Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm curious to know how exceptions are dealt with in OCaml runtime to make them so lightweight. Do they use setjmp/longjmp or do they return a special value in each function, and propagate it?

It seems to me that longjmp would put a little strain on the system, but only when an exception is raised, while checking for each function return value would need to check for every and each value after calling a function, which seems to me would put a lot of checks and jumps, and it seems it would perform worst.

By looking at how OCaml interfaces with C ( http://caml.inria.fr/pub/docs/manual-ocaml/manual032.html#toc142 ), and looking at callback.h, it seems that an exception is tagged by using the memory alignment of objects ( #define Is_exception_result(v) (((v) & 3) == 2) ). This seems to indicate that its implementation doesn't use longjmp and checks each function result after each function call. Is that it? Or the C function already tries to catch any exception, and then converts it to this format?

Thank you!

share|improve this question

1 Answer 1

up vote 29 down vote accepted

OCaml exception handling

It doesn't use setjmp/longjmp. When a try <expr> with <handle> is evaluated, a "trap" is placed on the stack, that contains information about the handler. The address of the topmost trap is kept in a register¹, and when you raise, it jumps directly to this trap, unwinding several stack frames in one go (this is better than checking each return code). A trap also stores the address of the previous trap, which is restored in the register at raise time.

¹: or a global, on architectures with not enough registers

You can see for yourself in the code:

  • bytecode compilation: lines 635-641, two Kpushtrap/Kpoptrap bytecodes surround the try..withed expression
  • native compilation: lines 254-260, again instructions Lpushtrap/Lpoptrap around the expression
  • bytecode execution for the bytecode PUSHTRAP (places the trap/handler), POPTRAP (remove it, non-error case) and RAISE (jump to the trap)
  • native code emission on mips and on amd64 (for example)

Comparison with setjmp

Ocaml uses a non-standard calling convention with few or no callee-saved registers, which makes this (and tail-recursion) efficient. I suppose (but I'm no expert) that's the reason why C longjmp/setjmp isn't as efficient on most architectures. See for example this x86_64 setjmp implementation that looks exactly like the previous trapping mechanism plus callee-registers save.

This is taken into account in the C/OCaml interface: the usual way to call a Caml function from C code, caml_callback, doesn't catch OCaml-land exceptions; you have to use a specific caml_callback_exn if you wish to, which setups its trap handler and saves/restores callee-saved registers of the C calling convention. See eg. the amd64 code, which saves the registers then jump to this label to setup the exception trap.

share|improve this answer
Wow! Very nice! Thank you! Do you know why setjmp/longjmp doesn't use a similar approach? Is there any way to access those primitives from C other than asm calls? Thank you again! –  Waneck Dec 20 '11 at 2:15
@Waneck I suppose setjmp/longjmp use a similar implementation on architectures that make this practical. But the callee-saved registers of the calling convention make those things more costly. I added a remark about them. –  gasche Dec 20 '11 at 8:35

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.