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I am an OCaml newbie. I like OCaml's speed but I don't fully understand its design. For example, I would like the '+' operator to be polymorphic to support integer, float and so on. Why do we need '+.'?

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Is your question specifically about + and +. or is the title your actual question? To be clear, a specific question may get an answer, but your title question is too broad and will get the question closed. –  David Alber Nov 5 '11 at 0:18
Not only is the title question too broad, it's highly subjective (bordering on inflammatory). –  sepp2k Nov 5 '11 at 0:30
The title of your question claims it's going to be about syntax, and then the only example of flaw you give is about the type system. Have a look at the StackOverflow questions for "[C] strange behavior". Many of them are caused by C's type system. float f = 3 / 7; sets f to zero. sizeof(int) - 5 is not -1. Well, OCaml does not use this cursed system. The question should be, how come so many languages still use it when it puzzles so many people? –  Pascal Cuoq Nov 5 '11 at 8:53
This is a great question and I am very disappointed to see it closed. Many objective statements can be made about this. The separation of + and +. makes type inference simpler and more predictable. The alternatives are less predictable (defaults) or potentially much less efficient (dispatch). Then there is the question of whether or not it would be an abuse of overloading given that the functions have different characteristics (e.g. associativity) or even entirely different purposes (division vs Euclidean quotient). –  Jon Harrop Mar 6 '12 at 23:37
@Complicatedseebio Are you saying that promotion is the only important issue here? Why are you restricting consideration to C? What about the other alternatives in use that also shun promotion? What are the trade-offs between the approaches taken by Standard ML, F# and Haskell? –  Jon Harrop Mar 7 '12 at 9:33

2 Answers 2

up vote 7 down vote accepted

Ocaml does not support polymorphic operators (numeric or otherwise) other than comparison operators. The + versus +. thing removes a lot of subtle bugs which can crop up in converting different sizes of integers, floats, and other numeric types back and forth. It also means that the compiler always knows exactly which numeric type is in use, thus making it easier to recognize when the programmer has made incorrect assumptions about a number always having an integer value. Requiring explicit casting between numeric types may seem awkward, but in the long run, it probably saves you more time tracking down weird bugs than you have to spend to write that extra period to be explicit.

Aside from the . versions of the numeric operators, I do not think that the Ocaml syntax is particularly strange. It is very much in line with previous ML languages with appropriate and reasonable syntax extensions for its added features. If it initially seems odd to you, that probably simply indicates that you have been, thus far, only been programming in languages with closely related syntax. As you learn new languages, you will see that there are many different ways to have language syntax with different benefits and detriments, but a lot of it is just arbitrary conventions which someone decided on.

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"The + versus +. thing removes a lot of subtle bugs". If that were true, F# code would suffer from those subtle bugs but it does not. In reality, the bugs are caused almost entirely by implicit casts (e.g. 2.3/0 or 1/12*123.456) and not by overloading. F# does not do implicit casts, i.e. + is int -> int -> int or float -> float -> float but not int -> float -> float. So that is not a valid motive for OCaml's choice. –  Jon Harrop Mar 7 '12 at 9:12
"Aside from the . versions of the numeric operators". And don't forget the . versions are specifically for the float numeric type. OCaml also provides +/ for arbitrary-precision addition and I used to have to write my own +| version for vectors and +|| version for matrices, which gets ridiculous really quickly. And OCaml doesn't even offer most numeric types like 32-bit floats... –  Jon Harrop Mar 7 '12 at 9:17
This argument looks reasonable only until you start to count for all other compromises that F# had to do in order to support this overloading. –  ygrek Mar 7 '12 at 10:10
You're right that it is really implicit casting which causes most of the subtle bugs, and that you can do polymorphic operators without implicit casting which are not as worrisome. But once you allow polymorphic operators, in general, then people defining their own can create int -> int -> int, float -> float -> float, and int -> float -> float operations. The only way to prevent this is to only allow polymorphic operators for the standard libraries or some other such special casing. It makes sense to have uniform rules. –  Keith Irwin Mar 7 '12 at 19:41

I would like the '+' operator to be polymorphic to support integer, float and so on. Why do we need '+.'?

Excellent question. There are many subtle trade-offs involved here.

The advantages of not overloading operators (as in OCaml) are:

  • Type inference is simpler and more predictable.
  • Code is more composable: moving code from one place to another cannot affect its meaning.
  • Predictable performance: you always know exactly which function is being invoked.

The disadvantages are:

  • Number of different operators quickly gets out of control: + for int, +. for float, +/ for arbitrary-precision rationals, +| for vectors, +|| for matrices and the complex numbers, low-dimensional vectors and matrices, homogeneous coordinates etc.

Some alternatives are:

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Type classes need not be resolved at run-time. There are also pragmas to guarantee compile-time resolution. Type-class methods can carry meaning, so code should not change meaning in a different context. Type inference is predictable and comprehensive in their presence, too. The problem is not just explosion of operators, by the way, but also difficulty of writing generic code. A function that uses polymorphic operators will be more useful and more reusable than one hard-coded to a certain type. –  Peaker Feb 6 '13 at 22:25
@Peaker "Type classes need not be resolved at run-time". How do you resolve all type classes at compile time when code can be loaded dynamically? –  Jon Harrop Feb 7 '13 at 13:23
@Peaker "A function that uses polymorphic operators will be more useful and more reusable than one hard-coded to a certain type". Arithmetic is the most common source of overloaded operators. Ints and floats are the most common numerical types. Numerical methods over ints and floats have almost nothing in common because the semantics of the overloaded operators are different between those numerical types, primarily due to rounding in floating point arithmetic. So type classes let you factor out commonality but there is little commonality there to be factored out. –  Jon Harrop Feb 7 '13 at 13:26
You can use SPECIALIZE pragmas and give concrete types. You can leave it to runtime, and if there's no way to know the types until runtime, it will be left for runtime. That's a feature, not a bug. –  Peaker Feb 7 '13 at 16:23
I'm not sure arithmetic is the most common source of overloaded operators. There's also (>>=), (>>), (<>) and many other non-arithmetic overloads. I agree Ints and Floats are not that similar, and indeed they use different type-classes. But Int, {Int,Word}{8,16,32,64}, Integer are all very similar types. Float and Double have a lot of commonality. –  Peaker Feb 7 '13 at 16:25

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