Monday, 2 September 2013

Integrating Beyond Compare with Semanticmerge

Note: This post will probably not be on the liking of those who think free software is always preferable to closed source software, so if you are such a person, please take this article as an invitation to implement better open source alternatives that can realistically compete with the closed source applications I am mentioning here. I am not going to mention here where the open source alternatives are not up to the same level as the commercial tools, I'll leave that for the readers or for another article.

Semanticmerge is a merge tool that attempts to do the right thing when it comes to merging source code. It is language aware and it currently supports Java and C#. Just today the creators of the software have started working on the support for C.

Recently they added Debian packages, so I installed it on my system. For open source development Codice Software, the creators of Semanticmerge, offers free licenses, so I decided to ask for one today, and, although is Sunday, I received an answer and I will get my license on Monday.

When a method is moved from one place to another and changed in a conflicting way in two parallel development lines, Semanticmerge can isolate the offending method and can pass all its incarnations (base, source and destination or, if you prefer, base, mine and theirs) to a text based merge tool to allow the developer to decide how to resolve the merge. On Linux, the Semanticmerge samples are using kdiff3 as the text-based merge tool, which is nice, but I don't use kdiff3, I use Meld, another open source visual tool for merges and comparisons.

OTOH, Beyond Compare is a merge and compare tool made by Scooter Software which provides a very good text based 3-way merge with a 3 sources + 1 result pane, and can compare both files and directories. Two of its killer features is having the ability split differences into important and non-important ones according to the syntax of the compared/merged files, and the ability to easily change or add to the syntax rules in a very user-friendly way. This allows to easily ignore changes in comments, but also basic refactoring such as variable renaming, or other trivial code-wide changes, which allows the developer to focus on the important changes/differences during merges or code reviews.

Syntax support for usual file formats like C, Java, shell, Perl etc. is built in (but can be modified, which is a good thing) and new file types with their syntaxes can be added via the GUI from scratch or based on existing rules.

I evaluated Beyond Compare at my workplace and we decided it would be a good investment to purchases licenses for it for the people in our department.

Having these two software separate is good, but having them integrated with each other would be even better. So I decided I would try to see how it can be done. I installed Beyond compare on my system, too and looked through the examples

The first thing I discovered is that the main assumption of Semanticmerge developers was that the application would be called via the SCM when merges are to be done, so passing lots of parameters would not be problem. I realised that when I saw how one of the samples' starting script invoked semantic merge:
semanticmergetool -s=$sm_dir/ -b=$sm_dir/ -d=$sm_dir/ -r=/tmp/ -edt="kdiff3 \"#sourcefile\" \"#destinationfile\"" -emt="kdiff3 \"#basefile\" \"#sourcefile\" \"#destinationfile\" --L1 \"#basesymbolic\" --L2 \"#sourcesymbolic\" --L3 \"#destinationsymbolic\" -o \"#output\"" -e2mt="kdiff3 \"#sourcefile\" \"#destinationfile\" -o \"#output\""
Can you see the problem? It seems Semanticmerge has no persistent knowledge of the user preferences with regards to the text-based merge tool and exports the issue to the SCM, at the price of overcomplicating the command line. I already mentioned this issue in my license request mail and added the issue and my fix suggestion in their voting system of features to be implemented.

The upside was that by comparing the command line for kdiff3 invocations, the kdiff3 documentation and, by comparison, the Beyond Compare SCM integration information, I could deduce what is the command line necessary for Semanticmerge to use Beyond Compare as an external merge and diff tool.

The -edt, -emt and -e2mt options are the ones which specify how the external diff tool, external 3-way merge tool and external 2-way merge tool is to be called. Once I understood that, I split the problem in its obvious parts, each invocation had to be mapped, from kdiff3 options to beyond compare options, adding the occasional bell and whistle, if possible.

The parts to figure out, ordered by compexity, were:

  1. -edt="kdiff3 \"#sourcefile\" \"#destinationfile\"

  2. -e2mt="kdiff3 \"#sourcefile\" \"#destinationfile\" -o \"#output\""

  3. -emt="kdiff3 \"#basefile\" \"#sourcefile\" \"#destinationfile\" --L1 \"#basesymbolic\" --L2 \"#sourcesymbolic\" --L3 \"#destinationsymbolic\" -o \"#output\""

Semantic merge integrates with kdiff3 in diff mode via the -edt option. This was easy to map to Beyond Compare, I just replaced kdiff3 with bcompare:
-edt="bcompare \"#sourcefile\" \"#destinationfile\""
Integration for 2-way merges was also quite easy, the mapping to Beyond Compare was:
-e2mt="bcompare \"#sourcefile\" \"#destinationfile\" -savetarget=\"#output\""
For the 3-way merge I was a little confused because the Beyond Compare documentation and options were inconsistent between Windows and Linux. On Windows, for some of the SCMs, the options that set the titles for the panes are '/title1', '/title2', '/title3' and '/title4' (way too descriptive for my taste /sarcasm), but for some others are '/lefttitle', '/centertitle', '/righttitle', '/outputtitle', while on Linux the options are the more explicit kind, but with a '-' instead of a '/'.

The basic things were easy, ordering the parameters in the 'source, destination, base, output' instead of kdiff3's 'base, source, destination, -o ouptut', so I wanted to add the bells and whistles, since it really makes more sense for the developer to see something like 'Destination: [method] readOptions' instead of '/tmp/tmp4327687242.tmp', and because that's exactly what is necessary for Semanticmerge when merging methods, since on conflicts the various versions of the functions are placed in temporary files which don't mean anything.

So, after some digging into the examples from Beyond Compare and kdiff3 documentation, I ended up with:
-emt="bcompare  \"#sourcefile\" \"#destinationfile\" \"#basefile\" \"#output\" -lefttitle='#sourcesymbolic' -righttitle='#destinationsymbolic' -centertitle='#basesymbolic' -outputtitle='merge result'"

Sadly, I wasn't able to identify the symbolic name for the output, so I added the hard coded 'merge result'. If Codice people would like to help with with this information (or if it exists), I would be more than willing to do update the information and do the necessary changes.

Then I added the bells and whistles for the -edt and -e2mt options, so I ended up with an even more complicated command line. The end result was this monstrosity:
semanticmergetool -s=$sm_dir/ -b=$sm_dir/ -d=$sm_dir/ -r=/tmp/ -edt="bcompare \"#sourcefile\" \"#destinationfile\" -lefttitle='#sourcesymbolic' -righttitle='#destinationsymbolic'" -emt="bcompare  \"#sourcefile\" \"#destinationfile\" \"#basefile\" \"#output\" -lefttitle='#sourcesymbolic' -righttitle='#destinationsymbolic' -centertitle='#basesymbolic' -outputtitle='merge result'" -e2mt="bcompare \"#sourcefile\" \"#destinationfile\" -savetarget=\"#output\" -lefttitle='#sourcesymbolic' -righttitle='#destinationsymbolic'"
So when I 3-way merge a function I get something like this (sorry for high resolution, lower resolutions don't do justice to the tools):

I don't expect this post to remain relevant for too much time, because after sending my feedback to Codice, they were open to my suggestion to have persistent settings for the external tool integration, so, in the future, the command line could probably be as simple as:
semanticmergetool -s=$sm_dir/ -b=$sm_dir/ -d=$sm_dir/ -r=/tmp/
And the integration could be done via the GUI, while the command line can become a way to override the defaults.

Sunday, 1 September 2013

HOWTO add a shell script wrapper and preserve quoting for parameters

If you ever find yourself in the situation where you have to add a shell script wrapper over a command, but the parameters' quoting gets lost and you end up with the wrong parameters in the wrapped command/tool, you might want to read this post.

On my system I have some command line tools which are Windows only and, in order to easily use the same build system as on Windows on my Linux machine I added a wrapper script which invokes wine on the commands and made symlinks to the wrapper with the file names as the tools, but without the '.exe' suffix.

Of course, I wanted to properly pass the parameters through the wrapper to the tools so I wrote (note the bold text):
wine $0.exe "$@"
So the answer is: use $@ and quote like I did in the code above and the parameters will be passed correctly.

Update: stbuehler suggested to use exec to replace the shell process with wine with this construct:
exec wine $0.exe "$@"

Thanks for the suggestion.