# Tail call conversion in OCaml

I was told in class that the following function is not tail recursive due to the boolean operator being evaluated after the recursive call:

``````let rec exists p = function
[] -> false
| a::l -> p a || exists p l
``````

But this doesn't blow the stack on a ten-million size list, and what's more, it is the implementation in the standard library. If it weren't tail recursive, there would be no reason to use this form instead of the seemingly equivalent and clearly tail recursive

``````let rec exists p = function
[] -> false
| a::l -> if p a then true else exists p l
``````

so it seems like the OCaml compiler is capable of optimizing boolean ops in simple cases like this to take advantage of tail recursion. But I noticed that if I switch the order of operands like so

``````let rec exists p = function
[] -> false
| a::l -> exists p l || p a
``````

then the stack is indeed blown on 10m elements. So it looks like OCaml is only able to take advantage of this when the recursive call appears on the right, which makes me suspect that all the compiler does is replace the boolean op with the equivalent `if` expression. Can someone confirm or refute this?

-

The person who told you this was wrong.

In fact, `||` is not translated into an if/then/else right away, but preserved a bit through the intermediate language of the compiler, to easily enable two different transformations:

1. as you said, `a || b` in expression position is translated into `if a then true else b`
2. but `a || b` in test position, that is, `if a || b then c else d` is translated differently, into something like `if a then goto c else if b then goto c else d`, when `goto c` is a jump to the computation of `c` (just translating into `if a then c else if b then c` would duplicate the code of `c`). This optimization is more arcane and the users don't need to be aware of it to reason about the performance of their programs.

You can see for yourself in the sources of the compiler. The `||` primitive is represented as `Psequor`, and the files of interest are asmcomp/cmmgen.ml for native compilation ((1), (2)]), and bytecomp/bytegen.ml for the bytecode compilation (both aspects are handled at the same time, by instruction of the bytecode produced to use the result).

A small point: you seem to say that OCaml is able to optimize a tail-call "on the right" because this case is "simple enough", but not "on the left" because the compiler is not clever enough. If the call appears on the left, it is not a tail call, so it must not be optimized. This is not a question of being a "simple" tail call or not.

Finally, if you want to check whether a tail is tail-call or not, you can use OCaml tools for that: compiling with the `-annot` option will produce an annotation file `foo.annot` (if your source was `foo.ml`) that has information about the types of program expressions and, for function calls, about whether they're tail-calls or not. With the `caml-mode` in Emacs for example, the command `M-x caml-types-show-call` pointed about the `exists` after the `||` will confirm me that this is a "tail call", while when called on `p x` it returns "stack call".

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Interesting. Do compilers usually do translations like this? I am just starting OCaml but I'll definitely be looking more at the compiler source since I want to learn about this. And I'm using Tuareg mode, do you happen to know if there's an equivalent command? – scry Jul 8 '12 at 18:12
I'm not sure what you call "like this", but yes, it's common for compilers, and even language specifications, to define some constructs by translating them away to a more primitive construct. We sometimes call it "syntactic sugar" or "derived expressions", but this is only for the part that is visible to the user; in fact compilers do exactly that all the time, at various level, for various intermediate languages (the files I've pointed you to manipulate three such languages). I don't about about the `-annot` support in tuareg-mode. – gasche Jul 8 '12 at 20:08
@gasche thanks for the info on -annot, I was not aware of this. – aneccodeal Jul 8 '12 at 20:55
I just wondered whether `||` specifically would be translated like this, but I imagine there are many complicated translations occurring on the way to machine code. – scry Jul 8 '12 at 22:40

If one wrote:

``````let rec add_result p = function
[] -> 0
| a::l -> p a + add_result p l
``````

This won't be tail recursive, because after the recursive call the function has to add both results.

But `||` is not a normal operator, and `A || B` is strictly equivalent to `if A then true else B`, so when you wrote

``````let rec exists p = function
[] -> false
| a::l -> p a || exists p l
``````

it's the same than

``````let rec exists p = function
[] -> false
| a::l -> if p a then true else exists p l
``````

and the function is tail recursive.

``````let rec exists p = function
[] -> false
| a::l -> exists p l || p a
``````

is equivalent to

``````let rec exists p = function
[] -> false
| a::l -> if exist p l then true else p a
``````

and this is not tail recursive.

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That's what I suspected actually - that it's a direct translation by the compiler. – scry Jul 8 '12 at 18:14

Remi's answer is completely correct. Note that some languages with different typing systems than OCaml automatically coerce certain non-boolean values into booleans. These languages have a choice with operators like (||): either don't try to coerce the result of the rhs into a boolean, but just return whatever is given, or do coerce but then you have some work to do after the rhs is evaluated, so you give up on the tail-recursiveness of (||). You can't have both. Perhaps your informant was thinking along those lines and that's why they mistakenly said what they did about OCaml. Given OCaml's strict handling of types, you can't say things like `true || succ 5` in the first place.

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Hmm, can you give an example of a functional language that would do coercion like that? Or do you mean something like how C handles "booleans"? As for my prof., I think he either just wasn't aware of the conversion of `||`, or didn't want to go into the details in class. – scry Jul 8 '12 at 17:56
code.google.com/p/pure-lang used to coerce like that, but has abandoned that and now does things tail-recursively. – dubiousjim Jul 8 '12 at 22:23
@dubiousjim: you can avoid the problem by coercing in places that expect a boolean, rather than in places that should produce a boolean. – gasche Jul 9 '12 at 4:46