I have an F# function that returns a list of numbers starting from 0 in the pattern of skip n, choose n, skip n, choose n... up to a limit. For example, this function for input 2 will return
[2, 3, 6, 7, 10, 11...].
Initially I implemented this as a non-tail-recursive function as below:
let rec indicesForStep start blockSize maxSize = match start with | i when i > maxSize ->  | _ -> [for j in start .. ((min (start + blockSize) maxSize) - 1) -> j] @ indicesForStep (start + 2 * blockSize) blockSize maxSize
Thinking that tail recursion is desirable, I reimplemented it using an accumulator list as follows:
let indicesForStepTail start blockSize maxSize = let rec indicesForStepInternal istart accumList = match istart with | i when i > maxSize -> accumList | _ -> indicesForStepInternal (istart + 2 * blockSize) (accumList @ [for j in istart .. ((min (istart + blockSize) maxSize) - 1) -> j]) indicesForStepInternal start 
However, when I run this in fsi under Mono with the parameters 1, 1 and 20,000 (i.e. should return
[1, 3, 5, 7...] up to 20,000), the tail-recursive version is significantly slower than the first version (12 seconds compared to sub-second).
Why is the tail-recursive version slower? Is it because of the list concatenation? Is it a compiler optimisation? Have I actually implemented it tail-recursively?
I also feel as if I should be using higher-order functions to do this, but I'm not sure exactly how to go about doing it.