Malformed token: error msg;
scan: explicit handling of malformed symbols from previous stage;
source: interactive flag indicates intermittent error_msg;
tuned;
(* Title: Pure/ML-Systems/proper_int.ML
ID: $Id$
Author: Makarius
SML basis with type int representing proper integers, not machine
words.
*)
local
val mk = IntInf.fromInt: Int.int -> IntInf.int;
val dest = IntInf.toInt: IntInf.int -> Int.int;
in
(* Int *)
structure OrigInt = Int;
structure OrigIntInf = IntInf;
type int = IntInf.int;
structure IntInf =
struct
open IntInf;
fun fromInt (a: int) = a;
fun toInt (a: int) = a;
end;
structure Int = IntInf;
(* List *)
structure List =
struct
open List;
fun length a = mk (List.length a);
fun nth (a, b) = List.nth (a, dest b);
fun take (a, b) = List.take (a, dest b);
fun drop (a, b) = List.drop (a, dest b);
fun tabulate (a, b) = List.tabulate (dest a, b o mk);
end;
val length = List.length;
(* Array *)
structure Array =
struct
open Array;
val maxLen = mk Array.maxLen;
fun array (a, b) = Array.array (dest a, b);
fun tabulate (a, b) = Array.tabulate (dest a, b o mk);
fun length a = mk (Array.length a);
fun sub (a, b) = Array.sub (a, dest b);
fun update (a, b, c) = Array.update (a, dest b, c);
fun copy {src, dst, di} = Array.copy {src = src, dst = dst, di = dest di};
fun copyVec {src, dst, di} = Array.copyVec {src = src, dst = dst, di = dest di};
fun appi a b = Array.appi (fn (x, y) => a (mk x, y)) b;
fun modifyi a b = Array.modifyi (fn (x, y) => a (mk x, y)) b;
fun foldli a b c = Array.foldli (fn (x, y, z) => a (mk x, y, z)) b c;
fun foldri a b c = Array.foldri (fn (x, y, z) => a (mk x, y, z)) b c;
fun findi a b =
(case Array.findi (fn (x, y) => a (mk x, y)) b of
NONE => NONE
| SOME (c, d) => SOME (mk c, d));
end;
(* Vector *)
structure Vector =
struct
open Vector;
val maxLen = mk Vector.maxLen;
fun tabulate (a, b) = Vector.tabulate (dest a, b o mk);
fun length a = mk (Vector.length a);
fun sub (a, b) = Vector.sub (a, dest b);
fun update (a, b, c) = Vector.update (a, dest b, c);
fun appi a b = Vector.appi (fn (x, y) => a (mk x, y)) b;
fun mapi a b = Vector.mapi (fn (x, y) => a (mk x, y)) b;
fun foldli a b c = Vector.foldli (fn (x, y, z) => a (mk x, y, z)) b c;
fun foldri a b c = Vector.foldri (fn (x, y, z) => a (mk x, y, z)) b c;
fun findi a b =
(case Vector.findi (fn (x, y) => a (mk x, y)) b of
NONE => NONE
| SOME (c, d) => SOME (mk c, d));
end;
(* Char *)
structure Char =
struct
open Char;
val maxOrd = mk Char.maxOrd;
val chr = Char.chr o dest;
val ord = mk o Char.ord;
end;
val chr = Char.chr;
val ord = Char.ord;
(* String *)
structure String =
struct
open String;
val maxSize = mk String.maxSize;
val size = mk o String.size;
fun sub (a, b) = String.sub (a, dest b);
fun extract (a, b, c) = String.extract (a, dest b, Option.map dest c);
fun substring (a, b, c) = String.substring (a, dest b, dest c);
end;
val size = String.size;
val substring = String.substring;
(* Substring *)
structure Substring =
struct
open Substring;
fun sub (a, b) = Substring.sub (a, dest b);
val size = mk o Substring.size;
fun base a = let val (b, c, d) = Substring.base a in (b, mk c, mk d) end;
fun extract (a, b, c) = Substring.extract (a, dest b, Option.map dest c);
fun substring (a, b, c) = Substring.substring (a, dest b, dest c);
fun triml a b = Substring.triml (dest a) b;
fun trimr a b = Substring.trimr (dest a) b;
fun slice (a, b, c) = Substring.slice (a, dest b, Option.map dest c);
fun splitAt (a, b) = Substring.splitAt (a, dest b);
end;
(* Word *)
structure Word =
struct
open Word;
val wordSize = mk Word.wordSize;
val toInt = mk o Word.toInt;
val toIntX = mk o Word.toIntX;
val fromInt = Word.fromInt o dest;
end;
(* Real *)
structure Real =
struct
open Real;
val radix = mk Real.radix;
val precision = mk Real.precision;
fun sign a = mk (Real.sign a);
fun toManExp a = let val {man, exp} = Real.toManExp a in {man = man, exp = mk exp} end;
fun fromManExp {man, exp} = Real.fromManExp {man = man, exp = dest exp};
val ceil = mk o Real.ceil;
val floor = mk o Real.floor;
val real = Real.fromInt o dest;
val round = mk o Real.round;
val trunc = mk o Real.trunc;
fun toInt a b = mk (Real.toInt a b);
fun fromInt a = Real.fromInt (dest a);
end;
val ceil = Real.ceil;
val floor = Real.floor;
val real = Real.real;
val round = Real.round;
val trunc = Real.trunc;
(* TextIO *)
structure TextIO =
struct
open TextIO;
fun inputN (a, b) = TextIO.inputN (a, dest b);
fun canInput (a, b) = Option.map mk (TextIO.canInput (a, dest b));
end;
(* Time *)
structure Time =
struct
open Time;
fun fmt a b = Time.fmt (dest a) b;
end;
end;