219 lines
6.8 KiB
Standard ML
219 lines
6.8 KiB
Standard ML
structure Nfa =
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struct
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datatype regex =
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CHAR_LITERAL of {char: char, position: int}
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| CONCAT of regex * regex
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| ALTERNATION of regex * regex
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| ZERO_OR_ONE of regex
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| ZERO_OR_MORE of regex
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| ONE_OR_MORE of regex
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| GROUP of regex
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| WILDCARD of int
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structure ParseNfa =
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struct
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(* parsing through precedence climbing algorithm. *)
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datatype action =
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TRY_NEXT_NODE_WITHOUT_CONSUMING_CHR
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val groupLevel = 1
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val postfixLevel = 2
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val concatLevel = 3
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val altLevel = 4
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local
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fun loop (pos, str, openParens, closeParens) =
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if pos = String.size str then
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NONE
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else
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case String.sub (str, pos) of
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#"(" => loop (pos + 1, str, openParens + 1, closeParens)
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| #")" =>
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if closeParens + 1 = openParens then SOME pos
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else loop (pos + 1, str, openParens, closeParens + 1)
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| _ => loop (pos + 1, str, openParens, closeParens)
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in
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fun getRightParenIdx (pos, str) = loop (pos, str, 1, 0)
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end
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fun climb (pos, str, lhs, level, stateNum) : (int * regex * int) option =
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if pos = String.size str then
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SOME (pos, lhs, stateNum)
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else
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case String.sub (str, pos) of
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#")" => SOME (pos + 1, lhs, stateNum)
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| #"(" =>
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if level < groupLevel then
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SOME (pos, lhs, stateNum)
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else
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(case getRightParenIdx (pos + 1, str) of
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SOME groupEndIdx =>
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let
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val substr = String.substring
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(str, pos + 1, groupEndIdx - pos - 1)
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in
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(case parse (substr, stateNum) of
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SOME (rhs, stateNum) =>
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let
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val rhs = GROUP rhs
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val result = CONCAT (lhs, rhs)
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in
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climb
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( groupEndIdx + 1
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, str
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, result
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, groupLevel
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, stateNum
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)
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end
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| NONE => NONE)
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end
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| NONE => NONE)
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| #"|" =>
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if level < altLevel then
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SOME (pos, lhs, stateNum)
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else if pos + 1 < String.size str then
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let
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val chr = String.sub (str, pos + 1)
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val chr = CHAR_LITERAL {char = chr, position = stateNum + 1}
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in
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case climb (pos + 2, str, chr, altLevel, stateNum + 1) of
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SOME (pos, rhs, stateNum) =>
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let val result = ALTERNATION (lhs, rhs)
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in SOME (pos, result, stateNum)
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end
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| NONE => NONE
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end
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else
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NONE
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| #"?" =>
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if level < postfixLevel then
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SOME (pos, lhs, stateNum)
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else
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let val lhs = ZERO_OR_ONE lhs
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in climb (pos + 1, str, lhs, postfixLevel, stateNum)
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end
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| #"*" =>
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if level < postfixLevel then
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SOME (pos, lhs, stateNum)
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else
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let val lhs = ZERO_OR_MORE lhs
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in climb (pos + 1, str, lhs, postfixLevel, stateNum)
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end
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| #"+" =>
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if level < postfixLevel then
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SOME (pos, lhs, stateNum)
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else
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let val lhs = ONE_OR_MORE lhs
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in climb (pos + 1, str, lhs, postfixLevel, stateNum)
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end
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| chr =>
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if level < concatLevel then
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SOME (pos, lhs, stateNum)
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else
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let
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val currentState =
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if chr = #"." then WILDCARD (stateNum + 1)
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else CHAR_LITERAL {char = chr, position = stateNum + 1}
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in
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case
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climb (pos + 1, str, currentState, concatLevel, stateNum + 1)
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of
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SOME (pos, rhs, stateNum) =>
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let val result = CONCAT (lhs, rhs)
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in SOME (pos, result, stateNum)
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end
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| NONE => NONE
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end
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and loop (pos, str, ast, stateNum) =
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if pos = String.size str then
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SOME (ast, stateNum)
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else
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case climb (pos, str, ast, altLevel, stateNum) of
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SOME (pos, ast, stateNum) => loop (pos, str, ast, stateNum)
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| NONE => NONE
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and parse (str, stateNum) =
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if String.size str > 0 then
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(* todo: we currently assume that the first char is always a CHAR_LITERAL
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* but we should actually check what character the chr is
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* before deciding it represents one variant or another *)
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let
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val chr = String.sub (str, 0)
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val chr = CHAR_LITERAL {char = chr, position = stateNum + 1}
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in
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loop (1, str, chr, stateNum + 1)
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end
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else
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NONE
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end
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structure ToDfa =
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struct
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fun isNullable tree =
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case tree of
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CHAR_LITERAL _ => false
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| WILDCARD _ => false
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| CONCAT (r1, r2) => isNullable r1 andalso isNullable r2
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| ALTERNATION (r1, r2) => isNullable r1 orelse isNullable r2
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| ZERO_OR_ONE _ => true
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| ZERO_OR_MORE _ => true
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| ONE_OR_MORE regex => isNullable regex
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| GROUP regex => isNullable regex
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fun firstpos (tree, acc) =
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case tree of
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CHAR_LITERAL {position, ...} => position :: acc
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| WILDCARD i => i :: acc
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| CONCAT (r1, r2) =>
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if isNullable r1 then
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let val acc = firstpos (r1, acc)
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in firstpos (r2, acc)
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end
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else
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firstpos (r1, acc)
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| ALTERNATION (r1, r2) =>
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let val acc = firstpos (r1, acc)
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in firstpos (r2, acc)
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end
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| ZERO_OR_ONE regex => firstpos (regex, acc)
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| ZERO_OR_MORE regex => firstpos (regex, acc)
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| ONE_OR_MORE regex => firstpos (regex, acc)
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| GROUP regex => firstpos (regex, acc)
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fun lastpos (tree, acc) =
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case tree of
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CHAR_LITERAL {position, ...} => position :: acc
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| WILDCARD i => i :: acc
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| CONCAT (r1, r2) =>
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if isNullable r2 then
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let val acc = lastpos (r1, acc)
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in lastpos (r2, acc)
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end
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else
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lastpos (r1, acc)
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| ALTERNATION (r1, r2) =>
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let val acc = lastpos (r1, acc)
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in lastpos (r2, acc)
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end
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| ZERO_OR_ONE regex => lastpos (regex, acc)
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| ZERO_OR_MORE regex => lastpos (regex, acc)
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| ONE_OR_MORE regex => lastpos (regex, acc)
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| GROUP regex => lastpos (regex, acc)
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end
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fun parse str =
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case ParseNfa.parse (str, 0) of
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SOME (ast, _) => SOME ast
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| NONE => NONE
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end
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