314 lines
11 KiB
OCaml
314 lines
11 KiB
OCaml
(*****************************************************************************)
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(* *)
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(* Open Source License *)
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(* Copyright (c) 2018 Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
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(* *)
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(* Permission is hereby granted, free of charge, to any person obtaining a *)
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(* copy of this software and associated documentation files (the "Software"),*)
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(* to deal in the Software without restriction, including without limitation *)
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(* the rights to use, copy, modify, merge, publish, distribute, sublicense, *)
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(* and/or sell copies of the Software, and to permit persons to whom the *)
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(* Software is furnished to do so, subject to the following conditions: *)
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(* *)
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(* The above copyright notice and this permission notice shall be included *)
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(* in all copies or substantial portions of the Software. *)
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(* *)
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(* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR*)
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(* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *)
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(* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *)
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(* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER*)
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(* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING *)
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(* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER *)
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(* DEALINGS IN THE SOFTWARE. *)
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(* *)
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(*****************************************************************************)
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module type QTY = sig
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val id : string
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end
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module type S = sig
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type qty
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type error +=
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| Addition_overflow of qty * qty (* `Temporary *)
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| Subtraction_underflow of qty * qty (* `Temporary *)
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| Multiplication_overflow of qty * int64 (* `Temporary *)
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| Negative_multiplicator of qty * int64 (* `Temporary *)
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| Invalid_divisor of qty * int64 (* `Temporary *)
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val id : string
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val zero : qty
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val one_mutez : qty
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val one_cent : qty
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val fifty_cents : qty
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val one : qty
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val ( -? ) : qty -> qty -> qty tzresult
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val ( +? ) : qty -> qty -> qty tzresult
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val ( *? ) : qty -> int64 -> qty tzresult
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val ( /? ) : qty -> int64 -> qty tzresult
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val to_mutez : qty -> int64
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(** [of_mutez n] (micro tez) is None if n is negative *)
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val of_mutez : int64 -> qty option
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(** [of_mutez_exn n] fails if n is negative.
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It should only be used at toplevel for constants. *)
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val of_mutez_exn : int64 -> qty
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(** It should only be used at toplevel for constants. *)
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val add_exn : qty -> qty -> qty
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(** It should only be used at toplevel for constants. *)
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val mul_exn : qty -> int -> qty
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val encoding : qty Data_encoding.t
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val to_int64 : qty -> int64
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include Compare.S with type t := qty
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val pp: Format.formatter -> qty -> unit
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val of_string: string -> qty option
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val to_string: qty -> string
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end
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module Make (T: QTY) : S = struct
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type qty = int64 (* invariant: positive *)
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type error +=
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| Addition_overflow of qty * qty (* `Temporary *)
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| Subtraction_underflow of qty * qty (* `Temporary *)
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| Multiplication_overflow of qty * int64 (* `Temporary *)
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| Negative_multiplicator of qty * int64 (* `Temporary *)
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| Invalid_divisor of qty * int64 (* `Temporary *)
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include Compare.Int64
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let zero = 0L
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(* all other constant are defined from the value of one micro tez *)
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let one_mutez = 1L
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let one_cent = Int64.mul one_mutez 10_000L
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let fifty_cents = Int64.mul one_cent 50L
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(* 1 tez = 100 cents = 1_000_000 mutez *)
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let one = Int64.mul one_cent 100L
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let id = T.id
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let of_string s =
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let triplets = function
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| hd :: tl ->
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let len = String.length hd in
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Compare.Int.(
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len <= 3 && len > 0 &&
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List.for_all (fun s -> String.length s = 3) tl
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)
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| [] -> false in
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let integers s = triplets (String.split_on_char ',' s) in
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let decimals s =
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let l = String.split_on_char ',' s in
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if Compare.Int.(List.length l > 2) then
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false
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else
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triplets (List.rev l) in
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let parse left right =
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let remove_commas s = String.concat "" (String.split_on_char ',' s) in
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let pad_to_six s =
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let len = String.length s in
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String.init 6 (fun i -> if Compare.Int.(i < len) then String.get s i else '0') in
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try
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Some (Int64.of_string (remove_commas left ^ pad_to_six (remove_commas right)))
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with _ -> None in
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match String.split_on_char '.' s with
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| [ left ; right ] ->
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if String.contains s ',' then
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if integers left && decimals right then
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parse left right
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else
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None
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else if Compare.Int.(String.length right > 0)
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&& Compare.Int.(String.length right <= 6) then
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parse left right
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else None
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| [ left ] ->
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if not (String.contains s ',') || integers left then
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parse left ""
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else None
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| _ -> None
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let pp ppf amount =
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let mult_int = 1_000_000L in
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let rec left ppf amount =
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let d, r = Int64.(div amount 1000L), Int64.(rem amount 1000L) in
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if d > 0L then
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Format.fprintf ppf "%a%03Ld" left d r
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else
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Format.fprintf ppf "%Ld" r in
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let right ppf amount =
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let triplet ppf v =
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if Compare.Int.(v mod 10 > 0) then
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Format.fprintf ppf "%03d" v
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else if Compare.Int.(v mod 100 > 0) then
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Format.fprintf ppf "%02d" (v / 10)
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else
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Format.fprintf ppf "%d" (v / 100) in
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let hi, lo = amount / 1000, amount mod 1000 in
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if Compare.Int.(lo = 0) then
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Format.fprintf ppf "%a" triplet hi
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else
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Format.fprintf ppf "%03d%a" hi triplet lo in
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let ints, decs =
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Int64.(div amount mult_int),
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Int64.(to_int (rem amount mult_int)) in
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Format.fprintf ppf "%a" left ints ;
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if Compare.Int.(decs > 0) then
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Format.fprintf ppf ".%a" right decs
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let to_string t =
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Format.asprintf "%a" pp t
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let (-) t1 t2 =
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if t2 <= t1
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then Some (Int64.sub t1 t2)
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else None
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let ( -? ) t1 t2 =
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match t1 - t2 with
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| None -> error (Subtraction_underflow (t1, t2))
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| Some v -> ok v
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let ( +? ) t1 t2 =
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let t = Int64.add t1 t2 in
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if t < t1
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then error (Addition_overflow (t1, t2))
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else ok t
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let ( *? ) t m =
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let open Compare.Int64 in
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let open Int64 in
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let rec step cur pow acc =
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if cur = 0L then
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ok acc
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else
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pow +? pow >>? fun npow ->
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if logand cur 1L = 1L then
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acc +? pow >>? fun nacc ->
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step (shift_right_logical cur 1) npow nacc
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else
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step (shift_right_logical cur 1) npow acc in
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if m < 0L then
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error (Negative_multiplicator (t, m))
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else
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match step m t 0L with
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| Ok res -> Ok res
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| Error ([ Addition_overflow _ ] as errs) ->
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Error (Multiplication_overflow (t, m) :: errs)
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| Error errs -> Error errs
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let ( /? ) t d =
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if d <= 0L then
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error (Invalid_divisor (t, d))
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else
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ok (Int64.div t d)
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let add_exn t1 t2 =
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let t = Int64.add t1 t2 in
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if t <= 0L
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then invalid_arg "add_exn"
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else t
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let mul_exn t m =
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match t *? Int64.(of_int m) with
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| Ok v -> v
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| Error _ -> invalid_arg "mul_exn"
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let of_mutez t =
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if t < 0L then None
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else Some t
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let of_mutez_exn x =
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match of_mutez x with
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| None -> invalid_arg "Qty.of_mutez"
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| Some v -> v
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let to_int64 t = t
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let to_mutez t = t
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let encoding =
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let open Data_encoding in
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(check_size 10 (conv Z.of_int64 (Json.wrap_error Z.to_int64) n))
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let () =
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let open Data_encoding in
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register_error_kind
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`Temporary
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~id:(T.id ^ ".addition_overflow")
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~title:("Overflowing " ^ T.id ^ " addition")
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~pp: (fun ppf (opa, opb) ->
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Format.fprintf ppf "Overflowing addition of %a %s and %a %s"
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pp opa T.id pp opb T.id)
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~description:
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("An addition of two " ^ T.id ^ " amounts overflowed")
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(obj1 (req "amounts" (tup2 encoding encoding)))
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(function Addition_overflow (a, b) -> Some (a, b) | _ -> None)
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(fun (a, b) -> Addition_overflow (a, b)) ;
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register_error_kind
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`Temporary
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~id:(T.id ^ ".subtraction_underflow")
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~title:("Underflowing " ^ T.id ^ " subtraction")
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~pp: (fun ppf (opa, opb) ->
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Format.fprintf ppf "Underflowing subtraction of %a %s and %a %s"
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pp opa T.id pp opb T.id)
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~description:
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("An subtraction of two " ^ T.id ^ " amounts underflowed")
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(obj1 (req "amounts" (tup2 encoding encoding)))
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(function Subtraction_underflow (a, b) -> Some (a, b) | _ -> None)
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(fun (a, b) -> Subtraction_underflow (a, b)) ;
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register_error_kind
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`Temporary
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~id:(T.id ^ ".multiplication_overflow")
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~title:("Overflowing " ^ T.id ^ " multiplication")
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~pp: (fun ppf (opa, opb) ->
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Format.fprintf ppf "Overflowing multiplication of %a %s and %Ld"
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pp opa T.id opb)
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~description:
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("A multiplication of a " ^ T.id ^ " amount by an integer overflowed")
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(obj2
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(req "amount" encoding)
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(req "multiplicator" int64))
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(function Multiplication_overflow (a, b) -> Some (a, b) | _ -> None)
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(fun (a, b) -> Multiplication_overflow (a, b)) ;
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register_error_kind
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`Temporary
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~id:(T.id ^ ".negative_multiplicator")
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~title:("Negative " ^ T.id ^ " multiplicator")
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~pp: (fun ppf (opa, opb) ->
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Format.fprintf ppf "Multiplication of %a %s by negative integer %Ld"
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pp opa T.id opb)
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~description:
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("Multiplication of a " ^ T.id ^ " amount by a negative integer")
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(obj2
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(req "amount" encoding)
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(req "multiplicator" int64))
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(function Negative_multiplicator (a, b) -> Some (a, b) | _ -> None)
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(fun (a, b) -> Negative_multiplicator (a, b)) ;
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register_error_kind
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`Temporary
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~id:(T.id ^ ".invalid_divisor")
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~title:("Invalid " ^ T.id ^ " divisor")
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~pp: (fun ppf (opa, opb) ->
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Format.fprintf ppf "Division of %a %s by non positive integer %Ld"
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pp opa T.id opb)
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~description:
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("Multiplication of a " ^ T.id ^ " amount by a non positive integer")
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(obj2
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(req "amount" encoding)
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(req "divisor" int64))
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(function Invalid_divisor (a, b) -> Some (a, b) | _ -> None)
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(fun (a, b) -> Invalid_divisor (a, b))
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end
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