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include 'ril.lm'

namespace ocaml_out
	token _IN_ /''/
	token _EX_ /''/

	lex
		token comment /
			'(*' any* :>> '*)'
		/

		literal `begin `end `{ `}

		token id
			/[a-zA-Z_][a-zA-Z_0-9]* "'"? /

		token number /
			[0-9]+
		/

		token symbol /
			'!' | '#' | '$' | '%' | '&' | '(' | ')' | '*' |
			'+' | ',' | '-' | '.' | '/' | ':' | ';' | '<' |
			'=' | '>' | '?' | '@' | '[' | ']' | '^' | '|' |
			'~' | '`' /

		token string /
				'"' ( [^"\\\n] | '\\' any ) * '"' |
				"'" ( [^'\\\n] | '\\' any ) * "'"
			/

		ignore
			/[ \t\v\r\n]+/
	end

	def item
		[comment]
	|	[id]
	|	[number]
	|	[symbol]
	|	[string]
	|	[`begin _IN_ item* _EX_ `end ]
	|	[`{ _IN_ item* _EX_ `} ]

	def ocaml_out
		[_IN_ _EX_ item*]
end

namespace ml_gen

	global StaticVarMap: map<str, str> = new map<str, str>()
	global Parser: parser<ocaml_out::ocaml_out>

	void tok_list( TL: host::tok* )
	{
		for Tok: host::tok in repeat(TL) {
			switch Tok
			case [host::`${ StmtList: stmt* host::`}$]
				send Parser
					"begin
					"[stmt_list( StmtList )]
					"end;
			case [host::`={ Expr: expr host::`}=]
				send Parser "([expr( Expr )])"
			case [E: escape] {
				Str: str = $E
				send Parser
					"[Str.suffix( 1 )]"
			}
			default {
				send Parser [Tok]
			}
		}
	}

	void embedded_host( EH: embedded_host )
	{
		switch EH
		case [`host `( string `, uint `) `={ TL: host::tok* host::`}=]
		{
			send Parser
				"([tok_list( TL )])"
		}
		case [`host `( string `, uint `) `${ TL: host::tok* host::`}$]
		{
			send Parser 
				"begin
				"[tok_list( TL )]
				"end;
		}
		case [`host `( string `, uint `) `@{ TL: host::tok* host::`}@]
		{
			send Parser
				[tok_list( TL )]
		}
	}

	void expr_factor( ExprFactor: expr_factor )
	{
		switch ExprFactor
		case [EH: embedded_host]
		{
			send Parser
				[embedded_host( EH )]
		}
		case [`( TL: expr `)]
		{
			send Parser
				"( [ expr(TL) ] )"
		}
		case [I: ident `[ TL: expr `]]
		{
			if ( StaticVarMap->find( $I ) || $I == 'stack' ) {
				send Parser
					"[ ExprFactor.ident ].([ expr( TL ) ])"
			}
			else {
				send Parser
					"[ ExprFactor.ident ].\[[ expr( TL ) ]\]"
			}
		}
		case [I: ident `[ E: expr `] `. F: ident] {
			send Parser
				[^I '_' ^F '.(' expr(E) ')']
		}
		case ['offset' '(' ident ',' expr ')']
		{
			send Parser
				[expr( ExprFactor.expr )]
		}
		case ['deref' '(' I: ident ',' Expr: expr ')']
		{
			if ( $I == 'data' )
				send Parser 'Char.code '

			if ( StaticVarMap->find( $I ) ) {
				send Parser
					"[I].( [ expr( Expr ) ] )"
			}
			else {
				send Parser
					"[I].\[[ expr( Expr ) ]\]"
			}
		}
		case [T: `TRUE]
		{
			T.data = 'true'
			send Parser [T]
		}
		case [F: `FALSE]
		{
			F.data = 'false'
			send Parser [F]
		}
		case [N: `nil]
		{
			N.data = '0'
			send Parser [N]
		}
		case [Number: number]
		{
			number( Number )
		}
		case [I: ident] {
			if ( StaticVarMap->find( $I ) ) {
				send Parser
					[^I]
			}
			else {
				send Parser
					"[^I].contents"
			}
		}
		case [E1: embedded_host `-> E2: expr_factor]
		{
			# The accessor operator is contained wihtin the lhs.
			embedded_host( E1 )
			expr_factor( E2 )
		}
		case [`cast `( type `) expr_factor]
		{
			send Parser
				[expr_factor( ExprFactor._expr_factor )]
		}
		case [I: ident `[ E: expr `] `. F: ident] {
			send Parser
				[^I '_' ^F '[' E ']']
		}
		default {
			# Catches cases not specified
			send Parser [ExprFactor]
		}
	}

	void lvalue( ExprFactor: lvalue )
	{
		switch ExprFactor
		case [EH: embedded_host]
		{
			send Parser
				[embedded_host( EH )]
		}
		case [ident O: `[ TL: expr C: `]]
		{
			send Parser
				[ExprFactor.ident O expr( TL ) C]
		}
		case [E1: embedded_host `-> E2: lvalue]
		{
			# The accessor operator is contained wihtin the lhs.
			embedded_host( E1 )
			lvalue( E2 )
		}
		case [I: ident `[ E: expr `] `. F: ident] {
			send Parser
				[^I '_' ^F '.(' E ')']
		}
		default {
			# Catches cases not specified
			send Parser [ExprFactor]
		}
	}

	void expr_factor_op( ExprFactorOp: expr_factor_op )
	{
		switch ExprFactorOp
		case [B: `! expr_factor_op]
		{
			send Parser [B]
			expr_factor_op( ExprFactorOp._expr_factor_op )
		}
		case [T: `~ expr_factor_op]
		{
			send Parser " lnot "
			expr_factor_op( ExprFactorOp._expr_factor_op )
		}
		case [expr_factor]
		{
			expr_factor( ExprFactorOp.expr_factor )
		}
	}

	void expr_bitwise( ExprBitwise: expr_bitwise )
	{
		switch ExprBitwise
		case [L: expr_bitwise `& R: expr_factor_op]
		{
			send Parser
				"[expr_bitwise( L )] land [expr_factor_op( R )]"
		}
		case [expr_factor_op]
		{
			expr_factor_op( ExprBitwise.expr_factor_op )
		}
	}

	void expr_mult( ExprMult: expr_mult )
	{
		switch ExprMult
		case [expr_mult T: `* expr_bitwise]
		{
			expr_mult( ExprMult._expr_mult )
			send Parser [T]
			expr_bitwise( ExprMult.expr_bitwise )
		}
		case [expr_bitwise]
		{
			expr_bitwise( ExprMult.expr_bitwise )
		}
	}

	void expr_add( ExprAdd: expr_add )
	{
		switch ExprAdd
		case [expr_add Op: add_op expr_mult]
		{
			expr_add( ExprAdd._expr_add )
			send Parser [Op]
			expr_mult( ExprAdd.expr_mult )
		}
		case [expr_mult]
		{
			expr_mult( ExprAdd.expr_mult )
		}
	}

	void expr_shift( ExprShift: expr_shift )
	{
		switch ExprShift
		case [expr_shift Op: shift_op expr_add]
		{
			expr_shift( ExprShift._expr_shift )
			switch Op
			case [`<<]
				send Parser " lsl "
			default
				send Parser " asr "
			expr_add( ExprShift.expr_add )
		}
		case [expr_add]
		{
			expr_add( ExprShift.expr_add )
		}
	}

	void expr_test( ExprTest: expr_test )
	{
		switch ExprTest
		case [expr_test Op: test_op expr_shift]
		{
			expr_test( ExprTest._expr_test )
			switch Op
			case [`==]
				send Parser "= "
			default
				send Parser [Op]
			expr_shift( ExprTest.expr_shift )
		}
		case [expr_shift]
		{
			expr_shift( ExprTest.expr_shift )
		}
	}

	void expr( Expr: expr )
	{
		expr_test( Expr.expr_test )
	}

	void type( Type: type )
	{
		switch Type
		case "s8"
			send Parser ['char ']
		case "s16"
			send Parser ['short ']
		case "s32"
			send Parser ['int ']
		case "s64"
			send Parser ['long ']
		case "s128"
			send Parser ['long long ']
		case "uint"
			send Parser ['int ']
		default
			send Parser [Type]
	}

	void number( Number: number )
	{
		switch Number
		case [`u `( uint `) ]
			send Parser "[Number.uint]u"
		default
			send Parser [Number]
	}

	void num_list( NumList: num_list )
	{
		for Number: number in NumList
			send Parser "[number( Number )]; "
	}

	void stmt( Stmt: stmt )
	{
		switch Stmt
		case [EH: embedded_host]
		{
			send Parser
				[embedded_host( EH )]
		}
		case [A: static_array] {
			StaticVarMap->insert( $A.ident, ' ' )
			send Parser
				"let [A.ident] : int array = \[|
					"	[num_list(A.num_list)]
				"|\]
		}
		case [V: static_value] {
			StaticVarMap->insert( $V.ident, ' ' )
			send Parser
				"let [V.ident] : [V.type] = [V.number]
		}
		case [
				'if' O: `( IfExpr: expr C: `) IfStmt: stmt
				ElseIfClauseList: else_if_clause* ElseClauseOpt: else_clause?
		] {
			send Parser
				"if [expr(IfExpr)] then
				"begin
				"	[stmt(IfStmt)]
				"end

			for ElseIfClause: else_if_clause in repeat( ElseIfClauseList ) {
				match ElseIfClause
					['else if (' ElseIfExpr: expr ')' ElseIfStmt: stmt]

				send Parser
					"else if [expr(ElseIfExpr)] then
					"begin
					"	[stmt(ElseIfStmt)]
					"end
			}

			if ( match ElseClauseOpt ['else' ElseStmt: stmt] ) {
				send Parser
					"else
					"begin
					"	[stmt(ElseStmt)]
					"end
			}

			send Parser
				";"
		}
		case ['while' '(' WhileExpr: expr ')' WhileStmt: stmt] {
			send Parser
				"while [expr(WhileExpr)] do
				"	[stmt(WhileStmt)]
				"done;
		}
		case ['switch' '(' SwitchExpr: expr ')' '{' StmtList: stmt* '}'] {
			require StmtList
				[`case E1: expr `{ Inner: stmt* `} Rest: stmt*]

			send Parser
				"if [expr(SwitchExpr)] = [expr(E1)] then
				"begin
				"	[stmt_list(Inner)]
				"end

			for S: stmt in repeat(Rest) {
				switch S
				case [`case E1: expr `{ Inner: stmt* `}]
				{
					send Parser
						"else if [expr(SwitchExpr)] = [expr(E1)] then
						"begin
						"	[stmt_list(Inner)]
						"end
				}
				case
					[`default `{ Inner: stmt* `}]
				{
					send Parser
						"else
						"begin
						"	[stmt_list(Inner)]
						"end
				}
			}

			send Parser
				";
		}
		case [ExprExpr: expr Semi: `;] {
			send Parser
				[expr(ExprExpr) Semi]
		}
		case [L: `{ TL: stmt* R: `}] {
			send Parser
				"begin
				"[stmt_list(TL)]
				"end;
		}
		case [D: declaration] {
			send Parser
				"let [D.ident] : [type(D.type)] ref "

			switch D.opt_init
			case [E: `= expr] {
				send Parser
					"= ref ( [expr(D.opt_init.expr)] )"
			}
			default {
				send Parser
					"= ref 0"
			}

			send Parser
				" in
		}
		case [Export: export_stmt]
		{
			send Parser
				"#define [Export.ident] [number(Export.number)] 
		}
		case ['fallthrough' ';']
		{
			# Nothing needed here.
		}
		case [Index: index_stmt]
		{
			send Parser
				"let [Index.ident] : int ref "

			switch Index.opt_init
			case [E: `= expr] {
				send Parser
					"= ref ( [expr(Index.opt_init.expr)] )"
			}
			default {
				send Parser
					"= ref 0"
			}

			send Parser
				" in
		}
		case [case_block]
		{
			send Parser
				"| [expr( Stmt.case_block.expr )] -> 
				"begin
				"[stmt_list( Stmt.case_block._repeat_stmt )]
				"end;
		}
		case [default_block]
		{
			send Parser
				"| _ ->
				"[stmt_list( Stmt.default_block._repeat_stmt )]
		}
		case [case_label]
		{
			send Parser
				"case [expr( Stmt.case_label.expr )]:
		}
		case [AS: assign_stmt]
		{
			switch AS.assign_op 
			case [`=]
			{
				switch AS.LValue
				case "stack\[[expr]\]" {
					send Parser
						"Array.set stack top.contents [expr(AS.expr)];
				}
				case "nfa_bp\[[expr]\].state" {
					send Parser
						"Array.set nfa_bp_state nfa_len.contents [expr(AS.expr)];
				}
				case "nfa_bp\[[expr]\].p" {
					send Parser
						"Array.set nfa_bp_p nfa_len.contents [expr(AS.expr)];
				}
				default {
					send Parser
						"[lvalue(AS.LValue)] := [expr(AS.expr)];
				}
			}
			case [`+=]
			{
				parse RhsAsFactor: expr_factor [$AS.LValue]
				send Parser
					"[lvalue(AS.LValue)] := [expr_factor(RhsAsFactor)] + [expr(AS.expr)];
			}
			case [`-=]
			{
				parse RhsAsFactor: expr_factor [$AS.LValue]
				send Parser
					"[lvalue(AS.LValue)] := [expr_factor(RhsAsFactor)] - [expr(AS.expr)];
			}
			default {
				send Parser
					"[lvalue(AS.LValue) AS.assign_op expr(AS.expr)];
			}
		}
		default {
			# catches unspecified cases
			send Parser [Stmt]
		}
	}

	void stmt_list( StmtList: stmt* )
	{
		for Stmt: stmt in repeat( StmtList )
			stmt( Stmt )
	}

	void trans( Output: stream, Start: start )
	{
		Parser = new parser<ocaml_out::ocaml_out>()

		if ( Start.opt_bom.bom )
			send Output [Start.opt_bom.bom]

		stmt_list( Start._repeat_stmt )

		MO: ocaml_out::ocaml_out = Parser->finish()

		if MO {
			send Output
				[MO]
		}
		else {
			send stderr
				"failed to parse output: [Parser->error]
		}
	}

end

void trans( Output: stream, Start: start )
{
	ml_gen::trans( Output, Start )
}

include 'rlhc-main.lm'