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I have found that in containers package crucial data structures such as Data.Map or Data.IntMap are implemented in pure Haskell. Question: I wonder, wouldn't it be more efficient to implement them in C? I know ghc is very good but definitely cannot compete with optimized C code.

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Make sure you're comparing equals with equals; you have to compare Haskell data structures with true C equivalents. First, this means the C code cannot expose in-place mutation to clients of the types. Second, the C code is going to need a memory management story. –  Luis Casillas Sep 11 '12 at 22:08
@sacundim I think the question is really, would it be more efficient to use a C implementation via FFI? So that would mean state/memory issues would have to be solved to the same degree as they are in the Haskell implementation. –  Owen Sep 11 '12 at 22:46
In general, perhaps, but still, you'd be surprised what you can pull off, performance-wise. Obviously, your code isn't going to be quite as idiomatic, but you can do that for library code, since it's behind the scenes. GHC is a pretty remarkable compiler. –  Antal S-Z Sep 12 '12 at 0:20
I've found that in C, crucial data structures such as strings, structs, arrays etc are implemented in pure C. Wouldn't it be more efficient to implement them in Assembly? I know gcc is good, but it can't compete with optimised assembly code. –  AndrewC Sep 12 '12 at 0:30
@AntalS-Z Luckily we don't need to go to even the lengths Don did these days - his starting pieces of code perform equivalently when using GHC 7.4+ with LLVM (and is a consistent ~1.5% slower when using the NCG backend). –  Thomas M. DuBuisson Sep 12 '12 at 2:36

3 Answers 3

up vote 9 down vote accepted

This is an interesting question, but I'm not sure that anyone is going to be able to offer any conclusive answer one way or the other (aside from designing and building an extensive test suite and generating a huge pile of numbers).

The assumption behind this question appears to be "C is always fast, Haskell is always slow, so wouldn't it be better to write the code in C rather than Haskell?" I'm not sure this assumption is factually accurate. (In my limited experience, it's not that Haskell is slow, it's that Haskell can be slow - or very fast - and it's awkward to predict what kind of speed you're going to get.)

Calling C via the FFI has an overhead. Haskell data structures are handled by the garbage collector; memory used via C has to be manually managed. You're looking at quite a bit of effort here, possibly for not as much benefit as you might think.

C data structures tend to be more efficient because of mutability. Most people don't want to work with mutable data structures in Haskell. (In some sense, it negates all the benefits of using Haskell in the first place, so why bother?) If you use immutable data structures in C, you might even find it goes slower than Haskell. (E.g., I'm told C is quite slow at dynamic memory allocation, which would be a problem for persistent data structures. The alternative is to copy stuff all over the place, which also isn't going to be fast.)

On top of that, GHC does clever optimisations like deforestation, which can sometimes result in containers completely disappearing at runtime. The C compiler could never do such a thing. And Haskell, being a lazy language, can sometimes completely skip work that you've asked it to do; that wouldn't work if containers were implemented in C.

In summary, it "looks like" implementing this stuff in C should "obviously" be far faster. In reality, I suspect the answer isn't nearly so clear-cut.

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GHC's runtime is optimized for allocating immutable structures efficiently. It typically will beat the C runtime (malloc) at this task. As a result, C is mostly used to optimize algorithms, not data structures. An exception is either very low level data structures, or highly tuned mutable structures.

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First, Data.Map is not a usual imperative map, but a so called persistent map. It should support efficient keeping of multiple versions of itself. C is not well suited for this type of data structures - for example, classical C-style memory management is not possible.

Second, GHC heap layout is quite complex, especially in this case of working with Ord a dictionaries for comparison. So interfacing with old good C is not straightforward, and costs of interfacing can overrun the advantage of supposedly better code generation.

Implementing Data.Map in C is possible, but chances are little that it will help because of all this bookkeeping. You can try and let us know if it is any faster :) As you can see, it has not been done because the community is pretty sure that nothing can be done.

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