(* Title: HOL/Import/mono_scan.ML ID: $Id$ Author: Steven Obua, TU Muenchen Monomorphic scanner combinators for monomorphic sequences. *) signature MONO_SCANNER = sig include MONO_SCANNER_SEQ exception SyntaxError type 'a scanner = seq -> 'a * seq val :-- : 'a scanner * ('a -> 'b scanner) -> ('a*'b) scanner val -- : 'a scanner * 'b scanner -> ('a * 'b) scanner val >> : 'a scanner * ('a -> 'b) -> 'b scanner val --| : 'a scanner * 'b scanner -> 'a scanner val |-- : 'a scanner * 'b scanner -> 'b scanner val ^^ : string scanner * string scanner -> string scanner val || : 'a scanner * 'a scanner -> 'a scanner val one : (item -> bool) -> item scanner val anyone : item scanner val succeed : 'a -> 'a scanner val any : (item -> bool) -> item list scanner val any1 : (item -> bool) -> item list scanner val optional : 'a scanner -> 'a -> 'a scanner val option : 'a scanner -> 'a option scanner val repeat : 'a scanner -> 'a list scanner val repeat1 : 'a scanner -> 'a list scanner val repeat_fixed : int -> 'a scanner -> 'a list scanner val ahead : 'a scanner -> 'a scanner val unless : 'a scanner -> 'b scanner -> 'b scanner val !! : (seq -> string) -> 'a scanner -> 'a scanner end signature STRING_SCANNER = sig include MONO_SCANNER where type item = string val $$ : item -> item scanner val scan_id : string scanner val scan_nat : int scanner val this : item list -> item list scanner val this_string : string -> string scanner end functor MonoScanner (structure Seq : MONO_SCANNER_SEQ) : MONO_SCANNER = struct infix 7 |-- --| infix 5 :-- -- ^^ infix 3 >> infix 0 || exception SyntaxError exception Fail of string type seq = Seq.seq type item = Seq.item type 'a scanner = seq -> 'a * seq val pull = Seq.pull fun (sc1 :-- sc2) toks = let val (x,toks2) = sc1 toks val (y,toks3) = sc2 x toks2 in ((x,y),toks3) end fun (sc1 -- sc2) toks = let val (x,toks2) = sc1 toks val (y,toks3) = sc2 toks2 in ((x,y),toks3) end fun (sc >> f) toks = let val (x,toks2) = sc toks in (f x,toks2) end fun (sc1 --| sc2) toks = let val (x,toks2) = sc1 toks val (_,toks3) = sc2 toks2 in (x,toks3) end fun (sc1 |-- sc2) toks = let val (_,toks2) = sc1 toks in sc2 toks2 end fun (sc1 ^^ sc2) toks = let val (x,toks2) = sc1 toks val (y,toks3) = sc2 toks2 in (x^y,toks3) end fun (sc1 || sc2) toks = (sc1 toks) handle SyntaxError => sc2 toks fun anyone toks = case pull toks of NONE => raise SyntaxError | SOME x => x fun one p toks = case anyone toks of x as (t, toks) => if p t then x else raise SyntaxError fun succeed e toks = (e,toks) fun any p toks = case pull toks of NONE => ([],toks) | SOME(x,toks2) => if p x then let val (xs,toks3) = any p toks2 in (x::xs,toks3) end else ([],toks) fun any1 p toks = let val (x,toks2) = one p toks val (xs,toks3) = any p toks2 in (x::xs,toks3) end fun optional sc def = sc || succeed def fun option sc = (sc >> SOME) || succeed NONE (* fun repeat sc = let fun R toks = let val (x,toks2) = sc toks val (xs,toks3) = R toks2 in (x::xs,toks3) end handle SyntaxError => ([],toks) in R end *) (* A tail-recursive version of repeat. It is (ever so) slightly slower * than the above, non-tail-recursive version (due to the garbage generation * associated with the reversal of the list). However, this version will be * able to process input where the former version must give up (due to stack * overflow). The slowdown seems to be around the one percent mark. *) fun repeat sc = let fun R xs toks = case SOME (sc toks) handle SyntaxError => NONE of SOME (x,toks2) => R (x::xs) toks2 | NONE => (List.rev xs,toks) in R [] end fun repeat1 sc toks = let val (x,toks2) = sc toks val (xs,toks3) = repeat sc toks2 in (x::xs,toks3) end fun repeat_fixed n sc = let fun R n xs toks = if (n <= 0) then (List.rev xs, toks) else case (sc toks) of (x, toks2) => R (n-1) (x::xs) toks2 in R n [] end fun ahead (sc:'a->'b*'a) toks = (#1 (sc toks),toks) fun unless test sc toks = let val test_failed = (test toks;false) handle SyntaxError => true in if test_failed then sc toks else raise SyntaxError end fun !! f sc toks = (sc toks handle SyntaxError => raise Fail (f toks)) end structure StringScanner : STRING_SCANNER = struct structure Scan = MonoScanner(structure Seq = StringScannerSeq) open Scan fun $$ arg = one (fn x => x = arg) val scan_id = one Symbol.is_letter ^^ (any Symbol.is_letdig >> implode); val nat_of_list = the o Int.fromString o implode val scan_nat = repeat1 (one Symbol.is_digit) >> nat_of_list fun this [] = (fn toks => ([], toks)) | this (xs' as (x::xs)) = one (fn y => x=y) -- this xs >> K xs' fun this_string s = this (explode s) >> K s end