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>NAME
	libparser - Context-free grammar parsing library

DESCRIPTION
	libparser is a small C library that parses input based on a
	precompiled context-free grammar.

	To use libparser, a developer should write a syntax for the
	input that his application shall parse, in a syntax based
	on Extended Backus–Naur form (EBNF) (somewhat simplified but
	also somewhat extended). libparser-generate(1) is then used
	to create a C source file describing the syntax, which shall
	be compiled into an object file with a C compiler. This file
	provides a definition of a global variable declared in
	<libparser.h>: libparser_rule_table. This variable is used
	when calling libparser_parse_file(3) to parse the application's
	input.

	libparser is proudly non-self-hosted.

EXTENDED DESCRIPTION
    Syntax
	The grammar for libparser-generate(1)'s input can be described
	in its own grammar:

		(* CHARACTER CLASSES *)

		_space           = " " | "\n" | "\t";
		_alpha           = <"a", "z"> | <"A", "Z">;
		_octal           = <"0", "7">;
		_digit           = <"0", "9">;
		_xdigit          = _digit | <"a", "f"> | <"A", "F">;
		_nonascii        = <128, 255>;


		(* WHITESPACE/COMMENTS, THE GRAMMAR IS FREE-FORM *)

		_comment_char    = _space | !"*", !"\"", <"!", 0xFF>;
		_comment_tail    = [_comment_char], [_string], ("*)" | _comment_tail | -);
		_comment         = "(*", _comment_tail;

		_                = {_space | _comment};


		(* IDENTIFIERS *)

		_identifier_head = _alpha | _digit | _nonascii | "_";
		_identifier_tail = _identifier_head | "-";

		identifier       = _identifier_head, {_identifier_tail};


		(* STRINGS *)

		_escape_simple   = "\\" | "\"" | "'" | "a" | "b" | "f" | "n" | "r" | "v";
		_escape_hex      = ("x" | "X"), _xdigit, _xdigit;
		_escape_octal    = _octal, {_octal}; (* May not exceed 255 in base 10 *)
		_escape          = _escape_simple | _escape_hex | _escape_octal | -;
		_character       = "\\", _escape | !"\"", <1, 0xFF>;
		_string          = "\"", _character, {_character}, ("\"" | -);

		string           = _string
		character        = "\"", _character, ("\"" | -);


		(* INTEGERS *)

		_decimal         = _digit, {_digit};
		_hexadecimal     = "0", ("x" | "X"), _xdigit, {_xdigit};

		integer          = _decimal | _hexadecimal; (* May not exceed 255. *)


		(* GROUPINGS *)

		_low             = character | integer;
		_high            = character | integer;

		rejection        = "!", _, _operand;
		concatenation    = _operand, {_, ",", _, _operand};
		alternation      = concatenation, {_, "|", _, concatenation};
		optional         = "[", _, _expression, _, "]";
		repeated         = "{", _, _expression, _, "}";
		group            = "(", _, _expression, _, ")";
		char-range       = "<", _, _low, _, ",", _, _high, "_", ">";
		exception        = "-";
		embedded-rule    = identifier;

		_literal         = char-range | exception | string;
		_group           = optional | repeated | group | embedded-rule;
		_operand         = _group | _literal | rejection;

		_expression      = alternation;


		(* RULES *)

		rule             = identifier, _, "=", _, _expression, _, ";";

		(* This is the root rule of the grammar. *)
		grammar          = _, {rules, _};

	The file must be encoded in UTF-8, with LF as the line
	break (CR and FF are illegal just becuase).

	In alternations, the first (leftmost) match is selected. The
	parser is able to backtrack incase it later turns out that it
	could not finish that branch. Whenever an exception is
	reached, the parser will terminate there.

	Repeated symbols may occour any number of times, including
	zero. The compiler is able to backtrack if it takes too much.

	Concatenation has higher precedence than alternation,
	groups ("(", ..., ")") have no semantic meaning and are useful
	only to put a alternation inside a concatenation without
	creating a new rule for that.

	In character ranges, the _high and _low values must be at
	least 0 and at most 255, and _high must be greater than _low.

	Rules that begin with an underscore will not show up for
	the application in the parse result, the rest of the rules
	will appear in the tree-formatted result.

	Left recursion is illegal (it will cause stack overflow at
	runtime as the empty condition before the recursion is always
	met).