I'm having a slight problem implementing a particle based fluid simulation in Haskell for a programming competition. I currently have an array of particles that gets modified at each simulation step. Each particle is a tuple of 2 vectors: position and velocity (my own Vec3D module). At some point I need to extract the positions from the particles (sort of like unzipping lists) which I tried to do like this:

```
let xs = runSTArray $ do
xs' <- newArray (min, max) (0.0,0.0,0.0) :: ST s (STArray s Int Vec3D)
forM_ [min..max] $ \j -> do
(x, v) <- readArray ps' j
writeArray xs' j x
return xs'
let displacements = doubleDensityRelaxation xs restDen k kNear t h
```

where ps' is of type `ps' :: ST s (STArray s Int (Vec3D, Vec3D))`

,

and `doubleDensityRelaxation :: Array Int Vec3D -> Double -> Double -> Double -> Double -> Double -> Array Int Vec3D`

,

so xs should be of type `xs :: Array Int Vec3D`

.

Also, `type Vec3D = (Double, Double, Double)`

so those are equivalent, but I get

```
Simulator.hs:76:35:
No instance for (MArray (STArray s) (Vec3D, Vec3D) (ST s1))
arising from a use of `readArray'
Possible fix:
add an instance declaration for
(MArray (STArray s) (Vec3D, Vec3D) (ST s1))
In a stmt of a 'do' block: (x, v) <- readArray ps' j
In the expression:
do { (x, v) <- readArray ps' j;
writeArray xs' j x }
In the second argument of `($)', namely
`\ j
-> do { (x, v) <- readArray ps' j;
writeArray xs' j x }'
```

from the compiler which I dont really understand given that readArray isn't supposed to return an entire array; just one `(Vec3D, Vec3D)`

element.

As a fix, could I make doubleDensityRelaxation take `ST s (STArray s Int Vec3D)`

directly?

If I change the type like that and remove the `let xs = runSTArray $ do`

part I get

```
Couldn't match expected type `ST s0 (STArray s0 Int Vec3D)'
with actual type `STArray s Int Vec3D'
```

but if I give it `(ST s xs')`

as an input instead of just `xs'`

it complains about data constructor ST not being in scope. My imports are currently

```
import Data.List
import Data.Array
import Data.Array.ST
import Control.Monad
import Control.Monad.ST
import Vec3D
```

Complete function:

```
step :: Array Int (Vec3D, Vec3D) -> Vec3D -> Double -> Double -> Double -> Double -> Double -> Array Int (Vec3D, Vec3D)
step ps g restDen k kNear t h = runSTArray $ do
ps' <- thaw ps :: ST s (STArray s Int Particle)
--GRAVITY
forM_ [min..max] $ \i -> do
(x, v) <- readArray ps' i
writeArray ps' i (x, addGravity v g t)
--TODO - VISCOSITY
--MOVE
xsOld <- newArray (min, max) (0.0,0.0,0.0) :: ST s(STArray s Int Vec3D)
forM_ [min..max] $ \i -> do
(x, v) <- readArray ps' i
writeArray xsOld i x
writeArray ps' i (x `add` (v `mulSc` t), v)
--TODO - SPRINGS
--DOUBLE DENSITY RELAXATION
xs' <- newArray (min, max) (0.0,0.0,0.0) :: ST s (STArray s Int Vec3D)
forM_ [min..max] $ \j -> do
(x, v) <- readArray ps' j
writeArray xs' j x
let displacements = doubleDensityRelaxation (freeze xs') restDen k kNear t h
ps <- newArray (min, max) ((0.0,0.0,0.0), (0.0,0.0,0.0)) :: ST s (STArray s Int (Vec3D, Vec3D))
--TODO incomplete
return ps
where
addGravity v g t = v `add` (g `mulSc` t)
(min, max) = bounds ps
```

`ps'`

(it should be`STArray s Int (Vec3D, Vec3D)`

without the`ST s ...`

), but it's hard to give good advice on how to fix it without seeing where`ps'`

is coming from. – hammar Nov 19 '12 at 15:40`Couldn't match expected type 'Vec3D' with actual type 'Int'. Expected type: Array Vec3D Vec3D. Actual type: Array Int (Vec3D, Vec3D). In the first argument of 'thaw', namely 'ps'. In a stmt of a 'do' block: ps' <- thaw ps :: STArray s Int Particle`

– LemonLord Nov 19 '12 at 16:06`let displacements = ... line`

to`xs'' <- freeze xs'`

and then use`xs''`

instead of`freeze xs'`

(hpaste). – hammar Nov 19 '12 at 16:29`freeze :: (Ix i, MArray a e m, IArray b e) => a i e -> m (b i e)`

. So your`freeze xs'`

is an`IArray b Vec3D => ST s (b Int Vec3D)`

. To get the actual array, you need to run`freeze`

inside the`runSTArray`

. – Daniel Fischer Nov 19 '12 at 16:34