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|
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 = 4;
Runesync = 128;
Runeself = 128;
Runeerror = 65533;
Runemax = 1114111;
Runemask = 2097151;
sizeofFmt = 80;
aggr Fmt
{
'b' 0 runes;
'Y' 8 start;
'Y' 16 to;
'Y' 24 stop;
'Y' 32 flush;
'Y' 40 farg;
'D' 48 nfmt;
'Y' 56 args;
'D' 64 r;
'D' 68 width;
'D' 72 prec;
'U' 76 flags;
};
defn
Fmt(addr) {
complex Fmt addr;
print(" runes ", addr.runes, "\n");
print(" start ", addr.start\Y, "\n");
print(" to ", addr.to\Y, "\n");
print(" stop ", addr.stop\Y, "\n");
print(" flush ", addr.flush\Y, "\n");
print(" farg ", addr.farg\Y, "\n");
print(" nfmt ", addr.nfmt, "\n");
print(" args ", addr.args\Y, "\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 = 8;
aggr Lock
{
'D' 0 val;
};
defn
Lock(addr) {
complex Lock addr;
print(" val ", addr.val, "\n");
};
sizeofQLp = 16;
aggr QLp
{
'D' 0 inuse;
'D' 4 state;
'A' QLp 8 next;
};
defn
QLp(addr) {
complex QLp addr;
print(" inuse ", addr.inuse, "\n");
print(" state ", addr.state, "\n");
print(" next ", addr.next\Y, "\n");
};
sizeofQLock = 32;
aggr QLock
{
Lock 0 lock;
'D' 8 locked;
'A' QLp 16 $head;
'A' QLp 24 $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\Y, "\n");
print(" $tail ", addr.$tail\Y, "\n");
};
sizeofRWLock = 32;
aggr RWLock
{
Lock 0 lock;
'D' 8 readers;
'D' 12 writer;
'A' QLp 16 $head;
'A' QLp 24 $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\Y, "\n");
print(" $tail ", addr.$tail\Y, "\n");
};
sizeofRendez = 24;
aggr Rendez
{
'A' QLock 0 l;
'A' QLp 8 $head;
'A' QLp 16 $tail;
};
defn
Rendez(addr) {
complex Rendez addr;
print(" l ", addr.l\Y, "\n");
print(" $head ", addr.$head\Y, "\n");
print(" $tail ", addr.$tail\Y, "\n");
};
sizeofNetConnInfo = 72;
aggr NetConnInfo
{
'Y' 0 dir;
'Y' 8 root;
'Y' 16 spec;
'Y' 24 lsys;
'Y' 32 lserv;
'Y' 40 rsys;
'Y' 48 rserv;
'Y' 56 laddr;
'Y' 64 raddr;
};
defn
NetConnInfo(addr) {
complex NetConnInfo addr;
print(" dir ", addr.dir\Y, "\n");
print(" root ", addr.root\Y, "\n");
print(" spec ", addr.spec\Y, "\n");
print(" lsys ", addr.lsys\Y, "\n");
print(" lserv ", addr.lserv\Y, "\n");
print(" rsys ", addr.rsys\Y, "\n");
print(" rserv ", addr.rserv\Y, "\n");
print(" laddr ", addr.laddr\Y, "\n");
print(" raddr ", addr.raddr\Y, "\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 = 80;
aggr Dir
{
'u' 0 type;
'U' 4 dev;
Qid 8 qid;
'U' 24 mode;
'U' 28 atime;
'U' 32 mtime;
'V' 40 length;
'Y' 48 name;
'Y' 56 uid;
'Y' 64 gid;
'Y' 72 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\Y, "\n");
print(" uid ", addr.uid\Y, "\n");
print(" gid ", addr.gid\Y, "\n");
print(" muid ", addr.muid\Y, "\n");
};
sizeofWaitmsg = 24;
aggr Waitmsg
{
'D' 0 pid;
'a' 4 time;
'Y' 16 msg;
};
defn
Waitmsg(addr) {
complex Waitmsg addr;
print(" pid ", addr.pid, "\n");
print(" time ", addr.time, "\n");
print(" msg ", addr.msg\Y, "\n");
};
sizeofIOchunk = 16;
aggr IOchunk
{
'Y' 0 addr;
'U' 8 len;
};
defn
IOchunk(addr) {
complex IOchunk addr;
print(" addr ", addr.addr\Y, "\n");
print(" len ", addr.len, "\n");
};
OBJVGeometric = 0;
OBJVTexture = 1;
OBJVNormal = 2;
OBJVParametric = 3;
OBJNVERT = 4;
OBJEPoint = 0;
OBJELine = 1;
OBJEFace = 2;
OBJECurve = 3;
OBJECurve2 = 4;
OBJESurface = 5;
OBJGGlobal = 0;
OBJGSmoothing = 1;
OBJGMerging = 2;
OBJGObject = 3;
OBJHTSIZE = 16;
sizeof_2_ = 32;
aggr _2_
{
'F' 0 x;
'F' 8 y;
'F' 16 z;
'F' 24 w;
};
defn
_2_(addr) {
complex _2_ addr;
print(" x ", addr.x, "\n");
print(" y ", addr.y, "\n");
print(" z ", addr.z, "\n");
print(" w ", addr.w, "\n");
};
sizeof_3_ = 24;
aggr _3_
{
'F' 0 u;
'F' 8 v;
'F' 16 vv;
};
defn
_3_(addr) {
complex _3_ addr;
print(" u ", addr.u, "\n");
print(" v ", addr.v, "\n");
print(" vv ", addr.vv, "\n");
};
sizeof_4_ = 24;
aggr _4_
{
'F' 0 i;
'F' 8 j;
'F' 16 k;
};
defn
_4_(addr) {
complex _4_ addr;
print(" i ", addr.i, "\n");
print(" j ", addr.j, "\n");
print(" k ", addr.k, "\n");
};
sizeof_5_ = 32;
aggr _5_
{
{
'F' 0 x;
'F' 8 y;
'F' 16 z;
'F' 24 w;
};
{
'F' 0 u;
'F' 8 v;
'F' 16 vv;
};
{
'F' 0 i;
'F' 8 j;
'F' 16 k;
};
};
defn
_5_(addr) {
complex _5_ addr;
print("_2_ {\n");
_2_(addr+0);
print("}\n");
print("_3_ {\n");
_3_(addr+0);
print("}\n");
print("_4_ {\n");
_4_(addr+0);
print("}\n");
};
sizeofOBJVertex = 32;
aggr OBJVertex
{
{
{
'F' 0 x;
'F' 8 y;
'F' 16 z;
'F' 24 w;
};
{
'F' 0 u;
'F' 8 v;
'F' 16 vv;
};
{
'F' 0 i;
'F' 8 j;
'F' 16 k;
};
};
};
defn
OBJVertex(addr) {
complex OBJVertex addr;
print("_5_ {\n");
_5_(addr+0);
print("}\n");
};
sizeofOBJVertexArray = 16;
aggr OBJVertexArray
{
'A' OBJVertex 0 verts;
'D' 8 nvert;
};
defn
OBJVertexArray(addr) {
complex OBJVertexArray addr;
print(" verts ", addr.verts\Y, "\n");
print(" nvert ", addr.nvert, "\n");
};
sizeofOBJElem = 24;
aggr OBJElem
{
'Y' 0 indices;
'D' 8 nindex;
'D' 12 type;
'A' OBJElem 16 next;
};
defn
OBJElem(addr) {
complex OBJElem addr;
print(" indices ", addr.indices\Y, "\n");
print(" nindex ", addr.nindex, "\n");
print(" type ", addr.type, "\n");
print(" next ", addr.next\Y, "\n");
};
sizeofOBJObject = 24;
aggr OBJObject
{
'Y' 0 name;
'A' OBJElem 8 child;
'A' OBJObject 16 next;
};
defn
OBJObject(addr) {
complex OBJObject addr;
print(" name ", addr.name\Y, "\n");
print(" child ", addr.child\Y, "\n");
print(" next ", addr.next\Y, "\n");
};
sizeofOBJ = 192;
aggr OBJ
{
'a' 0 vertdata;
'a' 64 objtab;
};
defn
OBJ(addr) {
complex OBJ addr;
print(" vertdata ", addr.vertdata, "\n");
print(" objtab ", addr.objtab, "\n");
};
complex OBJ main:obj;
|