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I'm a modest graduate student in a high energy particle physics department. With an unfounded distaste for C/C++ and a founded love of python, I have resorted to python for my data analysis so far (just the easy stuff) and am about to attempt backing python scripts against ROOT libraries and, particularly, utilize MINUIT for some parameter minimization.

As well as asking if anyone has any tips for the installation and usage of these, I wondered if it was worth it to even attempt it or just to slip into the "norm" of using C/C++, or if things like pyminuit are usable. Or do you think I could wrap entire C/C++ scripts into python code to make use of my existing self-written analysis methods (I have no wrapper experience as of yet). Sorry for the vagueness; I'm headed into a great unknown that far outweighs my current experience.

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5 Answers 5

up vote 4 down vote accepted

You are aware of pyROOT, right?

Never tried it myself, so I don't know how it might stack up against your needs.

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It took nearly a year but I finally got pyROOT working and find it is the best solution. –  physicsmichael Jun 7 '10 at 19:47

I wrote a minuit wrapper a while back(In my sample of 1 experience, ROOT's minuit seems more robust than pyminuit and I like ROOT Minuit output more)


With numpy root file reading capability


And not so polished fitting library and toy generation etc. based on RTMinuit and numpy


Tutorials and help are all given in the package

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It's probably worth checking out rootpy. Maybe not totally mature yet, but it's a step in the right direction.

Yes, rootpy is built on top of PyROOT, but with some additional features:

  • it emphasizes a pythonic interface and hides some of the ugliness of ROOT;
  • it integrates with matlibplot, which has a larger development community, and a greater presence on SO, not to mention better looking plots;
  • it allows conversion to HDF5 files, which will allow you to share data with people who can't take the time to install the monolithic ROOT package.

Unfortunately, as long as you're working with something built on top of CINT (which PyROOT is), you'll still have to deal with one of the ugliest parts of ROOT.

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Thanks @Shep. Since I've updated ROOT and Python (now with virtualenv), I've broken PyROOT. When I get it fixed, rootpy will be first on my list of things to test. –  physicsmichael Apr 16 '12 at 17:20
@vgm64 It's unfortunate that the answers here all rely on getting ROOT working in the first place (we all love that 30 minute compile time). My main interest in rootpy is that it eases the transition away from total ROOT dependence, into something more modular and less bloated. –  Shep Apr 16 '12 at 17:33

It's not really an answer per se, but coming from someone in a similar situation (grad student in physics who loves Python ;-) it would be fabulous if you can come up with a good interface between Python and popular C/C++ physics software like ROOT, especially if you can make it compatible with Numpy/Scipy where applicable. As I'm sure you know, Python is a whole lot easier to work with than C or C++, especially because the interpreter allows us to test things out quickly and determine algorithms by trial-and-error a lot more efficiently than with C or C++; it's also great not to have to worry about things like memory management. Really, the only reason that scientists are still stuck on Fortran and C is that nobody's had the time to wrap the large libraries of existing code into newer, more user-friendly languages.

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"[we're] still stuck on [old languages is] nobody's [] wrap[ed] the [] existing code into newer [] languages." Don't underestimate the raw processing demands of both data acquisition and analysis in large projects. There are times when you code close to the hardware for a reason. –  dmckee Feb 9 '09 at 21:25
Come to think of it, the computational guys really beat up their clusters, too. –  dmckee Feb 9 '09 at 21:27
Believe me, I know... that's why we have things like Numpy/Scipy, to take advantage of the raw power of C or Fortran while maintaining the friendly interface of Python. –  David Z Feb 10 '09 at 2:23
Even then, I think that pure C/C++ or Fortran codes win on the speed front. We have to bow a bit in that way to enjoy our wonderful syntaxes and interfaces. If you're clever and resourceful, you can close the gap with Python; remember Python's roots, too! (Ha. root.) –  physicsmichael Feb 10 '09 at 7:07
@vgm64: The "easy stuff" is done in ROOT's macros by most people anyway (ugly but easy), and most "heavy stuff" is done in the compiled libraries. There is no reason one shouldn't use pyROOT which makes writing macros a lot cleaner since one doesn't have to take care of ROOT strange pointer-centric interfaces. And in newer ROOT versions pyROOT allows you to do pretty much anything you could do in ROOT macros (you will probably need python's array module though). On top of that, ipython is so much more pleasant than cint. –  Benjamin Bannier Jun 6 '10 at 15:05

I think that you will get more ideas at Root Talk.

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