Plan 9 from Bell Labs’s /usr/web/sources/plan9/sys/src/libscribble/syms

Copyright © 2009 Alcatel-Lucent.
Distributed under the Lucent Public License version 1.02.
Download the Plan 9 distribution.


sizeof_1_ = 8;
aggr _1_
{
	'U' 0 lo;
	'U' 4 hi;
};

defn
_1_(addr) {
	complex _1_ addr;
	print("	lo	", addr.lo, "\n");
	print("	hi	", addr.hi, "\n");
};

sizeofFPdbleword = 8;
aggr FPdbleword
{
	'F' 0 x;
	{
	'U' 0 lo;
	'U' 4 hi;
	};
};

defn
FPdbleword(addr) {
	complex FPdbleword addr;
	print("	x	", addr.x, "\n");
	print("_1_ {\n");
		_1_(addr+0);
	print("}\n");
};

UTFmax = 3;
Runesync = 128;
Runeself = 128;
Runeerror = 65533;
sizeofFmt = 48;
aggr Fmt
{
	'b' 0 runes;
	'X' 4 start;
	'X' 8 to;
	'X' 12 stop;
	'X' 16 flush;
	'X' 20 farg;
	'D' 24 nfmt;
	'X' 28 args;
	'D' 32 r;
	'D' 36 width;
	'D' 40 prec;
	'U' 44 flags;
};

defn
Fmt(addr) {
	complex Fmt addr;
	print("	runes	", addr.runes, "\n");
	print("	start	", addr.start\X, "\n");
	print("	to	", addr.to\X, "\n");
	print("	stop	", addr.stop\X, "\n");
	print("	flush	", addr.flush\X, "\n");
	print("	farg	", addr.farg\X, "\n");
	print("	nfmt	", addr.nfmt, "\n");
	print("	args	", addr.args\X, "\n");
	print("	r	", addr.r, "\n");
	print("	width	", addr.width, "\n");
	print("	prec	", addr.prec, "\n");
	print("	flags	", addr.flags, "\n");
};

FmtWidth = 1;
FmtLeft = 2;
FmtPrec = 4;
FmtSharp = 8;
FmtSpace = 16;
FmtSign = 32;
FmtZero = 64;
FmtUnsigned = 128;
FmtShort = 256;
FmtLong = 512;
FmtVLong = 1024;
FmtComma = 2048;
FmtByte = 4096;
FmtFlag = 8192;
sizeofTm = 40;
aggr Tm
{
	'D' 0 sec;
	'D' 4 min;
	'D' 8 hour;
	'D' 12 mday;
	'D' 16 mon;
	'D' 20 year;
	'D' 24 wday;
	'D' 28 yday;
	'a' 32 zone;
	'D' 36 tzoff;
};

defn
Tm(addr) {
	complex Tm addr;
	print("	sec	", addr.sec, "\n");
	print("	min	", addr.min, "\n");
	print("	hour	", addr.hour, "\n");
	print("	mday	", addr.mday, "\n");
	print("	mon	", addr.mon, "\n");
	print("	year	", addr.year, "\n");
	print("	wday	", addr.wday, "\n");
	print("	yday	", addr.yday, "\n");
	print("	zone	", addr.zone, "\n");
	print("	tzoff	", addr.tzoff, "\n");
};

PNPROC = 1;
PNGROUP = 2;
Profoff = 0;
Profuser = 1;
Profkernel = 2;
Proftime = 3;
Profsample = 4;
sizeofLock = 4;
aggr Lock
{
	'D' 0 val;
};

defn
Lock(addr) {
	complex Lock addr;
	print("	val	", addr.val, "\n");
};

sizeofQLp = 12;
aggr QLp
{
	'D' 0 inuse;
	'A' QLp 4 next;
	'C' 8 state;
};

defn
QLp(addr) {
	complex QLp addr;
	print("	inuse	", addr.inuse, "\n");
	print("	next	", addr.next\X, "\n");
	print("	state	", addr.state, "\n");
};

sizeofQLock = 16;
aggr QLock
{
	Lock 0 lock;
	'D' 4 locked;
	'A' QLp 8 $head;
	'A' QLp 12 $tail;
};

defn
QLock(addr) {
	complex QLock addr;
	print("Lock lock {\n");
	Lock(addr.lock);
	print("}\n");
	print("	locked	", addr.locked, "\n");
	print("	$head	", addr.$head\X, "\n");
	print("	$tail	", addr.$tail\X, "\n");
};

sizeofRWLock = 20;
aggr RWLock
{
	Lock 0 lock;
	'D' 4 readers;
	'D' 8 writer;
	'A' QLp 12 $head;
	'A' QLp 16 $tail;
};

defn
RWLock(addr) {
	complex RWLock addr;
	print("Lock lock {\n");
	Lock(addr.lock);
	print("}\n");
	print("	readers	", addr.readers, "\n");
	print("	writer	", addr.writer, "\n");
	print("	$head	", addr.$head\X, "\n");
	print("	$tail	", addr.$tail\X, "\n");
};

sizeofRendez = 12;
aggr Rendez
{
	'A' QLock 0 l;
	'A' QLp 4 $head;
	'A' QLp 8 $tail;
};

defn
Rendez(addr) {
	complex Rendez addr;
	print("	l	", addr.l\X, "\n");
	print("	$head	", addr.$head\X, "\n");
	print("	$tail	", addr.$tail\X, "\n");
};

sizeofNetConnInfo = 36;
aggr NetConnInfo
{
	'X' 0 dir;
	'X' 4 root;
	'X' 8 spec;
	'X' 12 lsys;
	'X' 16 lserv;
	'X' 20 rsys;
	'X' 24 rserv;
	'X' 28 laddr;
	'X' 32 raddr;
};

defn
NetConnInfo(addr) {
	complex NetConnInfo addr;
	print("	dir	", addr.dir\X, "\n");
	print("	root	", addr.root\X, "\n");
	print("	spec	", addr.spec\X, "\n");
	print("	lsys	", addr.lsys\X, "\n");
	print("	lserv	", addr.lserv\X, "\n");
	print("	rsys	", addr.rsys\X, "\n");
	print("	rserv	", addr.rserv\X, "\n");
	print("	laddr	", addr.laddr\X, "\n");
	print("	raddr	", addr.raddr\X, "\n");
};

RFNAMEG = 1;
RFENVG = 2;
RFFDG = 4;
RFNOTEG = 8;
RFPROC = 16;
RFMEM = 32;
RFNOWAIT = 64;
RFCNAMEG = 1024;
RFCENVG = 2048;
RFCFDG = 4096;
RFREND = 8192;
RFNOMNT = 16384;
sizeofQid = 16;
aggr Qid
{
	'W' 0 path;
	'U' 8 vers;
	'b' 12 type;
};

defn
Qid(addr) {
	complex Qid addr;
	print("	path	", addr.path, "\n");
	print("	vers	", addr.vers, "\n");
	print("	type	", addr.type, "\n");
};

sizeofDir = 60;
aggr Dir
{
	'u' 0 type;
	'U' 4 dev;
	Qid 8 qid;
	'U' 24 mode;
	'U' 28 atime;
	'U' 32 mtime;
	'V' 36 length;
	'X' 44 name;
	'X' 48 uid;
	'X' 52 gid;
	'X' 56 muid;
};

defn
Dir(addr) {
	complex Dir addr;
	print("	type	", addr.type, "\n");
	print("	dev	", addr.dev, "\n");
	print("Qid qid {\n");
	Qid(addr.qid);
	print("}\n");
	print("	mode	", addr.mode, "\n");
	print("	atime	", addr.atime, "\n");
	print("	mtime	", addr.mtime, "\n");
	print("	length	", addr.length, "\n");
	print("	name	", addr.name\X, "\n");
	print("	uid	", addr.uid\X, "\n");
	print("	gid	", addr.gid\X, "\n");
	print("	muid	", addr.muid\X, "\n");
};

sizeofWaitmsg = 20;
aggr Waitmsg
{
	'D' 0 pid;
	'a' 4 time;
	'X' 16 msg;
};

defn
Waitmsg(addr) {
	complex Waitmsg addr;
	print("	pid	", addr.pid, "\n");
	print("	time	", addr.time, "\n");
	print("	msg	", addr.msg\X, "\n");
};

sizeofIOchunk = 8;
aggr IOchunk
{
	'X' 0 addr;
	'U' 4 len;
};

defn
IOchunk(addr) {
	complex IOchunk addr;
	print("	addr	", addr.addr\X, "\n");
	print("	len	", addr.len, "\n");
};

sizeof_2_ = 32;
aggr _2_
{
	'D' 0 fd;
	'C' 4 flags;
	'C' 5 state;
	'X' 8 buf;
	'X' 12 rp;
	'X' 16 wp;
	'X' 20 lp;
	'D' 24 bufl;
	'a' 28 unbuf;
};

defn
_2_(addr) {
	complex _2_ addr;
	print("	fd	", addr.fd, "\n");
	print("	flags	", addr.flags, "\n");
	print("	state	", addr.state, "\n");
	print("	buf	", addr.buf\X, "\n");
	print("	rp	", addr.rp\X, "\n");
	print("	wp	", addr.wp\X, "\n");
	print("	lp	", addr.lp\X, "\n");
	print("	bufl	", addr.bufl, "\n");
	print("	unbuf	", addr.unbuf, "\n");
};

DOpaque = 4294967295;
DTransparent = 0;
DBlack = 255;
DWhite = 4294967295;
DRed = 4278190335;
DGreen = 16711935;
DBlue = 65535;
DCyan = 16777215;
DMagenta = 4278255615;
DYellow = 4294902015;
DPaleyellow = 4294945535;
DDarkyellow = 4008615679;
DDarkgreen = 1149781247;
DPalegreen = 2868882175;
DMedgreen = 2295105791;
DDarkblue = 22015;
DPalebluegreen = 2868903935;
DPaleblue = 48127;
DBluegreen = 8947967;
DGreygreen = 1437248255;
DPalegreygreen = 2666458879;
DYellowgreen = 2576960767;
DMedblue = 39423;
DGreyblue = 6142975;
DPalegreyblue = 1234427391;
DPurpleblue = 2290666751;
DNotacolor = 4294967040;
DNofill = 4294967040;
Displaybufsize = 8000;
ICOSSCALE = 1024;
Borderwidth = 4;
Refbackup = 0;
Refnone = 1;
Refmesg = 2;
Endsquare = 0;
Enddisc = 1;
Endarrow = 2;
Endmask = 31;
Clear = 0;
SinD = 8;
DinS = 4;
SoutD = 2;
DoutS = 1;
S = 10;
SoverD = 11;
SatopD = 9;
SxorD = 3;
D = 5;
DoverS = 7;
DatopS = 6;
DxorS = 3;
Ncomp = 12;
CRed = 0;
CGreen = 1;
CBlue = 2;
CGrey = 3;
CAlpha = 4;
CMap = 5;
CIgnore = 6;
NChan = 7;
GREY1 = 49;
GREY2 = 50;
GREY4 = 52;
GREY8 = 56;
CMAP8 = 88;
RGB15 = 1627723045;
RGB16 = 333349;
RGB24 = 530472;
RGBA32 = 135800904;
ARGB32 = 1208490024;
XRGB32 = 1745360936;
BGR24 = 2627592;
ABGR32 = 1210587144;
XBGR32 = 1747458056;
sizeofPoint = 8;
aggr Point
{
	'D' 0 x;
	'D' 4 y;
};

defn
Point(addr) {
	complex Point addr;
	print("	x	", addr.x, "\n");
	print("	y	", addr.y, "\n");
};

sizeofRectangle = 16;
aggr Rectangle
{
	Point 0 min;
	Point 8 max;
};

defn
Rectangle(addr) {
	complex Rectangle addr;
	print("Point min {\n");
	Point(addr.min);
	print("}\n");
	print("Point max {\n");
	Point(addr.max);
	print("}\n");
};

sizeofScreen = 16;
aggr Screen
{
	'X' 0 display;
	'D' 4 id;
	'X' 8 image;
	'X' 12 fill;
};

defn
Screen(addr) {
	complex Screen addr;
	print("	display	", addr.display\X, "\n");
	print("	id	", addr.id, "\n");
	print("	image	", addr.image\X, "\n");
	print("	fill	", addr.fill\X, "\n");
};

sizeofDisplay = 176;
aggr Display
{
	QLock 0 qlock;
	'D' 16 locking;
	'D' 20 dirno;
	'D' 24 fd;
	'D' 28 reffd;
	'D' 32 ctlfd;
	'D' 36 imageid;
	'D' 40 $local;
	'X' 44 error;
	'X' 48 devdir;
	'X' 52 windir;
	'a' 56 oldlabel;
	'U' 120 dataqid;
	'X' 124 white;
	'X' 128 black;
	'X' 132 opaque;
	'X' 136 transparent;
	'X' 140 image;
	'X' 144 buf;
	'D' 148 bufsize;
	'X' 152 bufp;
	'X' 156 defaultfont;
	'X' 160 defaultsubfont;
	'X' 164 windows;
	'X' 168 screenimage;
	'D' 172 _isnewdisplay;
};

defn
Display(addr) {
	complex Display addr;
	print("QLock qlock {\n");
	QLock(addr.qlock);
	print("}\n");
	print("	locking	", addr.locking, "\n");
	print("	dirno	", addr.dirno, "\n");
	print("	fd	", addr.fd, "\n");
	print("	reffd	", addr.reffd, "\n");
	print("	ctlfd	", addr.ctlfd, "\n");
	print("	imageid	", addr.imageid, "\n");
	print("	$local	", addr.$local, "\n");
	print("	error	", addr.error\X, "\n");
	print("	devdir	", addr.devdir\X, "\n");
	print("	windir	", addr.windir\X, "\n");
	print("	oldlabel	", addr.oldlabel, "\n");
	print("	dataqid	", addr.dataqid, "\n");
	print("	white	", addr.white\X, "\n");
	print("	black	", addr.black\X, "\n");
	print("	opaque	", addr.opaque\X, "\n");
	print("	transparent	", addr.transparent\X, "\n");
	print("	image	", addr.image\X, "\n");
	print("	buf	", addr.buf\X, "\n");
	print("	bufsize	", addr.bufsize, "\n");
	print("	bufp	", addr.bufp\X, "\n");
	print("	defaultfont	", addr.defaultfont\X, "\n");
	print("	defaultsubfont	", addr.defaultsubfont\X, "\n");
	print("	windows	", addr.windows\X, "\n");
	print("	screenimage	", addr.screenimage\X, "\n");
	print("	_isnewdisplay	", addr._isnewdisplay, "\n");
};

sizeofImage = 60;
aggr Image
{
	'A' Display 0 display;
	'D' 4 id;
	Rectangle 8 r;
	Rectangle 24 clipr;
	'D' 40 depth;
	'U' 44 chan;
	'D' 48 repl;
	'A' Screen 52 screen;
	'A' Image 56 next;
};

defn
Image(addr) {
	complex Image addr;
	print("	display	", addr.display\X, "\n");
	print("	id	", addr.id, "\n");
	print("Rectangle r {\n");
	Rectangle(addr.r);
	print("}\n");
	print("Rectangle clipr {\n");
	Rectangle(addr.clipr);
	print("}\n");
	print("	depth	", addr.depth, "\n");
	print("	chan	", addr.chan, "\n");
	print("	repl	", addr.repl, "\n");
	print("	screen	", addr.screen\X, "\n");
	print("	next	", addr.next\X, "\n");
};

sizeofRGB = 12;
aggr RGB
{
	'U' 0 red;
	'U' 4 green;
	'U' 8 blue;
};

defn
RGB(addr) {
	complex RGB addr;
	print("	red	", addr.red, "\n");
	print("	green	", addr.green, "\n");
	print("	blue	", addr.blue, "\n");
};

sizeofFontchar = 8;
aggr Fontchar
{
	'D' 0 x;
	'b' 4 top;
	'b' 5 bottom;
	'C' 6 left;
	'b' 7 width;
};

defn
Fontchar(addr) {
	complex Fontchar addr;
	print("	x	", addr.x, "\n");
	print("	top	", addr.top, "\n");
	print("	bottom	", addr.bottom, "\n");
	print("	left	", addr.left, "\n");
	print("	width	", addr.width, "\n");
};

sizeofSubfont = 20;
aggr Subfont
{
	'X' 0 name;
	'd' 4 n;
	'b' 6 height;
	'C' 7 ascent;
	'A' Fontchar 8 info;
	'A' Image 12 bits;
	'D' 16 ref;
};

defn
Subfont(addr) {
	complex Subfont addr;
	print("	name	", addr.name\X, "\n");
	print("	n	", addr.n, "\n");
	print("	height	", addr.height, "\n");
	print("	ascent	", addr.ascent, "\n");
	print("	info	", addr.info\X, "\n");
	print("	bits	", addr.bits\X, "\n");
	print("	ref	", addr.ref, "\n");
};

LOG2NFCACHE = 6;
NFCACHE = 64;
NFLOOK = 5;
NFSUBF = 2;
MAXFCACHE = 1029;
MAXSUBF = 50;
DSUBF = 4;
SUBFAGE = 10000;
CACHEAGE = 10000;
sizeofCachefont = 16;
aggr Cachefont
{
	'u' 0 min;
	'u' 2 max;
	'D' 4 offset;
	'X' 8 name;
	'X' 12 subfontname;
};

defn
Cachefont(addr) {
	complex Cachefont addr;
	print("	min	", addr.min, "\n");
	print("	max	", addr.max, "\n");
	print("	offset	", addr.offset, "\n");
	print("	name	", addr.name\X, "\n");
	print("	subfontname	", addr.subfontname\X, "\n");
};

sizeofCacheinfo = 8;
aggr Cacheinfo
{
	'u' 0 x;
	'b' 2 width;
	'C' 3 left;
	'u' 4 value;
	'u' 6 age;
};

defn
Cacheinfo(addr) {
	complex Cacheinfo addr;
	print("	x	", addr.x, "\n");
	print("	width	", addr.width, "\n");
	print("	left	", addr.left, "\n");
	print("	value	", addr.value, "\n");
	print("	age	", addr.age, "\n");
};

sizeofCachesubf = 12;
aggr Cachesubf
{
	'U' 0 age;
	'A' Cachefont 4 cf;
	'A' Subfont 8 f;
};

defn
Cachesubf(addr) {
	complex Cachesubf addr;
	print("	age	", addr.age, "\n");
	print("	cf	", addr.cf\X, "\n");
	print("	f	", addr.f\X, "\n");
};

sizeofFont = 48;
aggr Font
{
	'X' 0 name;
	'A' Display 4 display;
	'd' 8 height;
	'd' 10 ascent;
	'd' 12 width;
	'd' 14 nsub;
	'U' 16 age;
	'D' 20 maxdepth;
	'D' 24 ncache;
	'D' 28 nsubf;
	'A' Cacheinfo 32 cache;
	'A' Cachesubf 36 subf;
	'A' Cachefont 40 sub;
	'A' Image 44 cacheimage;
};

defn
Font(addr) {
	complex Font addr;
	print("	name	", addr.name\X, "\n");
	print("	display	", addr.display\X, "\n");
	print("	height	", addr.height, "\n");
	print("	ascent	", addr.ascent, "\n");
	print("	width	", addr.width, "\n");
	print("	nsub	", addr.nsub, "\n");
	print("	age	", addr.age, "\n");
	print("	maxdepth	", addr.maxdepth, "\n");
	print("	ncache	", addr.ncache, "\n");
	print("	nsubf	", addr.nsubf, "\n");
	print("	cache	", addr.cache\X, "\n");
	print("	subf	", addr.subf\X, "\n");
	print("	sub	", addr.sub\X, "\n");
	print("	cacheimage	", addr.cacheimage\X, "\n");
};

complex Point ZP;
complex Rectangle ZR;
complex Display display;
complex Font font;
complex Image screen;
complex Screen _screen;
sizeofpen_point = 12;
aggr pen_point
{
	{
	'D' 0 x;
	'D' 4 y;
	};
	'D' 8 chaincode;
};

defn
pen_point(addr) {
	complex pen_point addr;
	print("Point {\n");
		Point(addr+0);
	print("}\n");
	print("	chaincode	", addr.chaincode, "\n");
};

sizeofStroke = 8;
aggr Stroke
{
	'U' 0 npts;
	'A' pen_point 4 pts;
};

defn
Stroke(addr) {
	complex Stroke addr;
	print("	npts	", addr.npts, "\n");
	print("	pts	", addr.pts\X, "\n");
};

sizeofScribble = 40;
aggr Scribble
{
	'A' Point 0 pt;
	'D' 4 ppasize;
	Stroke 8 ps;
	'X' 16 graf;
	'D' 20 capsLock;
	'D' 24 puncShift;
	'D' 28 tmpShift;
	'D' 32 ctrlShift;
	'D' 36 curCharSet;
};

defn
Scribble(addr) {
	complex Scribble addr;
	print("	pt	", addr.pt\X, "\n");
	print("	ppasize	", addr.ppasize, "\n");
	print("Stroke ps {\n");
	Stroke(addr.ps);
	print("}\n");
	print("	graf	", addr.graf\X, "\n");
	print("	capsLock	", addr.capsLock, "\n");
	print("	puncShift	", addr.puncShift, "\n");
	print("	tmpShift	", addr.tmpShift, "\n");
	print("	ctrlShift	", addr.ctrlShift, "\n");
	print("	curCharSet	", addr.curCharSet, "\n");
};

sizeof_3_ = 12;
aggr _3_
{
	'X' 0 ri_locale;
	'X' 4 ri_name;
	'X' 8 ri_subset;
};

defn
_3_(addr) {
	complex _3_ addr;
	print("	ri_locale	", addr.ri_locale\X, "\n");
	print("	ri_name	", addr.ri_name\X, "\n");
	print("	ri_subset	", addr.ri_subset\X, "\n");
};

sizeof_4_ = 20;
aggr _4_
{
	Rectangle 0 pr_area;
	'd' 16 pr_row;
	'd' 18 pr_col;
};

defn
_4_(addr) {
	complex _4_ addr;
	print("Rectangle pr_area {\n");
	Rectangle(addr.pr_area);
	print("}\n");
	print("	pr_row	", addr.pr_row, "\n");
	print("	pr_col	", addr.pr_col, "\n");
};

sizeof_ls_set = 4;
aggr _ls_set
{
	'X' 0 aval;
	'X' 0 wval;
};

defn
_ls_set(addr) {
	complex _ls_set addr;
	print("	aval	", addr.aval\X, "\n");
	print("	wval	", addr.wval\X, "\n");
};

sizeof_letterset = 8;
aggr _letterset
{
	'C' 0 ls_type;
	_ls_set 4 ls_set;
};

defn
_letterset(addr) {
	complex _letterset addr;
	print("	ls_type	", addr.ls_type, "\n");
	print("_ls_set ls_set {\n");
	_ls_set(addr.ls_set);
	print("}\n");
};

sizeof_5_ = 4;
aggr _5_
{
	'X' 0 gval;
	'X' 0 aval;
	'X' 0 wval;
	'X' 0 rcval;
};

defn
_5_(addr) {
	complex _5_ addr;
	print("	gval	", addr.gval\X, "\n");
	print("	aval	", addr.aval\X, "\n");
	print("	wval	", addr.wval\X, "\n");
	print("	rcval	", addr.rcval\X, "\n");
};

sizeofrec_element = 12;
aggr rec_element
{
	'C' 0 re_type;
	_5_ 4 re_result;
	'b' 8 re_conf;
};

defn
rec_element(addr) {
	complex rec_element addr;
	print("	re_type	", addr.re_type, "\n");
	print("_5_ re_result {\n");
	_5_(addr.re_result);
	print("}\n");
	print("	re_conf	", addr.re_conf, "\n");
};

sizeofrec_alternative = 20;
aggr rec_alternative
{
	rec_element 0 ra_elem;
	'U' 12 ra_nalter;
	'A' rec_alternative 16 ra_next;
};

defn
rec_alternative(addr) {
	complex rec_alternative addr;
	print("rec_element ra_elem {\n");
	rec_element(addr.ra_elem);
	print("}\n");
	print("	ra_nalter	", addr.ra_nalter, "\n");
	print("	ra_next	", addr.ra_next\X, "\n");
};

sizeofgesture = 36;
aggr gesture
{
	'X' 0 g_name;
	'U' 4 g_nhs;
	'A' pen_point 8 g_hspots;
	Rectangle 12 g_bbox;
	'X' 28 g_action;
	'X' 32 g_wsinfo;
};

defn
gesture(addr) {
	complex gesture addr;
	print("	g_name	", addr.g_name\X, "\n");
	print("	g_nhs	", addr.g_nhs, "\n");
	print("	g_hspots	", addr.g_hspots\X, "\n");
	print("Rectangle g_bbox {\n");
	Rectangle(addr.g_bbox);
	print("}\n");
	print("	g_action	", addr.g_action\X, "\n");
	print("	g_wsinfo	", addr.g_wsinfo\X, "\n");
};

sizeofrec_correlation = 28;
aggr rec_correlation
{
	rec_element 0 ro_elem;
	'U' 12 ro_nstrokes;
	'A' Stroke 16 ro_strokes;
	'X' 20 ro_start;
	'X' 24 ro_stop;
};

defn
rec_correlation(addr) {
	complex rec_correlation addr;
	print("rec_element ro_elem {\n");
	rec_element(addr.ro_elem);
	print("}\n");
	print("	ro_nstrokes	", addr.ro_nstrokes, "\n");
	print("	ro_strokes	", addr.ro_strokes\X, "\n");
	print("	ro_start	", addr.ro_start\X, "\n");
	print("	ro_stop	", addr.ro_stop\X, "\n");
};

sizeof_wordset = 12;
aggr _wordset
{
	'X' 0 ws_pathname;
	'X' 4 ws_recognizer;
	'X' 8 ws_internal;
};

defn
_wordset(addr) {
	complex _wordset addr;
	print("	ws_pathname	", addr.ws_pathname\X, "\n");
	print("	ws_recognizer	", addr.ws_recognizer\X, "\n");
	print("	ws_internal	", addr.ws_internal\X, "\n");
};

sizeof_Recognizer = 88;
aggr _Recognizer
{
	'U' 0 recognizer_magic;
	'X' 4 recognizer_version;
	'A' _3_ 8 recognizer_info;
	'X' 12 recognizer_specific;
	'X' 16 recognizer_load_state;
	'X' 20 recognizer_save_state;
	'X' 24 recognizer_error;
	'X' 28 recognizer_load_dictionary;
	'X' 32 recognizer_save_dictionary;
	'X' 36 recognizer_free_dictionary;
	'X' 40 recognizer_add_to_dictionary;
	'X' 44 recognizer_delete_from_dictionary;
	'X' 48 recognizer_set_context;
	'X' 52 recognizer_get_context;
	'X' 56 recognizer_clear;
	'X' 60 recognizer_get_buffer;
	'X' 64 recognizer_set_buffer;
	'X' 68 recognizer_translate;
	'X' 72 recognizer_get_extension_functions;
	'X' 76 recognizer_get_gesture_names;
	'X' 80 recognizer_set_gesture_action;
	'U' 84 recognizer_end_magic;
};

defn
_Recognizer(addr) {
	complex _Recognizer addr;
	print("	recognizer_magic	", addr.recognizer_magic, "\n");
	print("	recognizer_version	", addr.recognizer_version\X, "\n");
	print("	recognizer_info	", addr.recognizer_info\X, "\n");
	print("	recognizer_specific	", addr.recognizer_specific\X, "\n");
	print("	recognizer_load_state	", addr.recognizer_load_state\X, "\n");
	print("	recognizer_save_state	", addr.recognizer_save_state\X, "\n");
	print("	recognizer_error	", addr.recognizer_error\X, "\n");
	print("	recognizer_load_dictionary	", addr.recognizer_load_dictionary\X, "\n");
	print("	recognizer_save_dictionary	", addr.recognizer_save_dictionary\X, "\n");
	print("	recognizer_free_dictionary	", addr.recognizer_free_dictionary\X, "\n");
	print("	recognizer_add_to_dictionary	", addr.recognizer_add_to_dictionary\X, "\n");
	print("	recognizer_delete_from_dictionary	", addr.recognizer_delete_from_dictionary\X, "\n");
	print("	recognizer_set_context	", addr.recognizer_set_context\X, "\n");
	print("	recognizer_get_context	", addr.recognizer_get_context\X, "\n");
	print("	recognizer_clear	", addr.recognizer_clear\X, "\n");
	print("	recognizer_get_buffer	", addr.recognizer_get_buffer\X, "\n");
	print("	recognizer_set_buffer	", addr.recognizer_set_buffer\X, "\n");
	print("	recognizer_translate	", addr.recognizer_translate\X, "\n");
	print("	recognizer_get_extension_functions	", addr.recognizer_get_extension_functions\X, "\n");
	print("	recognizer_get_gesture_names	", addr.recognizer_get_gesture_names\X, "\n");
	print("	recognizer_set_gesture_action	", addr.recognizer_set_gesture_action\X, "\n");
	print("	recognizer_end_magic	", addr.recognizer_end_magic, "\n");
};

sizeofPointList = 20;
aggr PointList
{
	{
	'U' 0 npts;
	'A' pen_point 4 pts;
	};
	'D' 8 xrange;
	'D' 12 yrange;
	'A' PointList 16 next;
};

defn
PointList(addr) {
	complex PointList addr;
	print("Stroke {\n");
		Stroke(addr+0);
	print("}\n");
	print("	xrange	", addr.xrange, "\n");
	print("	yrange	", addr.yrange, "\n");
	print("	next	", addr.next\X, "\n");
};

sizeof_6_ = 1608;
aggr _6_
{
	'X' 0 file_name;
	'D' 4 nclasses;
	'a' 8 ex;
	'a' 408 cnames;
	'a' 808 canonex;
	'a' 1208 dompts;
};

defn
_6_(addr) {
	complex _6_ addr;
	print("	file_name	", addr.file_name\X, "\n");
	print("	nclasses	", addr.nclasses, "\n");
	print("	ex	", addr.ex, "\n");
	print("	cnames	", addr.cnames, "\n");
	print("	canonex	", addr.canonex, "\n");
	print("	dompts	", addr.dompts, "\n");
};

sizeof_7_ = 1612;
aggr _7_
{
	'U' 0 li_magic;
	_6_ 4 li_rc;
};

defn
_7_(addr) {
	complex _7_ addr;
	print("	li_magic	", addr.li_magic, "\n");
	print("_6_ li_rc {\n");
	_6_(addr.li_rc);
	print("}\n");
};

complex PointList add_example:l;
complex pen_point add_example:pts;
complex pen_point add_example:lpts;
complex PointList add_example:p;
complex PointList delete_examples:l;
complex PointList delete_examples:p;
complex _6_ recognize_internal:rec;
complex Stroke recognize_internal:str;
complex PointList recognize_internal:stroke;
complex _2_ read_classifier_points:fd;
complex PointList read_classifier_points:ex;
complex pen_point read_classifier_points:pts;
complex _2_ read_classifier:fd;
complex _6_ read_classifier:rc;
complex _Recognizer recognizer_getClasses:r;
complex _7_ recognizer_getClasses:rec;
complex _Recognizer isa_li:r;
complex _Recognizer li_recognizer_get_example:r;
complex pen_point li_recognizer_get_example:points;
complex _7_ li_recognizer_get_example:rec;
complex PointList li_recognizer_get_example:pl;
complex _Recognizer li_recognizer_load:r;
complex _2_ li_recognizer_load:fd;
complex _7_ li_recognizer_load:rec;
complex _6_ li_recognizer_load:rc;
complex _Recognizer li_recognizer_error:rec;
complex _Recognizer li_recognizer_clear:r;
complex _7_ li_recognizer_clear:rec;
complex _Recognizer li_recognizer_translate:r;
complex Stroke li_recognizer_translate:tps;
complex rec_alternative li_recognizer_translate:ret;
complex _7_ li_recognizer_translate:rec;
complex _6_ li_recognizer_translate:rc;
complex _Recognizer li_recognizer_get_extension_functions:rec;
complex _3_ __recognizer_internal_initialize:ri;
complex _Recognizer __recognizer_internal_initialize:r;
complex _7_ __recognizer_internal_initialize:rec;
complex _6_ free_rClassifier:rc;
complex _Recognizer __recognizer_internal_finalize:r;
complex _7_ __recognizer_internal_finalize:rec;
sizeofRegionList = 16;
aggr RegionList
{
	'D' 0 start;
	'D' 4 end;
	'D' 8 type;
	'A' RegionList 12 next;
};

defn
RegionList(addr) {
	complex RegionList addr;
	print("	start	", addr.start, "\n");
	print("	end	", addr.end, "\n");
	print("	type	", addr.type, "\n");
	print("	next	", addr.next\X, "\n");
};

complex _6_ lialg_initialize:rec;
complex _6_ lialg_recognize_stroke:rec;
complex PointList lialg_recognize_stroke:stroke;
complex PointList lialg_recognize_stroke:input_dompts;
complex PointList lialg_recognize_stroke:curr_dompts;
complex PointList lialg_preprocess_stroke:points;
complex PointList lialg_compute_dominant_points:points;
complex PointList lialg_compute_dominant_points:ipts;
complex RegionList lialg_compute_dominant_points:regions;
complex PointList lialg_compute_dominant_points:dpts;
complex RegionList lialg_compute_dominant_points:curr;
complex RegionList lialg_compute_dominant_points:next;
complex PointList lialg_interpolate_points:points;
complex PointList lialg_interpolate_points:newpts;
complex pen_point lialg_interpolate_points:pta;
complex pen_point lialg_interpolate_points:ptb;
complex pen_point lialg_interpolate_points:startpt;
complex pen_point lialg_interpolate_points:endpt;
complex pen_point lialg_bresline:startpt;
complex pen_point lialg_bresline:endpt;
complex PointList lialg_bresline:newpts;
complex PointList lialg_compute_chain_code:pts;
complex pen_point lialg_compute_chain_code:startpt;
complex pen_point lialg_compute_chain_code:endpt;
complex PointList lialg_compute_unit_chain_code:pts;
complex pen_point lialg_compute_unit_chain_code:startpt;
complex pen_point lialg_compute_unit_chain_code:endpt;
complex PointList lialg_compute_regions:pts;
complex RegionList lialg_compute_regions:regions;
complex RegionList lialg_compute_regions:curr_reg;
complex RegionList lialg_compute_regions:next_reg;
complex RegionList lialg_compute_regions:next_reg;
complex RegionList lialg_compute_regions:tmp;
complex RegionList lialg_compute_regions:prev_reg;
complex RegionList lialg_compute_regions:saved_next;
complex PointList lialg_compute_dompts:pts;
complex RegionList lialg_compute_dompts:regions;
complex PointList lialg_compute_dompts:dpts;
complex RegionList lialg_compute_dompts:r;
complex RegionList lialg_compute_dompts:curr;
complex PointList lialg_compute_contour_angle_set:pts;
complex RegionList lialg_compute_contour_angle_set:regions;
complex RegionList lialg_compute_contour_angle_set:curr_reg;
complex PointList lialg_score_stroke:input_dompts;
complex PointList lialg_score_stroke:curr_dompts;
complex PointList lialg_compute_similarity:input_dompts;
complex PointList lialg_compute_similarity:curr_dompts;
complex PointList lialg_compute_similarity:A;
complex PointList lialg_compute_similarity:B;
complex PointList lialg_compute_distance:input_dompts;
complex PointList lialg_compute_distance:curr_dompts;
complex PointList lialg_compute_distance:A;
complex PointList lialg_compute_distance:B;
complex _6_ lialg_read_classifier_digest:rec;
complex _2_ lialg_read_classifier_digest:fp;
complex PointList lialg_read_classifier_digest:dpts;
complex _6_ lialg_canonicalize_examples:rec;
complex PointList lialg_canonicalize_examples:pts;
complex PointList lialg_canonicalize_examples:tmp;
complex PointList lialg_canonicalize_examples:avg;
complex PointList lialg_canonicalize_example_stroke:points;
complex PointList lialg_compute_equipoints:points;
complex pen_point lialg_compute_equipoints:equipoints;
complex PointList lialg_compute_pathlen:points;
complex PointList lialg_compute_pathlen_subset:points;
complex PointList lialg_filter_points:points;
complex pen_point lialg_filter_points:filtered_pts;
complex PointList lialg_translate_points:points;
complex PointList lialg_get_bounding_box:points;
complex pen_point lialg_get_bounding_box:pt;

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