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Problem specification:

I am currently searching for a elegant and/but efficient solution to a problem that i guess is quite common. Consider the following situation:

I defined a fileformat based on a BTree that is defined (in a simplified way) like this:

data FileTree = FileNode [Key] [FileOffset]
              | FileLeaf [Key] [Data]

Reading and writing this from a file to a lazy data structure is implemented and works just fine. This will result in a instance of:

data MemTree = MemNode [Key] [MemTree]
             | MemLeaf [Key] [Data]

Now my goal is to have a generic function updateFile :: FilePath -> (MemTree -> MemTree) -> IO () that will read in the FileTree and convert it into a MemTree, apply the MemTree -> MemTree function and write back the changes to the tree structure. The problem is that the FileOffsets have to be conserved somehow.

I have two approaches to this problem. Both of them lack in elegance and/or efficiency:

Approach 1: Extend MemTree to contain the offsets

This approach extends the MemTree to contain the offsets:

data MemTree = MemNode [Key] [(MemTree, Maybe FileOffset)]
             | MemNode [Key] [Data]

The read function would then read in the FileTree and stores the FileOffset alongside the MemTree reference. Writing will checks if a reference already has an associated offset and if it does it just uses it.

Pros: easy to implement, no overhead to find the offset

Cons: exposes internal to the user who is responsible to set the offset to Nothing

Approach 2: Store offsets in a secondary structure

Another way to attack this problem is to read in the FileTree and create a StableName.Map that holds onto the FileOffsets. That way (and if i understand the semantics of StableName correctly) it should be possible to take the final MemTree and lookup the StableName of each node in the the StableName.Map. If there is an entry the node is clean and doesn't have to be written again.

Pros: doesn't expose the internals to the user

Cons: involves overhead for lookups in the map

Conclusion

These are the two approaches i can think of. The first one should be more efficient, the second one is more pleasant to the eye. I'd like your comments on my ideas, maybe someone even has a better approach in mind?

[Edit] Reasonal

There are two reasons i am searching for a solution like this:

On the one hand you should try to handle errors before they arise by using the type system. The aforementioned user is of course the designer of the next layer in the system (ie me). By working on the pure tree representation some kinds of bugs won't be able to happen. All changes to the tree in the file should be in one place. That should make reasoning easier.

On the other hand i could just implement something like insert :: FilePath -> Key -> Value -> IO () and be done with it. But then i'll lose a very nice trait that comes free when i keep a (kind of a) log by updating the tree in place. Transactions (ie merging of several inserts) are just a matter of working on the same tree in memory and writing just the differences back to the file.

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Why are you exposing the MemTree type to the user? Can't you keep the internals private, and expose whatever interface you want? –  pat Oct 13 '12 at 18:07
    
Not really a proper solution, but this question prompted a bit of tinkering with type-enforced versions of your first approach, i.e. where the user must handle things (but gets a compiler error if they don't). Some rough code on hpaste if you're curious. Ended up going off in a slightly different direction though, so probably doesn't help you in this case. –  C. A. McCann Oct 13 '12 at 23:36
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@AndrewC: maybe you are right. I guess i am trying to overengineer a trivial problem. I was hoping that there is a cool solution for hiding the additional information per node. Some way like the State Monad 'hides' the state when it is not needed. That way the type system would prevent me from making stupid mistakes. But if there is no way of achieving this i'll go with the simple way. –  Florian Oct 15 '12 at 11:01
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Monads can hide stuff because they use a standard interface (and syntax) that do all the plumbing under the hood. You can hide the additional information with a monad, but perhaps that's not the best interface to a tree! Why not roll your own interface that hides the plumbing under the hood? Maybe have a public MemTree and private MemTreeAnnotated. insert should secretly add Nothing for the FileOffset, leftSubTree and rightSubTree should give you the data without the FileOffset annotations, but fmap could preserve it if FileOffset counts in nodes. delete should preserve it. –  AndrewC Oct 15 '12 at 11:28
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@Florian: The closest equivalent to how State works would probably be requiring the user to construct a reified update function, zipper-style, instead of exposing MemTree directly. If the user has the MemTree constructors, tedious structural equality checks are about the best you can do. The stuff in the hpaste above (which would certainly be insanely overengineered) really amounts to a shortcut for that, by marking subtrees that are unchanged and thus don't need to be checked further. –  C. A. McCann Oct 15 '12 at 14:15

1 Answer 1

I am very new at Haskell so I won't be showing code, but hopefully my explanation may help for a solution.

First, why not just expose only the MemTree to the user, since that is what they will update, and the FileTree can be kept completely hidden. That way, later, if you want to change this to be going to a database, for example, the user doesn't see any difference.

So, since the FileTree is hidden, why not just read it in when you are going to update, then you have the offsets, so do the update, and close the file again.

One problem with keeping the offsets is that it prevents another program from making any changes to the file, and in your case that may be fine, but I think as a general rule it is a bad design.

The main change, that I see, is that the MemTree shouldn't be lazy, since the file won't be staying open.

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