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In the past week I've been following a discussion where Ross Ihaka wrote:

I’ve been worried for some time that R isn’t going to provide the base that we’re going to need for statistical computation in the future. (It may well be that the future is already upon us.) There are certainly efficiency problems (speed and memory use), but there are more fundamental issues too. Some of these were inherited from S and some are peculiar to R.

He then continued explaining. This discussion started from Xi'an's Og, and was then followed by comments at reddit, statalgo, DecisionStats, columbia.edu, Hacker News, r-help mailing list, and maybe other places.

As someone who isn't a computer scientist, I am trying to understand what to make of this.

  • Is R so flawed that it is better to rewrite it then to fix it? Searching on stackoverflow, I came by When to rewrite a code base from scratch and Under what situation should code be rewritten from scratch? (based on Joel's article Things You Should Never Do), both threads argue that a very(!) extreme case is needed in order to justify a rewrite of the code. But is this the case with R?
    • Can R be patched in a way to fix these problems and do become "the stat language of the future" ?
    • What about the social aspect of this? R already has a large user base. If R were to "die", is it possible to imagine all the users willing to move to a new language?

I think this question is not subjective, but since it has so many uncertainties, I decided to mark it as a community wiki.

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closed as primarily opinion-based by joran, animuson Dec 12 '13 at 20:35

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise.If this question can be reworded to fit the rules in the help center, please edit the question.

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10 Answers 10

I believe some knowledgeable people are rather unfair towards R. For one, R started as a modified and free version of S, and it is in the first place a statistical package. I hear nobody complain about the hideous SAS and SPSS coding, and the slow speed at which they do some of their calculations. For what it's most often used for, that is, statistical analysis, R is without doubt the best thing around.

Secondly: although R is indeed not the most optimal programming language, it is rather powerful if you know how to use it. The vectorization of R is simply the best feature ever. As far as I'm concerned, I use a for loop three times a year and an apply twice a week. All the rest is vectorized calculations. But in the benchmarks, this feature of R is often ignored (e.g. here), leading to the -in my eyes wrong- accusation of R being slow. It isn't the fastest around, but if you know what you're doing, you can still race nicely.

Thirdly: R is in the first place a scripting language, allowing me to try out different analyses on the fly. This is impossible in C++, Fortran, Ruby, Python, Perl or any other "faster alternative". They're not alternatives, simple as that. They are superior for a number of tasks, but not for efficient statistical analysis. I need the R command line for that.

Yes, I would appreciate the quirks of R to disappear. Yes, it would be wonderful to have some more programming power in R that allows us to use R even more as a programming language as well. A complete rewrite that is compatible with old code and has an order of magnitude speed-up, cleaner codes etc... would be great.

But until somebody wants to do all that effort completely for free, I'll stay with R.


As some people - rightfully - pointed out, Python has a command line as well. This command line however is NOT directed towards statistical analysis, and even with SciPy and stat.py installed, IPython/DreamPie/whatever other command line you have doesn't come even close to R in ease of use, completeness and availability of techniques.

R is far too often mistaken for yet-another-programming-language. It isn't. It is a statistical package that allows for full-blown programming as well. Python is a scripting language that has some libraries for statistics as well. There's a whole world of difference between those two.

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Ross Ihaka is completely right. But R is not C++. R is a scripting language, allowing me to test out analyses on the fly. I can't do that in Python, Perl, Java, C++, Ruby, Fortran or any other so-called "alternative". They're simply not alternatives. –  Joris Meys Sep 14 '10 at 9:33
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The R core is based on Fortran code, which works flawlessly but is often harder to read than C++. Still, all the numeric work is done efficiently and effectively. –  Wok Sep 14 '10 at 10:46
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@fortran I do program in python and perl, and in neither of them I have a command line where I can easily run different models and compare them with one command. If you can show me how to do that, I'll be happy to switch. –  Joris Meys Sep 14 '10 at 11:13
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@Konrad Funny, I never considered DreamPie, IPython or any other Python shell as a full replacement of the R console. There are numerous attempts at proving you can do with Python everything R does. In fact, you can. You can construct a structured array which resembles an R data-frame. You can define all the functions R has to work on that structured array, but frankly, but you're not going to do e.g. ave(DF,list(DF$varA,DF$varB),sd) in one line of Python code. let alone run a Generalized Mixed Model with a continuous AR1 autocorrelation structure. –  Joris Meys Sep 14 '10 at 12:32
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Never looked at that Matlab v. R page before but man that R code is inefficient. Some of it can be orders of magnitude faster with small changes. –  John Sep 14 '10 at 19:29
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Some of the accusations that have been levelled at R over the years are:

  1. It is slow.

  2. It doesn't play well with really big datasets.

For many people, code-writing-time is a much more important factor than execution-time, so 1 isn't a big problem. Similarly, the value of really big has been increasing with faster computers to the point where it isn't an issue for many researchers.

What Ross Ihaka is talking about is a language to deal with problems like "go analyse this genome", or "go find trends in Facebook's social graph" that R can't easily scale to. Such a language could be a niche big-data-processing langage, or may have more widespread usage; it's way too early to say.

Some things to bear in mind are that Ross Ihaka presumably enjoys creating new languages (at the very least he's done it before), so it's natural for him to want to have another go. Secondly, he could write something that would play nicely with R code so that the work on CRAN wouldn't be wasted. And thirdly, any new language is a good decade away from mainstream use, so reports of R's death are greatly exaggerated.

EDIT: To answer the question of "is it better to fix the bugs or rewrite from scratch?", I don't see why it has to be either/or. In the short term, there are many improvements that can and will be made to R. Over the longer term, new languages will be inevitably be created, and complement or supercede existing ones. One intermediate stage that hasn't been really been discussed for R is an equivalent of Python 3: A reworking of the language that drops compatibility in favour of removing some of the warts.

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+1 for the reference to Python 3. R would benefit from starting a 3.0 series as well. Although I hope they don't port the S4 system in its current state, it gives more headaches than solutions as for now. –  Joris Meys Sep 14 '10 at 13:00
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Google's V8 is a perfect example how a totally screwed language can be made pretty fast without a single modification of itself. –  mbq Sep 14 '10 at 13:29
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And +1 from me for pointing out that not all of us are dealing with web- or genome-scale data. I think it's great that we're developing the things we need to address those problems, but it's not as though we've solved all of our small-data problems. It's vastly more important to me to have access to the incredible array of statistical methods on CRAN. –  Matt Parker Sep 14 '10 at 16:35
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data.table goes a long way toward making R efficient, relative to the grouping and lookup performance of vanilla dataframes. Syntax issues are less of a problem, because you can simply route around them. Any rewrite of R would need to be in the form of a Python 3 non-backwords compatible but very close spin-off or it is simply not going to be adopted.

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It seems to me that a little effort in optimizing R for speed would go a great distance further than trying to rewrite from scratch. Radford Neal's efforts as well as the commercial Revolution R work seem to both have shown that with a reasonable amount of work fairly major speed gains can be achieved. Rcpp lets you fairly easily write custom functions to be blazing fast via linkages to C++ (and Julia may serve that role some day). And the data.table package does yeoman's work at providing a reference-based (as opposed to copy-based) indexed data structure.

And the gputools package and parallel extensions feed into @RichieCotton's observation that hardware just gets faster by multiplying any hardware gains by X processors/cores.

So I think unless you're already taking advantage of all of these tools and optimizations, and still finding R wanting, talk of a rewrite is extremely premature. Most people I know don't even have optimized libraries installed.

Finally, I think the speed problem is exaggerated by an order of magnitude or two. The examples given are simply too awful to be believed, and are subject to easy improvements that produce massive speed gains.

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I thought I saw all of the answers but apparently not... I deleted mine and voted this up. –  John Jul 29 '11 at 17:36
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I added it recently. Seems odd to add in an answer on a discussion that happened a year ago, but it also seemed like it was very much in the SO spirit to do so :-) –  Ari B. Friedman Jul 31 '11 at 5:34
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Obviously this is just my understanding of the situation, but I haven't read what Ross Ihaka has said as 'R is broken and must be thrown away', but as 'some of the stats jobs of the future aren't really suitable for R, and we may need some other solution' to which he's probably right.

R started as a teaching tool, then grew organically, picking up its link to the S language and the user base, the R-Core team and CRAN, and frankly, R is amazing at what it does (if you haven't guessed, I love R), but it can't do everything, and that's what Ross is saying, but I think it will continue to grow and expand into new areas, but it can't do everything.

So in the future there may be a new language (maybe 'Q'?) that is better suited to those types of problems (like massive, massive datasets, real time problems, etc.), and it may be related to R to make it easier for the people who might use both to learn, but it won't kill R.

So to answer the original question; No, R isn't so broken it needs re-writing, but there are jobs that we migth need a new language for, Yes, R can be patched to fix exisiting limitations, or to expand into new areas, and no, R won't die, it just might get some new friends...

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There is already a Q language. :) –  Shane Sep 15 '10 at 13:41
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Richie Cotton comments that "any new language is a good decade away from mainstream use", surely an important point.

If the new system leaves the R syntax largely intact (albeit with some rationalisation), migration from R to the new R may not be too traumatic, might happen quite quickly, and my further comments do not apply.

If there is a substantial rewrite that affects syntax as well as internals, then uptake may be slow, limited for a long time to those users (large datasets, lengthy computations?) who really do need such benefits as the new R has to offer. The carrying of packages across to the new R will be a severe initial challenge. Once that is resolved, there will be the further challenge of revising or rewriting or replacing of what is now a very substantial R literature.

Before any of this can happen, there has to be a substantial research/development momentum behind one or more directions for change. Perhaps Ross Ihaka has the standing that will enable him to marshall that kind of momentum behind his ideas. We shall see. In any case, I think it very unlikely that any new initiatives will fork in more than 2 or 3 different directions. Getting momentum in support of any new initiative is just too difficult. This is fortunate, because most users will stay with "current" R until such time as there is a clear winner among claimants to the "new R" throne. Even then, most existing users are likely to stay with "current" R until change is pretty much forced on them.

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Further to @gsk3's answer, is there really anything in R that requires the current unpredictable scoping functionality? How much would be broken to just require <<-, or direct global references. I get the impression that all of the complaints about that aren't about how it's extensively used in base R but how it's problematic in writing code later, and how it makes it very hard to optimize R. How hard would it be to make a warning appear when a variable is changed or references from the global space and see what happens?

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I think it would be harder than you think ... remember that you want to avoid breaking most of the code base as well as the core language itself ... –  Ben Bolker Oct 26 '11 at 15:40
    
Again... try it. I've looked at lots of R-code. I have never seen any that really depends on this 'feature'. Much of R is written in R. I should think that if it doesn't fail there you're pretty far along already. Try it as a warning and see what happens. –  John Oct 27 '11 at 1:45
    
@John You could try it by adding the warning and then running make check-all. I did that a few times myself and got changes into R that way (anything you can do to save r-core time helps, but it is hard work). Did you follow up the tips you got here (one year ago)? –  Matt Dowle Oct 28 '11 at 9:19
    
Yes, the IQR function was updated in R as a result (in 2.13 I think). I just thought looking at the scoping might be a good idea since it's one of the big limiters to optimization. –  John Oct 28 '11 at 14:10
    
Great. If you're interested in operators and optimization, did you see When should I use the := operator in data.table? –  Matt Dowle Oct 28 '11 at 15:37
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I guess comparing R to Python is a sort of a Apple & Oranges comparison.

Python is an amazing programming language, incredibly simple and intuitive, with a very clear underlying philosophy and widespread success.

R is a statistical toolbox, very powerful and it's one of the standards in many scientific fields (Biology/Genetics, Psycholinguistics/Psychology).

In my personal view it's of great help and utility any effort of converting R packages into Python modules, because the natural path of a scientist who likes/needs to learn how to program is:

Excel ---> SPSS ---> R ----> Python (yay!)

As a programming language, Python is obviously more powerful (exception handling, powerful Object Oriented Programming, inheritance and blablabla). Obviously because Python IS a (or THE) prog. language whereas R is something in between a prog. language and a statistical toolbox.

On the other hand R is easier to use and to learn for non expert programmers and it's well established in the scientific community (read: there are tons of specific stat packages developed for R, and only for R).

Case study: once I read here that someone was asking whether it's worth transcribing the lme4 (mixed models) package (one of the most hot and used in exp. psychology) into Python. My answer to this question is: I truly hope someone will do so. In the meantime I'll use PypeR to make R talk to Python and Python talk to R.

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R is doing okay, I guess. One reason is that computing hardware is so abundant, and even mild deficiencies can be now overcome. Oracle and SAP have invested in it, because let's face it: It's the only choice you have - rest of statistical languages are either closed or lack R's library of packages.

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Should R be rewritten from scratch? Yes. Sooner the better. Get a jump on multi-core, parallel processing, etc. In the process fix all the legacy issues Ross Ihaka summarized so well.

Those who think R is not broken means they have not noticed it, or having noticed it, do not consider them problems. So Ross is really asking those who have encountered these problems and foresee the issues he raises. All good points he raises. Yes R should be rewritten, perhaps with stronger type safety.

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Multi-core & parallel processing have support in current R, see for example biometrics.mtu.edu/CRAN/web/views/HighPerformanceComputing.html . If you're talking about transparent DWIM stuff that takes advantage of multiple cores when available, it's not obvious that's even a good idea for most cases. But even that's being looked at for the current R, see the first few slides in user2010.org/Invited/Tierney_slides.pdf . –  Ken Williams Sep 15 '10 at 21:34
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