code: purgatorio

ref: 82b046f36f8084a22bbb5d71edd0edd9179561eb
dir: /appl/cmd/asm/asm.y/

View raw version
%{

include "sys.m";
	sys: Sys;

include "draw.m";

include "bufio.m";
	bufio: Bufio;
	Iobuf: import bufio;

include "math.m";
	math: Math;
	export_real: import math;

include "string.m";
	str: String;

include "arg.m";

include "../limbo/isa.m";

YYSTYPE: adt {
	inst:	ref Inst;
	addr:	ref Addr;
	op:	int;
	ival:	big;
	fval:	real;
	str:	string;
	sym:	ref Sym;
	listv:	ref List;
};

YYLEX: adt {
	lval:	YYSTYPE;
	EOF:	con -1;
	lex:	fn(l: self ref YYLEX): int;
	error:	fn(l: self ref YYLEX, msg: string);

	numsym:	fn(l: self ref YYLEX, first: int): int;
	eatstring:	fn(l: self ref YYLEX);
};

Eof: con -1;
False: con 0;
True: con 1;
Strsize: con 1024;
Hashsize: con 128;

Addr: adt
{
	mode:	int;
	off:	int;
	val:	int;
	sym:	ref Sym;

	text:	fn(a: self ref Addr): string;
};

List: adt
{
	link:	cyclic ref List;
	addr:	int;
	typ:	int;
	pick{
	Int =>	ival: big;	# DEFB, DEFW, DEFL
	Bytes =>	b: array of byte;	# DEFF, DEFS
	Array =>	a: ref Array;	# DEFA
	}
};

Inst: adt
{
	op:	int;
	typ:	int;
	size:	int;
	reg:	ref Addr;
	src:	ref Addr;
	dst:	ref Addr;
	pc:	int;
	sym:	ref Sym;
	link:	cyclic ref Inst;

	text:	fn(i: self ref Inst): string;
};

Sym: adt
{
	name:	string;
	lexval:	int;
	value:	int;
	ds:	int;
};

Desc: adt
{
	id:	int;
	size:	int;
	np:	int;
	map:	array of byte;
	link:	cyclic ref Desc;
};

Array: adt
{
	i:	int;
	size:	int;
};

Link: adt
{
	desc:	int;
	addr:	int;
	typ:	int;
	name:	string;
	link:	cyclic ref Link;
};

Keywd: adt
{
	name:	string;
	op:	int;
	terminal:	int;
};

Ldts: adt
{
	n:	int;
	ldt:	list of ref Ldt;
};

Ldt: adt
{
	sign:	int;
	name:	string;
};

Exc: adt
{
	n1, n2, n3, n4, n5, n6: int;
	etab: list of ref Etab;
};

Etab: adt
{
	n: int;
	name:	string;
};

%}

%module Asm {
	init:	fn(nil: ref Draw->Context, nil: list of string);
}

%left	'|'
%left	'^'
%left	'&'
%left	'<' '>'
%left	'+' '-'
%left	'*' '/' '%'

%type<inst>	label ilist inst
%type<ival>	con expr heapid
%type<addr>	addr raddr mem roff
%type<listv>	elist
%type<str>	ptrs
%token<op>	TOKI0 TOKI1 TOKI2 TOKI3
%token <ival>	TCONST
%token		TOKSB TOKFP TOKHEAP TOKDB TOKDW TOKDL TOKDF TOKDS TOKVAR
%token		TOKEXT TOKMOD TOKLINK TOKENTRY TOKARRAY TOKINDIR TOKAPOP TOKLDTS TOKEXCS TOKEXC TOKETAB TOKSRC
%token<sym>	TID
%token<fval>	TFCONST
%token<str>	TSTRING

%%
prog	: ilist
	{
		assem($1);
	}
	;

ilist	:
	{ $$ = nil; }
	| ilist label
	{
		if($2 != nil) {
			$2.link = $1;
			$$ = $2;
		}
		else
			$$ = $1;
	}
	;

label	: TID ':' inst
	{
		$3.sym = $1;
		$$ = $3;
	}
	| TOKHEAP heapid ',' expr ptrs
	{
		heap(int $2, int $4, $5);
		$$ = nil;
	}
	| data
	{
		$$ = nil;
	}
	| inst
	;

heapid	: '$' expr
	{
		$$ = $2;
	}
	| TID
	{
		$1.value = heapid++;
		$$ = big $1.value;
	}
	;

ptrs	:
	{ $$ = nil; }
	| ',' TSTRING
	{
		$$ = $2;
	}
	;

elist	: expr
	{
		$$ = newi($1, nil);
	}
	| elist ',' expr
	{
		$$ = newi($3, $1);
	}
	;

inst	: TOKI3 addr ',' addr
	{
		$$ = ai($1);
		$$.src = $2;
		$$.dst = $4;
	}
	| TOKI3 addr ',' raddr ',' addr
	{
		$$ = ai($1);
		$$.src = $2;
		$$.reg = $4;
		$$.dst = $6;
	}
	| TOKI2 addr ',' addr
	{
		$$ = ai($1);
		$$.src = $2;
		$$.dst = $4;
	}
	| TOKI1 addr
	{
		$$ = ai($1);
		$$.dst = $2;
	}
	| TOKI0
	{
		$$ = ai($1);
	}
	;

data	: TOKDB expr ',' elist
	{
		data(DEFB, $2, $4);
	}
	| TOKDW expr ',' elist
	{
		data(DEFW, $2, $4);
	}
	| TOKDL expr ',' elist
	{
		data(DEFL, $2, $4);
	}
	| TOKDF expr ',' TCONST
	{
		data(DEFF, $2, newb(dtocanon(real $4), nil));
	}
	| TOKDF expr ',' TFCONST
	{
		data(DEFF, $2, newb(dtocanon($4), nil));
	}
	| TOKDF expr ',' TID
	{
		case $4.name {
		"Inf" or "Infinity" =>
			b := array[] of {byte 16r7F, byte 16rF0, byte 0, byte 0, byte 0, byte 0, byte 0, byte 0};
			data(DEFF, $2, newb(b, nil));
		"NaN" =>
			b := array[] of {byte 16r7F, byte 16rFF, byte 16rFF, byte 16rFF, byte 16rFF, byte 16rFF, byte 16rFF, byte 16rFF};
			data(DEFF, $2, newb(b, nil));
		* =>
			diag(sys->sprint("bad value for real: %s", $4.name));
		}
	}
	| TOKDF expr ',' '-' TCONST
	{
		data(DEFF, $2, newb(dtocanon(-real $5), nil));
	}
	| TOKDF expr ',' '-' TFCONST
	{
		data(DEFF, $2, newb(dtocanon(-$5), nil));
	}
	| TOKDF expr ',' '-' TID
	{
		case $5.name {
		"Inf" or "Infinity" =>
			b := array[] of {byte 16rFF, byte 16rF0, byte 0, byte 0, byte 0, byte 0, byte 0, byte 0};
			data(DEFF, $2, newb(b, nil));
		* =>
			diag(sys->sprint("bad value for real: %s", $5.name));
		}
	}
	| TOKDS expr ',' TSTRING
	{
		data(DEFS, $2, news($4, nil));
	}
	| TOKVAR TID ',' expr
	{
		if($2.ds != 0)
			diag(sys->sprint("%s declared twice", $2.name));
		$2.ds = int $4;
		$2.value = dseg;
		dseg += int $4;
	}
	| TOKEXT expr ',' expr ',' TSTRING
	{
		ext(int $2, int $4, $6);
	}
	| TOKLINK expr ',' expr ',' expr ',' TSTRING
	{
		mklink(int $2, int $4, int $6, $8);
	}
	| TOKMOD TID
	{
		if(amodule != nil)
			diag(sys->sprint("this module already defined as %s", $2.name));
		else
			amodule = $2;
	}
	| TOKENTRY expr ',' expr
	{
		if(pcentry >= 0)
			diag(sys->sprint("this module already has entry point %d, %d" , pcentry, dentry));
		pcentry = int $2;
		dentry = int $4;
	}
	| TOKARRAY expr ',' heapid ',' expr
	{
		data(DEFA, $2, newa(int $4, int $6));
	}
	| TOKINDIR expr ',' expr
	{
		data(DIND, $2, newa(int $4, 0));
	}
	| TOKAPOP
	{
		data(DAPOP, big 0, newa(0, 0));
	}
	| TOKLDTS TID ',' expr
	{
		ldts(int $4);
	}
	| TOKEXCS expr
	{
		excs(int $2);
	}
	| TOKEXC expr ',' expr ',' expr ',' expr ',' expr ',' expr
	{
		exc(int $2, int $4, int $6, int $8, int $10, int $12);
	}
	| TOKETAB TSTRING ',' expr
	{
		etab($2, int $4);
	}
	| TOKETAB '*' ',' expr
	{
		etab(nil, int $4);
	}
	| TOKSRC TSTRING
	{
		source($2);
	}
	;

raddr	: '$' expr
	{
		$$ = aa($2);
		$$.mode = AXIMM;
		if($$.val > 16r7FFF || $$.val < -16r8000)
			diag(sys->sprint("immediate %d too large for middle operand", $$.val));
	}
	| roff
	{
		if($1.mode == AMP)
			$1.mode = AXINM;
		else
			$1.mode = AXINF;
		if($1.mode == AXINM && isoff2big($1.val))
			diag(sys->sprint("register offset %d(mp) too large", $1.val));
		if($1.mode == AXINF && isoff2big($1.val))
			diag(sys->sprint("register offset %d(fp) too large", $1.val));
		$$ = $1;
	}
	;

addr	: '$' expr
	{
		$$ = aa($2);
		$$.mode = AIMM;
	}
	| TID
	{
		$$ = aa(big 0);
		$$.sym = $1;
	}
	| mem
	;

mem	: '*' roff
	{
		$2.mode |= AIND;
		$$ = $2;
	}
	| expr '(' roff ')'
	{
		$3.mode |= AIND;
		if($3.val & 3)
			diag("indirect offset must be word size");
		if($3.mode == (AMP|AIND) && (isoff2big($3.val) || isoff2big(int $1)))
			diag(sys->sprint("indirect offset %bd(%d(mp)) too large", $1, $3.val));
		if($3.mode == (AFP|AIND) && (isoff2big($3.val) || isoff2big(int $1)))
			diag(sys->sprint("indirect offset %bd(%d(fp)) too large", $1, $3.val));
		$3.off = $3.val;
		$3.val = int $1;
		$$ = $3;
	}
	| roff
	;

roff	: expr '(' TOKSB ')'
	{
		$$ = aa($1);
		$$.mode = AMP;
	}
	| expr '(' TOKFP ')'
	{
		$$ = aa($1);
		$$.mode = AFP;
	}
	;

con	: TCONST
	| TID
	{
		$$ = big $1.value;
	}
	| '-' con
	{
		$$ = -$2;
	}
	| '+' con
	{
		$$ = $2;
	}
	| '~' con
	{
		$$ = ~$2;
	}
	| '(' expr ')'
	{
		$$ = $2;
	}
	;

expr:	con
	| expr '+' expr
	{
		$$ = $1 + $3;
	}
	| expr '-' expr
	{
		$$ = $1 - $3;
	}
	| expr '*' expr
	{
		$$ = $1 * $3;
	}
	| expr '/' expr
	{
		$$ = $1 / $3;
	}
	| expr '%' expr
	{
		$$ = $1 % $3;
	}
	| expr '<' '<' expr
	{
		$$ = $1 << int $4;
	}
	| expr '>' '>' expr
	{
		$$ = $1 >> int $4;
	}
	| expr '&' expr
	{
		$$ = $1 & $3;
	}
	| expr '^' expr
	{
		$$ = $1 ^ $3;
	}
	| expr '|' expr
	{
		$$ = $1 | $3;
	}
	;
%%

kinit()
{
	for(i := 0; keywds[i].name != nil; i++) {
		s := enter(keywds[i].name, keywds[i].terminal);
		s.value = keywds[i].op;
	}

	enter("desc", TOKHEAP);
	enter("mp", TOKSB);
	enter("fp", TOKFP);

	enter("byte", TOKDB);
	enter("word", TOKDW);
	enter("long", TOKDL);
	enter("real", TOKDF);
	enter("string", TOKDS);
	enter("var", TOKVAR);
	enter("ext", TOKEXT);
	enter("module", TOKMOD);
	enter("link", TOKLINK);
	enter("entry", TOKENTRY);
	enter("array", TOKARRAY);
	enter("indir", TOKINDIR);
	enter("apop", TOKAPOP);
	enter("ldts", TOKLDTS);
	enter("exceptions", TOKEXCS);
	enter("exception", TOKEXC);
	enter("exctab", TOKETAB);
	enter("source", TOKSRC);

	cmap['0'] = '\0'+1;
	cmap['z'] = '\0'+1;
	cmap['n'] = '\n'+1;
	cmap['r'] = '\r'+1;
	cmap['t'] = '\t'+1;
	cmap['b'] = '\b'+1;
	cmap['f'] = '\f'+1;
	cmap['a'] = '\a'+1;
	cmap['v'] = '\v'+1;
	cmap['\\'] = '\\'+1;
	cmap['"'] = '"'+1;
}

Bgetc(b: ref Iobuf): int
{
	return b.getb();
}

Bungetc(b: ref Iobuf)
{
	b.ungetb();
}

Bgetrune(b: ref Iobuf): int
{
	return b.getc();
}

Bputc(b: ref Iobuf, c: int)
{
	b.putb(byte c);
}

strchr(s: string, c: int): string
{
	for(i := 0; i < len s; i++)
		if(s[i] == c)
			return s[i:];
	return nil;
}

escchar(c: int): int
{
	buf := array[32] of byte;
	if(c >= '0' && c <= '9') {
		n := 1;
		buf[0] = byte c;
		for(;;) {
			c = Bgetc(bin);
			if(c == Eof)
				fatal(sys->sprint("%d: <eof> in escape sequence", line));
			if(strchr("0123456789xX", c) == nil) {
				Bungetc(bin);
				break;
			}
			buf[n++] = byte c;
		}
		return int string buf[0:n];
	}

	n := cmap[c];
	if(n == 0)
		return c;
	return n-1;
}

strbuf := array[Strsize] of byte;

resizebuf()
{
	t := array[len strbuf+Strsize] of byte;
	t[0:] = strbuf;
	strbuf = t;
}

YYLEX.eatstring(l: self ref YYLEX)
{
	esc := 0;
Scan:
	for(cnt := 0;;) {
		c := Bgetc(bin);
		case c {
		Eof =>
			fatal(sys->sprint("%d: <eof> in string constant", line));

		'\n' =>
			line++;
			diag("newline in string constant");
			break Scan;

		'\\' =>
			if(esc) {
				if(cnt >= len strbuf)
					resizebuf();
				strbuf[cnt++] = byte c;
				esc = 0;
				break;
			}
			esc = 1;

		'"' =>
			if(esc == 0)
				break Scan;
			c = escchar(c);
			esc = 0;
			if(cnt >= len strbuf)
				resizebuf();
			strbuf[cnt++] = byte c;

		* =>
			if(esc) {
				c = escchar(c);
				esc = 0;
			}
			if(cnt >= len strbuf)
				resizebuf();
			strbuf[cnt++] = byte c;
		}
	}
	l.lval.str = string strbuf[0: cnt];
}

eatnl()
{
	line++;
	for(;;) {
		c := Bgetc(bin);
		if(c == Eof)
			diag("eof in comment");
		if(c == '\n')
			return;
	}
}

YYLEX.lex(l: self ref YYLEX): int
{
	for(;;){
		c := Bgetc(bin);
		case c {
		Eof =>
			return Eof;
		'"' =>
			l.eatstring();
			return TSTRING;
		' ' or
		'\t' or
		'\r' =>
			continue;
		'\n' =>
			line++;
		'.' =>
			c = Bgetc(bin);
			Bungetc(bin);
			if(isdigit(c))
				return l.numsym('.');
			return '.';
		'#' =>
			eatnl();
		'(' or
		')' or
		';' or
		',' or
		'~' or
		'$' or
		'+' or
		'/' or
		'%' or
		'^' or
		'*' or
		'&' or
		'=' or
		'|' or
		'<' or
		'>' or
		'-' or
		':' =>
			return c;
		'\'' =>
			c = Bgetrune(bin);
			if(c == '\\')
				l.lval.ival = big escchar(Bgetc(bin));
			else
				l.lval.ival = big c;
			c = Bgetc(bin);
			if(c != '\'') {
				diag("missing '");
				Bungetc(bin);
			}
			return TCONST;

		* =>
			return l.numsym(c);
		}
	}
}

isdigit(c: int): int
{
	return c >= '0' && c <= '9';
}

isxdigit(c: int): int
{
	return c >= '0' && c <= '9' || c >= 'a' && c <= 'f' || c >= 'A' && c <= 'F';
}

isalnum(c: int): int
{
	return c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || isdigit(c);
}

YYLEX.numsym(l: self ref YYLEX, first: int): int
{
	Int, Hex, Frac, Expsign, Exp: con iota;
	state: int;

	symbol[0] = byte first;
	p := 0;

	if(first == '.')
		state = Frac;
	else
		state = Int;

	c: int;
	if(isdigit(int symbol[p++]) || state == Frac) {
	Collect:
		for(;;) {
			c = Bgetc(bin);
			if(c < 0)
				fatal(sys->sprint("%d: <eof> eating numeric", line));

			case state {
			Int =>
				if(isdigit(c))
					break;
				case c {
				'x' or
				'X' =>
					c = 'x';
					state = Hex;
				'.' =>
					state = Frac;
				'e' or
				'E' =>
					c = 'e';
					state = Expsign;
				* =>
					break Collect;
				}
			Hex =>
				if(!isxdigit(c))
					break Collect;
			Frac =>
				if(isdigit(c))
					break;
				if(c != 'e' && c != 'E')
					break Collect;
				c = 'e';
				state = Expsign;
			Expsign =>
				state = Exp;
				if(c == '-' || c == '+')
					break;
				if(!isdigit(c))
					break Collect;
			Exp =>
				if(!isdigit(c))
					break Collect;
			}
			symbol[p++] = byte c;
		}

		# break Collect
		lastsym = string symbol[0:p];
		Bungetc(bin);
		case state {
		Frac or
		Expsign or
		Exp =>
			l.lval.fval = real lastsym;
			return TFCONST;
		* =>
			if(len lastsym >= 3 && lastsym[0:2] == "0x")
				(l.lval.ival, nil) = str->tobig(lastsym[2:], 16);
			else
				(l.lval.ival, nil) = str->tobig(lastsym, 10);
			return TCONST;
		}
	}

	for(;;) {
		c = Bgetc(bin);
		if(c < 0)
			fatal(sys->sprint("%d <eof> eating symbols", line));
		# '$' and '/' can occur in fully-qualified Java class names
		if(c != '_' && c != '.' && c != '/' && c != '$' && !isalnum(c)) {
			Bungetc(bin);
			break;
		}
		symbol[p++] = byte c;
	}

	lastsym = string symbol[0:p];
	s := enter(lastsym,TID);
	case s.lexval {
	TOKI0 or
	TOKI1 or
	TOKI2 or
	TOKI3 =>
		l.lval.op = s.value;
	* =>
		l.lval.sym = s;
	}
	return s.lexval;
}

hash := array[Hashsize] of list of ref Sym;

enter(name: string, stype: int): ref Sym
{
	s := lookup(name);
	if(s != nil)
		return s;

	h := 0;
	for(p := 0; p < len name; p++)
		h = h*3 + name[p];
	if(h < 0)
		h = ~h;
	h %= Hashsize;

	s = ref Sym(name, stype, 0, 0);
	hash[h] = s :: hash[h];
	return s;
}

lookup(name: string): ref Sym
{
	h := 0;
	for(p := 0; p < len name; p++)
		h = h*3 + name[p];
	if(h < 0)
		h = ~h;
	h %= Hashsize;

	for(l := hash[h]; l != nil; l = tl l)
		if((s := hd l).name == name)
			return s;
	return nil;
}

YYLEX.error(l: self ref YYLEX, s: string)
{
	if(s == "syntax error") {
		l.error(sys->sprint("syntax error, near symbol '%s'", lastsym));
		return;
	}
	sys->print("%s %d: %s\n", file, line, s);
	if(nerr++ > 10) {
		sys->fprint(sys->fildes(2), "%s:%d: too many errors, giving up\n", file, line);
		sys->remove(ofile);
		raise "fail: yyerror";
	}
}

fatal(s: string)
{
	sys->fprint(sys->fildes(2), "asm: %d (fatal compiler problem) %s\n", line, s);
	raise "fail:"+s;
}

diag(s: string)
{
	srcline := line;
	sys->fprint(sys->fildes(2), "%s:%d: %s\n", file, srcline, s);
	if(nerr++ > 10) {
		sys->fprint(sys->fildes(2), "%s:%d: too many errors, giving up\n", file, line);
		sys->remove(ofile);
		raise "fail: error";
	}
}

zinst: Inst;

ai(op: int): ref Inst
{
	i := ref zinst;
	i.op = op;

	return i;
}

aa(val: big): ref Addr
{
	if(val <= big -1073741824 && val > big 1073741823)
		diag("offset out of range");
	return ref Addr(0, 0, int val, nil);
}

isoff2big(o: int): int
{
	return o < 0 || o > 16rFFFF;
}

inldt := 0;
nldts := 0;
aldts: list of ref Ldts;
curl: ref Ldts;
nexcs := 0;
aexcs: list of ref Exc;
cure: ref Exc;
srcpath: string;

bin: ref Iobuf;
bout: ref Iobuf;

line := 0;
heapid := 0;
symbol := array[1024] of byte;
lastsym: string;
nerr := 0;
cmap := array[256] of int;
file: string;

dlist: ref Desc;
dcout := 0;
dseg := 0;
dcount := 0;

mdata: ref List;
amodule: ref Sym;
links: ref Link;
linkt: ref Link;
nlink := 0;
listing := 0;
mustcompile := 0;
dontcompile := 0;
ofile: string;
dentry := 0;
pcentry := 0;

init(nil: ref Draw->Context, args: list of string)
{
	sys = load Sys Sys->PATH;
	math = load Math Math->PATH;
	bufio = load Bufio Bufio->PATH;
	str = load String String->PATH;

	arg := load Arg Arg->PATH;
	arg->setusage("asm [-l] file.s");
	arg->init(args);
	while((c := arg->opt()) != 0){
		case c {
		'C' =>	dontcompile++;
		'c' =>	mustcompile++;
		'l' =>		listing++;
		* =>		arg->usage();
		}
	}
	args = arg->argv();
	if(len args != 1)
		arg->usage();
	arg = nil;

	kinit();
	pcentry = -1;
	dentry = -1;

	file = hd args;
	bin = bufio->open(file, Bufio->OREAD);
	if(bin == nil) {
		sys->fprint(sys->fildes(2), "asm: can't open %s: %r\n", file);
		raise "fail: errors";
	}
	p := strrchr(file, '/');
	if(p == nil)
		p = file;
	else
		p = p[1:];
	ofile = mkfile(p, ".s", ".dis");
	bout = bufio->create(ofile, Bufio->OWRITE, 8r666);
	if(bout == nil){
		sys->fprint(sys->fildes(2), "asm: can't create: %s: %r\n", ofile);
		raise "fail: errors";
	}
	line = 1;
	yyparse(ref YYLEX);
	bout.close();

	if(nerr != 0){
		sys->remove(ofile);
		raise "fail: errors";
	}
}

strrchr(s: string, c: int): string
{
	for(i := len s; --i >= 0;)
		if(s[i] == c)
			return s[i:];
	return nil;
}

mkfile(file: string, oldext: string, ext: string): string
{
	n := len file;
	n2 := len oldext;
	if(n >= n2 && file[n-n2:] == oldext)
		n -= n2;
	return file[0:n] + ext;
}

opcode(i: ref Inst): int
{
	if(i.op < 0 || i.op >= len keywds)
		fatal(sys->sprint("internal error: invalid op %d (%#x)", i.op, i.op));
	return keywds[i.op].op;
}

Inst.text(i: self ref Inst): string
{
	if(i == nil)
		return "IZ";

	case keywds[i.op].terminal {
	TOKI0 =>
		return sys->sprint("%s", keywds[i.op].name);
	TOKI1 =>
		return sys->sprint("%s\t%s", keywds[i.op].name, i.dst.text());
	TOKI3 =>
		if(i.reg != nil) {
			pre := "";
			post := "";
			case i.reg.mode {
			AXIMM =>
				pre = "$";
				break;
			AXINF =>
				post = "(fp)";
				break;
			AXINM =>
				post = "(mp)";
			 	break;
			}
			return sys->sprint("%s\t%s, %s%d%s, %s", keywds[i.op].name, i.src.text(), pre, i.reg.val, post, i.dst.text());
		}
		return sys->sprint("%s\t%s, %s", keywds[i.op].name, i.src.text(), i.dst.text());
	TOKI2 =>
		return sys->sprint("%s\t%s, %s", keywds[i.op].name, i.src.text(), i.dst.text());
	* =>
		return "IGOK";
	}
}

Addr.text(a: self ref Addr): string
{
	if(a == nil)
		return "AZ";

	if(a.mode & AIND) {		
		case a.mode & ~AIND {
		AFP =>
			return sys->sprint("%d(%d(fp))", a.val, a.off);
		AMP =>
			return sys->sprint("%d(%d(mp))", a.val, a.off);
		}
	}
	else {
		case a.mode {
		AFP =>
			return sys->sprint("%d(fp)", a.val);
		AMP =>
			return sys->sprint("%d(mp)", a.val);
		AIMM =>
			return sys->sprint("$%d", a.val);
		}
	}

	return "AGOK";
}

append[T](l: list of T, v: T): list of T
{
	if(l == nil)
		return v :: nil;
	return hd l :: append(tl l, v);
}

newa(i: int, size: int): ref List
{
	a := ref Array(i, size);
	l := ref List.Array(nil, -1, 0, a);
	return l;
}

# does order matter?
newi(v: big, l: ref List): ref List
{
	n := ref List.Int(nil, -1, 0, v);
	if(l == nil)
		return n;

	for(t := l; t.link != nil; t = t.link)
		;
	t.link = n;

	return l;
}

news(s: string, l: ref List): ref List
{
	return ref List.Bytes(l, -1, 0, array of byte s);
}

newb(a: array of byte, l: ref List): ref List
{
	return ref List.Bytes(l, -1, 0, a);
}

digit(x: int): int
{
	if(x >= 'A' && x <= 'F')
		return x - 'A' + 10;
	if(x >= 'a' && x <= 'f')
		return x - 'a' + 10;
	if(x >= '0' && x <= '9')
		return x - '0';
	diag("bad hex value in pointers");
	return 0;
}

heap(id: int, size: int, ptr: string)
{
	d := ref Desc;
	d.id = id;
	d.size = size;
	size /= IBY2WD;
	d.map = array[size] of {* => byte 0};
	d.np = 0;
	if(dlist == nil)
		dlist = d;
	else {
		f: ref Desc;
		for(f = dlist; f.link != nil; f = f.link)
			;
		f.link = d;
	}
	d.link = nil;
	dcount++;

	if(ptr == nil)
		return;
	if(len ptr & 1) {
		diag("pointer descriptor has odd length");
		return;	
	}

	k := 0;
	l := len ptr;
	for(i := 0; i < l; i += 2) {
		d.map[k++] = byte ((digit(ptr[i])<<4)|digit(ptr[i+1]));
		if(k > size) {
			diag("pointer descriptor too long");
			break;
		}
	}
	d.np = k;
}

conout(val: int)
{
	if(val >= -64 && val <= 63) {
		Bputc(bout, val & ~16r80);
		return;
	}
	if(val >= -8192 && val <= 8191) {
		Bputc(bout, ((val>>8) & ~16rC0) | 16r80);
		Bputc(bout, val);
		return;
	}
	if(val < 0 && ((val >> 29) & 7) != 7
	|| val > 0 && (val >> 29) != 0)
		diag(sys->sprint("overflow in constant 0x%ux\n", val));
	Bputc(bout, (val>>24) | 16rC0);
	Bputc(bout, val>>16);
	Bputc(bout, val>>8);
	Bputc(bout, val);
}

aout(a: ref Addr)
{
	if(a == nil)
		return;
	if(a.mode & AIND)
		conout(a.off);
	conout(a.val);
}

Bputs(b: ref Iobuf, s: string)
{
	for(i := 0; i < len s; i++)
		Bputc(b, s[i]);
	Bputc(b, '\0');
}

lout()
{
	if(amodule == nil)
		amodule = enter("main", 0);

	Bputs(bout, amodule.name);

	for(l := links; l != nil; l = l.link) {
		conout(l.addr);
		conout(l.desc);
		Bputc(bout, l.typ>>24);
		Bputc(bout, l.typ>>16);
		Bputc(bout, l.typ>>8);
		Bputc(bout, l.typ);
		Bputs(bout, l.name);
	}
}

ldtout()
{
	conout(nldts);
	for(la := aldts; la != nil; la = tl la){
		ls := hd la;
		conout(ls.n);
		for(l := ls.ldt; l != nil; l = tl l){
			t := hd l;
			Bputc(bout, t.sign>>24);
			Bputc(bout, t.sign>>16);
			Bputc(bout, t.sign>>8);
			Bputc(bout, t.sign);
			Bputs(bout, t.name);
		}
	}
	conout(0);
}

excout()
{
	if(nexcs == 0)
		return;
	conout(nexcs);
	for(es := aexcs; es != nil; es = tl es){
		e := hd es;
		conout(e.n3);
		conout(e.n1);
		conout(e.n2);
		conout(e.n4);
		conout(e.n5|(e.n6<<16));
		for(ets := e.etab; ets != nil; ets = tl ets){
			et := hd ets;
			if(et.name != nil)
				Bputs(bout, et.name);
			conout(et.n);
		}
	}
	conout(0);
}

srcout()
{
	if(srcpath == nil)
		return;
	Bputs(bout, srcpath);
}

assem(i: ref Inst)
{
	f: ref Inst;
	while(i != nil){
		link := i.link;
		i.link = f;
		f = i;
		i = link;
	}
	i = f;

	pc := 0;
	for(f = i; f != nil; f = f.link) {
		f.pc = pc++;
		if(f.sym != nil)
			f.sym.value = f.pc;
	}

	if(pcentry >= pc)
		diag("entry pc out of range");
	if(dentry >= dcount)
		diag("entry descriptor out of range");

	conout(XMAGIC);
	hints := 0;
	if(mustcompile)
		hints |= MUSTCOMPILE;
	if(dontcompile)
		hints |= DONTCOMPILE;
	hints |= HASLDT;
	if(nexcs > 0)
		hints |= HASEXCEPT;
	conout(hints);		# Runtime flags
	conout(1024);		# default stack size
	conout(pc);
	conout(dseg);
	conout(dcount);
	conout(nlink);
	conout(pcentry);
	conout(dentry);

	for(f = i; f != nil; f = f.link) {
		if(f.dst != nil && f.dst.sym != nil) {
			f.dst.mode = AIMM;
			f.dst.val = f.dst.sym.value;
		}
		o := opcode(f);
		if(o == IRAISE){
			f.src = f.dst;
			f.dst = nil;
		}
		Bputc(bout, o);
		n := 0;
		if(f.src != nil)
			n |= src(f.src.mode);
		else
			n |= src(AXXX);
		if(f.dst != nil)
			n |= dst(f.dst.mode);
		else
			n |= dst(AXXX);
		if(f.reg != nil)
			n |= f.reg.mode;
		else
			n |= AXNON;
		Bputc(bout, n);
		aout(f.reg);
		aout(f.src);
		aout(f.dst);

		if(listing)
			sys->print("%4d %s\n", f.pc, f.text());
	}

	for(d := dlist; d != nil; d = d.link) {
		conout(d.id);
		conout(d.size);
		conout(d.np);
		for(n := 0; n < d.np; n++)
			Bputc(bout, int d.map[n]);
	}

	dout();
	lout();
	ldtout();
	excout();
	srcout();
}

data(typ: int, addr: big, l: ref List)
{
	if(inldt){
		ldtw(int intof(l));
		return;
	}

	l.typ = typ;
	l.addr = int addr;

	if(mdata == nil)
		mdata = l;
	else {
		for(f := mdata; f.link != nil; f = f.link)
			;
		f.link = l;
	}
}

ext(addr: int, typ: int, s: string)
{
	if(inldt){
		ldte(typ, s);
		return;
	}

	data(DEFW, big addr, newi(big typ, nil));

	n: ref List;
	for(i := 0; i < len s; i++)
		n = newi(big s[i], n);
	data(DEFB, big(addr+IBY2WD), n);

	if(addr+len s > dseg)
		diag("ext beyond mp");
}

mklink(desc: int, addr: int, typ: int, s: string)
{
	for(ls := links; ls != nil; ls = ls.link)
		if(ls.name == s)
			diag(sys->sprint("%s already defined", s));

	nlink++;
	l := ref Link;
	l.desc = desc;
	l.addr = addr;
	l.typ = typ;
	l.name = s;
	l.link = nil;

	if(links == nil)
		links = l;
	else
		linkt.link = l;
	linkt = l;
}

intof(l: ref List): big
{
	pick rl := l {
	Int =>
		return rl.ival;
	* =>
		raise "list botch";
	}
}

arrayof(l: ref List): ref Array
{
	pick rl := l {
	Array =>
		return rl.a;
	* =>
		raise "list botch";
	}
}

bytesof(l: ref List): array of byte
{
	pick rl := l {
	Bytes =>
		return rl.b;
	* =>
		raise "list botch";
	}
}

nel(l: ref List): (int, ref List)
{
	n := 1;
	for(e := l.link; e != nil && e.addr == -1; e = e.link)
		n++;
	return (n, e);
}

dout()
{
	e: ref List;
	n: int;
	for(l := mdata; l != nil; l = e) {
		case l.typ {
		DEFB =>
			(n, e) = nel(l);
			if(n < DMAX)
				Bputc(bout, dbyte(DEFB, n));
			else {
				Bputc(bout, dbyte(DEFB, 0));
				conout(n);
			}
			conout(l.addr);
			while(l != e) {
				Bputc(bout, int intof(l));
				l = l.link;
			}
			break;
		DEFW =>
			(n, e) = nel(l);
			if(n < DMAX)
				Bputc(bout, dbyte(DEFW, n));
			else {
				Bputc(bout, dbyte(DEFW, 0));
				conout(n);
			}
			conout(l.addr);
			while(l != e) {
				n = int intof(l);
				Bputc(bout, n>>24);
				Bputc(bout, n>>16);
				Bputc(bout, n>>8);
				Bputc(bout, n);
				l = l.link;
			}
			break;
		DEFL =>
			(n, e) = nel(l);
			if(n < DMAX)
				Bputc(bout, dbyte(DEFL, n));
			else {
				Bputc(bout, dbyte(DEFL, 0));
				conout(n);
			}
			conout(l.addr);
			while(l != e) {
				b := intof(l);
				Bputc(bout, int (b>>56));
				Bputc(bout, int (b>>48));
				Bputc(bout, int (b>>40));
				Bputc(bout, int (b>>32));
				Bputc(bout, int (b>>24));
				Bputc(bout, int (b>>16));
				Bputc(bout, int (b>>8));
				Bputc(bout, int b);
				l = l.link;
			}
			break;
		DEFF =>
			(n, e) = nel(l);
			if(n < DMAX)
				Bputc(bout, dbyte(DEFF, n));
			else {
				Bputc(bout, dbyte(DEFF, 0));
				conout(n);
			}
			conout(l.addr);
			while(l != e) {
				b := bytesof(l);
				Bputc(bout, int b[0]);
				Bputc(bout, int b[1]);
				Bputc(bout, int b[2]);
				Bputc(bout, int b[3]);
				Bputc(bout, int b[4]);
				Bputc(bout, int b[5]);
				Bputc(bout, int b[6]);
				Bputc(bout, int b[7]);
				l = l.link;
			}
			break;
		DEFS =>
			a := bytesof(l);
			n = len a;
			if(n < DMAX && n != 0)
				Bputc(bout, dbyte(DEFS, n));
			else {
				Bputc(bout, dbyte(DEFS, 0));
				conout(n);
			}
			conout(l.addr);
			for(i := 0; i < n; i++)
				Bputc(bout, int a[i]);

			e = l.link;
			break;
		DEFA =>
			Bputc(bout, dbyte(DEFA, 1));
			conout(l.addr);
			ar := arrayof(l);
			Bputc(bout, ar.i>>24);
			Bputc(bout, ar.i>>16);
			Bputc(bout, ar.i>>8);
			Bputc(bout, ar.i);
			Bputc(bout, ar.size>>24);
			Bputc(bout, ar.size>>16);
			Bputc(bout, ar.size>>8);
			Bputc(bout, ar.size);
			e = l.link;
			break;
		DIND =>
			Bputc(bout, dbyte(DIND, 1));
			conout(l.addr);
			Bputc(bout, 0);
			Bputc(bout, 0);
			Bputc(bout, 0);
			Bputc(bout, 0);
			e = l.link;
			break;
		DAPOP =>
			Bputc(bout, dbyte(DAPOP, 1));
			conout(0);
			e = l.link;
			break;
		}
	}

	Bputc(bout, dbyte(DEFZ, 0));
}

ldts(n: int)
{
	nldts = n;
	inldt = 1;
}

ldtw(n: int)
{
	ls := ref Ldts(n, nil);
	aldts = append(aldts, ls);
	curl = ls;
}

ldte(n: int, s: string)
{
	l := ref Ldt(n, s);
	curl.ldt = append(curl.ldt, l);
}

excs(n: int)
{
	nexcs = n;
}

exc(n1: int, n2: int, n3: int, n4: int, n5: int, n6: int)
{
	e := ref Exc;
	e.n1 = n1;
	e.n2 = n2;
	e.n3 = n3;
	e.n4 = n4;
	e.n5 = n5;
	e.n6 = n6;
	e.etab = nil;
	aexcs = append(aexcs, e);
	cure = e;
}

etab(s: string, n: int)
{
	et := ref Etab;
	et.n = n;
	et.name = s;
	cure.etab = append(cure.etab, et);
}

source(s: string)
{
	srcpath = s;
}

dtype(x: int): int
{
	return (x>>4)&16rF;
}

dbyte(x: int, l: int): int
{
	return (x<<4) | l;
}

dlen(x: int): int
{
	return x & (DMAX-1);
}

src(x: int): int
{
	return x<<3;
}

dst(x: int): int
{
	return x<<0;
}

dtocanon(d: real): array of byte
{
	b := array[8] of byte;
	export_real(b, array[] of {d});
	return b;
}

keywds: array of Keywd = array[] of
{
	("nop",		INOP,		TOKI0),
	("alt",		IALT,		TOKI3),
	("nbalt",	INBALT,		TOKI3),
	("goto",		IGOTO,		TOKI2),
	("call",		ICALL,		TOKI2),
	("frame",	IFRAME,		TOKI2),
	("spawn",	ISPAWN,		TOKI2),
	("runt",		IRUNT,		TOKI2),
	("load",		ILOAD,		TOKI3),
	("mcall",	IMCALL,		TOKI3),
	("mspawn",	IMSPAWN,	TOKI3),
	("mframe",	IMFRAME,	TOKI3),
	("ret",		IRET,		TOKI0),
	("jmp",		IJMP,		TOKI1),
	("case",		ICASE,		TOKI2),
	("exit",		IEXIT,		TOKI0),
	("new",		INEW,		TOKI2),
	("newa",		INEWA,		TOKI3),
	("newcb",	INEWCB,		TOKI1),
	("newcw",	INEWCW,		TOKI1),
	("newcf",	INEWCF,		TOKI1),
	("newcp",	INEWCP,		TOKI1),
	("newcm",	INEWCM,		TOKI2),
	("newcmp",	INEWCMP,	TOKI2),
	("send",		ISEND,		TOKI2),
	("recv",		IRECV,		TOKI2),
	("consb",	ICONSB,		TOKI2),
	("consw",	ICONSW,		TOKI2),
	("consp",	ICONSP,		TOKI2),
	("consf",	ICONSF,		TOKI2),
	("consm",	ICONSM,		TOKI3),
	("consmp",	ICONSMP,	TOKI3),
	("headb",	IHEADB,		TOKI2),
	("headw",	IHEADW,		TOKI2),
	("headp",	IHEADP,		TOKI2),
	("headf",	IHEADF,		TOKI2),
	("headm",	IHEADM,		TOKI3),
	("headmp",	IHEADMP,	TOKI3),
	("tail",		ITAIL,		TOKI2),
	("lea",		ILEA,		TOKI2),
	("indx",		IINDX,		TOKI3),
	("movp",		IMOVP,		TOKI2),
	("movm",		IMOVM,		TOKI3),
	("movmp",	IMOVMP,		TOKI3),
	("movb",		IMOVB,		TOKI2),
	("movw",		IMOVW,		TOKI2),
	("movf",		IMOVF,		TOKI2),
	("cvtbw",	ICVTBW,		TOKI2),
	("cvtwb",	ICVTWB,		TOKI2),
	("cvtfw",	ICVTFW,		TOKI2),
	("cvtwf",	ICVTWF,		TOKI2),
	("cvtca",	ICVTCA,		TOKI2),
	("cvtac",	ICVTAC,		TOKI2),
	("cvtwc",	ICVTWC,		TOKI2),
	("cvtcw",	ICVTCW,		TOKI2),
	("cvtfc",	ICVTFC,		TOKI2),
	("cvtcf",	ICVTCF,		TOKI2),
	("addb",		IADDB,		TOKI3),
	("addw",		IADDW,		TOKI3),
	("addf",		IADDF,		TOKI3),
	("subb",		ISUBB,		TOKI3),
	("subw",		ISUBW,		TOKI3),
	("subf",		ISUBF,		TOKI3),
	("mulb",		IMULB,		TOKI3),
	("mulw",		IMULW,		TOKI3),
	("mulf",		IMULF,		TOKI3),
	("divb",		IDIVB,		TOKI3),
	("divw",		IDIVW,		TOKI3),
	("divf",		IDIVF,		TOKI3),
	("modw",		IMODW,		TOKI3),
	("modb",		IMODB,		TOKI3),
	("andb",		IANDB,		TOKI3),
	("andw",		IANDW,		TOKI3),
	("orb",		IORB,		TOKI3),
	("orw",		IORW,		TOKI3),
	("xorb",		IXORB,		TOKI3),
	("xorw",		IXORW,		TOKI3),
	("shlb",		ISHLB,		TOKI3),
	("shlw",		ISHLW,		TOKI3),
	("shrb",		ISHRB,		TOKI3),
	("shrw",		ISHRW,		TOKI3),
	("insc",		IINSC,		TOKI3),
	("indc",		IINDC,		TOKI3),
	("addc",		IADDC,		TOKI3),
	("lenc",		ILENC,		TOKI2),
	("lena",		ILENA,		TOKI2),
	("lenl",		ILENL,		TOKI2),
	("beqb",		IBEQB,		TOKI3),
	("bneb",		IBNEB,		TOKI3),
	("bltb",		IBLTB,		TOKI3),
	("bleb",		IBLEB,		TOKI3),
	("bgtb",		IBGTB,		TOKI3),
	("bgeb",		IBGEB,		TOKI3),
	("beqw",		IBEQW,		TOKI3),
	("bnew",		IBNEW,		TOKI3),
	("bltw",		IBLTW,		TOKI3),
	("blew",		IBLEW,		TOKI3),
	("bgtw",		IBGTW,		TOKI3),
	("bgew",		IBGEW,		TOKI3),
	("beqf",		IBEQF,		TOKI3),
	("bnef",		IBNEF,		TOKI3),
	("bltf",		IBLTF,		TOKI3),
	("blef",		IBLEF,		TOKI3),
	("bgtf",		IBGTF,		TOKI3),
	("bgef",		IBGEF,		TOKI3),
	("beqc",		IBEQC,		TOKI3),
	("bnec",		IBNEC,		TOKI3),
	("bltc",		IBLTC,		TOKI3),
	("blec",		IBLEC,		TOKI3),
	("bgtc",		IBGTC,		TOKI3),
	("bgec",		IBGEC,		TOKI3),
	("slicea",	ISLICEA,	TOKI3),
	("slicela",	ISLICELA,	TOKI3),
	("slicec",	ISLICEC,	TOKI3),
	("indw",		IINDW,		TOKI3),
	("indf",		IINDF,		TOKI3),
	("indb",		IINDB,		TOKI3),
	("negf",		INEGF,		TOKI2),
	("movl",		IMOVL,		TOKI2),
	("addl",		IADDL,		TOKI3),
	("subl",		ISUBL,		TOKI3),
	("divl",		IDIVL,		TOKI3),
	("modl",		IMODL,		TOKI3),
	("mull",		IMULL,		TOKI3),
	("andl",		IANDL,		TOKI3),
	("orl",		IORL,		TOKI3),
	("xorl",		IXORL,		TOKI3),
	("shll",		ISHLL,		TOKI3),
	("shrl",		ISHRL,		TOKI3),
	("bnel",		IBNEL,		TOKI3),
	("bltl",		IBLTL,		TOKI3),
	("blel",		IBLEL,		TOKI3),
	("bgtl",		IBGTL,		TOKI3),
	("bgel",		IBGEL,		TOKI3),
	("beql",		IBEQL,		TOKI3),
	("cvtlf",	ICVTLF,		TOKI2),
	("cvtfl",	ICVTFL,		TOKI2),
	("cvtlw",	ICVTLW,		TOKI2),
	("cvtwl",	ICVTWL,		TOKI2),
	("cvtlc",	ICVTLC,		TOKI2),
	("cvtcl",	ICVTCL,		TOKI2),
	("headl",	IHEADL,		TOKI2),
	("consl",	ICONSL,		TOKI2),
	("newcl",	INEWCL,		TOKI1),
	("casec",	ICASEC,		TOKI2),
	("indl",		IINDL,		TOKI3),
	("movpc",	IMOVPC,		TOKI2),
	("tcmp",		ITCMP,		TOKI2),
	("mnewz",	IMNEWZ,		TOKI3),
	("cvtrf",	ICVTRF,		TOKI2),
	("cvtfr",	ICVTFR,		TOKI2),
	("cvtws",	ICVTWS,		TOKI2),
	("cvtsw",	ICVTSW,		TOKI2),
	("lsrw",		ILSRW,		TOKI3),
	("lsrl",		ILSRL,		TOKI3),
	("eclr",		IECLR,		TOKI0),
	("newz",		INEWZ,		TOKI2),
	("newaz",	INEWAZ,		TOKI3),
	("raise",	IRAISE,	TOKI1),
	("casel",	ICASEL,	TOKI2),
	("mulx",	IMULX,	TOKI3),
	("divx",	IDIVX,	TOKI3),
	("cvtxx",	ICVTXX,	TOKI3),
	("mulx0",	IMULX0,	TOKI3),
	("divx0",	IDIVX0,	TOKI3),
	("cvtxx0",	ICVTXX0,	TOKI3),
	("mulx1",	IMULX1,	TOKI3),
	("divx1",	IDIVX1,	TOKI3),
	("cvtxx1",	ICVTXX1,	TOKI3),
	("cvtfx",	ICVTFX,	TOKI3),
	("cvtxf",	ICVTXF,	TOKI3),
	("expw",	IEXPW,	TOKI3),
	("expl",	IEXPL,	TOKI3),
	("expf",	IEXPF,	TOKI3),
	("self",	ISELF,	TOKI1),
	(nil,	0, 0),
};