--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/Attic/mllex.scala	Thu Jul 30 13:50:54 2020 +0100
@@ -0,0 +1,109 @@
+:load matcher.scala
+
+
+// some regular expressions
+val KEYWORDS =  ALTS(List("#", "(", ")", ",", "->", "...", ":", ":>", ";", "=",
+  "=>", "[", "]", "_", "{", "|", "}", "abstype", "and", "andalso", "as",
+  "case", "datatype", "do", "else", "end", "eqtype", "exception", "fn",
+  "fun", "functor", "handle", "if", "in", "include", "infix", "infixr",
+  "let", "local", "nonfix", "of", "op", "open", "orelse", "raise", "rec",
+  "sharing", "sig", "signature", "struct", "structure", "then", "type",
+  "val", "where", "while", "with", "withtype"))
+
+val DIGITS = RANGE("0123456789")
+val NONZERODIGITS = RANGE("123456789")
+
+val POSITIVES = ALT(SEQ(NONZERODIGITS, STAR(DIGITS)), "0")
+val INTEGERS = ALT(SEQ("~", POSITIVES), POSITIVES)
+
+val ALL = ALTS(KEYWORDS, INTEGERS)
+
+val COMMENT = SEQS("/*", NOT(SEGS(STAR(ALL), "*/", STAR(ALL))), "*/")
+
+
+
+val LPAREN = CHAR('(')
+val RPAREN = CHAR(')')
+val WHITESPACE = PLUS(RANGE(" \n".toList))
+val OPS = RANGE("+-*".toList)
+
+// for classifying the strings that have been recognised
+abstract class Token
+case object T_WHITESPACE extends Token
+case object T_NUM extends Token
+case class T_OP(s: String) extends Token
+case object T_LPAREN extends Token
+case object T_RPAREN extends Token
+case class T_NT(s: String, rhs: List[Token]) extends Token
+
+def tokenizer(rs: List[Rule[Token]], s: String) : List[Token] = 
+  tokenize(rs, s.toList).filterNot(_ match {
+    case T_WHITESPACE => true
+    case _ => false
+  })
+
+
+
+// lexing rules for arithmetic expressions
+val lexing_rules: List[Rule[Token]]= 
+  List((NUMBER, (s) => T_NUM),
+       (WHITESPACE, (s) => T_WHITESPACE),
+       (LPAREN, (s) => T_LPAREN),
+       (RPAREN, (s) => T_RPAREN),
+       (OPS, (s) => T_OP(s.mkString)))
+
+tokenize_file(Nil, "nominal_library.ML")
+
+
+
+
+type Grammar = List[(String, List[Token])]
+
+// grammar for arithmetic expressions
+val grammar = 
+  List ("E" -> List(T_NUM),
+        "E" -> List(T_NT("E", Nil), T_OP("+"), T_NT("E", Nil)),
+        "E" -> List(T_NT("E", Nil), T_OP("-"), T_NT("E", Nil)),
+        "E" -> List(T_NT("E", Nil), T_OP("*"), T_NT("E", Nil)),    
+        "E" -> List(T_LPAREN, T_NT("E", Nil), T_RPAREN))
+
+def startsWith[A](ts1: List[A], ts2: List[A]) : Boolean = (ts1, ts2) match {
+  case (_, Nil) => true
+  case (T_NT(e, _)::ts1,T_NT(f, _)::ts2) => (e == f) && startsWith(ts1, ts2)
+  case (t1::ts1, t2::ts2) => (t1 == t2) && startsWith(ts1, ts2)
+  case _ => false
+}
+
+def chop[A](ts1: List[A], prefix: List[A], ts2: List[A]) : Option[(List[A], List[A])] = 
+  ts1 match {
+    case Nil => None
+    case t::ts => 
+      if (startsWith(ts1, prefix)) Some(ts2.reverse, ts1.drop(prefix.length))
+      else chop(ts, prefix, t::ts2)
+  }
+
+// examples
+chop(List(1,2,3,4,5,6,7,8,9), List(4,5), Nil)  
+chop(List(1,2,3,4,5,6,7,8,9), List(3,5), Nil)  
+
+def replace[A](ts: List[A], out: List[A], in: List [A]) = 
+  chop(ts, out, Nil) match {
+    case None => None
+    case Some((before, after)) => Some(before ::: in ::: after)
+  }  
+
+def parse1(g: Grammar, ts: List[Token]) : Boolean = ts match {
+  case List(T_NT("E", tree)) => { println(tree); true }
+  case _ => {
+    val tss = for ((lhs, rhs) <- g) yield replace(ts, rhs, List(T_NT(lhs, rhs)))
+    tss.flatten.exists(parse1(g, _))
+  }
+}
+ 
+
+println() ; parse1(grammar, tokenizer(lexing_rules, "2 + 3 * 4 + 1"))
+println() ; parse1(grammar, tokenizer(lexing_rules, "(2 + 3) * (4 + 1)"))
+println() ; parse1(grammar, tokenizer(lexing_rules, "(2 + 3) * 4 (4 + 1)"))
+
+
+