(* Title: Pure/Tools/am_util.ML ID: $Id: am_util.ML,v 1.2 2005/07/14 17:28:35 wenzelm Exp $ Author: Steven Obua *) signature AM_UTIL = sig type naming = string -> int exception Parse of string exception Tokenize (* takes a naming for the constants *) val read_rule : naming -> string -> AbstractMachine.pattern * AbstractMachine.term (* takes a naming for the constants and one for the free variables *) val read_term : naming -> naming -> string -> AbstractMachine.term val term_ord : AbstractMachine.term * AbstractMachine.term -> order end structure AM_Util : AM_UTIL = struct fun term_ord (AbstractMachine.Var x, AbstractMachine.Var y) = int_ord (x,y) | term_ord (AbstractMachine.Const c1, AbstractMachine.Const c2) = int_ord (c1, c2) | term_ord (AbstractMachine.App a1, AbstractMachine.App a2) = prod_ord term_ord term_ord (a1, a2) | term_ord (AbstractMachine.Abs m1, AbstractMachine.Abs m2) = term_ord (m1, m2) | term_ord (AbstractMachine.Const _, _) = LESS | term_ord (AbstractMachine.Var _, AbstractMachine.Const _ ) = GREATER | term_ord (AbstractMachine.Var _, _) = LESS | term_ord (AbstractMachine.App _, AbstractMachine.Abs _) = LESS | term_ord (AbstractMachine.App _, _) = GREATER | term_ord (AbstractMachine.Abs _, _) = LESS type naming = string -> int datatype token = TokenConst of string | TokenLeft | TokenRight | TokenVar of string | TokenLambda | TokenDot | TokenNone | TokenEq exception Tokenize; fun tokenize s = let val s = String.explode s fun str c = Char.toString c fun app s c = s^(str c) fun tz TokenNone [] = [] | tz x [] = [x] | tz TokenNone (c::cs) = if Char.isSpace c then tz TokenNone cs else if Char.isLower c then (tz (TokenVar (str c)) cs) else if Char.isAlphaNum c then (tz (TokenConst (str c)) cs) else if c = #"%" then (TokenLambda :: (tz TokenNone cs)) else if c = #"." then (TokenDot :: (tz TokenNone cs)) else if c = #"(" then (TokenLeft :: (tz TokenNone cs)) else if c = #")" then (TokenRight :: (tz TokenNone cs)) else if c = #"=" then (TokenEq :: (tz TokenNone cs)) else raise Tokenize | tz (TokenConst s) (c::cs) = if Char.isAlphaNum c then (tz (TokenConst (app s c)) cs) else (TokenConst s)::(tz TokenNone (c::cs)) | tz (TokenVar s) (c::cs) = if Char.isAlphaNum c then (tz (TokenVar (app s c)) cs) else (TokenVar s)::(tz TokenNone (c::cs)) | tz _ _ = raise Tokenize in tz TokenNone s end exception Parse of string; fun cons x xs = if List.exists (fn y => x = y) xs then raise (Parse ("variable occurs twice: "^x)) else (x::xs) fun parse_pattern f pvars ((TokenConst c)::ts) = let val (pvars, ts, plist) = parse_pattern_list f pvars ts in (pvars, ts, AbstractMachine.PConst (f c, plist)) end | parse_pattern _ _ _ = raise (Parse "parse_pattern: constant expected") and parse_pattern_single f pvars ((TokenVar x)::ts) = (cons x pvars, ts, AbstractMachine.PVar) | parse_pattern_single f pvars ((TokenConst c)::ts) = (pvars, ts, AbstractMachine.PConst (f c, [])) | parse_pattern_single f pvars (TokenLeft::ts) = let val (pvars, ts, p) = parse_pattern f pvars ts in case ts of TokenRight::ts => (pvars, ts, p) | _ => raise (Parse "parse_pattern_single: closing bracket expected") end | parse_pattern_single _ _ _ = raise (Parse "parse_pattern_single: got stuck") and parse_pattern_list f pvars (TokenEq::ts) = (pvars, TokenEq::ts, []) | parse_pattern_list f pvars (TokenRight::ts) = (pvars, TokenRight::ts, []) | parse_pattern_list f pvars ts = let val (pvars, ts, p) = parse_pattern_single f pvars ts val (pvars, ts, ps) = parse_pattern_list f pvars ts in (pvars, ts, p::ps) end fun app_terms x (t::ts) = app_terms (AbstractMachine.App (x, t)) ts | app_terms x [] = x fun parse_term_single f vars ((TokenConst c)::ts) = (ts, AbstractMachine.Const (f c)) | parse_term_single f vars ((TokenVar v)::ts) = (ts, AbstractMachine.Var (vars v)) | parse_term_single f vars (TokenLeft::ts) = let val (ts, term) = parse_term f vars ts in case ts of TokenRight::ts => (ts, term) | _ => raise Parse ("parse_term_single: closing bracket expected") end | parse_term_single f vars (TokenLambda::(TokenVar x)::TokenDot::ts) = let val (ts, term) = parse_term f (fn s => if s=x then 0 else (vars s)+1) ts in (ts, AbstractMachine.Abs term) end | parse_term_single _ _ _ = raise Parse ("parse_term_single: got stuck") and parse_term_list f vars [] = ([], []) | parse_term_list f vars (TokenRight::ts) = (TokenRight::ts, []) | parse_term_list f vars ts = let val (ts, term) = parse_term_single f vars ts val (ts, terms) = parse_term_list f vars ts in (ts, term::terms) end and parse_term f vars ts = let val (ts, terms) = parse_term_list f vars ts in case terms of [] => raise (Parse "parse_term: no term found") | (t::terms) => (ts, app_terms t terms) end fun read_rule f s = let val t = tokenize s val (v, ts, pattern) = parse_pattern f [] t fun vars [] (x:string) = raise (Parse "read_rule.vars: variable not found") | vars (v::vs) x = if v = x then 0 else (vars vs x)+1 in case ts of TokenEq::ts => let val (ts, term) = parse_term f (vars v) ts in case ts of [] => (pattern, term) | _ => raise (Parse "read_rule: still tokens left, end expected") end | _ => raise (Parse ("read_rule: = expected")) end fun read_term f g s = let val t = tokenize s val (ts, term) = parse_term f g t in case ts of [] => term | _ => raise (Parse ("read_term: still tokens left, end expected")) end end