6

I would like to store a non-parametric, unpacked data type like

data Point3D = Point3D {-# UNPACK #-} !Int {-# UNPACK #-} !Int {-# UNPACK #-} !Int

In an Unboxed vector. Data.Vector.Unboxed says:

In particular, unboxed vectors of pairs are represented as pairs of unboxed vectors.

Why is that? I would prefer to have my Point3D laid out one after another in memory to get fast cache-local access when sequentially iterating over them - the equivalent of mystruct[1000] in C.

Using Vector.Unboxed or otherwise, how can I achieve that?


By the way: With vector-th-unbox the same happens, since with that you just transform your data type to the (Unbox a, Unbox b) => Unbox (a, b) instance.

  • Have you considered using Storable instead of Unboxed. I once tested it in a few scenarios and I don't think their performance differs a lot. – yokto Apr 5 '14 at 14:58
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    The documentation means (Unbox a, Unbox b) => (a, b) specifically when it says "pairs". For your type, you'll need to write your own Unbox instance, and that instance is free to lay things out contiguously if you so desire. – Carl Apr 5 '14 at 15:51
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    @nh2: Storable instances are definitely less boilerplate to write than Unboxed, Vector, and MVector instances. Also, I believe Vector pairs work the way they do so that zipping/unzipping can be done efficiently. – John L Apr 5 '14 at 17:04
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    Pure speculation: if the types being paired have different sizes (such as (Int32, Int64)), the pair-of-vectors approach may avoid alignment problems that could cause poor performance on some architectures. – dfeuer Apr 5 '14 at 18:38
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    @dfeuer the performance impact of caching would probably dominate that. I think the best rule is if the data is used together, store it together. – Justin Raymond Aug 12 '15 at 13:25
9

I don't know why vectors of pairs are stored as pairs of vectors, but you can easily write instances for your datatype to store the elements sequentially.

{-# LANGUAGE TypeFamilies, MultiParamTypeClasses #-}

import qualified Data.Vector.Generic as G 
import qualified Data.Vector.Generic.Mutable as M 
import Control.Monad (liftM, zipWithM_)
import Data.Vector.Unboxed.Base

data Point3D = Point3D {-# UNPACK #-} !Int {-# UNPACK #-} !Int {-# UNPACK #-} !Int

newtype instance MVector s Point3D = MV_Point3D (MVector s Int)
newtype instance Vector    Point3D = V_Point3D  (Vector    Int)
instance Unbox Point3D

At this point the last line will cause an error since there are no instances for vector types for Point3D. They can be written as follows:

instance M.MVector MVector Point3D where 
  basicLength (MV_Point3D v) = M.basicLength v `div` 3 
  basicUnsafeSlice a b (MV_Point3D v) = MV_Point3D $ M.basicUnsafeSlice (a*3) (b*3) v 
  basicOverlaps (MV_Point3D v0) (MV_Point3D v1) = M.basicOverlaps v0 v1 
  basicUnsafeNew n = liftM MV_Point3D (M.basicUnsafeNew (3*n))
  basicUnsafeRead (MV_Point3D v) n = do 
    [a,b,c] <- mapM (M.basicUnsafeRead v) [3*n,3*n+1,3*n+2]
    return $ Point3D a b c 
  basicUnsafeWrite (MV_Point3D v) n (Point3D a b c) = zipWithM_ (M.basicUnsafeWrite v) [3*n,3*n+1,3*n+2] [a,b,c]

instance G.Vector Vector Point3D where 
  basicUnsafeFreeze (MV_Point3D v) = liftM V_Point3D (G.basicUnsafeFreeze v)
  basicUnsafeThaw (V_Point3D v) = liftM MV_Point3D (G.basicUnsafeThaw v)
  basicLength (V_Point3D v) = G.basicLength v `div` 3
  basicUnsafeSlice a b (V_Point3D v) = V_Point3D $ G.basicUnsafeSlice (a*3) (b*3) v 
  basicUnsafeIndexM (V_Point3D v) n = do 
    [a,b,c] <- mapM (G.basicUnsafeIndexM v) [3*n,3*n+1,3*n+2]
    return $ Point3D a b c 

I think most of the function definitions are self explanatory. The vector of points is stored as a vector of Ints and the nth point is the 3n,3n+1,3n+2 Ints.

  • A few questions about this: 1) I think the b in basicUnsafeSlice is a length argument, so shouldn't it be b*3? 2) Docs for basicOverlaps, basicUnsafeNew etc. suggest overlaps and unsafeNew be called instead - should that also be done for this instance? They don't seem to give a reason for it. 3) What do you do when there's not only Ints in your record? What to choose as underlying representation (i.e. alternative to V_Point3D (Vector Int)? – nh2 Apr 15 '14 at 13:08
  • @nh2 basicUnsafeSlice a b returns a vector starting at the ath element and ending at the bth element. The start of the nth element is 3*n; the end is 3*n+2. 2) You never use these functions, but they are used to define all other functions on unboxed vectors, so these are all the functions you need to define to use any function on unboxed vectors. 3) Your "point" type should contain n elements of the same type. This would work with data Point3D a = P3d {-# UNPACK #-} !a {-# UNPACK #-} !a {-# UNPACK #-} !a and newtype instance MVector s (Point3D a) = MV_Point3D (MVector s a) – user2407038 Apr 15 '14 at 13:32
  • 1) The docs claim though that the second argument is a length argument, not an end index. 2) Ok. 3) Yes, this answers my original question, but what I meant with this comment was: What if your record does not contain n of elements of the same type, but instead something like data Mystruct = Mystruct { id :: Word64, position :: Point3D, visible :: Bool, use :: MyEnum }? So a record with members of different size. In this case, not sure what to pick as underlying vector... – nh2 Apr 15 '14 at 15:57
  • 1) Woops! I guess I should read more carefully. Nice catch. 3) You could do this, but you would need to have way of serializing and deserializing MyStruct to a more uniform type. You could use a mature library like Data.Serialize or roll your own if you have specific needs. – user2407038 Apr 15 '14 at 17:31
  • Also, there is Data.Vector.Storable which seems to be precisely for this sort of thing: vectors of types that live in contiguous memory. Writing Storable instances will probably be the easiest path. – user2407038 Apr 15 '14 at 17:39

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