How do I retrieve the head and tail of a tuple in F#?

For example

`Conj (a, b)`

, the head is`Conj`

, tail is`(a, b)`

.I want to recursively run

`buildtree`

function on each parameters, put the head as`Node`

's element, where is the map in F#?`let rec getparams = map List.head (List.tail getparams); type Elem = Prop type Tree = E | T of Elem * Tree * Tree let rec buildtree vars = function | E = head vars | T = buildtree (getparams vars)`

After updated:

```
open System
open Microsoft.FSharp.Reflection
// Learn more about F# at http://fsharp.net
//type Prop = {a: string; b: string}
//let Prop a b = (a, b)
type Op = Prop
type tree = E | T of Op * tree * tree
let tree x y z = (x, y, z)
type binOp = Conj | Disj | Impl
type expr =
| Prop of string
| BinOp of binOp * expr * expr
| Conj of expr * expr
| Disj of expr * expr
| Impl of expr * expr
type Prop = {a: string}
let Prop a = (a)
//type Conj = {a : Prop; b : Prop}
let Conj a b = (a, b)
//type Conj_Int = {a : Prop; b : Prop}
let Conj_Int a b = Conj a b
//type Conj_Elmin1 = {a : Conj}
let Conj_Elmin1 a = fst a
//type Conj_Elmin2 = {a : Conj}
let Conj_Elmin2 a = snd a
//type Impl = {a : Prop; b : Prop}
let Impl a b = (a b)
//type Impl_Int = {assume : Prop; b : Prop}
let Impl_Int assume b = Impl assume b
//type Impl_Elmin = {a :string; b : Impl}
let Impl_Elmin a b = if a = fst b then snd b
type Neg = {a : Prop;}
let Neg a = (a)
//type Double_Neg_Int = {a : Prop;}
let Double_Neg_Int a = Neg(Neg(a))
//type Double_Neg_Elmin = {a : Prop}
let Double_Neg_Elmin a = fst(fst(a))
//type Disj = {a : Prop; b : Prop}
let Disj a b = (a,b)
//type Disj_Int1 = {a : Prop; b : Prop}
let Disj_Int1 a b = (a b)
//type Disj_Int2 = {a : Prop; b : Prop}
let Disj_Int2 a b = (a b)
//type Disj_Elmin1 = {a : Disj}
let Disj_Elmin1 a = fst(a)
//type Disj_Elmin2 = {a : Disj}
let Disj_Elmin2 a = snd(a)
type TupleSplitter = static member splitTuple (a,b,c) = (a,(b,c))
let tupleToList t = if Microsoft.FSharp.Reflection.FSharpType.IsTuple(t.GetType()) then Some (Microsoft.FSharp.Reflection.FSharpValue.GetTupleFields t |> Array.toList) else None
let operation x = List.head(List.ofSeq(FSharpValue.GetTupleFields(x)))
let parameters x = List.tail(List.ofSeq(FSharpValue.GetTupleFields(x)))
let rec map f = function | Prop _ as t -> f t | BinOp(op, a, b) -> f(BinOp(op, map f a, map f b))
(*
let rec map f = function
| Prop _ as t -> f t | Conj(a, b) -> f(Conj(map f a, map f b))
| Disj(a, b) -> f(Disj(map f a, map f b))
| Impl(a, b) -> f(Impl(map f a, map f b))
*)
let buildtree vars expr = map (function Prop v -> Map.find v vars | expr -> expr) expr
let t = buildtree(Conj("a","b"))
```

- how to have two type of expression Op*Tree*Tree and Op*Tree?

`let Conj a b`

defines a function that takes a function`a`

and a value`b`

and applies the function`a`

to a value`b`

. That's probably not what you wanted. Can you explain what is it supposed to do? (It could be just a misunderstanding of some syntax...) – Tomas Petricek Nov 7 '11 at 11:30