(** All the types used in the spreadsheet. *) let u = UTF8.from_utf8string exception Error type cell = Cell.t type ident = UTF8.t type _ dataFormat = | Date: DataType.Num.t dataFormat (* Date *) | Number: DataType.Num.t dataFormat (* Number *) | String: DataType.String.t dataFormat(* String *) | Bool: DataType.Bool.t dataFormat (* Boolean *) type numericType = | Date | Number let get_numeric_type: DataType.Num.t dataFormat -> numericType = function | Date -> Date | Number -> Number type 'a types = | Num : DataType.Num.t dataFormat * DataType.Num.t -> DataType.Num.t types (** A number *) | Str : DataType.String.t -> DataType.String.t types (** A string *) | Bool : DataType.Bool.t -> DataType.Bool.t types (** A boolean *) let number n = Num (Number, n) let string s = Str s let date d = Num (Date, d) let boolean b = Bool b type 'a returnType = | Num : DataType.Num.t dataFormat option -> DataType.Num.t returnType (** A number *) | Str : DataType.String.t returnType (** A string *) | Bool : DataType.Bool.t returnType (** A boolean *) let f_num: DataType.Num.t returnType = Num None let f_date: DataType.Num.t returnType = Num (Some Date) let f_number: DataType.Num.t returnType = Num (Some Number) let f_string: DataType.String.t returnType = Str let f_bool: DataType.Bool.t returnType = Bool type refs = | Cell of cell (** A cell *) | Range of cell * cell (** An area of cells *) type expression = | Value : 'a types -> expression (** A direct value *) | Ref : refs -> expression (** A reference to another cell *) | Call : ident * expression list -> expression (** A call to a function *) | Expression : expression -> expression (** An expression *) (** Result from a computation *) type result = | Result : 'a types -> result | Error : exn -> result module DataFormat = struct type formats = F : 'a dataFormat -> formats [@@unboxed] let priority: type a. a dataFormat -> int = function | Date -> 1 | Number -> 0 | String -> 0 | Bool -> 0 let collect_format: DataType.Num.t dataFormat -> formats -> DataType.Num.t dataFormat = begin fun dataFormat -> function | F Date -> Date | _ -> dataFormat end let guess_format_result: type a. a returnType -> (unit -> formats list) -> a dataFormat = fun return params -> begin match return with | Str -> String | Bool -> Bool | Num (Some x) -> x | Num None -> List.fold_left collect_format Number (params ()) end let default_value_for: type a. a dataFormat -> a = function | Date -> DataType.Num.zero | Number -> DataType.Num.zero | Bool -> false | String -> UTF8.empty type ('a, 'b) equality = Eq : ('a, 'a) equality let compare_format: type a b. a dataFormat -> b dataFormat -> (a, b) equality = fun a b -> begin match a, b with | Date, Date -> Eq | String, String -> Eq | Number, Number -> Eq | Date, Number -> Eq | Number, Date -> Eq | Bool, Bool -> Eq | _, _ -> raise Errors.TypeError end end module Type = struct let (=) : type a b. a types -> b types -> bool = fun t1 t2 -> match t1, t2 with | Num (_, n1), Num (_, n2) -> DataType.Num.eq n1 n2 | Bool b1, Bool b2 -> b1 = b2 | Str s1, Str s2 -> s1 = s2 | _, _ -> false (** Show a list of elements *) let rec show_list printer buffer = begin function | [] -> () | hd::[] -> UTF8.Printf.bprintf buffer "%a" printer hd | hd::tl -> UTF8.Printf.bprintf buffer "%a, " printer hd; show_list printer buffer tl end let show: type a. UTF8.Buffer.buffer -> a types -> unit = fun buffer -> begin function | Str x -> UTF8.Buffer.add_string buffer x | Bool b -> UTF8.Printf.bprintf buffer "%B" b | Num (Number, n) -> if DataType.Num.is_integer n then DataType.Num.to_int n |> string_of_int |> UTF8.from_utf8string |> UTF8.Buffer.add_string buffer else let f = DataType.Num.to_float n and to_b = UTF8.Format.formatter_of_buffer buffer in ignore @@ UTF8.Format.fprintf to_b "%.2f" f; Format.pp_print_flush to_b () | Num (Date, n) -> let y, m, d = DataType.Date.date_from_julian_day n in UTF8.Printf.bprintf buffer "%d/%d/%d" y m d end let show_full: type a. UTF8.Buffer.buffer -> a types -> unit = fun buffer -> begin function | Str x -> UTF8.Buffer.add_string buffer x | Bool b -> UTF8.Printf.bprintf buffer "%B" b | Num (Number, n) -> if DataType.Num.is_integer n then DataType.Num.to_int n |> string_of_int |> UTF8.from_utf8string |> UTF8.Buffer.add_string buffer else let f = DataType.Num.to_float n and to_b = UTF8.Format.formatter_of_buffer buffer in ignore @@ UTF8.Format.fprintf to_b "%f" f; Format.pp_print_flush to_b () | Num (Date, n) -> let y, m, d = DataType.Date.date_from_julian_day n in UTF8.Printf.bprintf buffer "%d/%d/%d" y m d end type t = | Value: 'a dataFormat * 'a -> t let get_content : type a. a types -> t = begin function | Num (format, data) -> Value (format, data) | Str s -> Value (String, s) | Bool b -> Value (Bool, b) end end module Refs = struct type 'a range = | Single of 'a | Array1 of 'a list | Array2 of 'a list list let collect = function | Cell x -> Single (Pervasives.fst x) | Range (fst, snd) -> let (x1, y1) = Pervasives.fst fst and (x2, y2) = Pervasives.fst snd in let min_x = min x1 x2 and max_x = max x1 x2 and min_y = min y1 y2 and max_y = max y1 y2 in if (min_x = max_x) || (min_y = max_y) then ( (* There is only a one dimension array *) let elms = ref [] in for x = min_x to max_x do for y = min_y to max_y do elms := (x, y)::!elms done done; Array1 (!elms) ) else ( (* This a two-dimension array *) let elmx = ref [] in for x = min_x to max_x do let elmy = ref [] in for y = min_y to max_y do elmy := (x, y)::!elmy done; elmx := !elmy::!elmx done; Array2 (!elmx) ) let map f = function | Single coord -> Single (f coord) | Array1 values -> Array1 (List.map f values) | Array2 values -> Array2 (List.map (List.map f) values) let shift (vector_x, vector_y) ref = let _shift ((x, y), (fixed_x, fixed_y)) = let x' = if fixed_x then x else x + vector_x and y' = if fixed_y then y else y + vector_y in (x', y'), (fixed_x, fixed_y) in match ref with | Cell x -> Cell (_shift x) | Range (fst, snd) -> Range (_shift fst, _shift snd) let show buffer = begin function | Cell r -> UTF8.Buffer.add_string buffer @@ Cell.to_string r | Range (f,t) -> Tools.Tuple2.printb ~first:"" ~last:"" ~sep:":" Cell.to_buffer Cell.to_buffer buffer (f,t) end type content = | Value: 'a dataFormat * 'a -> content | List: 'a dataFormat * 'a list -> content | Matrix: 'a dataFormat * 'a list list -> content (** Add one element in a typed list. The function will raise Error.TypeError if the elements does not match with the list type. *) let add_elem: type a b. a dataFormat * a list -> result option -> a dataFormat * a list = fun (format, elements) result -> begin match result with | None -> format, (DataFormat.default_value_for format)::elements | Some (Error x) -> raise x | Some (Result r) -> let Type.Value (format', element) = Type.get_content r in let DataFormat.Eq = DataFormat.compare_format format format' in let new_format = if (DataFormat.priority format) > (DataFormat.priority format') then format else format' in new_format, element::elements end let get_content = begin function | Single None -> raise Errors.TypeError | Single (Some (Error x)) -> raise x | Single (Some (Result r)) -> let Type.Value (format, c) = Type.get_content r in Value (format, c) | Array1 l -> (* Get the first element in the list in order to get the format *) let Type.Value (format, _) = begin match (Tools.List.find_map (fun x -> x) l) with | Error x -> raise x | Result r -> Type.get_content r end in (* Then build an unified list (if we can) *) let format, values = List.fold_left add_elem (format, []) l in List(format, List.rev values) | Array2 l -> (* Get the first element in the list *) let Type.Value (format, _) = begin match (Tools.List.find_map2 (fun x -> x) l) with | Error x -> raise x | Result r -> Type.get_content r end in (* Then build an unified list *) let format, values = List.fold_left (fun (format, result) elems -> let format, elems = List.fold_left add_elem (format, []) elems in (format, List.rev (elems::result)) )(format, []) l in Matrix(format, List.rev values) end end module Result = struct let (=) t1 t2 = match t1, t2 with | Result v1, Result v2 -> Type.(=) v1 v2 | _, _ -> t1 = t2 let show = begin function | Error x -> (* let buffer = Buffer.create 16 in let b = Format.formatter_of_buffer buffer in Errors.printf b x; Format.pp_print_flush b (); u(Buffer.contents buffer) *) u"#Error" | Result v -> let buffer = UTF8.Buffer.create 16 in Type.show buffer v; UTF8.Buffer.contents buffer end end (** Represent an expression. *) let rec show_expr buffer : expression -> unit = begin function | Value (Str x) -> (** Print the value with quotes *) UTF8.Printf.bprintf buffer "\"%s\"" (UTF8.to_utf8string x) | Value v -> Type.show buffer v | Ref r -> Refs.show buffer r | Call (ident, params) -> let utf8ident = UTF8.to_utf8string ident in begin match utf8ident with | "+" | "*" | "-" | "/" | "^" | "=" | "<>" | "<=" | ">=" | "<" | ">" -> begin match params with | v1::[] -> UTF8.Printf.bprintf buffer "%s%a" utf8ident show_expr v1 | v1::v2::[] -> UTF8.Printf.bprintf buffer "%a%s%a" show_expr v1 utf8ident show_expr v2 | _ -> UTF8.Buffer.add_string buffer ident; Tools.List.printb ~sep:(u";") show_expr buffer params end | _ -> UTF8.Buffer.add_string buffer ident; Tools.List.printb ~sep:(u";") show_expr buffer params end | Expression expr -> UTF8.Printf.bprintf buffer "(%a)" show_expr expr end