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StringBuiler is a mutable object, F# encourages employing immutability as much as possible. So one should use transformation rather than mutation. Does this apply to StringBuilder when it comes to building a string in F#? Is there an F# immutable alternative to it? If so, is this alternative as efficient?

A snippet

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I posted an immutable string builder in response to an earlier question. Tomas' test runs in 18ms using it (our machines must be similar because I get the same timings for the other versions). – Daniel Sep 3 '13 at 22:08
@MauricioScheffer I would be pretty interested to know what would be the comparison of DList and simple list with reversing. I suspect the function calls in DList may have some cost too... – Tomas Petricek Sep 5 '13 at 4:59
@TomasPetricek FSharpx's DList is slower than reversing a list. A simple function-based DList is about the same, but overflows the stack with a large number of elements. But yeah, anyway the real benefit of the DList is the efficient append, which may not be very relevant here. – Mauricio Scheffer Sep 6 '13 at 5:00
@MauricioScheffer Interesting! Yeah, append is certainly the important thing about DList.. – Tomas Petricek Sep 7 '13 at 4:46

2 Answers 2

up vote 29 down vote accepted

I think that using StringBuilder in F# is perfectly fine - the fact that sb.Append returns the current instance of StringBuilder means that it can be easily used with the fold function. Even though this is still imperative (the object is mutated), it fits reasonably well with the functional style when you do not expose references to StringBuilder.

But equally, you can just construct a list of strings and concatenate them using String.concat - this is almost as efficient as using StringBuilder (it is slower, but not much - and it is significantly faster than concatenating strings using +)

So, lists give you similar performance, but they are immutable (and work well with concurrency etc.) - they would be a good fit if you were building string algorithmically, because you can just append strings to the front of the list - this is very efficient operation on lists (and then reverse the string). Also, using list expressions gives you a very convenient syntax:

// Concatenating strings using + (2.3 seconds)
let s1 = [ for i in 0 .. 25000 -> "Hello " ] |> Seq.reduce (+)

// Creating immutable list and using String.concat (5 ms)
let s2 = [ for i in 0 .. 25000 -> "Hello " ] |> String.concat ""

// Creating a lazy sequence and concatenating using StringBuilder & fold (5 ms)
let s3 = 
  seq { for i in 0 .. 25000 -> "Hello " }
  |> Seq.fold(fun (sb:System.Text.StringBuilder) s -> 
      sb.Append(s)) (new System.Text.StringBuilder())
  |> fun x -> x.ToString()

// Imperative solution using StringBuilder and for loop (1 ms)
let s4 = 
  ( let sb = new System.Text.StringBuilder()
    for i in 0 .. 25000 do sb.Append("Hello ") |> ignore
    sb.ToString() )

The times were measured on my, fairly fast, work machine using #time in F# Interactive - it is quite likely that it would be faster in release build, but I think they are fairly representative.

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Should s2 have List.rev in it before the String.concat? As you noted above, the list will probably be constructed such that the items are in the reverse order of how you would want them concatenated. – mydogisbox Sep 6 '13 at 17:05

If you have need of high performance sting concatenation, then the string builder is probably the right way to go, however, there are ways to make the string builder more functional. Generally speaking, if you need mutability in a functional program, the appropriate way to do this is to create a functional wrapper for it. In F# this is typically expressed as a computation expression. There is an example of a string builder computation expression here.

Example Usage:

//Create a function which builds a string from an list of bytes
let bytes2hex (bytes : byte []) =
    string {
        for byte in bytes -> sprintf "%02x" byte
    } |> build

//builds a string from four strings
string {
        yield "one"
        yield "two"
        yield "three"
        yield "four"
    } |> build

Edit: I made a new implementation of the above computation expression and then ran a release version of Tomas' four solutions plus my computation expression and the computation expression I previously linked.

s1 elapsed Time: 128150 ms  //concatenation
s2 elapsed Time: 459 ms     //immutable list + String.concat
s3 elapsed Time: 354 ms     //lazy sequence and concatenating using StringBuilder & fold 
s4 elapsed Time: 39 ms      //imperative
s5 elapsed Time: 235 ms     //my computation expression
s6 elapsed Time: 334 ms     //the linked computation expression

Notice that s3 takes 9 times as long as the imperative while s5 only takes 6 times as long.

Here is my implementation of the string builder computation expression:

open System.Text

type StringBuilderUnion =
| Builder of StringBuilder
| StringItem of string

let build = function | Builder(x) -> string x | StringItem(x) -> string x

type StringBuilderCE () =
    member __.Yield (txt : string) = StringItem(txt)
    member __.Yield (c : char) = StringItem(c.ToString())
    member __.Combine(f,g) = Builder(match f,g with
                                     | Builder(F),   Builder(G)   ->F.Append(G.ToString())
                                     | Builder(F),   StringItem(G)->F.Append(G)
                                     | StringItem(F),Builder(G)   ->G.Insert(0, F)
                                     | StringItem(F),StringItem(G)->StringBuilder(F).Append(G))
    member __.Delay f = f()
    member __.Zero () = StringItem("")
    member __.For (xs : 'a seq, f : 'a -> StringBuilderUnion) =
                    let sb = StringBuilder()
                    for item in xs do
                        match f item with
                        | StringItem(s)-> sb.Append(s)|>ignore
                        | Builder(b)-> sb.Append(b.ToString())|>ignore

let builder1 = new StringBuilderCE ()

Timer function (note that each test is run 100 times):

let duration f = 
    let timer = new System.Diagnostics.Stopwatch()
    for _ in 1..100 do
        f() |> ignore
    printfn "elapsed Time: %i ms" timer.ElapsedMilliseconds
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Just a special case of a Reader – Mauricio Scheffer Sep 3 '13 at 17:11
@MauricioScheffer On looking through the actual implementation, I think this is poor way to implement a string builder since it loses all of the performance benefits of the StringBuilder class. I'm looking at creating a version which has performance characteristics close to using a raw StringBuilder. – mydogisbox Sep 3 '13 at 17:25
The only performance hit is using sprintf, which is entirely optional. I don't see any other performance issue (talking about Reader) – Mauricio Scheffer Sep 3 '13 at 17:45
In doing a performance test of the above-mentioned computation expression, it performed similarly to the s3 example by Tomas, which is about a 5x performance decrease from the imperative solution. I imagine there is a way to improve that at least some. – mydogisbox Sep 3 '13 at 18:12
sb.Append(sb.ToString()) -> that doesn't sound right. – Mauricio Scheffer Sep 4 '13 at 17:52

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