let memorize : int -> (index -> basic) -> (index -> basic) =
fun size ->
fun vec ->
- let memory_array = Array.create size Error in
- let index_array = Array.create size false in
+ let memory = Array.create size Error in
+ let filled = Array.create size false in
let vec_mem : index -> basic =
fun i ->
if i >= 0 && i < size then (
- if index_array.(i) then
- memory_array.(i)
+ if filled.(i) then
+ memory.(i)
else
let result = vec i in
- let () = memory_array.(i) <- result in
- let () = index_array.(i) <- true in
+ let () = memory.(i) <- result in
+ let () = filled.(i) <- true in
result)
else raise (Invalid_argument "vector overflow.") in
vec_mem;;
fun v ->
match v with
|Vec vec ->
- let result : basic array =
+ let basics : basic array =
Array.init vec#size vec#nth in
- Array.map basic_to_float result
+ Array.map basic_to_float basics
|_ -> [| (basic_to_float v)|];;
-let basic_to_string : basic -> string =
+let rec basic_to_string : basic -> string =
fun (v : basic) ->
match v with
- |N i1 -> "N " ^ (string_of_int i1)
- |R f1 -> "R " ^ (string_of_float f1)
- |Vec vec -> "Vec"
- |Zero -> "Zero"
- |Error -> "Error";;
+ |N i1 -> string_of_int i1
+ |R f1 -> string_of_float f1
+ |Vec vec ->
+ let basics : basic array =
+ Array.init vec#size vec#nth in
+ let strings = Array.to_list
+ (Array.map basic_to_string basics) in
+ String.concat "," strings
+ |Zero -> "0"
+ |Error -> "0";;
+
+let basic_of_float : float -> basic = fun f -> R f;;
+
+let rec basic_of_float_array : float array -> basic =
+ fun (data : float array) ->
+ let n = Array.length data in
+ if n = 0 then
+ raise (Convert_Error "basic_of_float_array : empty.")
+ else if n = 1 then basic_of_float data.(0)
+ else
+ let vec = Array.get (Array.map basic_of_float data) in
+ Vec (new vector n vec);;
(* VALUE OPERATIONS *)
projects / Faustine.git / blobdiff