesets and 1 new revisions (run 'hg update' to get a working copy) |
$ hg update abort: crosses branches (use 'hg merge' or 'hg update -C') |
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So far, so good. Let's try an ["Update"]. |
As in TutorialMerge, we have to run {{{hg merge}}}. It will not be able to merge automatically, because the same line of the same source file has been modified in a different way by each changeset (the one we just committed, and the one we just pulled). |
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| $ hg update this update spans a branch affecting the following files: hello.c (resolve) aborting update spanning branches! (use update -m to perform a branch merge) |
$ hg merge |
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As in TutorialMerge, we have to run ''update -m''. But here's where things change. ["Mercurial"] cannot now automatically ["Merge"], because the same line of the same source file has been modified in a different way by each ChangeSet (the one we just ["Commit"]ted, and the one we just ["Pull"]ed). |
At this point, what happens depends on how Mercurial is configured (see MergeToolConfiguration). Per default, Mercurial inserts a set of markers into the files to be merged in your working copy: |
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| ~/hg/my-hello-tmp $ hg update -m | /* * hello.c * * Placed in the public domain by Bryan O'Sullivan * * This program is not covered by patents in the United States or other * countries. */ #include <stdio.h> int main(int argc, char **argv) { printf("hello, world!\n"); <<<<<<< local printf("sure am glad I'm not using CVS!\n"); ======= printf("sure am glad I'm using Mercurial!\n"); >>>>>>> other return 0; } |
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| You can find these files using the 'hg status' command, as before, noting that Mercurial has saved a copy of the original file before inserting the conflict markers: | |
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| At this point, what happens may be a matter of luck. If we are lucky, and have a MergeProgram installed, we will be dropped into the MergeProgram. Here, we will be able to see what conflicts there are between the two changes, and decide how to resolve them. | {{{ $ hg status M hello.c ? hello.c.orig }}} To resolve the conflict, we open 'hello.c' in an editor, delete the conflict markers and keep the "sure am glad I'm using Mercurial!\n" line, deleting the line about CVS. We can then save and quit the editor. |
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| If we are not lucky, and do not have a MergeProgram installed, we will be dropped into our text editor, which will be visiting the file we need to ["Merge"]. Doing this by hand is /highly/ error-prone and tedious. It is best to exit the editor and use the ''hg undo'' command to reverse the effect of the ["Pull"], then install a MergeProgram and try again. | Then, we let Mercurial know that we have resolved the conflict using the {{{hg resolve}}} command: |
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| Now let us continue on to TutorialConclusion. | {{{ $ hg resolve -m hello.c }}} Mercurial accepts the resolution without any output. As before, be sure to commit this change to the repository once the merge is complete: {{{ $ hg commit -m "Merged changes from my-hello-new-output" }}} What we have seen here is the default behaviour of Mercurial. You can, if you want, configure Mercurial to open the editor automatically. Mercurial can also be configured to call external three-way merge tools. Information about both of these can be found at MergeToolConfiguration. Now let's continue and finish on to TutorialConclusion. ---- CategoryTutorial |
Tutorial - Merging conflicting Changes
(This page is part of the Tutorial series. Previous part is TutorialMerge, next part is TutorialConclusion)
We learned how to deal with simple merges in TutorialMerge.
Mercurial handles more complex merge cases, too. It is not all that uncommon for two people to edit the exact same lines of a file, and then have to figure out what to do. These cases are called conflicts; figuring out what to do about a conflict is called resolving it.
Let's first create an artificial conflict situation. As we did previously, let's start by making a clone of my-hello:
$ cd .. $ hg clone my-hello my-hello-not-cvs updating working directory 2 files updated, 0 files merged, 0 files removed, 0 files unresolved
Now let's add a new line of output to hello.c:
$ cd my-hello-not-cvs $ vi hello.c
We change main to read like this:
int main(int argc, char **argv)
{
printf("hello, world!\n");
printf("sure am glad I'm not using CVS!\n");
return 0;
}
And we commit the change:
$ hg commit -m "Give thanks for dodging bullet"
Recall that in TutorialFirstChange, we created a changeset in my-hello-new-output that also added a second line of output. What happens when we try to pull that change in here?
$ hg pull ../my-hello-new-output pulling from ../my-hello-new-output searching for changes adding changesets adding manifests adding file changes added 1 changesets with 1 changes to 1 files (+1 heads) (run 'hg heads' to see heads, 'hg merge' to merge)
So far, so good. Let's try an update.
$ hg update abort: crosses branches (use 'hg merge' or 'hg update -C')
As in TutorialMerge, we have to run hg merge. It will not be able to merge automatically, because the same line of the same source file has been modified in a different way by each changeset (the one we just committed, and the one we just pulled).
$ hg merge
At this point, what happens depends on how Mercurial is configured (see MergeToolConfiguration). Per default, Mercurial inserts a set of markers into the files to be merged in your working copy:
/*
* hello.c
*
* Placed in the public domain by Bryan O'Sullivan
*
* This program is not covered by patents in the United States or other
* countries.
*/
#include <stdio.h>
int main(int argc, char **argv)
{
printf("hello, world!\n");
<<<<<<< local
printf("sure am glad I'm not using CVS!\n");
=======
printf("sure am glad I'm using Mercurial!\n");
>>>>>>> other
return 0;
}You can find these files using the 'hg status' command, as before, noting that Mercurial has saved a copy of the original file before inserting the conflict markers:
$ hg status M hello.c ? hello.c.orig
To resolve the conflict, we open 'hello.c' in an editor, delete the conflict markers and keep the "sure am glad I'm using Mercurial!\n" line, deleting the line about CVS. We can then save and quit the editor.
Then, we let Mercurial know that we have resolved the conflict using the hg resolve command:
$ hg resolve -m hello.c
Mercurial accepts the resolution without any output.
As before, be sure to commit this change to the repository once the merge is complete:
$ hg commit -m "Merged changes from my-hello-new-output"
What we have seen here is the default behaviour of Mercurial. You can, if you want, configure Mercurial to open the editor automatically. Mercurial can also be configured to call external three-way merge tools. Information about both of these can be found at MergeToolConfiguration.
Now let's continue and finish on to TutorialConclusion.