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I've been working with a lot of FORTRAN 77 lately, and though I had reservations at first, I now see some great qualities of the language. It is:

  • Simple to learn (no object-oriented or functional-programming complications)
  • Easy to read
  • Blazing fast at number-crunching

Those qualities are naturally attractive to non-programmer engineers and scientists who just want a way to make a computer give answers quickly. But it has a lot of limitations based on its age and some of its basic assumptions. I'm skeptical about how easily non-programmers can understand some of the added capabilities of later versions of Fortran, as well.

Is there a modern language that is as straightforward as FORTRAN, just as fast for mathematical applications, and less limited? Or is the answer Fortran 90, 95, 2003 . . . ?

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Don't quote me on this but I believe the target audience of F# includes engineers/scientists. – ChaosPandion Aug 23 '10 at 16:45
Dr Seuss is simple, but once you start reading larger texts you may find a different style more appropriate. Romeo and Juliet written in the style of Dr Seuss wouldn't be readable, neither would a large, complicated codebase. On the other hand, now I'm considering re-writing Romeo and Juliet--maybe I'm wrong about that one... – Bill K Aug 23 '10 at 16:55
You may have a point, @S.Lott; submit it as an answer, and it'll at least get votes. – JasonFruit Aug 23 '10 at 17:03
Btw, what did you mean under "limitations based on some of its basic assumptions"? – Rook Aug 23 '10 at 21:06
@JasonFruit - Maybe. But do take that string handling is not in the top priorities in Fortran's users. Never was really. There was at one time some pressure as to introduce something ... in that area, but other features were voted as more relevant. However, most of such operations one finds a way to do ... just in a little different manner than in other languages. – Rook Aug 24 '10 at 15:22

12 Answers 12

up vote 17 down vote accepted

Or is the answer Fortran 90, 95, 2003 . . . ?

Yes. Fortran 95 supported by most compilers is the language you are looking for. However Fortran 2003 has some major enhancements (besides unnecessary from your point of view support of OOP) which might be useful. Compiler Support for the Fortran 2003 Standard.

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I believe gfortran and Intel "rectified" some things off that list in their newer versions. – Rook Aug 23 '10 at 21:07

You may be looking at MATLAB. Many engineer undergraduates learn that so I think it's easy for non-programmers to grok.

If you want to get hardcore, take a look at J.

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J is a horrible suggestion. One of his criteria was "easy to read". I can't think of a language that is harder to read. – Turtle Aug 23 '10 at 16:49
@Turtle: You're right. I said that half-wittingly. I'm also surprised that got upvoted thrice :P – kizzx2 Aug 23 '10 at 16:54
Matlab is indeed a nice choice for undergraduates and many more; it has a lot of nice features, and it's graphical capabilities, are, well, practical to say the least, in a number of situations. But, just like every "pro" has a "con", it suffers from some historical development issues. To me, when I was (still do for some things) using it was organization of larger programs, sometimes bad documentation (incorrect on some issues) and backward incompatibility (combined with the fact that it was a /one company language/ -> fear). – Rook Aug 23 '10 at 21:29
Just so this is not misunderstood; I still think of it as excellent for some purposes, such as rapid prototyping in some fields. – Rook Aug 23 '10 at 21:31

If you're really excited about using Fortran, you might consider using Fortran for Microsoft.NET. The idea behind this project is that it allows you to use the Fortran language while taking advantage of a mangaged code environment via the Common Language Runtime (CLR).

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Mybe mine is a stupid question, but how does CLR help non-programmers scientists? – Federico Culloca Aug 23 '10 at 16:51
I'm guessing, but garbage collection would be quite helpful. – Turtle Aug 23 '10 at 17:03
@klez Well, If you have ever worked in a constrained library you would probably know this. The CLR and Java's runtime have support for thousands of operations that old Fortran compilers couldn't dream of. GUI creation when necessary, easy graphing, arbitrary precision math and real-world data collection capabilities would all greatly benefit a non-programmer tying to develop software to solve a real-world "science" problem. – Bill K Aug 23 '10 at 17:05
You don't have to be a CLR expert to consume the CLR and gain its benefits. F# has gained immense popularity in academic/research communities and it compiles down to the same IL code that runs on the CLR as C# and VB.NET. If the OP likes the benefits of Fortran but wants to be able to run it in a modern environment, Fortran for .NET seems like an excellent choice. Heck, if you wanted, you could write your own "number-crunching" libraries in Fortran and consume them in an easy GUI-based framework such as WinForms or even a console application. This idea is just one option among many. – Ben McCormack Aug 23 '10 at 18:38

@S.Lott: Cannot imagine Fortran users such as scientists, having to switch over and dump all their Fortran work..... :S The OP is looking for input on what's new...

To the OP: Have you read up on Wikipedia which details the changes made to Fortran, for 2003 version, allows interoperability with C, so maybe S.Lott does have a point, perhaps, bit by bit, gently port some stuff over or write a wrapper in C to call the Fortran modules? I'll quote from that Wikipedia page...

Interoperability with the C programming language.

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Modern Fortran is much better than C. So the advice to port some code to C is bad to say the least. – Wildcat Aug 23 '10 at 17:02
Yes, I've read about the updates since 1990, and I'm skeptical about some of their suitability for non-programmers --- object orientation? recursion? pointers? – JasonFruit Aug 23 '10 at 17:07
@S.Lott: I'm talking about from a perspective of $$$$ Can the scientists afford to ditch ALL of their codebase and go through some intensive courses to learn another language.... not in your words unimaginable by you or impossible... wise up! – t0mm13b Aug 23 '10 at 18:02
@S.Lott: Right, let's put this back on you - what makes you think that the existing code (regardless of lack of posting metrics etc) can be rewritten into C - HOW do you know that? The OP did not give any clear indication - but yes I can see your viewpoint as much as I hope YOU can see my viewpoint also! These needs to be considered firstly before 'diving in and you making that recommendation into rewriting the codebase into C...' Why is everyone so quick to jump in and say 'Rewriting in C could be the best way to improve it' without looking at other angles also!? – t0mm13b Aug 23 '10 at 20:54
@S.Lott - I see you are wise in the ways of the taking a discussion, while putting practical aspects aside (until it becomes purely theoretical and the only goal is to win the argument). Unfortunatelly, I've given up on that trolling game some decades ago. – Rook Aug 23 '10 at 21:21

I assume you are considering small, dedicated programs written to solve specific problems. In that case, if the complexity of OO really bothered you I'd just write a C# or Java app and not use OO. Visual Basic should be pretty darn fast these days as well.

Nearly all compiled languages will be mathematically quick these days, all operations are done on the math co-processor--so unless you have found some language to be particularly lacking I wouldn't let any languages "math speed" bother me much.

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" Nearly all compiled languages will be mathematically quick these days, ... " - hardly. Even simple programs (models) can become very slow very quickly when it comes to commercial applications (where the grids have to be refined in a way not such to show only trends, but to give practical results). – Rook Aug 23 '10 at 18:57
@Idigas isn't that the program's implementation more than the language? I'm pretty sure if you check the "Programming language shootout" you'll find C & java to be about 2-5x faster than Fortran even for heavy math stuff like the Mandelbrot benchmark. That's still not bad--they are all in the same general area (10x speed from each other, whereas Ruby and others tend to be 100x slower). – Bill K Aug 23 '10 at 19:11
"Programming language shootout" - which has been discussed numerous times before (just google it, you're bound to stumble onto one of them discus.) is not an objective criteria for speed, since it obviously fits some more than others. Want an opposite example; write a sparce system solver in most of those (or pretty much anything similar). – Rook Aug 23 '10 at 20:07
@Idigas Actually, it's a pretty good criteria since it has a variety of different problems it solves and each problem can be tailored to be faster by people who are the best programmers in a given language. If you think your language isn't adequately represented, submit a better test or solution. It is biased that it runs on Linux so it can't represent languages that only reside on a single platform. – Bill K Aug 23 '10 at 21:33
@Bill K - (btw, my name is Ldigas, but I agree, in this font the error is easily made) - No, no. Quite the opposite. I'll go from the last, if you don't mind. Platforms aside; 'tis not that relevant, so we can skip that for now. As far as "each problem can be tailored to be faster by people who are the best programmers in a given language" - it's simply not correct. Instead of putting it in my own words, I'll link to… who's already put it nicely (particularly first paragraph). Second, to submit my own problm; – Rook Aug 23 '10 at 22:29

Simple to learn (no object-oriented or functional-programming complications)

Easy to read

Blazing fast at number-crunching

Sounds like C.

Buy Numerical Recipes in C. That pretty much covers all the bases in a clear, readable style.

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C is not neither easy to learn nor easy to read. And it's not for number crunching.… – Wildcat Aug 23 '10 at 17:14
When I compare the ease with which I picked up FORTRAN 77 with the difficulties I've had with C, I have a hard time recommending C for the non-programmer. Still, +1, since this seems to be what a lot of people are doing, rightly or wrongly. – JasonFruit Aug 23 '10 at 18:06
Can anyone name a worse choice as far as easy to use? Readability you MIGHT have competition with WORN (write once read never) languages like APL. I'm serious--please attempt to name one. – Bill K Aug 23 '10 at 19:15
@S.Lott I admitted other languages might be less readable, but I can't imagine one less easy to use--where you have to keep track of memory allocation, deal with pointers vs references and can't even use "abc" + "def". Ease of use. I'm coding in C right now, by the way. – Bill K Aug 23 '10 at 21:24
The Numerical Recipes book in C was first written when Fortran was FORTRAN 77 (1st edition 1985, 2nd edition 1992 -- even then Fortran 90 was rarely available). FORTRAN 77 has several deficiencies, so people were switching to C in that era. But we have long had Fortran 90, which rectifies those deficiencies, e.g., providing dynamic memory allocate. Fortran 90/95/2003 are a higher level languages that I would strongly recommend in preference to C for scientific programming. I mix Fortran & C in order to reuse existing C code. – M. S. B. Aug 24 '10 at 7:18

Well, I'm a non-programmer engineer (whatever that means; I gather it means not having much contact with computer sciences studies) and ...

Partically in continuation to JasonFruit's comment on S. Lott's answer:

Yes, the standard has added quite a few features from F90 to 2003. But the "problem", if one can call it such (I cannot think or care to of a more appropriate word) is that many people who use Fortran do not know it, save the basic features they need. It is a blessing and a curse all in one, in a way. They have never learned it, never read a book on it - they kinda just picked it up as they went along. That way can certainly work for a time (if you structure your programs simply, as many have done for centuries, and have a sort of mental discipline, this approach can last for a lifetime/your entire career), but after a while it starts to show its disadvanages. Try for example, following some of the discussions on the recent features on comp.lang.fortran to test your knowledge.

So, take a good book (many recommend one of the three for beginners; a) Chapman J. Stephen's b) Maine, or c) Metcalf, Reid and Cohen (known as the "M.R.C. book") - after which a lot of the "more obscure" features not only become clearer, but also "obvious" (as in a way; this really is the better way - why did I did it that way ... before?).

That takes care of that question. Now, the other question -- which will certanly arise -- is Fortran worth learning nowadays? (it always does, trust me on this :). This has been covered numerous times, so I'll just direct to my own post regarding the above, and my older post (you'll have to scroll a little down) which regards some issues in comparison with some of the other langugages mentioned here.

The last thing, which is in a way the cause of all these question in most cases is people opinion on Fortran, with the emphasis on opinion! Generally speaking (and we can take this forum as a pretty good sample for our analysis) is that it's not so good. Few like it [ follow questions marked fortran on this forum for a month, and you'll quickly learn who they are. Btw, judging from the frequency your name's been appearing, you're quickly becoming a member of the club :) ], most are either indifferent, and some hate it, out of sheer ignorance (comparing F66 with today's languages is often used), some out of their own reasons. Now, if we take those and compare it with the general population, by simple an account, the result is bound to come out bad. If you interviewed just traditional engineers the results would be quite different.

Thhhh-aaa-ttt's it.

Oh, one more thing - Fortran is/was and still remains primarily aimed at engineers, not mathematicians. It is better suited for solving large systems, then calculating pi to a ka-zi-llionth decimal. I don't know if that was a typo in your question, or intentional. For purely mathematical applications (in a classical sense of mathematician) I would (were I a part of that field) probably choose, I don't know, Mathematica? Or Pascal (don't know why it was always Pascal; but it seems terribly popular with those chaps).

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Good point; when I said "mathematical applications", I should have written "computationally intensive applications". – JasonFruit Aug 23 '10 at 22:38
Isn't that the nice thing about Fotran? You don't have to spend your entire time on comp.lang.xx studying the latest detail of partial template specialization through not virtual lamba functors - in order to do the work you are actually being paid for! – Martin Beckett Aug 24 '10 at 17:07

For the most direct answer to your question, I think that kemiisto's answer is correct, with the caveats identified by Idigas.

That said, I've found more of my numerical code coming into contact with things like FTP, web, and closer to graphics. I've seen MATLAB suggested in another answer, but I've been writing more and more Python (with NumPy) and calling out to Fortran when I need the speed. I'd almost certainly not write a whole system (e.g. an entire numerical weather prediction model) this way, but it does allow me to have the best of both worlds in many respects.

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Or is the answer Fortran 90, 95, 2003 . . . ? Yes. For scientific computing, Fortran >=90 removes the limitations of FORTRAN 77. Learn how to use allocatable arrays to have dynamically sizable arrays. Learn how to use modules to organize your procedures and variables -- and easily provide automatic consistency checking between actual and dummy arguments. Starting from FORTRAN 77, you can gradually learn Fortran 90/95/2003, using whichever features seem useful to you. You don't have to learn the OO features and can ignore that portion of the language, until perhaps someday it offers utility to you.

I recommend the Metcalf, Reid and Cohen book.

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I think Fortran 95 should be your choice it looks more modern and extends Fortran 77 quite significantly. The Fortran 2003 standard is not completely supported by most compilers. The great advantage of Fortran is that there is an optimized subroutine for every mathematical problem (such as root finding, matrix multiplication, eigenvalue problems, etc.). Other people mentioned legacy libraries and lapack is just one very powerful example. A major disadvantage of Fortran is that nobody is using it in the real world.

The best book around is is my opinion "Fortran 90/95 for Scientists and Engineers".

Of course all other suggestions are valid, but matlab is not free while Fortran is.

Python is free and has support for a lot of scientific applications through extra packages such as Numpy and Scipy. Python is however rather slow when it comes to numerical performance. It's probably a good option for small projects that don't require a lot of computational power. The syntax is very easy to understand.

C is of course also a free option and has a lot of (constantly updated) scientific libraries available. However, when it comes to readability it cannot beat Fortran. Fortran is well set-up to work with vectors and arrays.

C++ is a superset of C so it's definitely also a possible choice. However, it is a language that might be to complex for the problems that you're looking at. The number of scientific C++ libraries is rather limited. There are some around but they cannot beat the Fortran versions (or are just wrappers of those). It's probably a very good option for very big projects but some very big programs that run on the world's fastest computers are written in Fortran. C++ is definitely worth learning since it is used for a broad number of real world applications.

There are of course other languages or tools but I think these are the most commonly used across scientific disciplines.

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I'm surprised that the consensus here is for modern Fortran, and I grudgingly agree.

Whatever its failings, Fortran is the only language out there being designed explicitly for scientific programming. Scientific programming is both more subtle (per line) and less complicated (in structure) than, say, a web server, and it just needs different tools. Garbage collection, for instance, is almost never useful for solving large 2d/3d PDEs where your primary data structures are fixed.

Any programming language that doesn't even have multi-d arrays as first-class objects can be dismissed immediately for scientific programming. and that's all of the C-based languages. Any programming language which is inherently god-awful slow -- Java, I'm looking at you -- can be dismissed immediately. Any programming language which is proprietary and requires thousands of dollars of licensing fees -- Matlab -- can be dismissed immediately.

Python and related languages are good for prototyping, and plotting is easy, and once you've got things working can write the numerical kernels in compiled languages for speed; but it again suffers from the lack of real arrays (Numpy is good, but not great) and it is s..l..o..w.

By the way -- don't ever by the Numerical Recipes books. They're crap, the algorithms they pitch are of date, and the code ranges from poor to wrong. Take a real numerical algorithms course - there's good ones on line - or buy a real numerical algorithms book -- and for the love of God, don't type in code from a book to do linear algebra or whatever; use the zillions of real, professional quality libraries out there.

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I've worked recently with a lot of Matlab, and I can see it's benefits today. Yes is is slow because it is an interpreted language, but it's matrix algorithms are fast. And I like it exactly because of that behavior. The slowness of the for loops and the performance of the matrix operations encourage you to think in a more mathematical way instead of sticking to loop oriented programming. But I can agree that Matlab can be dismissed, because it is not open.

Currently I am looking forward to the Julia language. It is heavily inspired by Matlab except that it does want to be fast. Also it has static types which is also a very big advantage. But Julia is still very young, so do not expect that does already fulfill all your requirements.

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