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voc compiler first commit

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Norayr Chilingarian 2013-09-27 22:34:17 +04:00
parent 4a7dc4b549
commit 760d826948
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86
src/lib/system/gnuc/Console.Mod Normal file
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MODULE Console; (* J. Templ, 29-June-96 *)
(* output to Unix standard output device based Write system call *)
IMPORT SYSTEM;
VAR line: ARRAY 128 OF CHAR;
pos: INTEGER;
PROCEDURE -Write(adr, n: LONGINT)
"write(1/*stdout*/, adr, n)";
PROCEDURE -read(VAR ch: CHAR): LONGINT
"read(0/*stdin*/, ch, 1)";
PROCEDURE Flush*();
BEGIN
Write(SYSTEM.ADR(line), pos); pos := 0;
END Flush;
PROCEDURE Char*(ch: CHAR);
BEGIN
IF pos = LEN(line) THEN Flush() END ;
line[pos] := ch; INC(pos);
IF ch = 0AX THEN Flush() END
END Char;
PROCEDURE String*(s: ARRAY OF CHAR);
VAR i: INTEGER;
BEGIN i := 0;
WHILE s[i] # 0X DO Char(s[i]); INC(i) END
END String;
PROCEDURE Int*(i, n: LONGINT);
VAR s: ARRAY 32 OF CHAR; i1, k: LONGINT;
BEGIN
IF i = SYSTEM.LSH(LONG(LONG(1)), SIZE(LONGINT)*8 - 1) THEN
IF SIZE(LONGINT) = 8 THEN s := "8085774586302733229"; k := 19
ELSE s := "8463847412"; k := 10
END
ELSE
i1 := ABS(i);
s[0] := CHR(i1 MOD 10 + ORD("0")); i1 := i1 DIV 10; k := 1;
WHILE i1 > 0 DO s[k] := CHR(i1 MOD 10 + ORD("0")); i1 := i1 DIV 10; INC(k) END
END ;
IF i < 0 THEN s[k] := "-"; INC(k) END ;
WHILE n > k DO Char(" "); DEC(n) END ;
WHILE k > 0 DO DEC(k); Char(s[k]) END
END Int;
PROCEDURE Ln*;
BEGIN Char(0AX); (* Unix end-of-line *)
END Ln;
PROCEDURE Bool*(b: BOOLEAN);
BEGIN IF b THEN String("TRUE") ELSE String("FALSE") END
END Bool;
PROCEDURE Hex*(i: LONGINT);
VAR k, n: LONGINT;
BEGIN
k := -28;
WHILE k <= 0 DO
n := ASH(i, k) MOD 16;
IF n <= 9 THEN Char(CHR(ORD("0") + n)) ELSE Char(CHR(ORD("A") - 10 + n)) END ;
INC(k, 4)
END
END Hex;
PROCEDURE Read*(VAR ch: CHAR);
VAR n: LONGINT;
BEGIN Flush();
n := read(ch);
IF n # 1 THEN ch := 0X END
END Read;
PROCEDURE ReadLine*(VAR line: ARRAY OF CHAR);
VAR i: LONGINT; ch: CHAR;
BEGIN Flush();
i := 0; Read(ch);
WHILE (i < LEN(line) - 1) & (ch # 0AX) & (ch # 0X) DO line[i] := ch; INC(i); Read(ch) END ;
line[i] := 0X
END ReadLine;
BEGIN pos := 0;
END Console.

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src/lib/system/gnuc/SYSTEM.Mod Normal file
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(*
* voc (jet backend) runtime system, Version 1.1
*
* Copyright (c) Software Templ, 1994, 1995, 1996
*
* Module SYSTEM is subject to change any time without prior notification.
* Software Templ disclaims all warranties with regard to module SYSTEM,
* in particular shall Software Templ not be liable for any damage resulting
* from inappropriate use or modification of module SYSTEM.
*)
MODULE SYSTEM; (* J. Templ, 31.5.95 *)
IMPORT SYSTEM; (*must not import other modules*)
CONST
ModNameLen = 20;
CmdNameLen = 24;
SZL = SIZE(LONGINT);
Unit = 4*SZL; (* smallest possible heap block *)
nofLists = 9; (* number of free_lists *)
heapSize0 = 8000*Unit; (* startup heap size *)
(* all blocks look the same:
free blocks describe themselves: size = Unit
tag = &tag++
->blksize
sentinel = -SZL
next
*)
(* heap chunks *)
nextChnkOff = 0; (* next heap chunk, sorted ascendingly! *)
endOff = SZL; (* end of heap chunk *)
blkOff = 3*SZL; (* first block in a chunk *)
(* heap blocks *)
tagOff = 0; (* block starts with tag *)
sizeOff = SZL; (* block size in free block relative to block start *)
sntlOff = 2*SZL; (* pointer offset table sentinel in free block relative to block start *)
nextOff = 3*SZL; (* next pointer in free block relative to block start *)
NoPtrSntl = LONG(LONG(-SZL));
TYPE
ModuleName = ARRAY ModNameLen OF CHAR;
CmdName = ARRAY CmdNameLen OF CHAR;
Module = POINTER TO ModuleDesc;
Cmd = POINTER TO CmdDesc;
EnumProc = PROCEDURE(P: PROCEDURE(p: SYSTEM.PTR));
ModuleDesc = RECORD
next: Module;
name: ModuleName;
refcnt: LONGINT;
cmds: Cmd;
types: LONGINT;
enumPtrs: EnumProc;
reserved1, reserved2: LONGINT
END ;
Command = PROCEDURE;
CmdDesc = RECORD
next: Cmd;
name: CmdName;
cmd: Command
END ;
Finalizer = PROCEDURE(obj: SYSTEM.PTR);
FinNode = POINTER TO FinDesc;
FinDesc = RECORD
next: FinNode;
obj: LONGINT; (* weak pointer *)
marked: BOOLEAN;
finalize: Finalizer;
END ;
VAR
(* the list of loaded (=initialization started) modules *)
modules*: SYSTEM.PTR;
freeList: ARRAY nofLists + 1 OF LONGINT; (* dummy, 16, 32, 48, 64, 80, 96, 112, 128, sentinel *)
bigBlocks, allocated*: LONGINT;
firstTry: BOOLEAN;
(* extensible heap *)
heap, (* the sorted list of heap chunks *)
heapend, (* max possible pointer value (used for stack collection) *)
heapsize*: LONGINT; (* the sum of all heap chunk sizes *)
(* finalization candidates *)
fin: FinNode;
(* garbage collector locking *)
gclock*: SHORTINT;
PROCEDURE -malloc(size: LONGINT): LONGINT "(LONGINT)malloc(size)";
PROCEDURE -Lock() "Lock";
PROCEDURE -Unlock() "Unlock";
PROCEDURE -Mainfrm(): LONGINT "SYSTEM_mainfrm";
(*
PROCEDURE TAS*(VAR flag:BOOLEAN): BOOLEAN; (* added for compatibility with ulmSYSTEM module; noch *)
VAR oldflag : BOOLEAN;
BEGIN
oldflag := flag;
flag := TRUE;
RETURN oldflag;
END TAS;
*)
PROCEDURE REGMOD*(VAR name: ModuleName; enumPtrs: EnumProc): SYSTEM.PTR;
VAR m: Module;
BEGIN
IF name = "SYSTEM" THEN (* cannot use NEW *)
SYSTEM.NEW(m, SIZE(ModuleDesc)); m.cmds := NIL
ELSE NEW(m)
END ;
COPY(name, m.name); m.refcnt := 0; m.enumPtrs := enumPtrs; m.next := SYSTEM.VAL(Module, modules);
modules := m;
RETURN m
END REGMOD;
PROCEDURE REGCMD*(m: Module; VAR name: CmdName; cmd: Command);
VAR c: Cmd;
BEGIN NEW(c);
COPY(name, c.name); c.cmd := cmd; c.next := m.cmds; m.cmds := c
END REGCMD;
PROCEDURE REGTYP*(m: Module; typ: LONGINT);
BEGIN SYSTEM.PUT(typ, m.types); m.types := typ
END REGTYP;
PROCEDURE INCREF*(m: Module);
BEGIN INC(m.refcnt)
END INCREF;
PROCEDURE NewChunk(blksz: LONGINT): LONGINT;
VAR chnk: LONGINT;
BEGIN
chnk := malloc(blksz + blkOff);
IF chnk # 0 THEN
SYSTEM.PUT(chnk + endOff, chnk + (blkOff + blksz));
SYSTEM.PUT(chnk + blkOff, chnk + (blkOff + sizeOff));
SYSTEM.PUT(chnk + (blkOff + sizeOff), blksz);
SYSTEM.PUT(chnk + (blkOff + sntlOff), NoPtrSntl);
SYSTEM.PUT(chnk + (blkOff + nextOff), bigBlocks);
bigBlocks := chnk + blkOff;
INC(heapsize, blksz)
END ;
RETURN chnk
END NewChunk;
PROCEDURE ExtendHeap(blksz: LONGINT);
VAR size, chnk, j, next: LONGINT;
BEGIN
IF blksz > 10000*Unit THEN size := blksz
ELSE size := 10000*Unit (* additional heuristics *)
END ;
chnk := NewChunk(size);
IF chnk # 0 THEN
(*sorted insertion*)
IF chnk < heap THEN
SYSTEM.PUT(chnk, heap); heap := chnk
ELSE
j := heap; SYSTEM.GET(j, next);
WHILE (next # 0) & (chnk > next) DO j := next; SYSTEM.GET(j, next) END ;
SYSTEM.PUT(chnk, next); SYSTEM.PUT(j, chnk)
END ;
IF next = 0 THEN SYSTEM.GET(chnk + endOff, heapend) END
END
END ExtendHeap;
PROCEDURE ^GC*(markStack: BOOLEAN);
PROCEDURE NEWREC*(tag: LONGINT): SYSTEM.PTR;
VAR i, i0, di, blksz, restsize, t, adr, end, next, prev: LONGINT; new: SYSTEM.PTR;
BEGIN
Lock();
SYSTEM.GET(tag, blksz);
ASSERT(blksz MOD Unit = 0);
i0 := blksz DIV Unit; i := i0;
IF i < nofLists THEN adr := freeList[i];
WHILE adr = 0 DO INC(i); adr := freeList[i] END
END ;
IF i < nofLists THEN (* unlink *)
SYSTEM.GET(adr + nextOff, next);
freeList[i] := next;
IF i # i0 THEN (* split *)
di := i - i0; restsize := di * Unit; end := adr + restsize;
SYSTEM.PUT(end + sizeOff, blksz);
SYSTEM.PUT(end + sntlOff, NoPtrSntl);
SYSTEM.PUT(end, end + sizeOff);
SYSTEM.PUT(adr + sizeOff, restsize);
SYSTEM.PUT(adr + nextOff, freeList[di]);
freeList[di] := adr;
INC(adr, restsize)
END
ELSE
adr := bigBlocks; prev := 0;
LOOP
IF adr = 0 THEN
IF firstTry THEN
GC(TRUE); INC(blksz, Unit);
IF (heapsize - allocated - blksz) * 4 < heapsize THEN
(* heap is still almost full; expand to avoid thrashing *)
ExtendHeap((allocated + blksz) DIV (3*Unit) * (4*Unit) - heapsize)
END ;
firstTry := FALSE; new := NEWREC(tag); firstTry := TRUE;
IF new = NIL THEN
(* depending on the fragmentation, the heap may not have been extended by
the anti-thrashing heuristics above *)
ExtendHeap((allocated + blksz) DIV (3*Unit) * (4*Unit) - heapsize);
new := NEWREC(tag); (* will find a free block if heap has been expanded properly *)
END ;
Unlock(); RETURN new
ELSE
Unlock(); RETURN NIL
END
END ;
SYSTEM.GET(adr+sizeOff, t);
IF t >= blksz THEN EXIT END ;
prev := adr; SYSTEM.GET(adr + nextOff, adr)
END ;
restsize := t - blksz; end := adr + restsize;
SYSTEM.PUT(end + sizeOff, blksz);
SYSTEM.PUT(end + sntlOff, NoPtrSntl);
SYSTEM.PUT(end, end + sizeOff);
IF restsize > nofLists * Unit THEN (*resize*)
SYSTEM.PUT(adr + sizeOff, restsize)
ELSE (*unlink*)
SYSTEM.GET(adr + nextOff, next);
IF prev = 0 THEN bigBlocks := next
ELSE SYSTEM.PUT(prev + nextOff, next);
END ;
IF restsize > 0 THEN (*move*)
di := restsize DIV Unit;
SYSTEM.PUT(adr + sizeOff, restsize);
SYSTEM.PUT(adr + nextOff, freeList[di]);
freeList[di] := adr
END
END ;
INC(adr, restsize)
END ;
i := adr + 4*SZL; end := adr + blksz;
WHILE i < end DO (*deliberately unrolled*)
SYSTEM.PUT(i, LONG(LONG(0)));
SYSTEM.PUT(i + SZL, LONG(LONG(0)));
SYSTEM.PUT(i + 2*SZL, LONG(LONG(0)));
SYSTEM.PUT(i + 3*SZL, LONG(LONG(0)));
INC(i, 4*SZL)
END ;
SYSTEM.PUT(adr + nextOff, LONG(LONG(0)));
SYSTEM.PUT(adr, tag);
SYSTEM.PUT(adr + sizeOff, LONG(LONG(0)));
SYSTEM.PUT(adr + sntlOff, LONG(LONG(0)));
INC(allocated, blksz);
Unlock();
RETURN SYSTEM.VAL(SYSTEM.PTR, adr + SZL)
END NEWREC;
PROCEDURE NEWBLK*(size: LONGINT): SYSTEM.PTR;
VAR blksz, tag: LONGINT; new: SYSTEM.PTR;
BEGIN
Lock();
blksz := (size + (4*SZL + Unit - 1)) DIV Unit * Unit; (*size + tag + meta + blksz + sntnl + UnitAlignment*)
new := NEWREC(SYSTEM.ADR(blksz));
tag := SYSTEM.VAL(LONGINT, new) + blksz - 3*SZL;
SYSTEM.PUT(tag - SZL, LONG(LONG(0))); (*reserved for meta info*)
SYSTEM.PUT(tag, blksz);
SYSTEM.PUT(tag + SZL, NoPtrSntl);
SYSTEM.PUT(SYSTEM.VAL(LONGINT, new) - SZL, tag);
Unlock();
RETURN new
END NEWBLK;
PROCEDURE Mark(q: LONGINT);
VAR p, tag, fld, n, offset, tagbits: LONGINT;
BEGIN
IF q # 0 THEN SYSTEM.GET(q - SZL, tagbits);
IF ~ODD(tagbits) THEN
SYSTEM.PUT(q - SZL, tagbits + 1);
p := 0; tag := tagbits + SZL;
LOOP
SYSTEM.GET(tag, offset);
IF offset < 0 THEN
SYSTEM.PUT(q - SZL, tag + offset + 1);
IF p = 0 THEN EXIT END ;
n := q; q := p;
SYSTEM.GET(q - SZL, tag); DEC(tag, 1);
SYSTEM.GET(tag, offset); fld := q + offset;
SYSTEM.GET(fld, p); SYSTEM.PUT(fld, n)
ELSE
fld := q + offset;
SYSTEM.GET(fld, n);
IF n # 0 THEN
SYSTEM.GET(n - SZL, tagbits);
IF ~ODD(tagbits) THEN
SYSTEM.PUT(n - SZL, tagbits + 1);
SYSTEM.PUT(q - SZL, tag + 1);
SYSTEM.PUT(fld, p); p := q; q := n;
tag := tagbits
END
END
END ;
INC(tag, SZL)
END
END
END
END Mark;
PROCEDURE MarkP(p: SYSTEM.PTR); (* for compatibility with EnumPtrs in ANSI mode *)
BEGIN
Mark(SYSTEM.VAL(LONGINT, p))
END MarkP;
PROCEDURE Scan;
VAR chnk, adr, end, start, tag, i, size, freesize: LONGINT;
BEGIN bigBlocks := 0; i := 1;
WHILE i < nofLists DO freeList[i] := 0; INC(i) END ;
freesize := 0; allocated := 0; chnk := heap;
WHILE chnk # 0 DO
adr := chnk + blkOff; SYSTEM.GET(chnk + endOff, end);
WHILE adr < end DO
SYSTEM.GET(adr, tag);
IF ODD(tag) THEN (*marked*)
IF freesize > 0 THEN
start := adr - freesize;
SYSTEM.PUT(start, start+SZL);
SYSTEM.PUT(start+sizeOff, freesize);
SYSTEM.PUT(start+sntlOff, NoPtrSntl);
i := freesize DIV Unit; freesize := 0;
IF i < nofLists THEN SYSTEM.PUT(start + nextOff, freeList[i]); freeList[i] := start
ELSE SYSTEM.PUT(start + nextOff, bigBlocks); bigBlocks := start
END
END ;
DEC(tag, 1);
SYSTEM.PUT(adr, tag);
SYSTEM.GET(tag, size);
INC(allocated, size);
INC(adr, size)
ELSE (*unmarked*)
SYSTEM.GET(tag, size);
INC(freesize, size);
INC(adr, size)
END
END ;
IF freesize > 0 THEN (*collect last block*)
start := adr - freesize;
SYSTEM.PUT(start, start+SZL);
SYSTEM.PUT(start+sizeOff, freesize);
SYSTEM.PUT(start+sntlOff, NoPtrSntl);
i := freesize DIV Unit; freesize := 0;
IF i < nofLists THEN SYSTEM.PUT(start + nextOff, freeList[i]); freeList[i] := start
ELSE SYSTEM.PUT(start + nextOff, bigBlocks); bigBlocks := start
END
END ;
SYSTEM.GET(chnk, chnk)
END
END Scan;
PROCEDURE Sift (l, r: LONGINT; VAR a: ARRAY OF LONGINT);
VAR i, j, x: LONGINT;
BEGIN j := l; x := a[j];
LOOP i := j; j := 2*j + 1;
IF (j < r) & (a[j] < a[j+1]) THEN INC(j) END;
IF (j > r) OR (a[j] <= x) THEN EXIT END;
a[i] := a[j]
END;
a[i] := x
END Sift;
PROCEDURE HeapSort (n: LONGINT; VAR a: ARRAY OF LONGINT);
VAR l, r, x: LONGINT;
BEGIN l := n DIV 2; r := n - 1;
WHILE l > 0 DO DEC(l); Sift(l, r, a) END;
WHILE r > 0 DO x := a[0]; a[0] := a[r]; a[r] := x; DEC(r); Sift(l, r, a) END
END HeapSort;
PROCEDURE MarkCandidates(n: LONGINT; VAR cand: ARRAY OF LONGINT);
VAR chnk, adr, tag, next, lim, lim1, i, ptr, size: LONGINT;
BEGIN
chnk := heap; i := 0; lim := cand[n-1];
WHILE (chnk # 0 ) & (chnk < lim) DO
adr := chnk + blkOff;
SYSTEM.GET(chnk + endOff, lim1);
IF lim < lim1 THEN lim1 := lim END ;
WHILE adr < lim1 DO
SYSTEM.GET(adr, tag);
IF ODD(tag) THEN (*already marked*)
SYSTEM.GET(tag-1, size); INC(adr, size)
ELSE
SYSTEM.GET(tag, size);
ptr := adr + SZL;
WHILE cand[i] < ptr DO INC(i) END ;
IF i = n THEN RETURN END ;
next := adr + size;
IF cand[i] < next THEN Mark(ptr) END ;
adr := next
END
END ;
SYSTEM.GET(chnk, chnk)
END
END MarkCandidates;
PROCEDURE CheckFin;
VAR n: FinNode; tag: LONGINT;
BEGIN n := fin;
WHILE n # NIL DO
SYSTEM.GET(n.obj - SZL, tag);
IF ~ODD(tag) THEN n.marked := FALSE; Mark(n.obj)
ELSE n.marked := TRUE
END ;
n := n.next
END
END CheckFin;
PROCEDURE Finalize;
VAR n, prev: FinNode;
BEGIN n := fin; prev := NIL;
WHILE n # NIL DO
IF ~n.marked THEN
IF n = fin THEN fin := fin.next ELSE prev.next := n.next END ;
n.finalize(SYSTEM.VAL(SYSTEM.PTR, n.obj));
(* new nodes may have been pushed in n.finalize, therefore: *)
IF prev = NIL THEN n := fin ELSE n := n.next END
ELSE prev := n; n := n.next
END
END
END Finalize;
PROCEDURE FINALL*;
VAR n: FinNode;
BEGIN
WHILE fin # NIL DO
n := fin; fin := fin.next;
n.finalize(SYSTEM.VAL(SYSTEM.PTR, n.obj))
END
END FINALL;
PROCEDURE MarkStack(n: LONGINT; VAR cand: ARRAY OF LONGINT);
VAR
frame: SYSTEM.PTR;
inc, nofcand: LONGINT;
sp, p, stack0, ptr: LONGINT;
align: RECORD ch: CHAR; p: SYSTEM.PTR END ;
BEGIN
IF n > 0 THEN MarkStack(n-1, cand); (* flush register windows by means of recursive calls *)
IF n > 100 THEN RETURN END (* prevent tail recursion optimization *)
END ;
IF n = 0 THEN
nofcand := 0; sp := SYSTEM.ADR(frame);
stack0 := Mainfrm();
(* check for minimum alignment of pointers *)
inc := SYSTEM.ADR(align.p) - SYSTEM.ADR(align);
IF sp > stack0 THEN inc := -inc END ;
WHILE sp # stack0 DO
SYSTEM.GET(sp, p);
IF (p > heap) & (p < heapend) THEN
IF nofcand = LEN(cand) THEN HeapSort(nofcand, cand); MarkCandidates(nofcand, cand); nofcand := 0 END ;
cand[nofcand] := p; INC(nofcand)
END ;
INC(sp, inc)
END ;
IF nofcand > 0 THEN HeapSort(nofcand, cand); MarkCandidates(nofcand, cand) END
END
END MarkStack;
PROCEDURE GC*(markStack: BOOLEAN);
VAR
m: Module;
i0, i1, i2, i3, i4, i5, i6, i7, i8, i9, i10, i11, i12, i13, i14, i15, i16, i17, i18, i19, i20, i21, i22, i23: LONGINT;
cand: ARRAY 10000 OF LONGINT;
BEGIN
IF (gclock = 0) OR (gclock = 1) & ~markStack THEN
Lock();
m := SYSTEM.VAL(Module, modules);
WHILE m # NIL DO
IF m.enumPtrs # NIL THEN m.enumPtrs(MarkP) END ;
m := m^.next
END ;
IF markStack THEN
(* generate register pressure to force callee saved registers to memory;
may be simplified by inlining OS calls or processor specific instructions
*)
i0 := -100; i1 := -101; i2 := -102; i3 := -103; i4 := -104; i5 := -105; i6 := -106; i7 := -107;
i8 := 1; i9 := 2; i10 := 3; i11 := 4; i12 := 5; i13 := 6; i14 := 7; i15 := 8;
i16 := 9; i17 := 10; i18 := 11; i19 := 12; i20 := 13; i21 := 14; i22 := 15; i23 := 16;
LOOP INC(i0, 1); INC(i1, 2); INC(i2, 3); INC(i3, 4); INC(i4, 5); INC(i5, 6); INC(i6, 7); INC(i7, 8);
INC(i8, 9); INC(i9, 10); INC(i10, 11); INC(i11, 12); INC(i12, 13); INC(i13, 14); INC(i14, 15); INC(i15, 16);
INC(i16, 17); INC(i17, 18); INC(i18, 19); INC(i19, 20); INC(i20, 21); INC(i21, 22); INC(i22, 23); INC(i23, 24);
IF (i0 = -99) & (i15 = 24) THEN MarkStack(32, cand); EXIT END
END ;
IF i0 + i1 + i2 + i3 + i4 + i5 + i6 + i7 + i8 + i9 + i10 + i11 + i12 + i13 + i14 + i15
+ i16 + i17 + i18 + i19 + i20 + i21 + i22 + i23 > 10000 THEN RETURN (* use all variables *)
END ;
END;
CheckFin;
Scan;
Finalize;
Unlock()
END
END GC;
PROCEDURE REGFIN*(obj: SYSTEM.PTR; finalize: Finalizer);
VAR f: FinNode;
BEGIN NEW(f);
f.obj := SYSTEM.VAL(LONGINT, obj); f.finalize := finalize; f.marked := TRUE; f.next := fin; fin := f
END REGFIN;
PROCEDURE InitHeap; (* initialized before body to enable NEW, SYSTEM.NEW *)
BEGIN
heap := NewChunk(heapSize0);
SYSTEM.GET(heap + endOff, heapend);
SYSTEM.PUT(heap, LONG(LONG(0)));
allocated := 0; firstTry := TRUE; freeList[nofLists] := 1; gclock := 0
END InitHeap;
END SYSTEM.

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MODULE Args; (* jt, 8.12.94 *)
(* command line argument handling for ofront *)
IMPORT SYSTEM;
TYPE
ArgPtr = POINTER TO ARRAY 1024 OF CHAR;
ArgVec = POINTER TO ARRAY 1024 OF ArgPtr;
VAR argc-, argv-: LONGINT;
PROCEDURE -Argc(): INTEGER "SYSTEM_argc";
PROCEDURE -Argv(): LONGINT "(long)SYSTEM_argv";
PROCEDURE -getenv(var: ARRAY OF CHAR): ArgPtr
"(Args_ArgPtr)getenv(var)";
PROCEDURE Get*(n: INTEGER; VAR val: ARRAY OF CHAR);
VAR av: ArgVec;
BEGIN
IF n < argc THEN av := SYSTEM.VAL(ArgVec, argv); COPY(av[n]^, val) END
END Get;
PROCEDURE GetInt*(n: INTEGER; VAR val: LONGINT);
VAR s: ARRAY 64 OF CHAR; k, d, i: LONGINT;
BEGIN
s := ""; Get(n, s); i := 0;
IF s[0] = "-" THEN i := 1 END ;
k := 0; d := ORD(s[i]) - ORD("0");
WHILE (d >= 0 ) & (d <= 9) DO k := k*10 + d; INC(i); d := ORD(s[i]) - ORD("0") END ;
IF s[0] = "-" THEN d := -d; DEC(i) END ;
IF i > 0 THEN val := k END
END GetInt;
PROCEDURE Pos*(s: ARRAY OF CHAR): INTEGER;
VAR i: INTEGER; arg: ARRAY 256 OF CHAR;
BEGIN
i := 0; Get(i, arg);
WHILE (i < argc) & (s # arg) DO INC(i); Get(i, arg) END ;
RETURN i
END Pos;
PROCEDURE GetEnv*(var: ARRAY OF CHAR; VAR val: ARRAY OF CHAR);
VAR p: ArgPtr;
BEGIN
p := getenv(var);
IF p # NIL THEN COPY(p^, val) END
END GetEnv;
BEGIN argc := Argc(); argv := Argv()
END Args.

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src/lib/system/gnuc/armv6j/SYSTEM.c0 Normal file
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/*
* The body prefix file of the Ofront runtime system, Version 1.0
*
* Copyright (c) Software Templ, 1994, 1995
*
* Module SYSTEM is subject to change any time without prior notification.
* Software Templ disclaims all warranties with regard to module SYSTEM,
* in particular shall Software Templ not be liable for any damage resulting
* from inappropriate use or modification of module SYSTEM.
*
* Version 1.1 jt, 24.11.95 fixes for correct pointer arithmetic on Cray computers
* jt 31.1.2007 ANSI prototypes for malloc and exit in order to avoid cc warnings
*
*/
#include "SYSTEM.h"
#ifdef __STDC__
#include "stdarg.h"
#else
#include "varargs.h"
#endif
extern void *malloc(long size);
extern void exit(int status);
void (*SYSTEM_Halt)();
LONGINT SYSTEM_halt; /* x in HALT(x) */
LONGINT SYSTEM_assert; /* x in ASSERT(cond, x) */
LONGINT SYSTEM_argc;
LONGINT SYSTEM_argv;
LONGINT SYSTEM_lock;
BOOLEAN SYSTEM_interrupted;
static LONGINT SYSTEM_mainfrm; /* adr of main proc stack frame, used for stack collection */
#define Lock SYSTEM_lock++
#define Unlock SYSTEM_lock--; if (SYSTEM_interrupted && (SYSTEM_lock == 0)) __HALT(-9)
static void SYSTEM_InitHeap();
void *SYSTEM__init();
void SYSTEM_INIT(argc, argvadr)
int argc; long argvadr;
{
SYSTEM_mainfrm = argvadr;
SYSTEM_argc = argc;
SYSTEM_argv = *(long*)argvadr;
SYSTEM_InitHeap();
SYSTEM_halt = -128;
SYSTEM__init();
}
void SYSTEM_FINI()
{
SYSTEM_FINALL();
}
long SYSTEM_XCHK(i, ub) long i, ub; {return __X(i, ub);}
long SYSTEM_RCHK(i, ub) long i, ub; {return __R(i, ub);}
long SYSTEM_ASH(i, n) long i, n; {return __ASH(i, n);}
long SYSTEM_ABS(i) long i; {return __ABS(i);}
double SYSTEM_ABSD(i) double i; {return __ABS(i);}
void SYSTEM_INHERIT(t, t0)
long *t, *t0;
{
t -= __TPROC0OFF;
t0 -= __TPROC0OFF;
while (*t0 != __EOM) {*t = *t0; t--; t0--;}
}
void SYSTEM_ENUMP(adr, n, P)
long *adr;
long n;
void (*P)();
{
while (n > 0) {P(*adr); adr++; n--;}
}
void SYSTEM_ENUMR(adr, typ, size, n, P)
char *adr;
long *typ, size, n;
void (*P)();
{
long *t, off;
typ++;
while (n > 0) {
t = typ;
off = *t;
while (off >= 0) {P(*(long*)(adr+off)); t++; off = *t;}
adr += size; n--;
}
}
long SYSTEM_DIV(x, y)
unsigned long x, y;
{ if ((long) x >= 0) return (x / y);
else return -((y - 1 - x) / y);
}
long SYSTEM_MOD(x, y)
unsigned long x, y;
{ unsigned long m;
if ((long) x >= 0) return (x % y);
else { m = (-x) % y;
if (m != 0) return (y - m); else return 0;
}
}
long SYSTEM_ENTIER(x)
double x;
{
long y;
if (x >= 0)
return (long)x;
else {
y = (long)x;
if (y <= x) return y; else return y - 1;
}
}
void SYSTEM_HALT(n)
int n;
{
SYSTEM_halt = n;
if (SYSTEM_Halt!=0) SYSTEM_Halt(n);
exit(n);
}
#ifdef __STDC__
SYSTEM_PTR SYSTEM_NEWARR(long *typ, long elemsz, int elemalgn, int nofdim, int nofdyn, ...)
#else
SYSTEM_PTR SYSTEM_NEWARR(typ, elemsz, elemalgn, nofdim, nofdyn, va_alist)
long *typ, elemsz;
int elemalgn, nofdim, nofdyn;
va_dcl
#endif
{
long nofelems, size, dataoff, n, nptr, *x, *p, nofptrs, i, *ptab, off;
va_list ap;
#ifdef __STDC__
va_start(ap, nofdyn);
#else
va_start(ap);
#endif
nofelems = 1;
while (nofdim > 0) {
nofelems = nofelems * va_arg(ap, long); nofdim--;
if (nofelems <= 0) __HALT(-20);
}
va_end(ap);
dataoff = nofdyn * sizeof(long);
if (elemalgn > sizeof(long)) {
n = dataoff % elemalgn;
if (n != 0) dataoff += elemalgn - n;
}
size = dataoff + nofelems * elemsz;
Lock;
if (typ == NIL) {
/* element typ does not contain pointers */
x = SYSTEM_NEWBLK(size);
}
else if (typ == POINTER__typ) {
/* element type is a pointer */
x = SYSTEM_NEWBLK(size + nofelems * sizeof(long));
p = (long*)x[-1];
p[-nofelems] = *p; /* build new type desc in situ: 1. copy block size; 2. setup ptr tab; 3. set sentinel; 4. patch tag */
p -= nofelems - 1; n = 1; /* n =1 for skipping the size field */
while (n <= nofelems) {*p = n*sizeof(long); p++; n++;}
*p = - (nofelems + 1) * sizeof(long); /* sentinel */
x[-1] -= nofelems * sizeof(long);
}
else {
/* element type is a record that contains pointers */
ptab = typ + 1; nofptrs = 0;
while (ptab[nofptrs] >= 0) {nofptrs++;} /* number of pointers per element */
nptr = nofelems * nofptrs; /* total number of pointers */
x = SYSTEM_NEWBLK(size + nptr * sizeof(long));
p = (long*)x[- 1];
p[-nptr] = *p; /* build new type desc in situ; 1. copy block size; 2. setup ptr tab; 3. set sentinel; 4. patch tag */
p -= nptr - 1; n = 0; off = dataoff;
while (n < nofelems) {i = 0;
while (i < nofptrs) {*p = off + ptab[i]; p++; i++;}
off += elemsz; n++;
}
*p = - (nptr + 1) * sizeof(long); /* sentinel */
x[-1] -= nptr * sizeof(long);
}
if (nofdyn != 0) {
/* setup len vector for index checks */
#ifdef __STDC__
va_start(ap, nofdyn);
#else
va_start(ap);
#endif
p = x;
while (nofdyn > 0) {*p = va_arg(ap, long); p++, nofdyn--;}
va_end(ap);
}
Unlock;
return x;
}
/* ----------- end of SYSTEM.co ------------- */

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#ifndef SYSTEM__h
#define SYSTEM__h
/*
the Ofront runtime system interface and macros library
copyright (c) Josef Templ, 1995, 1996
gcc for Linux version (same as SPARC/Solaris2)
uses double # as concatenation operator
*/
#include <alloca.h>
//extern void *memcpy(void *dest, const void *src, long n);
extern void *memcpy(void *dest, const void *src, size_t n);
extern void *malloc(long size);
extern void exit(int status);
#define export
#define import extern
/* constants */
#define __MAXEXT 16
#define NIL 0L
#define POINTER__typ (long*)1L /* not NIL and not a valid type */
/* basic types */
typedef char BOOLEAN;
typedef unsigned char CHAR;
typedef signed char SHORTINT;
typedef short int INTEGER;
typedef long LONGINT;
typedef float REAL;
typedef double LONGREAL;
typedef unsigned long SET;
typedef void *SYSTEM_PTR;
typedef unsigned char SYSTEM_BYTE;
/* runtime system routines */
extern long SYSTEM_DIV();
extern long SYSTEM_MOD();
extern long SYSTEM_ENTIER();
extern long SYSTEM_ASH();
extern long SYSTEM_ABS();
extern long SYSTEM_XCHK();
extern long SYSTEM_RCHK();
extern double SYSTEM_ABSD();
extern SYSTEM_PTR SYSTEM_NEWREC();
extern SYSTEM_PTR SYSTEM_NEWBLK();
#ifdef __STDC__
extern SYSTEM_PTR SYSTEM_NEWARR(long*, long, int, int, int, ...);
#else
extern SYSTEM_PTR SYSTEM_NEWARR();
#endif
extern SYSTEM_PTR SYSTEM_REGMOD();
extern void SYSTEM_INCREF();
extern void SYSTEM_REGCMD();
extern void SYSTEM_REGTYP();
extern void SYSTEM_REGFIN();
extern void SYSTEM_FINALL();
extern void SYSTEM_INIT();
extern void SYSTEM_FINI();
extern void SYSTEM_HALT();
extern void SYSTEM_INHERIT();
extern void SYSTEM_ENUMP();
extern void SYSTEM_ENUMR();
/* module registry */
#define __DEFMOD static void *m; if(m!=0)return m
#define __REGMOD(name, enum) if(m==0)m=SYSTEM_REGMOD((CHAR*)name,enum); else return m
#define __ENDMOD return m
#define __INIT(argc, argv) static void *m; SYSTEM_INIT(argc, (long)&argv);
#define __REGMAIN(name, enum) m=SYSTEM_REGMOD(name,enum)
#define __FINI SYSTEM_FINI(); return 0
#define __IMPORT(name) SYSTEM_INCREF(name##__init())
#define __REGCMD(name, cmd) SYSTEM_REGCMD(m, name, cmd)
/* SYSTEM ops */
#define __SYSNEW(p, len) p=SYSTEM_NEWBLK((long)(len))
#define __VAL(t, x) (*(t*)&(x))
#define __GET(a, x, t) x= *(t*)(a)
#define __PUT(a, x, t) *(t*)(a)=x
#define __LSHL(x, n, t) ((t)((unsigned)(x)<<(n)))
#define __LSHR(x, n, t) ((t)((unsigned)(x)>>(n)))
#define __LSH(x, n, t) ((n)>=0? __LSHL(x, n, t): __LSHR(x, -(n), t))
#define __ROTL(x, n, t) ((t)((unsigned)(x)<<(n)|(unsigned)(x)>>(8*sizeof(t)-(n))))
#define __ROTR(x, n, t) ((t)((unsigned)(x)>>(n)|(unsigned)(x)<<(8*sizeof(t)-(n))))
#define __ROT(x, n, t) ((n)>=0? __ROTL(x, n, t): __ROTR(x, -(n), t))
#define __BIT(x, n) (*(unsigned long*)(x)>>(n)&1)
#define __MOVE(s, d, n) memcpy((char*)(d),(char*)(s),n)
/* std procs and operator mappings */
#define __SHORT(x, y) ((int)((unsigned long)(x)+(y)<(y)+(y)?(x):(__HALT(-8),0)))
#define __SHORTF(x, y) ((int)(__RF((x)+(y),(y)+(y))-(y)))
#define __CHR(x) ((CHAR)__R(x, 256))
#define __CHRF(x) ((CHAR)__RF(x, 256))
#define __DIV(x, y) ((x)>=0?(x)/(y):-(((y)-1-(x))/(y)))
#define __DIVF(x, y) SYSTEM_DIV((long)(x),(long)(y))
#define __MOD(x, y) ((x)>=0?(x)%(y):__MODF(x,y))
#define __MODF(x, y) SYSTEM_MOD((long)(x),(long)(y))
#define __NEW(p, t) p=SYSTEM_NEWREC((long)t##__typ)
#define __NEWARR SYSTEM_NEWARR
#define __HALT(x) SYSTEM_HALT(x)
#define __ASSERT(cond, x) if (!(cond)) {SYSTEM_assert = x; SYSTEM_HALT(-1);}
#define __ENTIER(x) SYSTEM_ENTIER(x)
#define __ABS(x) (((x)<0)?-(x):(x))
#define __ABSF(x) SYSTEM_ABS((long)(x))
#define __ABSFD(x) SYSTEM_ABSD((double)(x))
#define __CAP(ch) ((CHAR)((ch)&0x5f))
#define __ODD(x) ((x)&1)
#define __IN(x, s) (((s)>>(x))&1)
#define __SETOF(x) ((SET)1<<(x))
#define __SETRNG(l, h) ((~(SET)0<<(l))&~(SET)0>>(8*sizeof(SET)-1-(h)))
#define __MASK(x, m) ((x)&~(m))
#define __COPY(s, d, n) {char*_a=(void*)s,*_b=(void*)d;long _i=0,_t=n-1;while(_i<_t&&((_b[_i]=_a[_i])!=0)){_i++;};_b[_i]=0;}
static int __STRCMP(x, y)
CHAR *x, *y;
{long i = 0; CHAR ch1, ch2;
do {ch1 = x[i]; ch2 = y[i]; i++;
if (!ch1) return -(int)ch2;
} while (ch1==ch2);
return (int)ch1 - (int)ch2;
}
#define __ASH(x, n) ((n)>=0?__ASHL(x,n):__ASHR(x,-(n)))
#define __ASHL(x, n) ((long)(x)<<(n))
#define __ASHR(x, n) ((long)(x)>>(n))
#define __ASHF(x, n) SYSTEM_ASH((long)(x), (long)(n))
#define __DUP(x, l, t) x=(void*)memcpy(alloca(l*sizeof(t)),x,l*sizeof(t))
#define __DUPARR(v, t) v=(void*)memcpy(v##__copy,v,sizeof(t))
#define __DEL(x) /* DUP with alloca frees storage automatically */
#define __IS(tag, typ, level) (*(tag-(__BASEOFF-level))==(long)typ##__typ)
#define __TYPEOF(p) (*(((long**)(p))-1))
#define __ISP(p, typ, level) __IS(__TYPEOF(p),typ,level)
/* runtime checks */
#define __X(i, ub) (((unsigned)(long)(i)<(unsigned long)(ub))?i:(__HALT(-2),0))
#define __XF(i, ub) SYSTEM_XCHK((long)(i), (long)(ub))
#define __RETCHK __retchk: __HALT(-3)
#define __CASECHK __HALT(-4)
#define __GUARDP(p, typ, level) ((typ*)(__ISP(p,typ,level)?p:(__HALT(-5),p)))
#define __GUARDR(r, typ, level) (*((typ*)(__IS(r##__typ,typ,level)?r:(__HALT(-5),r))))
#define __GUARDA(p, typ, level) ((struct typ*)(__IS(__TYPEOF(p),typ,level)?p:(__HALT(-5),p)))
#define __GUARDEQR(p, dyntyp, typ) if(dyntyp!=typ##__typ) __HALT(-6);*(p)
#define __GUARDEQP(p, typ) if(__TYPEOF(p)!=typ##__typ)__HALT(-6);*(p)
#define __WITHCHK __HALT(-7)
#define __R(i, ub) (((unsigned)(long)(i)<(unsigned long)(ub))?i:(__HALT(-8),0))
#define __RF(i, ub) SYSTEM_RCHK((long)(i),(long)(ub))
/* record type descriptors */
#define __TDESC(t, m, n) \
static struct t##__desc {\
long tproc[m]; \
long tag, next, level, module; \
char name[24]; \
long *base[__MAXEXT]; \
char *rsrvd; \
long blksz, ptr[n+1]; \
} t##__desc
#define __BASEOFF (__MAXEXT+1)
#define __TPROC0OFF (__BASEOFF+24/sizeof(long)+5)
#define __EOM 1
#define __TDFLDS(name, size) {__EOM}, 1, 0, 0, 0, name, {0}, 0, size
#define __ENUMP(adr, n, P) SYSTEM_ENUMP(adr, (long)(n), P)
#define __ENUMR(adr, typ, size, n, P) SYSTEM_ENUMR(adr, typ, (long)(size), (long)(n), P)
#define __INITYP(t, t0, level) \
t##__typ= &t##__desc.blksz; \
memcpy(t##__desc.base, t0##__typ - __BASEOFF, level*sizeof(long)); \
t##__desc.base[level]=t##__typ; \
t##__desc.module=(long)m; \
if(t##__desc.blksz!=sizeof(struct t)) __HALT(-15); \
t##__desc.blksz=(t##__desc.blksz+5*sizeof(long)-1)/(4*sizeof(long))*(4*sizeof(long)); \
SYSTEM_REGTYP(m, (long)&t##__desc.next); \
SYSTEM_INHERIT(t##__typ, t0##__typ)
/* Oberon-2 type bound procedures support */
#define __INITBP(t, proc, num) *(t##__typ-(__TPROC0OFF+num))=(long)proc
#define __SEND(typ, num, funtyp, parlist) ((funtyp)(*(typ-(__TPROC0OFF+num))))parlist
/* runtime system variables */
extern LONGINT SYSTEM_argc;
extern LONGINT SYSTEM_argv;
extern void (*SYSTEM_Halt)();
extern LONGINT SYSTEM_halt;
extern LONGINT SYSTEM_assert;
extern SYSTEM_PTR SYSTEM_modules;
extern LONGINT SYSTEM_heapsize;
extern LONGINT SYSTEM_allocated;
extern LONGINT SYSTEM_lock;
extern SHORTINT SYSTEM_gclock;
extern BOOLEAN SYSTEM_interrupted;
/* ANSI prototypes; not used so far
static int __STRCMP(CHAR *x, CHAR *y);
void SYSTEM_INIT(int argc, long argvadr);
void SYSTEM_FINI(void);
long SYSTEM_XCHK(long i, long ub);
long SYSTEM_RCHK(long i, long ub);
long SYSTEM_ASH(long i, long n);
long SYSTEM_ABS(long i);
double SYSTEM_ABSD(double i);
void SYSTEM_INHERIT(long *t, long *t0);
void SYSTEM_ENUMP(long *adr, long n, void (*P)(void*));
void SYSTEM_ENUMR(char *adr, long *typ, long size, long n, void (*P)(void*));
long SYSTEM_DIV(unsigned long x, unsigned long y);
long SYSTEM_MOD(unsigned long x, unsigned long y);
long SYSTEM_ENTIER(double x);
void SYSTEM_HALT(int n);
*/
#endif

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MODULE Unix; (* Josef Templ, 5.3.90 Linux system calls *)
(* system procedure added by noch *)
(* Module Unix provides a system call interface to Linux.
Naming conventions:
Procedure and Type-names always start with a capital letter.
error numbers as defined in Unix
other constants start with lower case letters *)
IMPORT SYSTEM;
CONST
(* various important constants *)
stdin* = 0; stdout* =1; stderr* = 2;
LOCKEX* = 2; LOCKUN* = 8; (* /usr/include/file.h *)
AFINET* = 2; (* /usr/include/sys/socket.h *)
PFINET* = AFINET; (* /usr/include/linux/socket.h *)
SOCKSTREAM* = 1; (* /usr/include/linux/socket.h *)
FIONREAD* = 541BH; (* in /usr/include/asm/termios.h *)
SETFL* = 4; (* set file descriptor flags; in asm/fcntl.h *)
TCP* = 0;
(* flag sets, cf. /usr/include/asm/fcntl.h *)
rdonly* = {}; wronly* = {0}; rdwr* = {1}; creat* = {6}; excl* = {7}; trunc* = {9}; append* = {10}; ndelay = {11};
(* error numbers *)
EPERM* = 1; (* Not owner *)
ENOENT* = 2; (* No such file or directory *)
ESRCH* = 3; (* No such process *)
EINTR* = 4; (* Interrupted system call *)
EIO* = 5; (* I/O error *)
ENXIO* = 6; (* No such device or address *)
E2BIG* = 7; (* Arg list too long *)
ENOEXEC* = 8; (* Exec format error *)
EBADF* = 9; (* Bad file number *)
ECHILD* = 10; (* No children *)
EAGAIN* = 11; (* No more processes *)
ENOMEM* = 12; (* Not enough core *)
EACCES* = 13; (* Permission denied *)
EFAULT* = 14; (* Bad address *)
ENOTBLK* = 15; (* Block device required *)
EBUSY* = 16; (* Mount device busy *)
EEXIST* = 17; (* File exists *)
EXDEV* = 18; (* Cross-device link *)
ENODEV* = 19; (* No such device *)
ENOTDIR* = 20; (* Not a directory*)
EISDIR* = 21; (* Is a directory *)
EINVAL* = 22; (* Invalid argument *)
ENFILE* = 23; (* File table overflow *)
EMFILE* = 24; (* Too many open files *)
ENOTTY* = 25; (* Not a typewriter *)
ETXTBSY* = 26; (* Text file busy *)
EFBIG* = 27; (* File too large *)
ENOSPC* = 28; (* No space left on device *)
ESPIPE* = 29; (* Illegal seek *)
EROFS* = 30; (* Read-only file system *)
EMLINK* = 31; (* Too many links *)
EPIPE* = 32; (* Broken pipe *)
EDOM* = 33; (* Argument too large *)
ERANGE* = 34; (* Result too large *)
EDEADLK* = 35; (* Resource deadlock would occur *)
ENAMETOOLONG* = 36; (* File name too long *)
ENOLCK* = 37; (* No record locks available *)
ENOSYS* = 38; (* Function not implemented *)
ENOTEMPTY* = 39; (* Directory not empty *)
ELOOP* = 40; (* Too many symbolic links encountered *)
EWOULDBLOCK* = EAGAIN; (* Operation would block *)
ENOMSG* = 42; (* No message of desired type *)
EIDRM* = 43; (* Identifier removed *)
ECHRNG* = 44; (* Channel number out of range *)
EL2NSYNC* = 45; (* Level 2 not synchronized *)
EL3HLT* = 46; (* Level 3 halted *)
EL3RST* = 47; (* Level 3 reset *)
ELNRNG* = 48; (* Link number out of range *)
EUNATCH* = 49; (* Protocol driver not attached *)
ENOCSI* = 50; (* No CSI structure available *)
EL2HLT* = 51; (* Level 2 halted *)
EBADE* = 52; (* Invalid exchange *)
EBADR* = 53; (* Invalid request descriptor *)
EXFULL* = 54; (* Exchange full *)
ENOANO* = 55; (* No anode *)
EBADRQC* = 56; (* Invalid request code *)
EBADSLT* = 57; (* Invalid slot *)
EDEADLOCK* = 58; (* File locking deadlock error *)
EBFONT* = 59; (* Bad font file format *)
ENOSTR* = 60; (* Device not a stream *)
ENODATA* = 61; (* No data available *)
ETIME* = 62; (* Timer expired *)
ENOSR* = 63; (* Out of streams resources *)
ENONET* = 64; (* Machine is not on the network *)
ENOPKG* = 65; (* Package not installed *)
EREMOTE* = 66; (* Object is remote *)
ENOLINK* = 67; (* Link has been severed *)
EADV* = 68; (* Advertise error *)
ESRMNT* = 69; (* Srmount error *)
ECOMM* = 70; (* Communication error on send *)
EPROTO* = 71; (* Protocol error *)
EMULTIHOP* = 72; (* Multihop attempted *)
EDOTDOT* = 73; (* RFS specific error *)
EBADMSG* = 74; (* Not a data message *)
EOVERFLOW* = 75; (* Value too large for defined data type *)
ENOTUNIQ* = 76; (* Name not unique on network *)
EBADFD* = 77; (* File descriptor in bad state *)
EREMCHG* = 78; (* Remote address changed *)
ELIBACC* = 79; (* Can not access a needed shared library *)
ELIBBAD* = 80; (* Accessing a corrupted shared library *)
ELIBSCN* = 81; (* .lib section in a.out corrupted *)
ELIBMAX* = 82; (* Attempting to link in too many shared libraries *)
ELIBEXEC* = 83; (* Cannot exec a shared library directly *)
EILSEQ* = 84; (* Illegal byte sequence *)
ERESTART* = 85; (* Interrupted system call should be restarted *)
ESTRPIPE* = 86; (* Streams pipe error *)
EUSERS* = 87; (* Too many users *)
ENOTSOCK* = 88; (* Socket operation on non-socket *)
EDESTADDRREQ* = 89; (* Destination address required *)
EMSGSIZE* = 90; (* Message too long *)
EPROTOTYPE* = 91; (* Protocol wrong type for socket *)
ENOPROTOOPT* = 92; (* Protocol not available *)
EPROTONOSUPPORT* = 93; (* Protocol not supported *)
ESOCKTNOSUPPORT* = 94; (* Socket type not supported *)
EOPNOTSUPP* = 95; (* Operation not supported on transport endpoint *)
EPFNOSUPPORT* = 96; (* Protocol family not supported *)
EAFNOSUPPORT* = 97; (* Address family not supported by protocol *)
EADDRINUSE* = 98; (* Address already in use *)
EADDRNOTAVAIL* = 99; (* Cannot assign requested address *)
ENETDOWN* = 100; (* Network is down *)
ENETUNREACH* = 101; (* Network is unreachable *)
ENETRESET* = 102; (* Network dropped connection because of reset *)
ECONNABORTED* = 103; (* Software caused connection abort *)
ECONNRESET* = 104; (* Connection reset by peer *)
ENOBUFS* = 105; (* No buffer space available *)
EISCONN* = 106; (* Transport endpoint is already connected *)
ENOTCONN* = 107; (* Transport endpoint is not connected *)
ESHUTDOWN* = 108; (* Cannot send after transport endpoint shutdown *)
ETOOMANYREFS* = 109; (* Too many references: cannot splice *)
ETIMEDOUT* = 110; (* Connection timed out *)
ECONNREFUSED* = 111; (* Connection refused *)
EHOSTDOWN* = 112; (* Host is down *)
EHOSTUNREACH* = 113; (* No route to host *)
EALREADY* = 114; (* Operation already in progress *)
EINPROGRESS* = 115; (* Operation now in progress *)
ESTALE* = 116; (* Stale NFS file handle *)
EUCLEAN* = 117; (* Structure needs cleaning *)
ENOTNAM* = 118; (* Not a XENIX named type file *)
ENAVAIL* = 119; (* No XENIX semaphores available *)
EISNAM* = 120; (* Is a named type file *)
EREMOTEIO* = 121; (* Remote I/O error *)
EDQUOT* = 122; (* Quota exceeded *)
TYPE
JmpBuf* = RECORD
bx*, si*, di*, bp*, sp*, pc*: LONGINT;
maskWasSaved*, savedMask*: LONGINT;
END ;
Status* = RECORD (* struct stat *)
dev*, devX*: LONGINT; (* 64 bit in Linux 2.2 *)
pad1: INTEGER;
ino*, mode*, nlink*, uid*, gid*: LONGINT;
rdev*, rdevX*: LONGINT; (* 64 bit in Linux 2.2 *)
pad2: INTEGER;
size*, blksize*, blocks*, atime*, unused1*, mtime*, unused2*, ctime*,
unused3*, unused4*, unused5*: LONGINT;
END ;
Timeval* = RECORD
sec*, usec*: LONGINT
END ;
Timezone* = RECORD
minuteswest*, dsttime*: LONGINT
END ;
Itimerval* = RECORD
interval*, value*: Timeval
END ;
FdSet* = ARRAY 8 OF SET;
SigCtxPtr* = POINTER TO SigContext;
SigContext* = RECORD
END ;
SignalHandler* = PROCEDURE (sig, code: LONGINT; scp: SigCtxPtr);
Dirent* = RECORD
ino, off: LONGINT;
reclen: INTEGER;
name: ARRAY 256 OF CHAR;
END ;
Rusage* = RECORD
utime*, stime*: Timeval;
maxrss*, ixrss*, idrss*, isrss*,
minflt*, majflt*, nswap*, inblock*,
oublock*, msgsnd*, msgrcv*, nsignals*,
nvcsw*, nivcsw*: LONGINT
END ;
Iovec* = RECORD
base*, len*: LONGINT
END ;
SocketPair* = ARRAY 2 OF LONGINT;
Pollfd* = RECORD
fd*: LONGINT;
events*, revents*: INTEGER
END ;
Sockaddr* = RECORD
family*: INTEGER;
port*: INTEGER;
internetAddr*: LONGINT;
pad*: ARRAY 8 OF CHAR;
END ;
HostEntry* = POINTER [1] TO Hostent;
Hostent* = RECORD
name*, aliases*: LONGINT;
addrtype*, length*: LONGINT;
addrlist*: LONGINT; (*POINTER TO POINTER TO LONGINT, network byte order*)
END;
Name* = ARRAY OF CHAR;
PROCEDURE -includeStat()
"#include <sys/stat.h>";
PROCEDURE -includeErrno()
"#include <errno.h>";
PROCEDURE -err(): LONGINT
"errno";
PROCEDURE errno*(): LONGINT;
BEGIN
RETURN err()
END errno;
PROCEDURE -Exit*(n: LONGINT)
"exit(n)";
PROCEDURE -Fork*(): LONGINT
"fork()";
PROCEDURE -Wait*(VAR status: LONGINT): LONGINT
"wait(status)";
PROCEDURE -Select*(width: LONGINT; VAR readfds, writefds, exceptfds: FdSet; VAR timeout: Timeval): LONGINT
"select(width, readfds, writefds, exceptfds, timeout)";
PROCEDURE -Gettimeofday* (VAR tv: Timeval; VAR tz: Timezone)
"gettimeofday(tv, tz)";
PROCEDURE -Read* (fd, buf, nbyte: LONGINT): LONGINT
"read(fd, buf, nbyte)";
PROCEDURE -ReadBlk* (fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE): LONGINT
"read(fd, buf, buf__len)";
PROCEDURE -Write* (fd, buf, nbyte: LONGINT): LONGINT
"write(fd, buf, nbyte)";
PROCEDURE -WriteBlk* (fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE): LONGINT
"write(fd, buf, buf__len)";
PROCEDURE -Dup*(fd: LONGINT): LONGINT
"dup(fd)";
PROCEDURE -Dup2*(fd1, fd2: LONGINT): LONGINT
"dup(fd1, fd2)";
PROCEDURE -Getpid*(): LONGINT
"getpid()";
PROCEDURE -Getuid*(): LONGINT
"getuid()";
PROCEDURE -Geteuid*(): LONGINT
"geteuid()";
PROCEDURE -Getgid*(): LONGINT
"getgid()";
PROCEDURE -Getegid*(): LONGINT
"getegid()";
PROCEDURE -Unlink*(name: Name): LONGINT
"unlink(name)";
PROCEDURE -Open*(name: Name; flag, mode: SET): LONGINT
"open(name, flag, mode)";
PROCEDURE -Close*(fd: LONGINT): LONGINT
"close(fd)";
PROCEDURE -stat(name: Name; VAR statbuf: Status): LONGINT
"stat((const char*)name, (struct stat*)statbuf)";
PROCEDURE Stat*(name: Name; VAR statbuf: Status): LONGINT;
VAR res: LONGINT;
BEGIN
res := stat(name, statbuf);
(* make the first 4 bytes as unique as possible (used in module Files for caching!) *)
INC(statbuf.dev, statbuf.devX);
INC(statbuf.rdev, statbuf.rdevX);
RETURN res;
END Stat;
PROCEDURE -fstat(fd: LONGINT; VAR statbuf: Status): LONGINT
"fstat(fd, (struct stat*)statbuf)";
PROCEDURE Fstat*(fd: LONGINT; VAR statbuf: Status): LONGINT;
VAR res: LONGINT;
BEGIN
res := fstat(fd, statbuf);
(* make the first 4 bytes as unique as possible (used in module Files for caching!) *)
INC(statbuf.dev, statbuf.devX);
INC(statbuf.rdev, statbuf.rdevX);
RETURN res;
END Fstat;
PROCEDURE -Fchmod*(fd, mode: LONGINT): LONGINT
"fchmod(fd, mode)";
PROCEDURE -Chmod*(path: Name; mode: LONGINT): LONGINT
"chmod(path, mode)";
PROCEDURE -Lseek*(fd, offset, origin: LONGINT): LONGINT
"lseek(fd, offset, origin)";
PROCEDURE -Fsync*(fd: LONGINT): LONGINT
"fsync(fd)";
PROCEDURE -Fcntl*(fd, cmd, arg: LONGINT ): LONGINT
"fcntl(fd, cmd, arg)";
PROCEDURE -Flock*(fd, operation: LONGINT): LONGINT
"flock(fd, operation)";
PROCEDURE -Ftruncate*(fd, length: LONGINT): LONGINT
"ftruncate(fd, length)";
PROCEDURE -Readblk*(fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE; len: LONGINT): LONGINT
"read(fd, buf, len)";
PROCEDURE -Rename*(old, new: Name): LONGINT
"rename(old, new)";
PROCEDURE -Chdir*(path: Name): LONGINT
"chdir(path)";
PROCEDURE -Ioctl*(fd, request, arg: LONGINT): LONGINT
"ioctl(fd, request, arg)";
PROCEDURE -Kill*(pid, sig: LONGINT): LONGINT
"kill(pid, sig)";
PROCEDURE -Sigsetmask*(mask: LONGINT): LONGINT
"sigsetmask(mask)";
(* TCP/IP networking *)
PROCEDURE -Gethostbyname*(name: Name): HostEntry
"(Unix_HostEntry)gethostbyname(name)";
PROCEDURE -Gethostname*(VAR name: Name): LONGINT
"gethostname(name, name__len)";
PROCEDURE -Socket*(af, type, protocol: LONGINT): LONGINT
"socket(af, type, protocol)";
PROCEDURE -Connect*(socket: LONGINT; name: Sockaddr; namelen: LONGINT): LONGINT
"connect(socket, &(name), namelen)";
PROCEDURE -Getsockname*(socket: LONGINT; VAR name: Sockaddr; VAR namelen: LONGINT): LONGINT
"getsockname(socket, name, namelen)";
PROCEDURE -Bind*(socket: LONGINT; name: Sockaddr; namelen: LONGINT): LONGINT
"bind(socket, &(name), namelen)";
PROCEDURE -Listen*(socket, backlog: LONGINT): LONGINT
"listen(socket, backlog)";
PROCEDURE -Accept*(socket: LONGINT; VAR addr: Sockaddr; VAR addrlen: LONGINT): LONGINT
"accept(socket, addr, addrlen)";
PROCEDURE -Recv*(socket, bufadr, buflen, flags: LONGINT): LONGINT
"recv(socket, bufadr, buflen, flags)";
PROCEDURE -Send*(socket, bufadr, buflen, flags: LONGINT): LONGINT
"send(socket, bufadr, buflen, flags)";
PROCEDURE -sys(str: ARRAY OF CHAR): INTEGER (* need this to call external tools like gcc or gas; noch *)
"system(str)";
PROCEDURE system*(cmd : ARRAY OF CHAR);
VAR r : INTEGER;
BEGIN
r := sys(cmd);
END system;
END Unix.

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MODULE Args; (* jt, 8.12.94 *)
(* command line argument handling for ofront *)
IMPORT SYSTEM;
TYPE
ArgPtr = POINTER TO ARRAY 1024 OF CHAR;
ArgVec = POINTER TO ARRAY 1024 OF ArgPtr;
VAR argc-, argv-: LONGINT;
PROCEDURE -Argc(): INTEGER "SYSTEM_argc";
PROCEDURE -Argv(): LONGINT "(long)SYSTEM_argv";
PROCEDURE -getenv(var: ARRAY OF CHAR): ArgPtr
"(Args_ArgPtr)getenv(var)";
PROCEDURE Get*(n: INTEGER; VAR val: ARRAY OF CHAR);
VAR av: ArgVec;
BEGIN
IF n < argc THEN av := SYSTEM.VAL(ArgVec, argv); COPY(av[n]^, val) END
END Get;
PROCEDURE GetInt*(n: INTEGER; VAR val: LONGINT);
VAR s: ARRAY 64 OF CHAR; k, d, i: LONGINT;
BEGIN
s := ""; Get(n, s); i := 0;
IF s[0] = "-" THEN i := 1 END ;
k := 0; d := ORD(s[i]) - ORD("0");
WHILE (d >= 0 ) & (d <= 9) DO k := k*10 + d; INC(i); d := ORD(s[i]) - ORD("0") END ;
IF s[0] = "-" THEN d := -d; DEC(i) END ;
IF i > 0 THEN val := k END
END GetInt;
PROCEDURE Pos*(s: ARRAY OF CHAR): INTEGER;
VAR i: INTEGER; arg: ARRAY 256 OF CHAR;
BEGIN
i := 0; Get(i, arg);
WHILE (i < argc) & (s # arg) DO INC(i); Get(i, arg) END ;
RETURN i
END Pos;
PROCEDURE GetEnv*(var: ARRAY OF CHAR; VAR val: ARRAY OF CHAR);
VAR p: ArgPtr;
BEGIN
p := getenv(var);
IF p # NIL THEN COPY(p^, val) END
END GetEnv;
BEGIN argc := Argc(); argv := Argv()
END Args.

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/*
* The body prefix file of the Ofront runtime system, Version 1.0
*
* Copyright (c) Software Templ, 1994, 1995
*
* Module SYSTEM is subject to change any time without prior notification.
* Software Templ disclaims all warranties with regard to module SYSTEM,
* in particular shall Software Templ not be liable for any damage resulting
* from inappropriate use or modification of module SYSTEM.
*
* Version 1.1 jt, 24.11.95 fixes for correct pointer arithmetic on Cray computers
* jt 31.1.2007 ANSI prototypes for malloc and exit in order to avoid cc warnings
*
*/
#include "SYSTEM.h"
#ifdef __STDC__
#include "stdarg.h"
#else
#include "varargs.h"
#endif
extern void *malloc(long size);
extern void exit(int status);
void (*SYSTEM_Halt)();
LONGINT SYSTEM_halt; /* x in HALT(x) */
LONGINT SYSTEM_assert; /* x in ASSERT(cond, x) */
LONGINT SYSTEM_argc;
LONGINT SYSTEM_argv;
LONGINT SYSTEM_lock;
BOOLEAN SYSTEM_interrupted;
static LONGINT SYSTEM_mainfrm; /* adr of main proc stack frame, used for stack collection */
#define Lock SYSTEM_lock++
#define Unlock SYSTEM_lock--; if (SYSTEM_interrupted && (SYSTEM_lock == 0)) __HALT(-9)
static void SYSTEM_InitHeap();
void *SYSTEM__init();
void SYSTEM_INIT(argc, argvadr)
int argc; long argvadr;
{
SYSTEM_mainfrm = argvadr;
SYSTEM_argc = argc;
SYSTEM_argv = *(long*)argvadr;
SYSTEM_InitHeap();
SYSTEM_halt = -128;
SYSTEM__init();
}
void SYSTEM_FINI()
{
SYSTEM_FINALL();
}
long SYSTEM_XCHK(i, ub) long i, ub; {return __X(i, ub);}
long SYSTEM_RCHK(i, ub) long i, ub; {return __R(i, ub);}
long SYSTEM_ASH(i, n) long i, n; {return __ASH(i, n);}
long SYSTEM_ABS(i) long i; {return __ABS(i);}
double SYSTEM_ABSD(i) double i; {return __ABS(i);}
void SYSTEM_INHERIT(t, t0)
long *t, *t0;
{
t -= __TPROC0OFF;
t0 -= __TPROC0OFF;
while (*t0 != __EOM) {*t = *t0; t--; t0--;}
}
void SYSTEM_ENUMP(adr, n, P)
long *adr;
long n;
void (*P)();
{
while (n > 0) {P(*adr); adr++; n--;}
}
void SYSTEM_ENUMR(adr, typ, size, n, P)
char *adr;
long *typ, size, n;
void (*P)();
{
long *t, off;
typ++;
while (n > 0) {
t = typ;
off = *t;
while (off >= 0) {P(*(long*)(adr+off)); t++; off = *t;}
adr += size; n--;
}
}
long SYSTEM_DIV(x, y)
unsigned long x, y;
{ if ((long) x >= 0) return (x / y);
else return -((y - 1 - x) / y);
}
long SYSTEM_MOD(x, y)
unsigned long x, y;
{ unsigned long m;
if ((long) x >= 0) return (x % y);
else { m = (-x) % y;
if (m != 0) return (y - m); else return 0;
}
}
long SYSTEM_ENTIER(x)
double x;
{
long y;
if (x >= 0)
return (long)x;
else {
y = (long)x;
if (y <= x) return y; else return y - 1;
}
}
void SYSTEM_HALT(n)
int n;
{
SYSTEM_halt = n;
if (SYSTEM_Halt!=0) SYSTEM_Halt(n);
exit(n);
}
#ifdef __STDC__
SYSTEM_PTR SYSTEM_NEWARR(long *typ, long elemsz, int elemalgn, int nofdim, int nofdyn, ...)
#else
SYSTEM_PTR SYSTEM_NEWARR(typ, elemsz, elemalgn, nofdim, nofdyn, va_alist)
long *typ, elemsz;
int elemalgn, nofdim, nofdyn;
va_dcl
#endif
{
long nofelems, size, dataoff, n, nptr, *x, *p, nofptrs, i, *ptab, off;
va_list ap;
#ifdef __STDC__
va_start(ap, nofdyn);
#else
va_start(ap);
#endif
nofelems = 1;
while (nofdim > 0) {
nofelems = nofelems * va_arg(ap, long); nofdim--;
if (nofelems <= 0) __HALT(-20);
}
va_end(ap);
dataoff = nofdyn * sizeof(long);
if (elemalgn > sizeof(long)) {
n = dataoff % elemalgn;
if (n != 0) dataoff += elemalgn - n;
}
size = dataoff + nofelems * elemsz;
Lock;
if (typ == NIL) {
/* element typ does not contain pointers */
x = SYSTEM_NEWBLK(size);
}
else if (typ == POINTER__typ) {
/* element type is a pointer */
x = SYSTEM_NEWBLK(size + nofelems * sizeof(long));
p = (long*)x[-1];
p[-nofelems] = *p; /* build new type desc in situ: 1. copy block size; 2. setup ptr tab; 3. set sentinel; 4. patch tag */
p -= nofelems - 1; n = 1; /* n =1 for skipping the size field */
while (n <= nofelems) {*p = n*sizeof(long); p++; n++;}
*p = - (nofelems + 1) * sizeof(long); /* sentinel */
x[-1] -= nofelems * sizeof(long);
}
else {
/* element type is a record that contains pointers */
ptab = typ + 1; nofptrs = 0;
while (ptab[nofptrs] >= 0) {nofptrs++;} /* number of pointers per element */
nptr = nofelems * nofptrs; /* total number of pointers */
x = SYSTEM_NEWBLK(size + nptr * sizeof(long));
p = (long*)x[- 1];
p[-nptr] = *p; /* build new type desc in situ; 1. copy block size; 2. setup ptr tab; 3. set sentinel; 4. patch tag */
p -= nptr - 1; n = 0; off = dataoff;
while (n < nofelems) {i = 0;
while (i < nofptrs) {*p = off + ptab[i]; p++; i++;}
off += elemsz; n++;
}
*p = - (nptr + 1) * sizeof(long); /* sentinel */
x[-1] -= nptr * sizeof(long);
}
if (nofdyn != 0) {
/* setup len vector for index checks */
#ifdef __STDC__
va_start(ap, nofdyn);
#else
va_start(ap);
#endif
p = x;
while (nofdyn > 0) {*p = va_arg(ap, long); p++, nofdyn--;}
va_end(ap);
}
Unlock;
return x;
}
/* ----------- end of SYSTEM.co ------------- */

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#ifndef SYSTEM__h
#define SYSTEM__h
/*
the Ofront runtime system interface and macros library
copyright (c) Josef Templ, 1995, 1996
gcc for Linux version (same as SPARC/Solaris2)
uses double # as concatenation operator
*/
#include <alloca.h>
//extern void *memcpy(void *dest, const void *src, long n);
extern void *memcpy(void *dest, const void *src, size_t n);
extern void *malloc(long size);
extern void exit(int status);
#define export
#define import extern
/* constants */
#define __MAXEXT 16
#define NIL 0L
#define POINTER__typ (long*)1L /* not NIL and not a valid type */
/* basic types */
typedef char BOOLEAN;
typedef unsigned char CHAR;
typedef signed char SHORTINT;
typedef short int INTEGER;
typedef long LONGINT;
typedef float REAL;
typedef double LONGREAL;
typedef unsigned long SET;
typedef void *SYSTEM_PTR;
typedef unsigned char SYSTEM_BYTE;
/* runtime system routines */
extern long SYSTEM_DIV();
extern long SYSTEM_MOD();
extern long SYSTEM_ENTIER();
extern long SYSTEM_ASH();
extern long SYSTEM_ABS();
extern long SYSTEM_XCHK();
extern long SYSTEM_RCHK();
extern double SYSTEM_ABSD();
extern SYSTEM_PTR SYSTEM_NEWREC();
extern SYSTEM_PTR SYSTEM_NEWBLK();
#ifdef __STDC__
extern SYSTEM_PTR SYSTEM_NEWARR(long*, long, int, int, int, ...);
#else
extern SYSTEM_PTR SYSTEM_NEWARR();
#endif
extern SYSTEM_PTR SYSTEM_REGMOD();
extern void SYSTEM_INCREF();
extern void SYSTEM_REGCMD();
extern void SYSTEM_REGTYP();
extern void SYSTEM_REGFIN();
extern void SYSTEM_FINALL();
extern void SYSTEM_INIT();
extern void SYSTEM_FINI();
extern void SYSTEM_HALT();
extern void SYSTEM_INHERIT();
extern void SYSTEM_ENUMP();
extern void SYSTEM_ENUMR();
/* module registry */
#define __DEFMOD static void *m; if(m!=0)return m
#define __REGMOD(name, enum) if(m==0)m=SYSTEM_REGMOD((CHAR*)name,enum); else return m
#define __ENDMOD return m
#define __INIT(argc, argv) static void *m; SYSTEM_INIT(argc, (long)&argv);
#define __REGMAIN(name, enum) m=SYSTEM_REGMOD(name,enum)
#define __FINI SYSTEM_FINI(); return 0
#define __IMPORT(name) SYSTEM_INCREF(name##__init())
#define __REGCMD(name, cmd) SYSTEM_REGCMD(m, name, cmd)
/* SYSTEM ops */
#define __SYSNEW(p, len) p=SYSTEM_NEWBLK((long)(len))
#define __VAL(t, x) (*(t*)&(x))
#define __GET(a, x, t) x= *(t*)(a)
#define __PUT(a, x, t) *(t*)(a)=x
#define __LSHL(x, n, t) ((t)((unsigned)(x)<<(n)))
#define __LSHR(x, n, t) ((t)((unsigned)(x)>>(n)))
#define __LSH(x, n, t) ((n)>=0? __LSHL(x, n, t): __LSHR(x, -(n), t))
#define __ROTL(x, n, t) ((t)((unsigned)(x)<<(n)|(unsigned)(x)>>(8*sizeof(t)-(n))))
#define __ROTR(x, n, t) ((t)((unsigned)(x)>>(n)|(unsigned)(x)<<(8*sizeof(t)-(n))))
#define __ROT(x, n, t) ((n)>=0? __ROTL(x, n, t): __ROTR(x, -(n), t))
#define __BIT(x, n) (*(unsigned long*)(x)>>(n)&1)
#define __MOVE(s, d, n) memcpy((char*)(d),(char*)(s),n)
/* std procs and operator mappings */
#define __SHORT(x, y) ((int)((unsigned long)(x)+(y)<(y)+(y)?(x):(__HALT(-8),0)))
#define __SHORTF(x, y) ((int)(__RF((x)+(y),(y)+(y))-(y)))
#define __CHR(x) ((CHAR)__R(x, 256))
#define __CHRF(x) ((CHAR)__RF(x, 256))
#define __DIV(x, y) ((x)>=0?(x)/(y):-(((y)-1-(x))/(y)))
#define __DIVF(x, y) SYSTEM_DIV((long)(x),(long)(y))
#define __MOD(x, y) ((x)>=0?(x)%(y):__MODF(x,y))
#define __MODF(x, y) SYSTEM_MOD((long)(x),(long)(y))
#define __NEW(p, t) p=SYSTEM_NEWREC((long)t##__typ)
#define __NEWARR SYSTEM_NEWARR
#define __HALT(x) SYSTEM_HALT(x)
#define __ASSERT(cond, x) if (!(cond)) {SYSTEM_assert = x; SYSTEM_HALT(-1);}
#define __ENTIER(x) SYSTEM_ENTIER(x)
#define __ABS(x) (((x)<0)?-(x):(x))
#define __ABSF(x) SYSTEM_ABS((long)(x))
#define __ABSFD(x) SYSTEM_ABSD((double)(x))
#define __CAP(ch) ((CHAR)((ch)&0x5f))
#define __ODD(x) ((x)&1)
#define __IN(x, s) (((s)>>(x))&1)
#define __SETOF(x) ((SET)1<<(x))
#define __SETRNG(l, h) ((~(SET)0<<(l))&~(SET)0>>(8*sizeof(SET)-1-(h)))
#define __MASK(x, m) ((x)&~(m))
#define __COPY(s, d, n) {char*_a=(void*)s,*_b=(void*)d;long _i=0,_t=n-1;while(_i<_t&&((_b[_i]=_a[_i])!=0)){_i++;};_b[_i]=0;}
static int __STRCMP(x, y)
CHAR *x, *y;
{long i = 0; CHAR ch1, ch2;
do {ch1 = x[i]; ch2 = y[i]; i++;
if (!ch1) return -(int)ch2;
} while (ch1==ch2);
return (int)ch1 - (int)ch2;
}
#define __ASH(x, n) ((n)>=0?__ASHL(x,n):__ASHR(x,-(n)))
#define __ASHL(x, n) ((long)(x)<<(n))
#define __ASHR(x, n) ((long)(x)>>(n))
#define __ASHF(x, n) SYSTEM_ASH((long)(x), (long)(n))
#define __DUP(x, l, t) x=(void*)memcpy(alloca(l*sizeof(t)),x,l*sizeof(t))
#define __DUPARR(v, t) v=(void*)memcpy(v##__copy,v,sizeof(t))
#define __DEL(x) /* DUP with alloca frees storage automatically */
#define __IS(tag, typ, level) (*(tag-(__BASEOFF-level))==(long)typ##__typ)
#define __TYPEOF(p) (*(((long**)(p))-1))
#define __ISP(p, typ, level) __IS(__TYPEOF(p),typ,level)
/* runtime checks */
#define __X(i, ub) (((unsigned)(long)(i)<(unsigned long)(ub))?i:(__HALT(-2),0))
#define __XF(i, ub) SYSTEM_XCHK((long)(i), (long)(ub))
#define __RETCHK __retchk: __HALT(-3)
#define __CASECHK __HALT(-4)
#define __GUARDP(p, typ, level) ((typ*)(__ISP(p,typ,level)?p:(__HALT(-5),p)))
#define __GUARDR(r, typ, level) (*((typ*)(__IS(r##__typ,typ,level)?r:(__HALT(-5),r))))
#define __GUARDA(p, typ, level) ((struct typ*)(__IS(__TYPEOF(p),typ,level)?p:(__HALT(-5),p)))
#define __GUARDEQR(p, dyntyp, typ) if(dyntyp!=typ##__typ) __HALT(-6);*(p)
#define __GUARDEQP(p, typ) if(__TYPEOF(p)!=typ##__typ)__HALT(-6);*(p)
#define __WITHCHK __HALT(-7)
#define __R(i, ub) (((unsigned)(long)(i)<(unsigned long)(ub))?i:(__HALT(-8),0))
#define __RF(i, ub) SYSTEM_RCHK((long)(i),(long)(ub))
/* record type descriptors */
#define __TDESC(t, m, n) \
static struct t##__desc {\
long tproc[m]; \
long tag, next, level, module; \
char name[24]; \
long *base[__MAXEXT]; \
char *rsrvd; \
long blksz, ptr[n+1]; \
} t##__desc
#define __BASEOFF (__MAXEXT+1)
#define __TPROC0OFF (__BASEOFF+24/sizeof(long)+5)
#define __EOM 1
#define __TDFLDS(name, size) {__EOM}, 1, 0, 0, 0, name, {0}, 0, size
#define __ENUMP(adr, n, P) SYSTEM_ENUMP(adr, (long)(n), P)
#define __ENUMR(adr, typ, size, n, P) SYSTEM_ENUMR(adr, typ, (long)(size), (long)(n), P)
#define __INITYP(t, t0, level) \
t##__typ= &t##__desc.blksz; \
memcpy(t##__desc.base, t0##__typ - __BASEOFF, level*sizeof(long)); \
t##__desc.base[level]=t##__typ; \
t##__desc.module=(long)m; \
if(t##__desc.blksz!=sizeof(struct t)) __HALT(-15); \
t##__desc.blksz=(t##__desc.blksz+5*sizeof(long)-1)/(4*sizeof(long))*(4*sizeof(long)); \
SYSTEM_REGTYP(m, (long)&t##__desc.next); \
SYSTEM_INHERIT(t##__typ, t0##__typ)
/* Oberon-2 type bound procedures support */
#define __INITBP(t, proc, num) *(t##__typ-(__TPROC0OFF+num))=(long)proc
#define __SEND(typ, num, funtyp, parlist) ((funtyp)(*(typ-(__TPROC0OFF+num))))parlist
/* runtime system variables */
extern LONGINT SYSTEM_argc;
extern LONGINT SYSTEM_argv;
extern void (*SYSTEM_Halt)();
extern LONGINT SYSTEM_halt;
extern LONGINT SYSTEM_assert;
extern SYSTEM_PTR SYSTEM_modules;
extern LONGINT SYSTEM_heapsize;
extern LONGINT SYSTEM_allocated;
extern LONGINT SYSTEM_lock;
extern SHORTINT SYSTEM_gclock;
extern BOOLEAN SYSTEM_interrupted;
/* ANSI prototypes; not used so far
static int __STRCMP(CHAR *x, CHAR *y);
void SYSTEM_INIT(int argc, long argvadr);
void SYSTEM_FINI(void);
long SYSTEM_XCHK(long i, long ub);
long SYSTEM_RCHK(long i, long ub);
long SYSTEM_ASH(long i, long n);
long SYSTEM_ABS(long i);
double SYSTEM_ABSD(double i);
void SYSTEM_INHERIT(long *t, long *t0);
void SYSTEM_ENUMP(long *adr, long n, void (*P)(void*));
void SYSTEM_ENUMR(char *adr, long *typ, long size, long n, void (*P)(void*));
long SYSTEM_DIV(unsigned long x, unsigned long y);
long SYSTEM_MOD(unsigned long x, unsigned long y);
long SYSTEM_ENTIER(double x);
void SYSTEM_HALT(int n);
*/
#endif

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MODULE Unix; (* Josef Templ, 5.3.90 Linux system calls *)
(* system procedure added by noch *)
(* Module Unix provides a system call interface to Linux.
Naming conventions:
Procedure and Type-names always start with a capital letter.
error numbers as defined in Unix
other constants start with lower case letters *)
IMPORT SYSTEM;
CONST
(* various important constants *)
stdin* = 0; stdout* =1; stderr* = 2;
LOCKEX* = 2; LOCKUN* = 8; (* /usr/include/file.h *)
AFINET* = 2; (* /usr/include/sys/socket.h *)
PFINET* = AFINET; (* /usr/include/linux/socket.h *)
SOCKSTREAM* = 1; (* /usr/include/linux/socket.h *)
FIONREAD* = 541BH; (* in /usr/include/asm/termios.h *)
SETFL* = 4; (* set file descriptor flags; in asm/fcntl.h *)
TCP* = 0;
(* flag sets, cf. /usr/include/asm/fcntl.h *)
rdonly* = {}; wronly* = {0}; rdwr* = {1}; creat* = {6}; excl* = {7}; trunc* = {9}; append* = {10}; ndelay = {11};
(* error numbers *)
EPERM* = 1; (* Not owner *)
ENOENT* = 2; (* No such file or directory *)
ESRCH* = 3; (* No such process *)
EINTR* = 4; (* Interrupted system call *)
EIO* = 5; (* I/O error *)
ENXIO* = 6; (* No such device or address *)
E2BIG* = 7; (* Arg list too long *)
ENOEXEC* = 8; (* Exec format error *)
EBADF* = 9; (* Bad file number *)
ECHILD* = 10; (* No children *)
EAGAIN* = 11; (* No more processes *)
ENOMEM* = 12; (* Not enough core *)
EACCES* = 13; (* Permission denied *)
EFAULT* = 14; (* Bad address *)
ENOTBLK* = 15; (* Block device required *)
EBUSY* = 16; (* Mount device busy *)
EEXIST* = 17; (* File exists *)
EXDEV* = 18; (* Cross-device link *)
ENODEV* = 19; (* No such device *)
ENOTDIR* = 20; (* Not a directory*)
EISDIR* = 21; (* Is a directory *)
EINVAL* = 22; (* Invalid argument *)
ENFILE* = 23; (* File table overflow *)
EMFILE* = 24; (* Too many open files *)
ENOTTY* = 25; (* Not a typewriter *)
ETXTBSY* = 26; (* Text file busy *)
EFBIG* = 27; (* File too large *)
ENOSPC* = 28; (* No space left on device *)
ESPIPE* = 29; (* Illegal seek *)
EROFS* = 30; (* Read-only file system *)
EMLINK* = 31; (* Too many links *)
EPIPE* = 32; (* Broken pipe *)
EDOM* = 33; (* Argument too large *)
ERANGE* = 34; (* Result too large *)
EDEADLK* = 35; (* Resource deadlock would occur *)
ENAMETOOLONG* = 36; (* File name too long *)
ENOLCK* = 37; (* No record locks available *)
ENOSYS* = 38; (* Function not implemented *)
ENOTEMPTY* = 39; (* Directory not empty *)
ELOOP* = 40; (* Too many symbolic links encountered *)
EWOULDBLOCK* = EAGAIN; (* Operation would block *)
ENOMSG* = 42; (* No message of desired type *)
EIDRM* = 43; (* Identifier removed *)
ECHRNG* = 44; (* Channel number out of range *)
EL2NSYNC* = 45; (* Level 2 not synchronized *)
EL3HLT* = 46; (* Level 3 halted *)
EL3RST* = 47; (* Level 3 reset *)
ELNRNG* = 48; (* Link number out of range *)
EUNATCH* = 49; (* Protocol driver not attached *)
ENOCSI* = 50; (* No CSI structure available *)
EL2HLT* = 51; (* Level 2 halted *)
EBADE* = 52; (* Invalid exchange *)
EBADR* = 53; (* Invalid request descriptor *)
EXFULL* = 54; (* Exchange full *)
ENOANO* = 55; (* No anode *)
EBADRQC* = 56; (* Invalid request code *)
EBADSLT* = 57; (* Invalid slot *)
EDEADLOCK* = 58; (* File locking deadlock error *)
EBFONT* = 59; (* Bad font file format *)
ENOSTR* = 60; (* Device not a stream *)
ENODATA* = 61; (* No data available *)
ETIME* = 62; (* Timer expired *)
ENOSR* = 63; (* Out of streams resources *)
ENONET* = 64; (* Machine is not on the network *)
ENOPKG* = 65; (* Package not installed *)
EREMOTE* = 66; (* Object is remote *)
ENOLINK* = 67; (* Link has been severed *)
EADV* = 68; (* Advertise error *)
ESRMNT* = 69; (* Srmount error *)
ECOMM* = 70; (* Communication error on send *)
EPROTO* = 71; (* Protocol error *)
EMULTIHOP* = 72; (* Multihop attempted *)
EDOTDOT* = 73; (* RFS specific error *)
EBADMSG* = 74; (* Not a data message *)
EOVERFLOW* = 75; (* Value too large for defined data type *)
ENOTUNIQ* = 76; (* Name not unique on network *)
EBADFD* = 77; (* File descriptor in bad state *)
EREMCHG* = 78; (* Remote address changed *)
ELIBACC* = 79; (* Can not access a needed shared library *)
ELIBBAD* = 80; (* Accessing a corrupted shared library *)
ELIBSCN* = 81; (* .lib section in a.out corrupted *)
ELIBMAX* = 82; (* Attempting to link in too many shared libraries *)
ELIBEXEC* = 83; (* Cannot exec a shared library directly *)
EILSEQ* = 84; (* Illegal byte sequence *)
ERESTART* = 85; (* Interrupted system call should be restarted *)
ESTRPIPE* = 86; (* Streams pipe error *)
EUSERS* = 87; (* Too many users *)
ENOTSOCK* = 88; (* Socket operation on non-socket *)
EDESTADDRREQ* = 89; (* Destination address required *)
EMSGSIZE* = 90; (* Message too long *)
EPROTOTYPE* = 91; (* Protocol wrong type for socket *)
ENOPROTOOPT* = 92; (* Protocol not available *)
EPROTONOSUPPORT* = 93; (* Protocol not supported *)
ESOCKTNOSUPPORT* = 94; (* Socket type not supported *)
EOPNOTSUPP* = 95; (* Operation not supported on transport endpoint *)
EPFNOSUPPORT* = 96; (* Protocol family not supported *)
EAFNOSUPPORT* = 97; (* Address family not supported by protocol *)
EADDRINUSE* = 98; (* Address already in use *)
EADDRNOTAVAIL* = 99; (* Cannot assign requested address *)
ENETDOWN* = 100; (* Network is down *)
ENETUNREACH* = 101; (* Network is unreachable *)
ENETRESET* = 102; (* Network dropped connection because of reset *)
ECONNABORTED* = 103; (* Software caused connection abort *)
ECONNRESET* = 104; (* Connection reset by peer *)
ENOBUFS* = 105; (* No buffer space available *)
EISCONN* = 106; (* Transport endpoint is already connected *)
ENOTCONN* = 107; (* Transport endpoint is not connected *)
ESHUTDOWN* = 108; (* Cannot send after transport endpoint shutdown *)
ETOOMANYREFS* = 109; (* Too many references: cannot splice *)
ETIMEDOUT* = 110; (* Connection timed out *)
ECONNREFUSED* = 111; (* Connection refused *)
EHOSTDOWN* = 112; (* Host is down *)
EHOSTUNREACH* = 113; (* No route to host *)
EALREADY* = 114; (* Operation already in progress *)
EINPROGRESS* = 115; (* Operation now in progress *)
ESTALE* = 116; (* Stale NFS file handle *)
EUCLEAN* = 117; (* Structure needs cleaning *)
ENOTNAM* = 118; (* Not a XENIX named type file *)
ENAVAIL* = 119; (* No XENIX semaphores available *)
EISNAM* = 120; (* Is a named type file *)
EREMOTEIO* = 121; (* Remote I/O error *)
EDQUOT* = 122; (* Quota exceeded *)
TYPE
JmpBuf* = RECORD
bx*, si*, di*, bp*, sp*, pc*: LONGINT;
maskWasSaved*, savedMask*: LONGINT;
END ;
Status* = RECORD (* struct stat *)
dev*, devX*: LONGINT; (* 64 bit in Linux 2.2 *)
pad1: INTEGER;
ino*, mode*, nlink*, uid*, gid*: LONGINT;
rdev*, rdevX*: LONGINT; (* 64 bit in Linux 2.2 *)
pad2: INTEGER;
size*, blksize*, blocks*, atime*, unused1*, mtime*, unused2*, ctime*,
unused3*, unused4*, unused5*: LONGINT;
END ;
Timeval* = RECORD
sec*, usec*: LONGINT
END ;
Timezone* = RECORD
minuteswest*, dsttime*: LONGINT
END ;
Itimerval* = RECORD
interval*, value*: Timeval
END ;
FdSet* = ARRAY 8 OF SET;
SigCtxPtr* = POINTER TO SigContext;
SigContext* = RECORD
END ;
SignalHandler* = PROCEDURE (sig, code: LONGINT; scp: SigCtxPtr);
Dirent* = RECORD
ino, off: LONGINT;
reclen: INTEGER;
name: ARRAY 256 OF CHAR;
END ;
Rusage* = RECORD
utime*, stime*: Timeval;
maxrss*, ixrss*, idrss*, isrss*,
minflt*, majflt*, nswap*, inblock*,
oublock*, msgsnd*, msgrcv*, nsignals*,
nvcsw*, nivcsw*: LONGINT
END ;
Iovec* = RECORD
base*, len*: LONGINT
END ;
SocketPair* = ARRAY 2 OF LONGINT;
Pollfd* = RECORD
fd*: LONGINT;
events*, revents*: INTEGER
END ;
Sockaddr* = RECORD
family*: INTEGER;
port*: INTEGER;
internetAddr*: LONGINT;
pad*: ARRAY 8 OF CHAR;
END ;
HostEntry* = POINTER [1] TO Hostent;
Hostent* = RECORD
name*, aliases*: LONGINT;
addrtype*, length*: LONGINT;
addrlist*: LONGINT; (*POINTER TO POINTER TO LONGINT, network byte order*)
END;
Name* = ARRAY OF CHAR;
PROCEDURE -includeStat()
"#include <sys/stat.h>";
PROCEDURE -includeErrno()
"#include <errno.h>";
PROCEDURE -err(): LONGINT
"errno";
PROCEDURE errno*(): LONGINT;
BEGIN
RETURN err()
END errno;
PROCEDURE -Exit*(n: LONGINT)
"exit(n)";
PROCEDURE -Fork*(): LONGINT
"fork()";
PROCEDURE -Wait*(VAR status: LONGINT): LONGINT
"wait(status)";
PROCEDURE -Select*(width: LONGINT; VAR readfds, writefds, exceptfds: FdSet; VAR timeout: Timeval): LONGINT
"select(width, readfds, writefds, exceptfds, timeout)";
PROCEDURE -Gettimeofday* (VAR tv: Timeval; VAR tz: Timezone)
"gettimeofday(tv, tz)";
PROCEDURE -Read* (fd, buf, nbyte: LONGINT): LONGINT
"read(fd, buf, nbyte)";
PROCEDURE -ReadBlk* (fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE): LONGINT
"read(fd, buf, buf__len)";
PROCEDURE -Write* (fd, buf, nbyte: LONGINT): LONGINT
"write(fd, buf, nbyte)";
PROCEDURE -WriteBlk* (fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE): LONGINT
"write(fd, buf, buf__len)";
PROCEDURE -Dup*(fd: LONGINT): LONGINT
"dup(fd)";
PROCEDURE -Dup2*(fd1, fd2: LONGINT): LONGINT
"dup(fd1, fd2)";
PROCEDURE -Getpid*(): LONGINT
"getpid()";
PROCEDURE -Getuid*(): LONGINT
"getuid()";
PROCEDURE -Geteuid*(): LONGINT
"geteuid()";
PROCEDURE -Getgid*(): LONGINT
"getgid()";
PROCEDURE -Getegid*(): LONGINT
"getegid()";
PROCEDURE -Unlink*(name: Name): LONGINT
"unlink(name)";
PROCEDURE -Open*(name: Name; flag, mode: SET): LONGINT
"open(name, flag, mode)";
PROCEDURE -Close*(fd: LONGINT): LONGINT
"close(fd)";
PROCEDURE -stat(name: Name; VAR statbuf: Status): LONGINT
"stat((const char*)name, (struct stat*)statbuf)";
PROCEDURE Stat*(name: Name; VAR statbuf: Status): LONGINT;
VAR res: LONGINT;
BEGIN
res := stat(name, statbuf);
(* make the first 4 bytes as unique as possible (used in module Files for caching!) *)
INC(statbuf.dev, statbuf.devX);
INC(statbuf.rdev, statbuf.rdevX);
RETURN res;
END Stat;
PROCEDURE -fstat(fd: LONGINT; VAR statbuf: Status): LONGINT
"fstat(fd, (struct stat*)statbuf)";
PROCEDURE Fstat*(fd: LONGINT; VAR statbuf: Status): LONGINT;
VAR res: LONGINT;
BEGIN
res := fstat(fd, statbuf);
(* make the first 4 bytes as unique as possible (used in module Files for caching!) *)
INC(statbuf.dev, statbuf.devX);
INC(statbuf.rdev, statbuf.rdevX);
RETURN res;
END Fstat;
PROCEDURE -Fchmod*(fd, mode: LONGINT): LONGINT
"fchmod(fd, mode)";
PROCEDURE -Chmod*(path: Name; mode: LONGINT): LONGINT
"chmod(path, mode)";
PROCEDURE -Lseek*(fd, offset, origin: LONGINT): LONGINT
"lseek(fd, offset, origin)";
PROCEDURE -Fsync*(fd: LONGINT): LONGINT
"fsync(fd)";
PROCEDURE -Fcntl*(fd, cmd, arg: LONGINT ): LONGINT
"fcntl(fd, cmd, arg)";
PROCEDURE -Flock*(fd, operation: LONGINT): LONGINT
"flock(fd, operation)";
PROCEDURE -Ftruncate*(fd, length: LONGINT): LONGINT
"ftruncate(fd, length)";
PROCEDURE -Readblk*(fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE; len: LONGINT): LONGINT
"read(fd, buf, len)";
PROCEDURE -Rename*(old, new: Name): LONGINT
"rename(old, new)";
PROCEDURE -Chdir*(path: Name): LONGINT
"chdir(path)";
PROCEDURE -Ioctl*(fd, request, arg: LONGINT): LONGINT
"ioctl(fd, request, arg)";
PROCEDURE -Kill*(pid, sig: LONGINT): LONGINT
"kill(pid, sig)";
PROCEDURE -Sigsetmask*(mask: LONGINT): LONGINT
"sigsetmask(mask)";
(* TCP/IP networking *)
PROCEDURE -Gethostbyname*(name: Name): HostEntry
"(Unix_HostEntry)gethostbyname(name)";
PROCEDURE -Gethostname*(VAR name: Name): LONGINT
"gethostname(name, name__len)";
PROCEDURE -Socket*(af, type, protocol: LONGINT): LONGINT
"socket(af, type, protocol)";
PROCEDURE -Connect*(socket: LONGINT; name: Sockaddr; namelen: LONGINT): LONGINT
"connect(socket, &(name), namelen)";
PROCEDURE -Getsockname*(socket: LONGINT; VAR name: Sockaddr; VAR namelen: LONGINT): LONGINT
"getsockname(socket, name, namelen)";
PROCEDURE -Bind*(socket: LONGINT; name: Sockaddr; namelen: LONGINT): LONGINT
"bind(socket, &(name), namelen)";
PROCEDURE -Listen*(socket, backlog: LONGINT): LONGINT
"listen(socket, backlog)";
PROCEDURE -Accept*(socket: LONGINT; VAR addr: Sockaddr; VAR addrlen: LONGINT): LONGINT
"accept(socket, addr, addrlen)";
PROCEDURE -Recv*(socket, bufadr, buflen, flags: LONGINT): LONGINT
"recv(socket, bufadr, buflen, flags)";
PROCEDURE -Send*(socket, bufadr, buflen, flags: LONGINT): LONGINT
"send(socket, bufadr, buflen, flags)";
PROCEDURE -sys(str: ARRAY OF CHAR): INTEGER (* need this to call external tools like gcc or gas; noch *)
"system(str)";
PROCEDURE system*(cmd : ARRAY OF CHAR);
VAR r : INTEGER;
BEGIN
r := sys(cmd);
END system;
END Unix.

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MODULE Args; (* jt, 8.12.94 *)
(* command line argument handling for ofront *)
IMPORT SYSTEM;
TYPE
ArgPtr = POINTER TO ARRAY 1024 OF CHAR;
ArgVec = POINTER TO ARRAY 1024 OF ArgPtr;
VAR argc-, argv-: LONGINT;
PROCEDURE -Argc(): INTEGER "SYSTEM_argc";
PROCEDURE -Argv(): LONGINT "(long)SYSTEM_argv";
PROCEDURE -getenv(var: ARRAY OF CHAR): ArgPtr
"(Args_ArgPtr)getenv(var)";
PROCEDURE Get*(n: INTEGER; VAR val: ARRAY OF CHAR);
VAR av: ArgVec;
BEGIN
IF n < argc THEN av := SYSTEM.VAL(ArgVec, argv); COPY(av[n]^, val) END
END Get;
PROCEDURE GetInt*(n: INTEGER; VAR val: LONGINT);
VAR s: ARRAY 64 OF CHAR; k, d, i: LONGINT;
BEGIN
s := ""; Get(n, s); i := 0;
IF s[0] = "-" THEN i := 1 END ;
k := 0; d := ORD(s[i]) - ORD("0");
WHILE (d >= 0 ) & (d <= 9) DO k := k*10 + d; INC(i); d := ORD(s[i]) - ORD("0") END ;
IF s[0] = "-" THEN d := -d; DEC(i) END ;
IF i > 0 THEN val := k END
END GetInt;
PROCEDURE Pos*(s: ARRAY OF CHAR): INTEGER;
VAR i: INTEGER; arg: ARRAY 256 OF CHAR;
BEGIN
i := 0; Get(i, arg);
WHILE (i < argc) & (s # arg) DO INC(i); Get(i, arg) END ;
RETURN i
END Pos;
PROCEDURE GetEnv*(var: ARRAY OF CHAR; VAR val: ARRAY OF CHAR);
VAR p: ArgPtr;
BEGIN
p := getenv(var);
IF p # NIL THEN COPY(p^, val) END
END GetEnv;
BEGIN argc := Argc(); argv := Argv()
END Args.

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/*
* The body prefix file of the Ofront runtime system, Version 1.0
*
* Copyright (c) Software Templ, 1994, 1995
*
* Module SYSTEM is subject to change any time without prior notification.
* Software Templ disclaims all warranties with regard to module SYSTEM,
* in particular shall Software Templ not be liable for any damage resulting
* from inappropriate use or modification of module SYSTEM.
*
* Version 1.1 jt, 24.11.95 fixes for correct pointer arithmetic on Cray computers
* jt 31.1.2007 ANSI prototypes for malloc and exit in order to avoid cc warnings
*
*/
#include "SYSTEM.h"
#ifdef __STDC__
#include "stdarg.h"
#else
#include "varargs.h"
#endif
extern void *malloc(long size);
extern void exit(int status);
void (*SYSTEM_Halt)();
LONGINT SYSTEM_halt; /* x in HALT(x) */
LONGINT SYSTEM_assert; /* x in ASSERT(cond, x) */
LONGINT SYSTEM_argc;
LONGINT SYSTEM_argv;
LONGINT SYSTEM_lock;
BOOLEAN SYSTEM_interrupted;
static LONGINT SYSTEM_mainfrm; /* adr of main proc stack frame, used for stack collection */
#define Lock SYSTEM_lock++
#define Unlock SYSTEM_lock--; if (SYSTEM_interrupted && (SYSTEM_lock == 0)) __HALT(-9)
static void SYSTEM_InitHeap();
void *SYSTEM__init();
void SYSTEM_INIT(argc, argvadr)
int argc; long argvadr;
{
SYSTEM_mainfrm = argvadr;
SYSTEM_argc = argc;
SYSTEM_argv = *(long*)argvadr;
SYSTEM_InitHeap();
SYSTEM_halt = -128;
SYSTEM__init();
}
void SYSTEM_FINI()
{
SYSTEM_FINALL();
}
long SYSTEM_XCHK(i, ub) long i, ub; {return __X(i, ub);}
long SYSTEM_RCHK(i, ub) long i, ub; {return __R(i, ub);}
long SYSTEM_ASH(i, n) long i, n; {return __ASH(i, n);}
long SYSTEM_ABS(i) long i; {return __ABS(i);}
double SYSTEM_ABSD(i) double i; {return __ABS(i);}
void SYSTEM_INHERIT(t, t0)
long *t, *t0;
{
t -= __TPROC0OFF;
t0 -= __TPROC0OFF;
while (*t0 != __EOM) {*t = *t0; t--; t0--;}
}
void SYSTEM_ENUMP(adr, n, P)
long *adr;
long n;
void (*P)();
{
while (n > 0) {P(*adr); adr++; n--;}
}
void SYSTEM_ENUMR(adr, typ, size, n, P)
char *adr;
long *typ, size, n;
void (*P)();
{
long *t, off;
typ++;
while (n > 0) {
t = typ;
off = *t;
while (off >= 0) {P(*(long*)(adr+off)); t++; off = *t;}
adr += size; n--;
}
}
long SYSTEM_DIV(x, y)
unsigned long x, y;
{ if ((long) x >= 0) return (x / y);
else return -((y - 1 - x) / y);
}
long SYSTEM_MOD(x, y)
unsigned long x, y;
{ unsigned long m;
if ((long) x >= 0) return (x % y);
else { m = (-x) % y;
if (m != 0) return (y - m); else return 0;
}
}
long SYSTEM_ENTIER(x)
double x;
{
long y;
if (x >= 0)
return (long)x;
else {
y = (long)x;
if (y <= x) return y; else return y - 1;
}
}
void SYSTEM_HALT(n)
int n;
{
SYSTEM_halt = n;
if (SYSTEM_Halt!=0) SYSTEM_Halt(n);
exit(n);
}
#ifdef __STDC__
SYSTEM_PTR SYSTEM_NEWARR(long *typ, long elemsz, int elemalgn, int nofdim, int nofdyn, ...)
#else
SYSTEM_PTR SYSTEM_NEWARR(typ, elemsz, elemalgn, nofdim, nofdyn, va_alist)
long *typ, elemsz;
int elemalgn, nofdim, nofdyn;
va_dcl
#endif
{
long nofelems, size, dataoff, n, nptr, *x, *p, nofptrs, i, *ptab, off;
va_list ap;
#ifdef __STDC__
va_start(ap, nofdyn);
#else
va_start(ap);
#endif
nofelems = 1;
while (nofdim > 0) {
nofelems = nofelems * va_arg(ap, long); nofdim--;
if (nofelems <= 0) __HALT(-20);
}
va_end(ap);
dataoff = nofdyn * sizeof(long);
if (elemalgn > sizeof(long)) {
n = dataoff % elemalgn;
if (n != 0) dataoff += elemalgn - n;
}
size = dataoff + nofelems * elemsz;
Lock;
if (typ == NIL) {
/* element typ does not contain pointers */
x = SYSTEM_NEWBLK(size);
}
else if (typ == POINTER__typ) {
/* element type is a pointer */
x = SYSTEM_NEWBLK(size + nofelems * sizeof(long));
p = (long*)x[-1];
p[-nofelems] = *p; /* build new type desc in situ: 1. copy block size; 2. setup ptr tab; 3. set sentinel; 4. patch tag */
p -= nofelems - 1; n = 1; /* n =1 for skipping the size field */
while (n <= nofelems) {*p = n*sizeof(long); p++; n++;}
*p = - (nofelems + 1) * sizeof(long); /* sentinel */
x[-1] -= nofelems * sizeof(long);
}
else {
/* element type is a record that contains pointers */
ptab = typ + 1; nofptrs = 0;
while (ptab[nofptrs] >= 0) {nofptrs++;} /* number of pointers per element */
nptr = nofelems * nofptrs; /* total number of pointers */
x = SYSTEM_NEWBLK(size + nptr * sizeof(long));
p = (long*)x[- 1];
p[-nptr] = *p; /* build new type desc in situ; 1. copy block size; 2. setup ptr tab; 3. set sentinel; 4. patch tag */
p -= nptr - 1; n = 0; off = dataoff;
while (n < nofelems) {i = 0;
while (i < nofptrs) {*p = off + ptab[i]; p++; i++;}
off += elemsz; n++;
}
*p = - (nptr + 1) * sizeof(long); /* sentinel */
x[-1] -= nptr * sizeof(long);
}
if (nofdyn != 0) {
/* setup len vector for index checks */
#ifdef __STDC__
va_start(ap, nofdyn);
#else
va_start(ap);
#endif
p = x;
while (nofdyn > 0) {*p = va_arg(ap, long); p++, nofdyn--;}
va_end(ap);
}
Unlock;
return x;
}
/* ----------- end of SYSTEM.co ------------- */

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#ifndef SYSTEM__h
#define SYSTEM__h
/*
the Ofront runtime system interface and macros library
copyright (c) Josef Templ, 1995, 1996
gcc for Linux version (same as SPARC/Solaris2)
uses double # as concatenation operator
*/
#include <alloca.h>
//extern void *memcpy(void *dest, const void *src, long n);
extern void *memcpy(void *dest, const void *src, size_t n);
extern void *malloc(long size);
extern void exit(int status);
#define export
#define import extern
/* constants */
#define __MAXEXT 16
#define NIL 0L
#define POINTER__typ (long*)1L /* not NIL and not a valid type */
/* basic types */
typedef char BOOLEAN;
typedef unsigned char CHAR;
typedef signed char SHORTINT;
typedef short int INTEGER;
typedef long LONGINT;
typedef float REAL;
typedef double LONGREAL;
typedef unsigned long SET;
typedef void *SYSTEM_PTR;
typedef unsigned char SYSTEM_BYTE;
/* runtime system routines */
extern long SYSTEM_DIV();
extern long SYSTEM_MOD();
extern long SYSTEM_ENTIER();
extern long SYSTEM_ASH();
extern long SYSTEM_ABS();
extern long SYSTEM_XCHK();
extern long SYSTEM_RCHK();
extern double SYSTEM_ABSD();
extern SYSTEM_PTR SYSTEM_NEWREC();
extern SYSTEM_PTR SYSTEM_NEWBLK();
#ifdef __STDC__
extern SYSTEM_PTR SYSTEM_NEWARR(long*, long, int, int, int, ...);
#else
extern SYSTEM_PTR SYSTEM_NEWARR();
#endif
extern SYSTEM_PTR SYSTEM_REGMOD();
extern void SYSTEM_INCREF();
extern void SYSTEM_REGCMD();
extern void SYSTEM_REGTYP();
extern void SYSTEM_REGFIN();
extern void SYSTEM_FINALL();
extern void SYSTEM_INIT();
extern void SYSTEM_FINI();
extern void SYSTEM_HALT();
extern void SYSTEM_INHERIT();
extern void SYSTEM_ENUMP();
extern void SYSTEM_ENUMR();
/* module registry */
#define __DEFMOD static void *m; if(m!=0)return m
#define __REGMOD(name, enum) if(m==0)m=SYSTEM_REGMOD((CHAR*)name,enum); else return m
#define __ENDMOD return m
#define __INIT(argc, argv) static void *m; SYSTEM_INIT(argc, (long)&argv);
#define __REGMAIN(name, enum) m=SYSTEM_REGMOD(name,enum)
#define __FINI SYSTEM_FINI(); return 0
#define __IMPORT(name) SYSTEM_INCREF(name##__init())
#define __REGCMD(name, cmd) SYSTEM_REGCMD(m, name, cmd)
/* SYSTEM ops */
#define __SYSNEW(p, len) p=SYSTEM_NEWBLK((long)(len))
#define __VAL(t, x) (*(t*)&(x))
#define __GET(a, x, t) x= *(t*)(a)
#define __PUT(a, x, t) *(t*)(a)=x
#define __LSHL(x, n, t) ((t)((unsigned)(x)<<(n)))
#define __LSHR(x, n, t) ((t)((unsigned)(x)>>(n)))
#define __LSH(x, n, t) ((n)>=0? __LSHL(x, n, t): __LSHR(x, -(n), t))
#define __ROTL(x, n, t) ((t)((unsigned)(x)<<(n)|(unsigned)(x)>>(8*sizeof(t)-(n))))
#define __ROTR(x, n, t) ((t)((unsigned)(x)>>(n)|(unsigned)(x)<<(8*sizeof(t)-(n))))
#define __ROT(x, n, t) ((n)>=0? __ROTL(x, n, t): __ROTR(x, -(n), t))
#define __BIT(x, n) (*(unsigned long*)(x)>>(n)&1)
#define __MOVE(s, d, n) memcpy((char*)(d),(char*)(s),n)
/* std procs and operator mappings */
#define __SHORT(x, y) ((int)((unsigned long)(x)+(y)<(y)+(y)?(x):(__HALT(-8),0)))
#define __SHORTF(x, y) ((int)(__RF((x)+(y),(y)+(y))-(y)))
#define __CHR(x) ((CHAR)__R(x, 256))
#define __CHRF(x) ((CHAR)__RF(x, 256))
#define __DIV(x, y) ((x)>=0?(x)/(y):-(((y)-1-(x))/(y)))
#define __DIVF(x, y) SYSTEM_DIV((long)(x),(long)(y))
#define __MOD(x, y) ((x)>=0?(x)%(y):__MODF(x,y))
#define __MODF(x, y) SYSTEM_MOD((long)(x),(long)(y))
#define __NEW(p, t) p=SYSTEM_NEWREC((long)t##__typ)
#define __NEWARR SYSTEM_NEWARR
#define __HALT(x) SYSTEM_HALT(x)
#define __ASSERT(cond, x) if (!(cond)) {SYSTEM_assert = x; SYSTEM_HALT(-1);}
#define __ENTIER(x) SYSTEM_ENTIER(x)
#define __ABS(x) (((x)<0)?-(x):(x))
#define __ABSF(x) SYSTEM_ABS((long)(x))
#define __ABSFD(x) SYSTEM_ABSD((double)(x))
#define __CAP(ch) ((CHAR)((ch)&0x5f))
#define __ODD(x) ((x)&1)
#define __IN(x, s) (((s)>>(x))&1)
#define __SETOF(x) ((SET)1<<(x))
#define __SETRNG(l, h) ((~(SET)0<<(l))&~(SET)0>>(8*sizeof(SET)-1-(h)))
#define __MASK(x, m) ((x)&~(m))
#define __COPY(s, d, n) {char*_a=(void*)s,*_b=(void*)d;long _i=0,_t=n-1;while(_i<_t&&((_b[_i]=_a[_i])!=0)){_i++;};_b[_i]=0;}
static int __STRCMP(x, y)
CHAR *x, *y;
{long i = 0; CHAR ch1, ch2;
do {ch1 = x[i]; ch2 = y[i]; i++;
if (!ch1) return -(int)ch2;
} while (ch1==ch2);
return (int)ch1 - (int)ch2;
}
#define __ASH(x, n) ((n)>=0?__ASHL(x,n):__ASHR(x,-(n)))
#define __ASHL(x, n) ((long)(x)<<(n))
#define __ASHR(x, n) ((long)(x)>>(n))
#define __ASHF(x, n) SYSTEM_ASH((long)(x), (long)(n))
#define __DUP(x, l, t) x=(void*)memcpy(alloca(l*sizeof(t)),x,l*sizeof(t))
#define __DUPARR(v, t) v=(void*)memcpy(v##__copy,v,sizeof(t))
#define __DEL(x) /* DUP with alloca frees storage automatically */
#define __IS(tag, typ, level) (*(tag-(__BASEOFF-level))==(long)typ##__typ)
#define __TYPEOF(p) (*(((long**)(p))-1))
#define __ISP(p, typ, level) __IS(__TYPEOF(p),typ,level)
/* runtime checks */
#define __X(i, ub) (((unsigned)(long)(i)<(unsigned long)(ub))?i:(__HALT(-2),0))
#define __XF(i, ub) SYSTEM_XCHK((long)(i), (long)(ub))
#define __RETCHK __retchk: __HALT(-3)
#define __CASECHK __HALT(-4)
#define __GUARDP(p, typ, level) ((typ*)(__ISP(p,typ,level)?p:(__HALT(-5),p)))
#define __GUARDR(r, typ, level) (*((typ*)(__IS(r##__typ,typ,level)?r:(__HALT(-5),r))))
#define __GUARDA(p, typ, level) ((struct typ*)(__IS(__TYPEOF(p),typ,level)?p:(__HALT(-5),p)))
#define __GUARDEQR(p, dyntyp, typ) if(dyntyp!=typ##__typ) __HALT(-6);*(p)
#define __GUARDEQP(p, typ) if(__TYPEOF(p)!=typ##__typ)__HALT(-6);*(p)
#define __WITHCHK __HALT(-7)
#define __R(i, ub) (((unsigned)(long)(i)<(unsigned long)(ub))?i:(__HALT(-8),0))
#define __RF(i, ub) SYSTEM_RCHK((long)(i),(long)(ub))
/* record type descriptors */
#define __TDESC(t, m, n) \
static struct t##__desc {\
long tproc[m]; \
long tag, next, level, module; \
char name[24]; \
long *base[__MAXEXT]; \
char *rsrvd; \
long blksz, ptr[n+1]; \
} t##__desc
#define __BASEOFF (__MAXEXT+1)
#define __TPROC0OFF (__BASEOFF+24/sizeof(long)+5)
#define __EOM 1
#define __TDFLDS(name, size) {__EOM}, 1, 0, 0, 0, name, {0}, 0, size
#define __ENUMP(adr, n, P) SYSTEM_ENUMP(adr, (long)(n), P)
#define __ENUMR(adr, typ, size, n, P) SYSTEM_ENUMR(adr, typ, (long)(size), (long)(n), P)
#define __INITYP(t, t0, level) \
t##__typ= &t##__desc.blksz; \
memcpy(t##__desc.base, t0##__typ - __BASEOFF, level*sizeof(long)); \
t##__desc.base[level]=t##__typ; \
t##__desc.module=(long)m; \
if(t##__desc.blksz!=sizeof(struct t)) __HALT(-15); \
t##__desc.blksz=(t##__desc.blksz+5*sizeof(long)-1)/(4*sizeof(long))*(4*sizeof(long)); \
SYSTEM_REGTYP(m, (long)&t##__desc.next); \
SYSTEM_INHERIT(t##__typ, t0##__typ)
/* Oberon-2 type bound procedures support */
#define __INITBP(t, proc, num) *(t##__typ-(__TPROC0OFF+num))=(long)proc
#define __SEND(typ, num, funtyp, parlist) ((funtyp)(*(typ-(__TPROC0OFF+num))))parlist
/* runtime system variables */
extern LONGINT SYSTEM_argc;
extern LONGINT SYSTEM_argv;
extern void (*SYSTEM_Halt)();
extern LONGINT SYSTEM_halt;
extern LONGINT SYSTEM_assert;
extern SYSTEM_PTR SYSTEM_modules;
extern LONGINT SYSTEM_heapsize;
extern LONGINT SYSTEM_allocated;
extern LONGINT SYSTEM_lock;
extern SHORTINT SYSTEM_gclock;
extern BOOLEAN SYSTEM_interrupted;
/* ANSI prototypes; not used so far
static int __STRCMP(CHAR *x, CHAR *y);
void SYSTEM_INIT(int argc, long argvadr);
void SYSTEM_FINI(void);
long SYSTEM_XCHK(long i, long ub);
long SYSTEM_RCHK(long i, long ub);
long SYSTEM_ASH(long i, long n);
long SYSTEM_ABS(long i);
double SYSTEM_ABSD(double i);
void SYSTEM_INHERIT(long *t, long *t0);
void SYSTEM_ENUMP(long *adr, long n, void (*P)(void*));
void SYSTEM_ENUMR(char *adr, long *typ, long size, long n, void (*P)(void*));
long SYSTEM_DIV(unsigned long x, unsigned long y);
long SYSTEM_MOD(unsigned long x, unsigned long y);
long SYSTEM_ENTIER(double x);
void SYSTEM_HALT(int n);
*/
#endif

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MODULE Unix; (* Josef Templ, 5.3.90 Linux system calls *)
(* system procedure added by noch *)
(* Module Unix provides a system call interface to Linux.
Naming conventions:
Procedure and Type-names always start with a capital letter.
error numbers as defined in Unix
other constants start with lower case letters *)
IMPORT SYSTEM;
CONST
(* various important constants *)
stdin* = 0; stdout* =1; stderr* = 2;
LOCKEX* = 2; LOCKUN* = 8; (* /usr/include/file.h *)
AFINET* = 2; (* /usr/include/sys/socket.h *)
PFINET* = AFINET; (* /usr/include/linux/socket.h *)
SOCKSTREAM* = 1; (* /usr/include/linux/socket.h *)
FIONREAD* = 541BH; (* in /usr/include/asm/termios.h *)
SETFL* = 4; (* set file descriptor flags; in asm/fcntl.h *)
TCP* = 0;
(* flag sets, cf. /usr/include/asm/fcntl.h *)
rdonly* = {}; wronly* = {0}; rdwr* = {1}; creat* = {6}; excl* = {7}; trunc* = {9}; append* = {10}; ndelay = {11};
(* error numbers *)
EPERM* = 1; (* Not owner *)
ENOENT* = 2; (* No such file or directory *)
ESRCH* = 3; (* No such process *)
EINTR* = 4; (* Interrupted system call *)
EIO* = 5; (* I/O error *)
ENXIO* = 6; (* No such device or address *)
E2BIG* = 7; (* Arg list too long *)
ENOEXEC* = 8; (* Exec format error *)
EBADF* = 9; (* Bad file number *)
ECHILD* = 10; (* No children *)
EAGAIN* = 11; (* No more processes *)
ENOMEM* = 12; (* Not enough core *)
EACCES* = 13; (* Permission denied *)
EFAULT* = 14; (* Bad address *)
ENOTBLK* = 15; (* Block device required *)
EBUSY* = 16; (* Mount device busy *)
EEXIST* = 17; (* File exists *)
EXDEV* = 18; (* Cross-device link *)
ENODEV* = 19; (* No such device *)
ENOTDIR* = 20; (* Not a directory*)
EISDIR* = 21; (* Is a directory *)
EINVAL* = 22; (* Invalid argument *)
ENFILE* = 23; (* File table overflow *)
EMFILE* = 24; (* Too many open files *)
ENOTTY* = 25; (* Not a typewriter *)
ETXTBSY* = 26; (* Text file busy *)
EFBIG* = 27; (* File too large *)
ENOSPC* = 28; (* No space left on device *)
ESPIPE* = 29; (* Illegal seek *)
EROFS* = 30; (* Read-only file system *)
EMLINK* = 31; (* Too many links *)
EPIPE* = 32; (* Broken pipe *)
EDOM* = 33; (* Argument too large *)
ERANGE* = 34; (* Result too large *)
EDEADLK* = 35; (* Resource deadlock would occur *)
ENAMETOOLONG* = 36; (* File name too long *)
ENOLCK* = 37; (* No record locks available *)
ENOSYS* = 38; (* Function not implemented *)
ENOTEMPTY* = 39; (* Directory not empty *)
ELOOP* = 40; (* Too many symbolic links encountered *)
EWOULDBLOCK* = EAGAIN; (* Operation would block *)
ENOMSG* = 42; (* No message of desired type *)
EIDRM* = 43; (* Identifier removed *)
ECHRNG* = 44; (* Channel number out of range *)
EL2NSYNC* = 45; (* Level 2 not synchronized *)
EL3HLT* = 46; (* Level 3 halted *)
EL3RST* = 47; (* Level 3 reset *)
ELNRNG* = 48; (* Link number out of range *)
EUNATCH* = 49; (* Protocol driver not attached *)
ENOCSI* = 50; (* No CSI structure available *)
EL2HLT* = 51; (* Level 2 halted *)
EBADE* = 52; (* Invalid exchange *)
EBADR* = 53; (* Invalid request descriptor *)
EXFULL* = 54; (* Exchange full *)
ENOANO* = 55; (* No anode *)
EBADRQC* = 56; (* Invalid request code *)
EBADSLT* = 57; (* Invalid slot *)
EDEADLOCK* = 58; (* File locking deadlock error *)
EBFONT* = 59; (* Bad font file format *)
ENOSTR* = 60; (* Device not a stream *)
ENODATA* = 61; (* No data available *)
ETIME* = 62; (* Timer expired *)
ENOSR* = 63; (* Out of streams resources *)
ENONET* = 64; (* Machine is not on the network *)
ENOPKG* = 65; (* Package not installed *)
EREMOTE* = 66; (* Object is remote *)
ENOLINK* = 67; (* Link has been severed *)
EADV* = 68; (* Advertise error *)
ESRMNT* = 69; (* Srmount error *)
ECOMM* = 70; (* Communication error on send *)
EPROTO* = 71; (* Protocol error *)
EMULTIHOP* = 72; (* Multihop attempted *)
EDOTDOT* = 73; (* RFS specific error *)
EBADMSG* = 74; (* Not a data message *)
EOVERFLOW* = 75; (* Value too large for defined data type *)
ENOTUNIQ* = 76; (* Name not unique on network *)
EBADFD* = 77; (* File descriptor in bad state *)
EREMCHG* = 78; (* Remote address changed *)
ELIBACC* = 79; (* Can not access a needed shared library *)
ELIBBAD* = 80; (* Accessing a corrupted shared library *)
ELIBSCN* = 81; (* .lib section in a.out corrupted *)
ELIBMAX* = 82; (* Attempting to link in too many shared libraries *)
ELIBEXEC* = 83; (* Cannot exec a shared library directly *)
EILSEQ* = 84; (* Illegal byte sequence *)
ERESTART* = 85; (* Interrupted system call should be restarted *)
ESTRPIPE* = 86; (* Streams pipe error *)
EUSERS* = 87; (* Too many users *)
ENOTSOCK* = 88; (* Socket operation on non-socket *)
EDESTADDRREQ* = 89; (* Destination address required *)
EMSGSIZE* = 90; (* Message too long *)
EPROTOTYPE* = 91; (* Protocol wrong type for socket *)
ENOPROTOOPT* = 92; (* Protocol not available *)
EPROTONOSUPPORT* = 93; (* Protocol not supported *)
ESOCKTNOSUPPORT* = 94; (* Socket type not supported *)
EOPNOTSUPP* = 95; (* Operation not supported on transport endpoint *)
EPFNOSUPPORT* = 96; (* Protocol family not supported *)
EAFNOSUPPORT* = 97; (* Address family not supported by protocol *)
EADDRINUSE* = 98; (* Address already in use *)
EADDRNOTAVAIL* = 99; (* Cannot assign requested address *)
ENETDOWN* = 100; (* Network is down *)
ENETUNREACH* = 101; (* Network is unreachable *)
ENETRESET* = 102; (* Network dropped connection because of reset *)
ECONNABORTED* = 103; (* Software caused connection abort *)
ECONNRESET* = 104; (* Connection reset by peer *)
ENOBUFS* = 105; (* No buffer space available *)
EISCONN* = 106; (* Transport endpoint is already connected *)
ENOTCONN* = 107; (* Transport endpoint is not connected *)
ESHUTDOWN* = 108; (* Cannot send after transport endpoint shutdown *)
ETOOMANYREFS* = 109; (* Too many references: cannot splice *)
ETIMEDOUT* = 110; (* Connection timed out *)
ECONNREFUSED* = 111; (* Connection refused *)
EHOSTDOWN* = 112; (* Host is down *)
EHOSTUNREACH* = 113; (* No route to host *)
EALREADY* = 114; (* Operation already in progress *)
EINPROGRESS* = 115; (* Operation now in progress *)
ESTALE* = 116; (* Stale NFS file handle *)
EUCLEAN* = 117; (* Structure needs cleaning *)
ENOTNAM* = 118; (* Not a XENIX named type file *)
ENAVAIL* = 119; (* No XENIX semaphores available *)
EISNAM* = 120; (* Is a named type file *)
EREMOTEIO* = 121; (* Remote I/O error *)
EDQUOT* = 122; (* Quota exceeded *)
TYPE
JmpBuf* = RECORD
bx*, si*, di*, bp*, sp*, pc*: LONGINT;
maskWasSaved*, savedMask*: LONGINT;
END ;
Status* = RECORD (* struct stat *)
dev*, devX*: LONGINT; (* 64 bit in Linux 2.2 *)
pad1: INTEGER;
ino*, mode*, nlink*, uid*, gid*: LONGINT;
rdev*, rdevX*: LONGINT; (* 64 bit in Linux 2.2 *)
pad2: INTEGER;
size*, blksize*, blocks*, atime*, unused1*, mtime*, unused2*, ctime*,
unused3*, unused4*, unused5*: LONGINT;
END ;
Timeval* = RECORD
sec*, usec*: LONGINT
END ;
Timezone* = RECORD
minuteswest*, dsttime*: LONGINT
END ;
Itimerval* = RECORD
interval*, value*: Timeval
END ;
FdSet* = ARRAY 8 OF SET;
SigCtxPtr* = POINTER TO SigContext;
SigContext* = RECORD
END ;
SignalHandler* = PROCEDURE (sig, code: LONGINT; scp: SigCtxPtr);
Dirent* = RECORD
ino, off: LONGINT;
reclen: INTEGER;
name: ARRAY 256 OF CHAR;
END ;
Rusage* = RECORD
utime*, stime*: Timeval;
maxrss*, ixrss*, idrss*, isrss*,
minflt*, majflt*, nswap*, inblock*,
oublock*, msgsnd*, msgrcv*, nsignals*,
nvcsw*, nivcsw*: LONGINT
END ;
Iovec* = RECORD
base*, len*: LONGINT
END ;
SocketPair* = ARRAY 2 OF LONGINT;
Pollfd* = RECORD
fd*: LONGINT;
events*, revents*: INTEGER
END ;
Sockaddr* = RECORD
family*: INTEGER;
port*: INTEGER;
internetAddr*: LONGINT;
pad*: ARRAY 8 OF CHAR;
END ;
HostEntry* = POINTER [1] TO Hostent;
Hostent* = RECORD
name*, aliases*: LONGINT;
addrtype*, length*: LONGINT;
addrlist*: LONGINT; (*POINTER TO POINTER TO LONGINT, network byte order*)
END;
Name* = ARRAY OF CHAR;
PROCEDURE -includeStat()
"#include <sys/stat.h>";
PROCEDURE -includeErrno()
"#include <errno.h>";
PROCEDURE -err(): LONGINT
"errno";
PROCEDURE errno*(): LONGINT;
BEGIN
RETURN err()
END errno;
PROCEDURE -Exit*(n: LONGINT)
"exit(n)";
PROCEDURE -Fork*(): LONGINT
"fork()";
PROCEDURE -Wait*(VAR status: LONGINT): LONGINT
"wait(status)";
PROCEDURE -Select*(width: LONGINT; VAR readfds, writefds, exceptfds: FdSet; VAR timeout: Timeval): LONGINT
"select(width, readfds, writefds, exceptfds, timeout)";
PROCEDURE -Gettimeofday* (VAR tv: Timeval; VAR tz: Timezone)
"gettimeofday(tv, tz)";
PROCEDURE -Read* (fd, buf, nbyte: LONGINT): LONGINT
"read(fd, buf, nbyte)";
PROCEDURE -ReadBlk* (fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE): LONGINT
"read(fd, buf, buf__len)";
PROCEDURE -Write* (fd, buf, nbyte: LONGINT): LONGINT
"write(fd, buf, nbyte)";
PROCEDURE -WriteBlk* (fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE): LONGINT
"write(fd, buf, buf__len)";
PROCEDURE -Dup*(fd: LONGINT): LONGINT
"dup(fd)";
PROCEDURE -Dup2*(fd1, fd2: LONGINT): LONGINT
"dup(fd1, fd2)";
PROCEDURE -Getpid*(): LONGINT
"getpid()";
PROCEDURE -Getuid*(): LONGINT
"getuid()";
PROCEDURE -Geteuid*(): LONGINT
"geteuid()";
PROCEDURE -Getgid*(): LONGINT
"getgid()";
PROCEDURE -Getegid*(): LONGINT
"getegid()";
PROCEDURE -Unlink*(name: Name): LONGINT
"unlink(name)";
PROCEDURE -Open*(name: Name; flag, mode: SET): LONGINT
"open(name, flag, mode)";
PROCEDURE -Close*(fd: LONGINT): LONGINT
"close(fd)";
PROCEDURE -stat(name: Name; VAR statbuf: Status): LONGINT
"stat((const char*)name, (struct stat*)statbuf)";
PROCEDURE Stat*(name: Name; VAR statbuf: Status): LONGINT;
VAR res: LONGINT;
BEGIN
res := stat(name, statbuf);
(* make the first 4 bytes as unique as possible (used in module Files for caching!) *)
INC(statbuf.dev, statbuf.devX);
INC(statbuf.rdev, statbuf.rdevX);
RETURN res;
END Stat;
PROCEDURE -fstat(fd: LONGINT; VAR statbuf: Status): LONGINT
"fstat(fd, (struct stat*)statbuf)";
PROCEDURE Fstat*(fd: LONGINT; VAR statbuf: Status): LONGINT;
VAR res: LONGINT;
BEGIN
res := fstat(fd, statbuf);
(* make the first 4 bytes as unique as possible (used in module Files for caching!) *)
INC(statbuf.dev, statbuf.devX);
INC(statbuf.rdev, statbuf.rdevX);
RETURN res;
END Fstat;
PROCEDURE -Fchmod*(fd, mode: LONGINT): LONGINT
"fchmod(fd, mode)";
PROCEDURE -Chmod*(path: Name; mode: LONGINT): LONGINT
"chmod(path, mode)";
PROCEDURE -Lseek*(fd, offset, origin: LONGINT): LONGINT
"lseek(fd, offset, origin)";
PROCEDURE -Fsync*(fd: LONGINT): LONGINT
"fsync(fd)";
PROCEDURE -Fcntl*(fd, cmd, arg: LONGINT ): LONGINT
"fcntl(fd, cmd, arg)";
PROCEDURE -Flock*(fd, operation: LONGINT): LONGINT
"flock(fd, operation)";
PROCEDURE -Ftruncate*(fd, length: LONGINT): LONGINT
"ftruncate(fd, length)";
PROCEDURE -Readblk*(fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE; len: LONGINT): LONGINT
"read(fd, buf, len)";
PROCEDURE -Rename*(old, new: Name): LONGINT
"rename(old, new)";
PROCEDURE -Chdir*(path: Name): LONGINT
"chdir(path)";
PROCEDURE -Ioctl*(fd, request, arg: LONGINT): LONGINT
"ioctl(fd, request, arg)";
PROCEDURE -Kill*(pid, sig: LONGINT): LONGINT
"kill(pid, sig)";
PROCEDURE -Sigsetmask*(mask: LONGINT): LONGINT
"sigsetmask(mask)";
(* TCP/IP networking *)
PROCEDURE -Gethostbyname*(name: Name): HostEntry
"(Unix_HostEntry)gethostbyname(name)";
PROCEDURE -Gethostname*(VAR name: Name): LONGINT
"gethostname(name, name__len)";
PROCEDURE -Socket*(af, type, protocol: LONGINT): LONGINT
"socket(af, type, protocol)";
PROCEDURE -Connect*(socket: LONGINT; name: Sockaddr; namelen: LONGINT): LONGINT
"connect(socket, &(name), namelen)";
PROCEDURE -Getsockname*(socket: LONGINT; VAR name: Sockaddr; VAR namelen: LONGINT): LONGINT
"getsockname(socket, name, namelen)";
PROCEDURE -Bind*(socket: LONGINT; name: Sockaddr; namelen: LONGINT): LONGINT
"bind(socket, &(name), namelen)";
PROCEDURE -Listen*(socket, backlog: LONGINT): LONGINT
"listen(socket, backlog)";
PROCEDURE -Accept*(socket: LONGINT; VAR addr: Sockaddr; VAR addrlen: LONGINT): LONGINT
"accept(socket, addr, addrlen)";
PROCEDURE -Recv*(socket, bufadr, buflen, flags: LONGINT): LONGINT
"recv(socket, bufadr, buflen, flags)";
PROCEDURE -Send*(socket, bufadr, buflen, flags: LONGINT): LONGINT
"send(socket, bufadr, buflen, flags)";
PROCEDURE -sys(str: ARRAY OF CHAR): INTEGER (* need this to call external tools like gcc or gas; noch *)
"system(str)";
PROCEDURE system*(cmd : ARRAY OF CHAR);
VAR r : INTEGER;
BEGIN
r := sys(cmd);
END system;
END Unix.

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MODULE Args; (* jt, 8.12.94 *)
(* command line argument handling for ofront *)
IMPORT SYSTEM;
TYPE
ArgPtr = POINTER TO ARRAY 1024 OF CHAR;
ArgVec = POINTER TO ARRAY 1024 OF ArgPtr;
VAR argc-, argv-: LONGINT;
PROCEDURE -Argc(): INTEGER "SYSTEM_argc";
PROCEDURE -Argv(): LONGINT "(long)SYSTEM_argv";
PROCEDURE -getenv(var: ARRAY OF CHAR): ArgPtr
"(Args_ArgPtr)getenv(var)";
PROCEDURE Get*(n: INTEGER; VAR val: ARRAY OF CHAR);
VAR av: ArgVec;
BEGIN
IF n < argc THEN av := SYSTEM.VAL(ArgVec, argv); COPY(av[n]^, val) END
END Get;
PROCEDURE GetInt*(n: INTEGER; VAR val: LONGINT);
VAR s: ARRAY 64 OF CHAR; k, d, i: LONGINT;
BEGIN
s := ""; Get(n, s); i := 0;
IF s[0] = "-" THEN i := 1 END ;
k := 0; d := ORD(s[i]) - ORD("0");
WHILE (d >= 0 ) & (d <= 9) DO k := k*10 + d; INC(i); d := ORD(s[i]) - ORD("0") END ;
IF s[0] = "-" THEN d := -d; DEC(i) END ;
IF i > 0 THEN val := k END
END GetInt;
PROCEDURE Pos*(s: ARRAY OF CHAR): INTEGER;
VAR i: INTEGER; arg: ARRAY 256 OF CHAR;
BEGIN
i := 0; Get(i, arg);
WHILE (i < argc) & (s # arg) DO INC(i); Get(i, arg) END ;
RETURN i
END Pos;
PROCEDURE GetEnv*(var: ARRAY OF CHAR; VAR val: ARRAY OF CHAR);
VAR p: ArgPtr;
BEGIN
p := getenv(var);
IF p # NIL THEN COPY(p^, val) END
END GetEnv;
BEGIN argc := Argc(); argv := Argv()
END Args.

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/*
* The body prefix file of the Ofront runtime system, Version 1.0
*
* Copyright (c) Software Templ, 1994, 1995
*
* Module SYSTEM is subject to change any time without prior notification.
* Software Templ disclaims all warranties with regard to module SYSTEM,
* in particular shall Software Templ not be liable for any damage resulting
* from inappropriate use or modification of module SYSTEM.
*
* Version 1.1 jt, 24.11.95 fixes for correct pointer arithmetic on Cray computers
* jt 31.1.2007 ANSI prototypes for malloc and exit in order to avoid cc warnings
*
*/
#include "SYSTEM.h"
#ifdef __STDC__
#include "stdarg.h"
#else
#include "varargs.h"
#endif
extern void *malloc(long size);
extern void exit(int status);
void (*SYSTEM_Halt)();
LONGINT SYSTEM_halt; /* x in HALT(x) */
LONGINT SYSTEM_assert; /* x in ASSERT(cond, x) */
LONGINT SYSTEM_argc;
LONGINT SYSTEM_argv;
LONGINT SYSTEM_lock;
BOOLEAN SYSTEM_interrupted;
static LONGINT SYSTEM_mainfrm; /* adr of main proc stack frame, used for stack collection */
#define Lock SYSTEM_lock++
#define Unlock SYSTEM_lock--; if (SYSTEM_interrupted && (SYSTEM_lock == 0)) __HALT(-9)
static void SYSTEM_InitHeap();
void *SYSTEM__init();
void SYSTEM_INIT(argc, argvadr)
int argc; long argvadr;
{
SYSTEM_mainfrm = argvadr;
SYSTEM_argc = argc;
SYSTEM_argv = *(long*)argvadr;
SYSTEM_InitHeap();
SYSTEM_halt = -128;
SYSTEM__init();
}
void SYSTEM_FINI()
{
SYSTEM_FINALL();
}
long SYSTEM_XCHK(i, ub) long i, ub; {return __X(i, ub);}
long SYSTEM_RCHK(i, ub) long i, ub; {return __R(i, ub);}
long SYSTEM_ASH(i, n) long i, n; {return __ASH(i, n);}
long SYSTEM_ABS(i) long i; {return __ABS(i);}
double SYSTEM_ABSD(i) double i; {return __ABS(i);}
void SYSTEM_INHERIT(t, t0)
long *t, *t0;
{
t -= __TPROC0OFF;
t0 -= __TPROC0OFF;
while (*t0 != __EOM) {*t = *t0; t--; t0--;}
}
void SYSTEM_ENUMP(adr, n, P)
long *adr;
long n;
void (*P)();
{
while (n > 0) {P(*adr); adr++; n--;}
}
void SYSTEM_ENUMR(adr, typ, size, n, P)
char *adr;
long *typ, size, n;
void (*P)();
{
long *t, off;
typ++;
while (n > 0) {
t = typ;
off = *t;
while (off >= 0) {P(*(long*)(adr+off)); t++; off = *t;}
adr += size; n--;
}
}
long SYSTEM_DIV(x, y)
unsigned long x, y;
{ if ((long) x >= 0) return (x / y);
else return -((y - 1 - x) / y);
}
long SYSTEM_MOD(x, y)
unsigned long x, y;
{ unsigned long m;
if ((long) x >= 0) return (x % y);
else { m = (-x) % y;
if (m != 0) return (y - m); else return 0;
}
}
long SYSTEM_ENTIER(x)
double x;
{
long y;
if (x >= 0)
return (long)x;
else {
y = (long)x;
if (y <= x) return y; else return y - 1;
}
}
void SYSTEM_HALT(n)
int n;
{
SYSTEM_halt = n;
if (SYSTEM_Halt!=0) SYSTEM_Halt(n);
exit(n);
}
#ifdef __STDC__
SYSTEM_PTR SYSTEM_NEWARR(long *typ, long elemsz, int elemalgn, int nofdim, int nofdyn, ...)
#else
SYSTEM_PTR SYSTEM_NEWARR(typ, elemsz, elemalgn, nofdim, nofdyn, va_alist)
long *typ, elemsz;
int elemalgn, nofdim, nofdyn;
va_dcl
#endif
{
long nofelems, size, dataoff, n, nptr, *x, *p, nofptrs, i, *ptab, off;
va_list ap;
#ifdef __STDC__
va_start(ap, nofdyn);
#else
va_start(ap);
#endif
nofelems = 1;
while (nofdim > 0) {
nofelems = nofelems * va_arg(ap, long); nofdim--;
if (nofelems <= 0) __HALT(-20);
}
va_end(ap);
dataoff = nofdyn * sizeof(long);
if (elemalgn > sizeof(long)) {
n = dataoff % elemalgn;
if (n != 0) dataoff += elemalgn - n;
}
size = dataoff + nofelems * elemsz;
Lock;
if (typ == NIL) {
/* element typ does not contain pointers */
x = SYSTEM_NEWBLK(size);
}
else if (typ == POINTER__typ) {
/* element type is a pointer */
x = SYSTEM_NEWBLK(size + nofelems * sizeof(long));
p = (long*)x[-1];
p[-nofelems] = *p; /* build new type desc in situ: 1. copy block size; 2. setup ptr tab; 3. set sentinel; 4. patch tag */
p -= nofelems - 1; n = 1; /* n =1 for skipping the size field */
while (n <= nofelems) {*p = n*sizeof(long); p++; n++;}
*p = - (nofelems + 1) * sizeof(long); /* sentinel */
x[-1] -= nofelems * sizeof(long);
}
else {
/* element type is a record that contains pointers */
ptab = typ + 1; nofptrs = 0;
while (ptab[nofptrs] >= 0) {nofptrs++;} /* number of pointers per element */
nptr = nofelems * nofptrs; /* total number of pointers */
x = SYSTEM_NEWBLK(size + nptr * sizeof(long));
p = (long*)x[- 1];
p[-nptr] = *p; /* build new type desc in situ; 1. copy block size; 2. setup ptr tab; 3. set sentinel; 4. patch tag */
p -= nptr - 1; n = 0; off = dataoff;
while (n < nofelems) {i = 0;
while (i < nofptrs) {*p = off + ptab[i]; p++; i++;}
off += elemsz; n++;
}
*p = - (nptr + 1) * sizeof(long); /* sentinel */
x[-1] -= nptr * sizeof(long);
}
if (nofdyn != 0) {
/* setup len vector for index checks */
#ifdef __STDC__
va_start(ap, nofdyn);
#else
va_start(ap);
#endif
p = x;
while (nofdyn > 0) {*p = va_arg(ap, long); p++, nofdyn--;}
va_end(ap);
}
Unlock;
return x;
}
/* ----------- end of SYSTEM.co ------------- */

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#ifndef SYSTEM__h
#define SYSTEM__h
/*
the Ofront runtime system interface and macros library
copyright (c) Josef Templ, 1995, 1996
gcc for Linux version (same as SPARC/Solaris2)
uses double # as concatenation operator
*/
#include <alloca.h>
//extern void *memcpy(void *dest, const void *src, long n);
extern void *memcpy(void *dest, const void *src, size_t n);
extern void *malloc(long size);
extern void exit(int status);
#define export
#define import extern
/* constants */
#define __MAXEXT 16
#define NIL 0L
#define POINTER__typ (long*)1L /* not NIL and not a valid type */
/* basic types */
typedef char BOOLEAN;
typedef unsigned char CHAR;
typedef signed char SHORTINT;
typedef short int INTEGER;
typedef long LONGINT;
typedef float REAL;
typedef double LONGREAL;
typedef unsigned long SET;
typedef void *SYSTEM_PTR;
typedef unsigned char SYSTEM_BYTE;
/* runtime system routines */
extern long SYSTEM_DIV();
extern long SYSTEM_MOD();
extern long SYSTEM_ENTIER();
extern long SYSTEM_ASH();
extern long SYSTEM_ABS();
extern long SYSTEM_XCHK();
extern long SYSTEM_RCHK();
extern double SYSTEM_ABSD();
extern SYSTEM_PTR SYSTEM_NEWREC();
extern SYSTEM_PTR SYSTEM_NEWBLK();
#ifdef __STDC__
extern SYSTEM_PTR SYSTEM_NEWARR(long*, long, int, int, int, ...);
#else
extern SYSTEM_PTR SYSTEM_NEWARR();
#endif
extern SYSTEM_PTR SYSTEM_REGMOD();
extern void SYSTEM_INCREF();
extern void SYSTEM_REGCMD();
extern void SYSTEM_REGTYP();
extern void SYSTEM_REGFIN();
extern void SYSTEM_FINALL();
extern void SYSTEM_INIT();
extern void SYSTEM_FINI();
extern void SYSTEM_HALT();
extern void SYSTEM_INHERIT();
extern void SYSTEM_ENUMP();
extern void SYSTEM_ENUMR();
/* module registry */
#define __DEFMOD static void *m; if(m!=0)return m
#define __REGMOD(name, enum) if(m==0)m=SYSTEM_REGMOD((CHAR*)name,enum); else return m
#define __ENDMOD return m
#define __INIT(argc, argv) static void *m; SYSTEM_INIT(argc, (long)&argv);
#define __REGMAIN(name, enum) m=SYSTEM_REGMOD(name,enum)
#define __FINI SYSTEM_FINI(); return 0
#define __IMPORT(name) SYSTEM_INCREF(name##__init())
#define __REGCMD(name, cmd) SYSTEM_REGCMD(m, name, cmd)
/* SYSTEM ops */
#define __SYSNEW(p, len) p=SYSTEM_NEWBLK((long)(len))
#define __VAL(t, x) (*(t*)&(x))
#define __GET(a, x, t) x= *(t*)(a)
#define __PUT(a, x, t) *(t*)(a)=x
#define __LSHL(x, n, t) ((t)((unsigned)(x)<<(n)))
#define __LSHR(x, n, t) ((t)((unsigned)(x)>>(n)))
#define __LSH(x, n, t) ((n)>=0? __LSHL(x, n, t): __LSHR(x, -(n), t))
#define __ROTL(x, n, t) ((t)((unsigned)(x)<<(n)|(unsigned)(x)>>(8*sizeof(t)-(n))))
#define __ROTR(x, n, t) ((t)((unsigned)(x)>>(n)|(unsigned)(x)<<(8*sizeof(t)-(n))))
#define __ROT(x, n, t) ((n)>=0? __ROTL(x, n, t): __ROTR(x, -(n), t))
#define __BIT(x, n) (*(unsigned long*)(x)>>(n)&1)
#define __MOVE(s, d, n) memcpy((char*)(d),(char*)(s),n)
/* std procs and operator mappings */
#define __SHORT(x, y) ((int)((unsigned long)(x)+(y)<(y)+(y)?(x):(__HALT(-8),0)))
#define __SHORTF(x, y) ((int)(__RF((x)+(y),(y)+(y))-(y)))
#define __CHR(x) ((CHAR)__R(x, 256))
#define __CHRF(x) ((CHAR)__RF(x, 256))
#define __DIV(x, y) ((x)>=0?(x)/(y):-(((y)-1-(x))/(y)))
#define __DIVF(x, y) SYSTEM_DIV((long)(x),(long)(y))
#define __MOD(x, y) ((x)>=0?(x)%(y):__MODF(x,y))
#define __MODF(x, y) SYSTEM_MOD((long)(x),(long)(y))
#define __NEW(p, t) p=SYSTEM_NEWREC((long)t##__typ)
#define __NEWARR SYSTEM_NEWARR
#define __HALT(x) SYSTEM_HALT(x)
#define __ASSERT(cond, x) if (!(cond)) {SYSTEM_assert = x; SYSTEM_HALT(-1);}
#define __ENTIER(x) SYSTEM_ENTIER(x)
#define __ABS(x) (((x)<0)?-(x):(x))
#define __ABSF(x) SYSTEM_ABS((long)(x))
#define __ABSFD(x) SYSTEM_ABSD((double)(x))
#define __CAP(ch) ((CHAR)((ch)&0x5f))
#define __ODD(x) ((x)&1)
#define __IN(x, s) (((s)>>(x))&1)
#define __SETOF(x) ((SET)1<<(x))
#define __SETRNG(l, h) ((~(SET)0<<(l))&~(SET)0>>(8*sizeof(SET)-1-(h)))
#define __MASK(x, m) ((x)&~(m))
#define __COPY(s, d, n) {char*_a=(void*)s,*_b=(void*)d;long _i=0,_t=n-1;while(_i<_t&&((_b[_i]=_a[_i])!=0)){_i++;};_b[_i]=0;}
static int __STRCMP(x, y)
CHAR *x, *y;
{long i = 0; CHAR ch1, ch2;
do {ch1 = x[i]; ch2 = y[i]; i++;
if (!ch1) return -(int)ch2;
} while (ch1==ch2);
return (int)ch1 - (int)ch2;
}
#define __ASH(x, n) ((n)>=0?__ASHL(x,n):__ASHR(x,-(n)))
#define __ASHL(x, n) ((long)(x)<<(n))
#define __ASHR(x, n) ((long)(x)>>(n))
#define __ASHF(x, n) SYSTEM_ASH((long)(x), (long)(n))
#define __DUP(x, l, t) x=(void*)memcpy(alloca(l*sizeof(t)),x,l*sizeof(t))
#define __DUPARR(v, t) v=(void*)memcpy(v##__copy,v,sizeof(t))
#define __DEL(x) /* DUP with alloca frees storage automatically */
#define __IS(tag, typ, level) (*(tag-(__BASEOFF-level))==(long)typ##__typ)
#define __TYPEOF(p) (*(((long**)(p))-1))
#define __ISP(p, typ, level) __IS(__TYPEOF(p),typ,level)
/* runtime checks */
#define __X(i, ub) (((unsigned)(long)(i)<(unsigned long)(ub))?i:(__HALT(-2),0))
#define __XF(i, ub) SYSTEM_XCHK((long)(i), (long)(ub))
#define __RETCHK __retchk: __HALT(-3)
#define __CASECHK __HALT(-4)
#define __GUARDP(p, typ, level) ((typ*)(__ISP(p,typ,level)?p:(__HALT(-5),p)))
#define __GUARDR(r, typ, level) (*((typ*)(__IS(r##__typ,typ,level)?r:(__HALT(-5),r))))
#define __GUARDA(p, typ, level) ((struct typ*)(__IS(__TYPEOF(p),typ,level)?p:(__HALT(-5),p)))
#define __GUARDEQR(p, dyntyp, typ) if(dyntyp!=typ##__typ) __HALT(-6);*(p)
#define __GUARDEQP(p, typ) if(__TYPEOF(p)!=typ##__typ)__HALT(-6);*(p)
#define __WITHCHK __HALT(-7)
#define __R(i, ub) (((unsigned)(long)(i)<(unsigned long)(ub))?i:(__HALT(-8),0))
#define __RF(i, ub) SYSTEM_RCHK((long)(i),(long)(ub))
/* record type descriptors */
#define __TDESC(t, m, n) \
static struct t##__desc {\
long tproc[m]; \
long tag, next, level, module; \
char name[24]; \
long *base[__MAXEXT]; \
char *rsrvd; \
long blksz, ptr[n+1]; \
} t##__desc
#define __BASEOFF (__MAXEXT+1)
#define __TPROC0OFF (__BASEOFF+24/sizeof(long)+5)
#define __EOM 1
#define __TDFLDS(name, size) {__EOM}, 1, 0, 0, 0, name, {0}, 0, size
#define __ENUMP(adr, n, P) SYSTEM_ENUMP(adr, (long)(n), P)
#define __ENUMR(adr, typ, size, n, P) SYSTEM_ENUMR(adr, typ, (long)(size), (long)(n), P)
#define __INITYP(t, t0, level) \
t##__typ= &t##__desc.blksz; \
memcpy(t##__desc.base, t0##__typ - __BASEOFF, level*sizeof(long)); \
t##__desc.base[level]=t##__typ; \
t##__desc.module=(long)m; \
if(t##__desc.blksz!=sizeof(struct t)) __HALT(-15); \
t##__desc.blksz=(t##__desc.blksz+5*sizeof(long)-1)/(4*sizeof(long))*(4*sizeof(long)); \
SYSTEM_REGTYP(m, (long)&t##__desc.next); \
SYSTEM_INHERIT(t##__typ, t0##__typ)
/* Oberon-2 type bound procedures support */
#define __INITBP(t, proc, num) *(t##__typ-(__TPROC0OFF+num))=(long)proc
#define __SEND(typ, num, funtyp, parlist) ((funtyp)(*(typ-(__TPROC0OFF+num))))parlist
/* runtime system variables */
extern LONGINT SYSTEM_argc;
extern LONGINT SYSTEM_argv;
extern void (*SYSTEM_Halt)();
extern LONGINT SYSTEM_halt;
extern LONGINT SYSTEM_assert;
extern SYSTEM_PTR SYSTEM_modules;
extern LONGINT SYSTEM_heapsize;
extern LONGINT SYSTEM_allocated;
extern LONGINT SYSTEM_lock;
extern SHORTINT SYSTEM_gclock;
extern BOOLEAN SYSTEM_interrupted;
/* ANSI prototypes; not used so far
static int __STRCMP(CHAR *x, CHAR *y);
void SYSTEM_INIT(int argc, long argvadr);
void SYSTEM_FINI(void);
long SYSTEM_XCHK(long i, long ub);
long SYSTEM_RCHK(long i, long ub);
long SYSTEM_ASH(long i, long n);
long SYSTEM_ABS(long i);
double SYSTEM_ABSD(double i);
void SYSTEM_INHERIT(long *t, long *t0);
void SYSTEM_ENUMP(long *adr, long n, void (*P)(void*));
void SYSTEM_ENUMR(char *adr, long *typ, long size, long n, void (*P)(void*));
long SYSTEM_DIV(unsigned long x, unsigned long y);
long SYSTEM_MOD(unsigned long x, unsigned long y);
long SYSTEM_ENTIER(double x);
void SYSTEM_HALT(int n);
*/
#endif

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MODULE Unix; (* Josef Templ, 5.3.90 Linux system calls *)
(* system procedure added by noch *)
(* Module Unix provides a system call interface to Linux.
Naming conventions:
Procedure and Type-names always start with a capital letter.
error numbers as defined in Unix
other constants start with lower case letters *)
IMPORT SYSTEM;
CONST
(* various important constants *)
stdin* = 0; stdout* =1; stderr* = 2;
LOCKEX* = 2; LOCKUN* = 8; (* /usr/include/file.h *)
AFINET* = 2; (* /usr/include/sys/socket.h *)
PFINET* = AFINET; (* /usr/include/linux/socket.h *)
SOCKSTREAM* = 1; (* /usr/include/linux/socket.h *)
FIONREAD* = 541BH; (* in /usr/include/asm/termios.h *)
SETFL* = 4; (* set file descriptor flags; in asm/fcntl.h *)
TCP* = 0;
(* flag sets, cf. /usr/include/asm/fcntl.h *)
rdonly* = {}; wronly* = {0}; rdwr* = {1}; creat* = {6}; excl* = {7}; trunc* = {9}; append* = {10}; ndelay = {11};
(* error numbers *)
EPERM* = 1; (* Not owner *)
ENOENT* = 2; (* No such file or directory *)
ESRCH* = 3; (* No such process *)
EINTR* = 4; (* Interrupted system call *)
EIO* = 5; (* I/O error *)
ENXIO* = 6; (* No such device or address *)
E2BIG* = 7; (* Arg list too long *)
ENOEXEC* = 8; (* Exec format error *)
EBADF* = 9; (* Bad file number *)
ECHILD* = 10; (* No children *)
EAGAIN* = 11; (* No more processes *)
ENOMEM* = 12; (* Not enough core *)
EACCES* = 13; (* Permission denied *)
EFAULT* = 14; (* Bad address *)
ENOTBLK* = 15; (* Block device required *)
EBUSY* = 16; (* Mount device busy *)
EEXIST* = 17; (* File exists *)
EXDEV* = 18; (* Cross-device link *)
ENODEV* = 19; (* No such device *)
ENOTDIR* = 20; (* Not a directory*)
EISDIR* = 21; (* Is a directory *)
EINVAL* = 22; (* Invalid argument *)
ENFILE* = 23; (* File table overflow *)
EMFILE* = 24; (* Too many open files *)
ENOTTY* = 25; (* Not a typewriter *)
ETXTBSY* = 26; (* Text file busy *)
EFBIG* = 27; (* File too large *)
ENOSPC* = 28; (* No space left on device *)
ESPIPE* = 29; (* Illegal seek *)
EROFS* = 30; (* Read-only file system *)
EMLINK* = 31; (* Too many links *)
EPIPE* = 32; (* Broken pipe *)
EDOM* = 33; (* Argument too large *)
ERANGE* = 34; (* Result too large *)
EDEADLK* = 35; (* Resource deadlock would occur *)
ENAMETOOLONG* = 36; (* File name too long *)
ENOLCK* = 37; (* No record locks available *)
ENOSYS* = 38; (* Function not implemented *)
ENOTEMPTY* = 39; (* Directory not empty *)
ELOOP* = 40; (* Too many symbolic links encountered *)
EWOULDBLOCK* = EAGAIN; (* Operation would block *)
ENOMSG* = 42; (* No message of desired type *)
EIDRM* = 43; (* Identifier removed *)
ECHRNG* = 44; (* Channel number out of range *)
EL2NSYNC* = 45; (* Level 2 not synchronized *)
EL3HLT* = 46; (* Level 3 halted *)
EL3RST* = 47; (* Level 3 reset *)
ELNRNG* = 48; (* Link number out of range *)
EUNATCH* = 49; (* Protocol driver not attached *)
ENOCSI* = 50; (* No CSI structure available *)
EL2HLT* = 51; (* Level 2 halted *)
EBADE* = 52; (* Invalid exchange *)
EBADR* = 53; (* Invalid request descriptor *)
EXFULL* = 54; (* Exchange full *)
ENOANO* = 55; (* No anode *)
EBADRQC* = 56; (* Invalid request code *)
EBADSLT* = 57; (* Invalid slot *)
EDEADLOCK* = 58; (* File locking deadlock error *)
EBFONT* = 59; (* Bad font file format *)
ENOSTR* = 60; (* Device not a stream *)
ENODATA* = 61; (* No data available *)
ETIME* = 62; (* Timer expired *)
ENOSR* = 63; (* Out of streams resources *)
ENONET* = 64; (* Machine is not on the network *)
ENOPKG* = 65; (* Package not installed *)
EREMOTE* = 66; (* Object is remote *)
ENOLINK* = 67; (* Link has been severed *)
EADV* = 68; (* Advertise error *)
ESRMNT* = 69; (* Srmount error *)
ECOMM* = 70; (* Communication error on send *)
EPROTO* = 71; (* Protocol error *)
EMULTIHOP* = 72; (* Multihop attempted *)
EDOTDOT* = 73; (* RFS specific error *)
EBADMSG* = 74; (* Not a data message *)
EOVERFLOW* = 75; (* Value too large for defined data type *)
ENOTUNIQ* = 76; (* Name not unique on network *)
EBADFD* = 77; (* File descriptor in bad state *)
EREMCHG* = 78; (* Remote address changed *)
ELIBACC* = 79; (* Can not access a needed shared library *)
ELIBBAD* = 80; (* Accessing a corrupted shared library *)
ELIBSCN* = 81; (* .lib section in a.out corrupted *)
ELIBMAX* = 82; (* Attempting to link in too many shared libraries *)
ELIBEXEC* = 83; (* Cannot exec a shared library directly *)
EILSEQ* = 84; (* Illegal byte sequence *)
ERESTART* = 85; (* Interrupted system call should be restarted *)
ESTRPIPE* = 86; (* Streams pipe error *)
EUSERS* = 87; (* Too many users *)
ENOTSOCK* = 88; (* Socket operation on non-socket *)
EDESTADDRREQ* = 89; (* Destination address required *)
EMSGSIZE* = 90; (* Message too long *)
EPROTOTYPE* = 91; (* Protocol wrong type for socket *)
ENOPROTOOPT* = 92; (* Protocol not available *)
EPROTONOSUPPORT* = 93; (* Protocol not supported *)
ESOCKTNOSUPPORT* = 94; (* Socket type not supported *)
EOPNOTSUPP* = 95; (* Operation not supported on transport endpoint *)
EPFNOSUPPORT* = 96; (* Protocol family not supported *)
EAFNOSUPPORT* = 97; (* Address family not supported by protocol *)
EADDRINUSE* = 98; (* Address already in use *)
EADDRNOTAVAIL* = 99; (* Cannot assign requested address *)
ENETDOWN* = 100; (* Network is down *)
ENETUNREACH* = 101; (* Network is unreachable *)
ENETRESET* = 102; (* Network dropped connection because of reset *)
ECONNABORTED* = 103; (* Software caused connection abort *)
ECONNRESET* = 104; (* Connection reset by peer *)
ENOBUFS* = 105; (* No buffer space available *)
EISCONN* = 106; (* Transport endpoint is already connected *)
ENOTCONN* = 107; (* Transport endpoint is not connected *)
ESHUTDOWN* = 108; (* Cannot send after transport endpoint shutdown *)
ETOOMANYREFS* = 109; (* Too many references: cannot splice *)
ETIMEDOUT* = 110; (* Connection timed out *)
ECONNREFUSED* = 111; (* Connection refused *)
EHOSTDOWN* = 112; (* Host is down *)
EHOSTUNREACH* = 113; (* No route to host *)
EALREADY* = 114; (* Operation already in progress *)
EINPROGRESS* = 115; (* Operation now in progress *)
ESTALE* = 116; (* Stale NFS file handle *)
EUCLEAN* = 117; (* Structure needs cleaning *)
ENOTNAM* = 118; (* Not a XENIX named type file *)
ENAVAIL* = 119; (* No XENIX semaphores available *)
EISNAM* = 120; (* Is a named type file *)
EREMOTEIO* = 121; (* Remote I/O error *)
EDQUOT* = 122; (* Quota exceeded *)
TYPE
JmpBuf* = RECORD
bx*, si*, di*, bp*, sp*, pc*: LONGINT;
maskWasSaved*, savedMask*: LONGINT;
END ;
Status* = RECORD (* struct stat *)
dev*, devX*: LONGINT; (* 64 bit in Linux 2.2 *)
pad1: INTEGER;
ino*, mode*, nlink*, uid*, gid*: LONGINT;
rdev*, rdevX*: LONGINT; (* 64 bit in Linux 2.2 *)
pad2: INTEGER;
size*, blksize*, blocks*, atime*, unused1*, mtime*, unused2*, ctime*,
unused3*, unused4*, unused5*: LONGINT;
END ;
Timeval* = RECORD
sec*, usec*: LONGINT
END ;
Timezone* = RECORD
minuteswest*, dsttime*: LONGINT
END ;
Itimerval* = RECORD
interval*, value*: Timeval
END ;
FdSet* = ARRAY 8 OF SET;
SigCtxPtr* = POINTER TO SigContext;
SigContext* = RECORD
END ;
SignalHandler* = PROCEDURE (sig, code: LONGINT; scp: SigCtxPtr);
Dirent* = RECORD
ino, off: LONGINT;
reclen: INTEGER;
name: ARRAY 256 OF CHAR;
END ;
Rusage* = RECORD
utime*, stime*: Timeval;
maxrss*, ixrss*, idrss*, isrss*,
minflt*, majflt*, nswap*, inblock*,
oublock*, msgsnd*, msgrcv*, nsignals*,
nvcsw*, nivcsw*: LONGINT
END ;
Iovec* = RECORD
base*, len*: LONGINT
END ;
SocketPair* = ARRAY 2 OF LONGINT;
Pollfd* = RECORD
fd*: LONGINT;
events*, revents*: INTEGER
END ;
Sockaddr* = RECORD
family*: INTEGER;
port*: INTEGER;
internetAddr*: LONGINT;
pad*: ARRAY 8 OF CHAR;
END ;
HostEntry* = POINTER [1] TO Hostent;
Hostent* = RECORD
name*, aliases*: LONGINT;
addrtype*, length*: LONGINT;
addrlist*: LONGINT; (*POINTER TO POINTER TO LONGINT, network byte order*)
END;
Name* = ARRAY OF CHAR;
PROCEDURE -includeStat()
"#include <sys/stat.h>";
PROCEDURE -includeErrno()
"#include <errno.h>";
PROCEDURE -err(): LONGINT
"errno";
PROCEDURE errno*(): LONGINT;
BEGIN
RETURN err()
END errno;
PROCEDURE -Exit*(n: LONGINT)
"exit(n)";
PROCEDURE -Fork*(): LONGINT
"fork()";
PROCEDURE -Wait*(VAR status: LONGINT): LONGINT
"wait(status)";
PROCEDURE -Select*(width: LONGINT; VAR readfds, writefds, exceptfds: FdSet; VAR timeout: Timeval): LONGINT
"select(width, readfds, writefds, exceptfds, timeout)";
PROCEDURE -Gettimeofday* (VAR tv: Timeval; VAR tz: Timezone)
"gettimeofday(tv, tz)";
PROCEDURE -Read* (fd, buf, nbyte: LONGINT): LONGINT
"read(fd, buf, nbyte)";
PROCEDURE -ReadBlk* (fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE): LONGINT
"read(fd, buf, buf__len)";
PROCEDURE -Write* (fd, buf, nbyte: LONGINT): LONGINT
"write(fd, buf, nbyte)";
PROCEDURE -WriteBlk* (fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE): LONGINT
"write(fd, buf, buf__len)";
PROCEDURE -Dup*(fd: LONGINT): LONGINT
"dup(fd)";
PROCEDURE -Dup2*(fd1, fd2: LONGINT): LONGINT
"dup(fd1, fd2)";
PROCEDURE -Getpid*(): LONGINT
"getpid()";
PROCEDURE -Getuid*(): LONGINT
"getuid()";
PROCEDURE -Geteuid*(): LONGINT
"geteuid()";
PROCEDURE -Getgid*(): LONGINT
"getgid()";
PROCEDURE -Getegid*(): LONGINT
"getegid()";
PROCEDURE -Unlink*(name: Name): LONGINT
"unlink(name)";
PROCEDURE -Open*(name: Name; flag, mode: SET): LONGINT
"open(name, flag, mode)";
PROCEDURE -Close*(fd: LONGINT): LONGINT
"close(fd)";
PROCEDURE -stat(name: Name; VAR statbuf: Status): LONGINT
"stat((const char*)name, (struct stat*)statbuf)";
PROCEDURE Stat*(name: Name; VAR statbuf: Status): LONGINT;
VAR res: LONGINT;
BEGIN
res := stat(name, statbuf);
(* make the first 4 bytes as unique as possible (used in module Files for caching!) *)
INC(statbuf.dev, statbuf.devX);
INC(statbuf.rdev, statbuf.rdevX);
RETURN res;
END Stat;
PROCEDURE -fstat(fd: LONGINT; VAR statbuf: Status): LONGINT
"fstat(fd, (struct stat*)statbuf)";
PROCEDURE Fstat*(fd: LONGINT; VAR statbuf: Status): LONGINT;
VAR res: LONGINT;
BEGIN
res := fstat(fd, statbuf);
(* make the first 4 bytes as unique as possible (used in module Files for caching!) *)
INC(statbuf.dev, statbuf.devX);
INC(statbuf.rdev, statbuf.rdevX);
RETURN res;
END Fstat;
PROCEDURE -Fchmod*(fd, mode: LONGINT): LONGINT
"fchmod(fd, mode)";
PROCEDURE -Chmod*(path: Name; mode: LONGINT): LONGINT
"chmod(path, mode)";
PROCEDURE -Lseek*(fd, offset, origin: LONGINT): LONGINT
"lseek(fd, offset, origin)";
PROCEDURE -Fsync*(fd: LONGINT): LONGINT
"fsync(fd)";
PROCEDURE -Fcntl*(fd, cmd, arg: LONGINT ): LONGINT
"fcntl(fd, cmd, arg)";
PROCEDURE -Flock*(fd, operation: LONGINT): LONGINT
"flock(fd, operation)";
PROCEDURE -Ftruncate*(fd, length: LONGINT): LONGINT
"ftruncate(fd, length)";
PROCEDURE -Readblk*(fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE; len: LONGINT): LONGINT
"read(fd, buf, len)";
PROCEDURE -Rename*(old, new: Name): LONGINT
"rename(old, new)";
PROCEDURE -Chdir*(path: Name): LONGINT
"chdir(path)";
PROCEDURE -Ioctl*(fd, request, arg: LONGINT): LONGINT
"ioctl(fd, request, arg)";
PROCEDURE -Kill*(pid, sig: LONGINT): LONGINT
"kill(pid, sig)";
PROCEDURE -Sigsetmask*(mask: LONGINT): LONGINT
"sigsetmask(mask)";
(* TCP/IP networking *)
PROCEDURE -Gethostbyname*(name: Name): HostEntry
"(Unix_HostEntry)gethostbyname(name)";
PROCEDURE -Gethostname*(VAR name: Name): LONGINT
"gethostname(name, name__len)";
PROCEDURE -Socket*(af, type, protocol: LONGINT): LONGINT
"socket(af, type, protocol)";
PROCEDURE -Connect*(socket: LONGINT; name: Sockaddr; namelen: LONGINT): LONGINT
"connect(socket, &(name), namelen)";
PROCEDURE -Getsockname*(socket: LONGINT; VAR name: Sockaddr; VAR namelen: LONGINT): LONGINT
"getsockname(socket, name, namelen)";
PROCEDURE -Bind*(socket: LONGINT; name: Sockaddr; namelen: LONGINT): LONGINT
"bind(socket, &(name), namelen)";
PROCEDURE -Listen*(socket, backlog: LONGINT): LONGINT
"listen(socket, backlog)";
PROCEDURE -Accept*(socket: LONGINT; VAR addr: Sockaddr; VAR addrlen: LONGINT): LONGINT
"accept(socket, addr, addrlen)";
PROCEDURE -Recv*(socket, bufadr, buflen, flags: LONGINT): LONGINT
"recv(socket, bufadr, buflen, flags)";
PROCEDURE -Send*(socket, bufadr, buflen, flags: LONGINT): LONGINT
"send(socket, bufadr, buflen, flags)";
PROCEDURE -sys(str: ARRAY OF CHAR): INTEGER (* need this to call external tools like gcc or gas; noch *)
"system(str)";
PROCEDURE system*(cmd : ARRAY OF CHAR);
VAR r : INTEGER;
BEGIN
r := sys(cmd);
END system;
END Unix.

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MODULE Args; (* jt, 8.12.94 *)
(* command line argument handling for voc (jet backend) *)
IMPORT SYSTEM;
TYPE
ArgPtr = POINTER TO ARRAY 1024 OF CHAR;
ArgVec = POINTER TO ARRAY 1024 OF ArgPtr;
VAR argc-, argv-: LONGINT;
(*PROCEDURE -includestdlib() "#include <stdlib.h>";*)
PROCEDURE -externgetenv() "extern char *getenv(const char *name);"; (* took this from stdlib.h*)
PROCEDURE -Argc(): INTEGER "SYSTEM_argc";
PROCEDURE -Argv(): LONGINT "(long)SYSTEM_argv";
PROCEDURE -getenv(var: ARRAY OF CHAR): ArgPtr
"(Args_ArgPtr)getenv(var)";
PROCEDURE Get*(n: INTEGER; VAR val: ARRAY OF CHAR);
VAR av: ArgVec;
BEGIN
IF n < argc THEN av := SYSTEM.VAL(ArgVec, argv); COPY(av[n]^, val) END
END Get;
PROCEDURE GetInt*(n: INTEGER; VAR val: LONGINT);
VAR s: ARRAY 64 OF CHAR; k, d, i: LONGINT;
BEGIN
s := ""; Get(n, s); i := 0;
IF s[0] = "-" THEN i := 1 END ;
k := 0; d := ORD(s[i]) - ORD("0");
WHILE (d >= 0 ) & (d <= 9) DO k := k*10 + d; INC(i); d := ORD(s[i]) - ORD("0") END ;
IF s[0] = "-" THEN d := -d; DEC(i) END ;
IF i > 0 THEN val := k END
END GetInt;
PROCEDURE Pos*(s: ARRAY OF CHAR): INTEGER;
VAR i: INTEGER; arg: ARRAY 256 OF CHAR;
BEGIN
i := 0; Get(i, arg);
WHILE (i < argc) & (s # arg) DO INC(i); Get(i, arg) END ;
RETURN i
END Pos;
PROCEDURE GetEnv*(var: ARRAY OF CHAR; VAR val: ARRAY OF CHAR);
VAR p: ArgPtr;
BEGIN
p := getenv(var);
IF p # NIL THEN COPY(p^, val) END
END GetEnv;
BEGIN argc := Argc(); argv := Argv()
END Args.

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/*
* The body prefix file of the voc(jet backend) runtime system, Version 1.0
*
* Copyright (c) Software Templ, 1994, 1995
*
* Module SYSTEM is subject to change any time without prior notification.
* Software Templ disclaims all warranties with regard to module SYSTEM,
* in particular shall Software Templ not be liable for any damage resulting
* from inappropriate use or modification of module SYSTEM.
*
* Version 1.1 jt, 24.11.95 fixes for correct pointer arithmetic on Cray computers
* jt 31.1.2007 ANSI prototypes for malloc and exit in order to avoid cc warnings
*
*/
#include "SYSTEM.h"
#ifdef __STDC__
#include "stdarg.h"
#else
#include "varargs.h"
#endif
extern void *malloc(long size);
extern void exit(int status);
void (*SYSTEM_Halt)();
LONGINT SYSTEM_halt; /* x in HALT(x) */
LONGINT SYSTEM_assert; /* x in ASSERT(cond, x) */
LONGINT SYSTEM_argc;
LONGINT SYSTEM_argv;
LONGINT SYSTEM_lock;
BOOLEAN SYSTEM_interrupted;
static LONGINT SYSTEM_mainfrm; /* adr of main proc stack frame, used for stack collection */
#define Lock SYSTEM_lock++
#define Unlock SYSTEM_lock--; if (SYSTEM_interrupted && (SYSTEM_lock == 0)) __HALT(-9)
static void SYSTEM_InitHeap();
void *SYSTEM__init();
void SYSTEM_INIT(argc, argvadr)
int argc; long argvadr;
{
SYSTEM_mainfrm = argvadr;
SYSTEM_argc = argc;
SYSTEM_argv = *(long*)argvadr;
SYSTEM_InitHeap();
SYSTEM_halt = -128;
SYSTEM__init();
}
void SYSTEM_FINI()
{
SYSTEM_FINALL();
}
long SYSTEM_XCHK(i, ub) long i, ub; {return __X(i, ub);}
long SYSTEM_RCHK(i, ub) long i, ub; {return __R(i, ub);}
long SYSTEM_ASH(i, n) long i, n; {return __ASH(i, n);}
long SYSTEM_ABS(i) long i; {return __ABS(i);}
double SYSTEM_ABSD(i) double i; {return __ABS(i);}
void SYSTEM_INHERIT(t, t0)
long *t, *t0;
{
t -= __TPROC0OFF;
t0 -= __TPROC0OFF;
while (*t0 != __EOM) {*t = *t0; t--; t0--;}
}
void SYSTEM_ENUMP(adr, n, P)
long *adr;
long n;
void (*P)();
{
while (n > 0) {P(*adr); adr++; n--;}
}
void SYSTEM_ENUMR(adr, typ, size, n, P)
char *adr;
long *typ, size, n;
void (*P)();
{
long *t, off;
typ++;
while (n > 0) {
t = typ;
off = *t;
while (off >= 0) {P(*(long*)(adr+off)); t++; off = *t;}
adr += size; n--;
}
}
long SYSTEM_DIV(x, y)
unsigned long x, y;
{ if ((long) x >= 0) return (x / y);
else return -((y - 1 - x) / y);
}
long SYSTEM_MOD(x, y)
unsigned long x, y;
{ unsigned long m;
if ((long) x >= 0) return (x % y);
else { m = (-x) % y;
if (m != 0) return (y - m); else return 0;
}
}
long SYSTEM_ENTIER(x)
double x;
{
long y;
if (x >= 0)
return (long)x;
else {
y = (long)x;
if (y <= x) return y; else return y - 1;
}
}
void SYSTEM_HALT(n)
int n;
{
SYSTEM_halt = n;
if (SYSTEM_Halt!=0) SYSTEM_Halt(n);
exit(n);
}
#ifdef __STDC__
SYSTEM_PTR SYSTEM_NEWARR(long *typ, long elemsz, int elemalgn, int nofdim, int nofdyn, ...)
#else
SYSTEM_PTR SYSTEM_NEWARR(typ, elemsz, elemalgn, nofdim, nofdyn, va_alist)
long *typ, elemsz;
int elemalgn, nofdim, nofdyn;
va_dcl
#endif
{
long nofelems, size, dataoff, n, nptr, *x, *p, nofptrs, i, *ptab, off;
va_list ap;
#ifdef __STDC__
va_start(ap, nofdyn);
#else
va_start(ap);
#endif
nofelems = 1;
while (nofdim > 0) {
nofelems = nofelems * va_arg(ap, long); nofdim--;
if (nofelems <= 0) __HALT(-20);
}
va_end(ap);
dataoff = nofdyn * sizeof(long);
if (elemalgn > sizeof(long)) {
n = dataoff % elemalgn;
if (n != 0) dataoff += elemalgn - n;
}
size = dataoff + nofelems * elemsz;
Lock;
if (typ == NIL) {
/* element typ does not contain pointers */
x = SYSTEM_NEWBLK(size);
}
else if (typ == POINTER__typ) {
/* element type is a pointer */
x = SYSTEM_NEWBLK(size + nofelems * sizeof(long));
p = (long*)x[-1];
p[-nofelems] = *p; /* build new type desc in situ: 1. copy block size; 2. setup ptr tab; 3. set sentinel; 4. patch tag */
p -= nofelems - 1; n = 1; /* n =1 for skipping the size field */
while (n <= nofelems) {*p = n*sizeof(long); p++; n++;}
*p = - (nofelems + 1) * sizeof(long); /* sentinel */
x[-1] -= nofelems * sizeof(long);
}
else {
/* element type is a record that contains pointers */
ptab = typ + 1; nofptrs = 0;
while (ptab[nofptrs] >= 0) {nofptrs++;} /* number of pointers per element */
nptr = nofelems * nofptrs; /* total number of pointers */
x = SYSTEM_NEWBLK(size + nptr * sizeof(long));
p = (long*)x[- 1];
p[-nptr] = *p; /* build new type desc in situ; 1. copy block size; 2. setup ptr tab; 3. set sentinel; 4. patch tag */
p -= nptr - 1; n = 0; off = dataoff;
while (n < nofelems) {i = 0;
while (i < nofptrs) {*p = off + ptab[i]; p++; i++;}
off += elemsz; n++;
}
*p = - (nptr + 1) * sizeof(long); /* sentinel */
x[-1] -= nptr * sizeof(long);
}
if (nofdyn != 0) {
/* setup len vector for index checks */
#ifdef __STDC__
va_start(ap, nofdyn);
#else
va_start(ap);
#endif
p = x;
while (nofdyn > 0) {*p = va_arg(ap, long); p++, nofdyn--;}
va_end(ap);
}
Unlock;
return x;
}
/* ----------- end of SYSTEM.co ------------- */

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#ifndef SYSTEM__h
#define SYSTEM__h
/*
voc (jet backend) runtime system interface and macros library
copyright (c) Josef Templ, 1995, 1996
gcc for Linux version (same as SPARC/Solaris2)
uses double # as concatenation operator
*/
#include <alloca.h>
extern void *memcpy(void *dest, const void *src, long n);
extern void *malloc(long size);
extern void exit(int status);
#define export
#define import extern
/* constants */
#define __MAXEXT 16
#define NIL 0L
#define POINTER__typ (long*)1L /* not NIL and not a valid type */
/* basic types */
//typedef char BOOLEAN;
#define BOOLEAN char
//typedef unsigned char CHAR;
#define CHAR unsigned char
//exactly two bytes
#define LONGCHAR unsigned short int
//typedef signed char SHORTINT;
#define SHORTINT signed char
//for x86 GNU/Linux
//typedef short int INTEGER;
//for x86_64 GNU/Linux
//typedef int INTEGER;
#define INTEGER int
//typedef long LONGINT;
#define LONGINT long
//typedef float REAL;
#define REAL float
//typedef double LONGREAL;
#define LONGREAL double
//typedef unsigned long SET;
#define SET unsigned long
typedef void *SYSTEM_PTR;
//#define *SYSTEM_PTR void
//typedef unsigned char SYSTEM_BYTE;
#define SYSTEM_BYTE unsigned char
/* runtime system routines */
extern long SYSTEM_DIV();
extern long SYSTEM_MOD();
extern long SYSTEM_ENTIER();
extern long SYSTEM_ASH();
extern long SYSTEM_ABS();
extern long SYSTEM_XCHK();
extern long SYSTEM_RCHK();
extern double SYSTEM_ABSD();
extern SYSTEM_PTR SYSTEM_NEWREC();
extern SYSTEM_PTR SYSTEM_NEWBLK();
#ifdef __STDC__
extern SYSTEM_PTR SYSTEM_NEWARR(long*, long, int, int, int, ...);
#else
extern SYSTEM_PTR SYSTEM_NEWARR();
#endif
extern SYSTEM_PTR SYSTEM_REGMOD();
extern void SYSTEM_INCREF();
extern void SYSTEM_REGCMD();
extern void SYSTEM_REGTYP();
extern void SYSTEM_REGFIN();
extern void SYSTEM_FINALL();
extern void SYSTEM_INIT();
extern void SYSTEM_FINI();
extern void SYSTEM_HALT();
extern void SYSTEM_INHERIT();
extern void SYSTEM_ENUMP();
extern void SYSTEM_ENUMR();
/* module registry */
#define __DEFMOD static void *m; if(m!=0)return m
#define __REGMOD(name, enum) if(m==0)m=SYSTEM_REGMOD((CHAR*)name,enum); else return m
#define __ENDMOD return m
#define __INIT(argc, argv) static void *m; SYSTEM_INIT(argc, (long)&argv);
#define __REGMAIN(name, enum) m=SYSTEM_REGMOD(name,enum)
#define __FINI SYSTEM_FINI(); return 0
#define __IMPORT(name) SYSTEM_INCREF(name##__init())
#define __REGCMD(name, cmd) SYSTEM_REGCMD(m, name, cmd)
/* SYSTEM ops */
#define __SYSNEW(p, len) p=SYSTEM_NEWBLK((long)(len))
#define __VAL(t, x) (*(t*)&(x))
#define __GET(a, x, t) x= *(t*)(a)
#define __PUT(a, x, t) *(t*)(a)=x
#define __LSHL(x, n, t) ((t)((unsigned t)(x)<<(n)))
#define __LSHR(x, n, t) ((t)((unsigned t)(x)>>(n)))
#define __LSH(x, n, t) ((n)>=0? __LSHL(x, n, t): __LSHR(x, -(n), t))
#define __ROTL(x, n, t) ((t)((unsigned t)(x)<<(n)|(unsigned t)(x)>>(8*sizeof(t)-(n))))
#define __ROTR(x, n, t) ((t)((unsigned t)(x)>>(n)|(unsigned t)(x)<<(8*sizeof(t)-(n))))
#define __LSHR(x, n, t) ((t)((unsigned t)(x)>>(n)))
#define __LSH(x, n, t) ((n)>=0? __LSHL(x, n, t): __LSHR(x, -(n), t))
#define __ROTL(x, n, t) ((t)((unsigned t)(x)<<(n)|(unsigned t)(x)>>(8*sizeof(t)-(n))))
#define __ROTR(x, n, t) ((t)((unsigned t)(x)>>(n)|(unsigned t)(x)<<(8*sizeof(t)-(n))))
#define __ROT(x, n, t) ((n)>=0? __ROTL(x, n, t): __ROTR(x, -(n), t))
#define __BIT(x, n) (*(unsigned long*)(x)>>(n)&1)
#define __MOVE(s, d, n) memcpy((char*)(d),(char*)(s),n)
/* std procs and operator mappings */
#define __SHORT(x, y) ((int)((unsigned long)(x)+(y)<(y)+(y)?(x):(__HALT(-8),0)))
#define __SHORTF(x, y) ((int)(__RF((x)+(y),(y)+(y))-(y)))
#define __CHR(x) ((CHAR)__R(x, 256))
#define __CHRF(x) ((CHAR)__RF(x, 256))
#define __DIV(x, y) ((x)>=0?(x)/(y):-(((y)-1-(x))/(y)))
#define __DIVF(x, y) SYSTEM_DIV((long)(x),(long)(y))
#define __MOD(x, y) ((x)>=0?(x)%(y):__MODF(x,y))
#define __MODF(x, y) SYSTEM_MOD((long)(x),(long)(y))
#define __NEW(p, t) p=SYSTEM_NEWREC((long)t##__typ)
#define __NEWARR SYSTEM_NEWARR
#define __HALT(x) SYSTEM_HALT(x)
#define __ASSERT(cond, x) if (!(cond)) {SYSTEM_assert = x; SYSTEM_HALT(-1);}
#define __ENTIER(x) SYSTEM_ENTIER(x)
#define __ABS(x) (((x)<0)?-(x):(x))
#define __ABSF(x) SYSTEM_ABS((long)(x))
#define __ABSFD(x) SYSTEM_ABSD((double)(x))
#define __CAP(ch) ((CHAR)((ch)&0x5f))
#define __ODD(x) ((x)&1)
#define __IN(x, s) (((s)>>(x))&1)
#define __SETOF(x) ((SET)1<<(x))
#define __SETRNG(l, h) ((~(SET)0<<(l))&~(SET)0>>(8*sizeof(SET)-1-(h)))
#define __MASK(x, m) ((x)&~(m))
#define __COPY(s, d, n) {char*_a=(void*)s,*_b=(void*)d;long _i=0,_t=n-1;while(_i<_t&&((_b[_i]=_a[_i])!=0)){_i++;};_b[_i]=0;}
static int __STRCMP(x, y)
CHAR *x, *y;
{long i = 0; CHAR ch1, ch2;
do {ch1 = x[i]; ch2 = y[i]; i++;
if (!ch1) return -(int)ch2;
} while (ch1==ch2);
return (int)ch1 - (int)ch2;
}
#define __ASH(x, n) ((n)>=0?__ASHL(x,n):__ASHR(x,-(n)))
#define __ASHL(x, n) ((long)(x)<<(n))
#define __ASHR(x, n) ((long)(x)>>(n))
#define __ASHF(x, n) SYSTEM_ASH((long)(x), (long)(n))
#define __DUP(x, l, t) x=(void*)memcpy(alloca(l*sizeof(t)),x,l*sizeof(t))
#define __DUPARR(v, t) v=(void*)memcpy(v##__copy,v,sizeof(t))
#define __DEL(x) /* DUP with alloca frees storage automatically */
#define __IS(tag, typ, level) (*(tag-(__BASEOFF-level))==(long)typ##__typ)
#define __TYPEOF(p) (*(((long**)(p))-1))
#define __ISP(p, typ, level) __IS(__TYPEOF(p),typ,level)
/* runtime checks */
#define __X(i, ub) (((unsigned)(long)(i)<(unsigned long)(ub))?i:(__HALT(-2),0))
#define __XF(i, ub) SYSTEM_XCHK((long)(i), (long)(ub))
#define __RETCHK __retchk: __HALT(-3)
#define __CASECHK __HALT(-4)
#define __GUARDP(p, typ, level) ((typ*)(__ISP(p,typ,level)?p:(__HALT(-5),p)))
#define __GUARDR(r, typ, level) (*((typ*)(__IS(r##__typ,typ,level)?r:(__HALT(-5),r))))
#define __GUARDA(p, typ, level) ((struct typ*)(__IS(__TYPEOF(p),typ,level)?p:(__HALT(-5),p)))
#define __GUARDEQR(p, dyntyp, typ) if(dyntyp!=typ##__typ) __HALT(-6);*(p)
#define __GUARDEQP(p, typ) if(__TYPEOF(p)!=typ##__typ)__HALT(-6);*(p)
#define __WITHCHK __HALT(-7)
#define __R(i, ub) (((unsigned)(long)(i)<(unsigned long)(ub))?i:(__HALT(-8),0))
#define __RF(i, ub) SYSTEM_RCHK((long)(i),(long)(ub))
/* record type descriptors */
#define __TDESC(t, m, n) \
static struct t##__desc {\
long tproc[m]; \
long tag, next, level, module; \
char name[24]; \
long *base[__MAXEXT]; \
char *rsrvd; \
long blksz, ptr[n+1]; \
} t##__desc
#define __BASEOFF (__MAXEXT+1)
#define __TPROC0OFF (__BASEOFF+24/sizeof(long)+5)
#define __EOM 1
#define __TDFLDS(name, size) {__EOM}, 1, 0, 0, 0, name, {0}, 0, size
#define __ENUMP(adr, n, P) SYSTEM_ENUMP(adr, (long)(n), P)
#define __ENUMR(adr, typ, size, n, P) SYSTEM_ENUMR(adr, typ, (long)(size), (long)(n), P)
#define __INITYP(t, t0, level) \
t##__typ= &t##__desc.blksz; \
memcpy(t##__desc.base, t0##__typ - __BASEOFF, level*sizeof(long)); \
t##__desc.base[level]=t##__typ; \
t##__desc.module=(long)m; \
if(t##__desc.blksz!=sizeof(struct t)) __HALT(-15); \
t##__desc.blksz=(t##__desc.blksz+5*sizeof(long)-1)/(4*sizeof(long))*(4*sizeof(long)); \
SYSTEM_REGTYP(m, (long)&t##__desc.next); \
SYSTEM_INHERIT(t##__typ, t0##__typ)
/* Oberon-2 type bound procedures support */
#define __INITBP(t, proc, num) *(t##__typ-(__TPROC0OFF+num))=(long)proc
#define __SEND(typ, num, funtyp, parlist) ((funtyp)(*(typ-(__TPROC0OFF+num))))parlist
/* runtime system variables */
extern LONGINT SYSTEM_argc;
extern LONGINT SYSTEM_argv;
extern void (*SYSTEM_Halt)();
extern LONGINT SYSTEM_halt;
extern LONGINT SYSTEM_assert;
extern SYSTEM_PTR SYSTEM_modules;
extern LONGINT SYSTEM_heapsize;
extern LONGINT SYSTEM_allocated;
extern LONGINT SYSTEM_lock;
extern SHORTINT SYSTEM_gclock;
extern BOOLEAN SYSTEM_interrupted;
/* ANSI prototypes; not used so far
static int __STRCMP(CHAR *x, CHAR *y);
void SYSTEM_INIT(int argc, long argvadr);
void SYSTEM_FINI(void);
long SYSTEM_XCHK(long i, long ub);
long SYSTEM_RCHK(long i, long ub);
long SYSTEM_ASH(long i, long n);
long SYSTEM_ABS(long i);
double SYSTEM_ABSD(double i);
void SYSTEM_INHERIT(long *t, long *t0);
void SYSTEM_ENUMP(long *adr, long n, void (*P)(void*));
void SYSTEM_ENUMR(char *adr, long *typ, long size, long n, void (*P)(void*));
long SYSTEM_DIV(unsigned long x, unsigned long y);
long SYSTEM_MOD(unsigned long x, unsigned long y);
long SYSTEM_ENTIER(double x);
void SYSTEM_HALT(int n);
*/
#endif

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MODULE Unix; (* Josef Templ, 5.3.90 Linux system calls *)
(* ported to gnu x86_64 and added system function, noch *)
(* Module Unix provides a system call interface to Linux.
Naming conventions:
Procedure and Type-names always start with a capital letter.
error numbers as defined in Unix
other constants start with lower case letters *)
IMPORT SYSTEM;
CONST
(* various important constants *)
stdin* = 0; stdout* =1; stderr* = 2;
LOCKEX* = 2; LOCKUN* = 8; (* /usr/include/file.h *)
AFINET* = 2; (* /usr/include/sys/socket.h *)
PFINET* = AFINET; (* /usr/include/linux/socket.h *)
SOCKSTREAM* = 1; (* /usr/include/linux/socket.h *)
FIONREAD* = 541BH; (* in /usr/include/asm/termios.h *)
SETFL* = 4; (* set file descriptor flags; in asm/fcntl.h *)
TCP* = 0;
(* flag sets, cf. /usr/include/asm/fcntl.h *)
rdonly* = {}; wronly* = {0}; rdwr* = {1}; creat* = {6}; excl* = {7}; trunc* = {9}; append* = {10}; ndelay = {11};
(* error numbers *)
EPERM* = 1; (* Not owner *)
ENOENT* = 2; (* No such file or directory *)
ESRCH* = 3; (* No such process *)
EINTR* = 4; (* Interrupted system call *)
EIO* = 5; (* I/O error *)
ENXIO* = 6; (* No such device or address *)
E2BIG* = 7; (* Arg list too long *)
ENOEXEC* = 8; (* Exec format error *)
EBADF* = 9; (* Bad file number *)
ECHILD* = 10; (* No children *)
EAGAIN* = 11; (* No more processes *)
ENOMEM* = 12; (* Not enough core *)
EACCES* = 13; (* Permission denied *)
EFAULT* = 14; (* Bad address *)
ENOTBLK* = 15; (* Block device required *)
EBUSY* = 16; (* Mount device busy *)
EEXIST* = 17; (* File exists *)
EXDEV* = 18; (* Cross-device link *)
ENODEV* = 19; (* No such device *)
ENOTDIR* = 20; (* Not a directory*)
EISDIR* = 21; (* Is a directory *)
EINVAL* = 22; (* Invalid argument *)
ENFILE* = 23; (* File table overflow *)
EMFILE* = 24; (* Too many open files *)
ENOTTY* = 25; (* Not a typewriter *)
ETXTBSY* = 26; (* Text file busy *)
EFBIG* = 27; (* File too large *)
ENOSPC* = 28; (* No space left on device *)
ESPIPE* = 29; (* Illegal seek *)
EROFS* = 30; (* Read-only file system *)
EMLINK* = 31; (* Too many links *)
EPIPE* = 32; (* Broken pipe *)
EDOM* = 33; (* Argument too large *)
ERANGE* = 34; (* Result too large *)
EDEADLK* = 35; (* Resource deadlock would occur *)
ENAMETOOLONG* = 36; (* File name too long *)
ENOLCK* = 37; (* No record locks available *)
ENOSYS* = 38; (* Function not implemented *)
ENOTEMPTY* = 39; (* Directory not empty *)
ELOOP* = 40; (* Too many symbolic links encountered *)
EWOULDBLOCK* = EAGAIN; (* Operation would block *)
ENOMSG* = 42; (* No message of desired type *)
EIDRM* = 43; (* Identifier removed *)
ECHRNG* = 44; (* Channel number out of range *)
EL2NSYNC* = 45; (* Level 2 not synchronized *)
EL3HLT* = 46; (* Level 3 halted *)
EL3RST* = 47; (* Level 3 reset *)
ELNRNG* = 48; (* Link number out of range *)
EUNATCH* = 49; (* Protocol driver not attached *)
ENOCSI* = 50; (* No CSI structure available *)
EL2HLT* = 51; (* Level 2 halted *)
EBADE* = 52; (* Invalid exchange *)
EBADR* = 53; (* Invalid request descriptor *)
EXFULL* = 54; (* Exchange full *)
ENOANO* = 55; (* No anode *)
EBADRQC* = 56; (* Invalid request code *)
EBADSLT* = 57; (* Invalid slot *)
EDEADLOCK* = 58; (* File locking deadlock error *)
EBFONT* = 59; (* Bad font file format *)
ENOSTR* = 60; (* Device not a stream *)
ENODATA* = 61; (* No data available *)
ETIME* = 62; (* Timer expired *)
ENOSR* = 63; (* Out of streams resources *)
ENONET* = 64; (* Machine is not on the network *)
ENOPKG* = 65; (* Package not installed *)
EREMOTE* = 66; (* Object is remote *)
ENOLINK* = 67; (* Link has been severed *)
EADV* = 68; (* Advertise error *)
ESRMNT* = 69; (* Srmount error *)
ECOMM* = 70; (* Communication error on send *)
EPROTO* = 71; (* Protocol error *)
EMULTIHOP* = 72; (* Multihop attempted *)
EDOTDOT* = 73; (* RFS specific error *)
EBADMSG* = 74; (* Not a data message *)
EOVERFLOW* = 75; (* Value too large for defined data type *)
ENOTUNIQ* = 76; (* Name not unique on network *)
EBADFD* = 77; (* File descriptor in bad state *)
EREMCHG* = 78; (* Remote address changed *)
ELIBACC* = 79; (* Can not access a needed shared library *)
ELIBBAD* = 80; (* Accessing a corrupted shared library *)
ELIBSCN* = 81; (* .lib section in a.out corrupted *)
ELIBMAX* = 82; (* Attempting to link in too many shared libraries *)
ELIBEXEC* = 83; (* Cannot exec a shared library directly *)
EILSEQ* = 84; (* Illegal byte sequence *)
ERESTART* = 85; (* Interrupted system call should be restarted *)
ESTRPIPE* = 86; (* Streams pipe error *)
EUSERS* = 87; (* Too many users *)
ENOTSOCK* = 88; (* Socket operation on non-socket *)
EDESTADDRREQ* = 89; (* Destination address required *)
EMSGSIZE* = 90; (* Message too long *)
EPROTOTYPE* = 91; (* Protocol wrong type for socket *)
ENOPROTOOPT* = 92; (* Protocol not available *)
EPROTONOSUPPORT* = 93; (* Protocol not supported *)
ESOCKTNOSUPPORT* = 94; (* Socket type not supported *)
EOPNOTSUPP* = 95; (* Operation not supported on transport endpoint *)
EPFNOSUPPORT* = 96; (* Protocol family not supported *)
EAFNOSUPPORT* = 97; (* Address family not supported by protocol *)
EADDRINUSE* = 98; (* Address already in use *)
EADDRNOTAVAIL* = 99; (* Cannot assign requested address *)
ENETDOWN* = 100; (* Network is down *)
ENETUNREACH* = 101; (* Network is unreachable *)
ENETRESET* = 102; (* Network dropped connection because of reset *)
ECONNABORTED* = 103; (* Software caused connection abort *)
ECONNRESET* = 104; (* Connection reset by peer *)
ENOBUFS* = 105; (* No buffer space available *)
EISCONN* = 106; (* Transport endpoint is already connected *)
ENOTCONN* = 107; (* Transport endpoint is not connected *)
ESHUTDOWN* = 108; (* Cannot send after transport endpoint shutdown *)
ETOOMANYREFS* = 109; (* Too many references: cannot splice *)
ETIMEDOUT* = 110; (* Connection timed out *)
ECONNREFUSED* = 111; (* Connection refused *)
EHOSTDOWN* = 112; (* Host is down *)
EHOSTUNREACH* = 113; (* No route to host *)
EALREADY* = 114; (* Operation already in progress *)
EINPROGRESS* = 115; (* Operation now in progress *)
ESTALE* = 116; (* Stale NFS file handle *)
EUCLEAN* = 117; (* Structure needs cleaning *)
ENOTNAM* = 118; (* Not a XENIX named type file *)
ENAVAIL* = 119; (* No XENIX semaphores available *)
EISNAM* = 120; (* Is a named type file *)
EREMOTEIO* = 121; (* Remote I/O error *)
EDQUOT* = 122; (* Quota exceeded *)
CONST sigsetarrlength = 1024 / 8 * SIZE(LONGINT);
TYPE
(* bits/sigset.h
_SIGSET_NWORDS (1024 / (8 * sizeof (unsigned long int)))
1024 / 8*8 = 16
1024 / 8*4 = 32
*)
sigsett* = RECORD
val : ARRAY 16 OF LONGINT (* 32 for 32 bit *)
(*val : ARRAY sigsetarrlength OF LONGINT *)
END;
JmpBuf* = RECORD
(*bx*, si*, di*, bp*, sp*, pc*: LONGINT;*)
(* bits/setjmp.h sets up longer array in GNU libc *)
(*
# if __WORDSIZE == 64
typedef long int __jmp_buf[8];
# else
typedef int __jmp_buf[6];
# endif
*)
bx*, si*, di*, bp*, sp*, pc*, ki*, ku*: LONGINT;
(* setjmp.h
/* Calling environment, plus possibly a saved signal mask. */
struct __jmp_buf_tag
{
/* NOTE: The machine-dependent definitions of `__sigsetjmp'
assume that a `jmp_buf' begins with a `__jmp_buf' and that
`__mask_was_saved' follows it. Do not move these members
or add others before it. */
__jmp_buf __jmpbuf; /* Calling environment. */
int __mask_was_saved; /* Saved the signal mask? */
__sigset_t __saved_mask; /* Saved signal mask. */
};
*)
(*maskWasSaved*, savedMask*: LONGINT;*)
maskWasSaved*: INTEGER;
(*
# define _SIGSET_NWORDS (1024 / (8 * sizeof (unsigned long int)))
typedef struct
{
unsigned long int __val[_SIGSET_NWORDS];
} __sigset_t;
*)
savedMask*: sigsett;
END ;
Status* = RECORD (* struct stat *)
dev* : LONGINT; (* dev_t 8 *)
ino* : LONGINT; (* ino 8 *)
nlink* : LONGINT;
mode* : INTEGER;
uid*, gid*: INTEGER;
rdev* : LONGINT;
size* : LONGINT;
blksize* : LONGINT;
blocks* : LONGINT;
atime* : LONGINT;
atimences* : LONGINT;
mtime* : LONGINT;
mtimensec* : LONGINT;
ctime* : LONGINT;
ctimensec* : LONGINT;
unused4*, unused5*: LONGINT;
END ;
(* from /usr/include/bits/time.h
struct timeval
{
__time_t tv_sec; /* Seconds. */ //__time_t 8
__suseconds_t tv_usec; /* Microseconds. */ __suseconds_t 8
};
*)
Timeval* = RECORD
sec*, usec*: LONGINT
END ;
(*
from man gettimeofday
struct timezone {
int tz_minuteswest; /* minutes west of Greenwich */ int 4
int tz_dsttime; /* type of DST correction */ int 4
};
*)
Timezone* = RECORD
(*minuteswest*, dsttime*: LONGINT*)
minuteswest*, dsttime*: INTEGER
END ;
Itimerval* = RECORD
interval*, value*: Timeval
END ;
FdSet* = ARRAY 8 OF SET;
SigCtxPtr* = POINTER TO SigContext;
SigContext* = RECORD
END ;
SignalHandler* = PROCEDURE (sig, code: LONGINT; scp: SigCtxPtr);
Dirent* = RECORD
ino, off: LONGINT;
reclen: INTEGER;
name: ARRAY 256 OF CHAR;
END ;
Rusage* = RECORD
utime*, stime*: Timeval;
maxrss*, ixrss*, idrss*, isrss*,
minflt*, majflt*, nswap*, inblock*,
oublock*, msgsnd*, msgrcv*, nsignals*,
nvcsw*, nivcsw*: LONGINT
END ;
Iovec* = RECORD
base*, len*: LONGINT
END ;
SocketPair* = ARRAY 2 OF LONGINT;
Pollfd* = RECORD
fd*: LONGINT;
events*, revents*: INTEGER
END ;
Sockaddr* = RECORD
family*: INTEGER;
port*: INTEGER;
internetAddr*: LONGINT;
pad*: ARRAY 8 OF CHAR;
END ;
HostEntry* = POINTER [1] TO Hostent;
Hostent* = RECORD
name*, aliases*: LONGINT;
addrtype*, length*: LONGINT;
addrlist*: LONGINT; (*POINTER TO POINTER TO LONGINT, network byte order*)
END;
Name* = ARRAY OF CHAR;
PROCEDURE -includeStat()
"#include <sys/stat.h>";
PROCEDURE -includeErrno()
"#include <errno.h>";
PROCEDURE -err(): LONGINT
"errno";
PROCEDURE errno*(): LONGINT;
BEGIN
RETURN err()
END errno;
PROCEDURE -Exit*(n: LONGINT)
"exit(n)";
PROCEDURE -Fork*(): LONGINT
"fork()";
PROCEDURE -Wait*(VAR status: LONGINT): LONGINT
"wait(status)";
PROCEDURE -Select*(width: LONGINT; VAR readfds, writefds, exceptfds: FdSet; VAR timeout: Timeval): LONGINT
"select(width, readfds, writefds, exceptfds, timeout)";
PROCEDURE -Gettimeofday* (VAR tv: Timeval; VAR tz: Timezone)
"gettimeofday(tv, tz)";
PROCEDURE -Read* (fd, buf, nbyte: LONGINT): LONGINT
"read(fd, buf, nbyte)";
PROCEDURE -ReadBlk* (fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE): LONGINT
"read(fd, buf, buf__len)";
PROCEDURE -Write* (fd, buf, nbyte: LONGINT): LONGINT
"write(fd, buf, nbyte)";
PROCEDURE -WriteBlk* (fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE): LONGINT
"write(fd, buf, buf__len)";
PROCEDURE -Dup*(fd: LONGINT): LONGINT
"dup(fd)";
PROCEDURE -Dup2*(fd1, fd2: LONGINT): LONGINT
"dup(fd1, fd2)";
PROCEDURE -Getpid*(): LONGINT
"getpid()";
PROCEDURE -Getuid*(): LONGINT
"getuid()";
PROCEDURE -Geteuid*(): LONGINT
"geteuid()";
PROCEDURE -Getgid*(): LONGINT
"getgid()";
PROCEDURE -Getegid*(): LONGINT
"getegid()";
PROCEDURE -Unlink*(name: Name): LONGINT
"unlink(name)";
PROCEDURE -Open*(name: Name; flag, mode: SET): LONGINT
"open(name, flag, mode)";
PROCEDURE -Close*(fd: LONGINT): LONGINT
"close(fd)";
PROCEDURE -stat(name: Name; VAR statbuf: Status): LONGINT
"stat((const char*)name, (struct stat*)statbuf)";
PROCEDURE Stat*(name: Name; VAR statbuf: Status): LONGINT;
VAR res: LONGINT;
BEGIN
res := stat(name, statbuf);
(* make the first 4 bytes as unique as possible (used in module Files for caching!) *)
(* don't understand this
INC(statbuf.dev, statbuf.devX);
INC(statbuf.rdev, statbuf.rdevX); *)
RETURN res;
END Stat;
PROCEDURE -fstat(fd: LONGINT; VAR statbuf: Status): LONGINT
"fstat(fd, (struct stat*)statbuf)";
PROCEDURE Fstat*(fd: LONGINT; VAR statbuf: Status): LONGINT;
VAR res: LONGINT;
BEGIN
res := fstat(fd, statbuf);
(* make the first 4 bytes as unique as possible (used in module Files for caching!) *)
(*INC(statbuf.dev, statbuf.devX);
INC(statbuf.rdev, statbuf.rdevX); *)
RETURN res;
END Fstat;
PROCEDURE -Fchmod*(fd, mode: LONGINT): LONGINT
"fchmod(fd, mode)";
PROCEDURE -Chmod*(path: Name; mode: LONGINT): LONGINT
"chmod(path, mode)";
PROCEDURE -Lseek*(fd, offset, origin: LONGINT): LONGINT
"lseek(fd, offset, origin)";
PROCEDURE -Fsync*(fd: LONGINT): LONGINT
"fsync(fd)";
PROCEDURE -Fcntl*(fd, cmd, arg: LONGINT ): LONGINT
"fcntl(fd, cmd, arg)";
PROCEDURE -Flock*(fd, operation: LONGINT): LONGINT
"flock(fd, operation)";
PROCEDURE -Ftruncate*(fd, length: LONGINT): LONGINT
"ftruncate(fd, length)";
PROCEDURE -Readblk*(fd: LONGINT; VAR buf: ARRAY OF SYSTEM.BYTE; len: LONGINT): LONGINT
"read(fd, buf, len)";
PROCEDURE -Rename*(old, new: Name): LONGINT
"rename(old, new)";
PROCEDURE -Chdir*(path: Name): LONGINT
"chdir(path)";
PROCEDURE -Ioctl*(fd, request, arg: LONGINT): LONGINT
"ioctl(fd, request, arg)";
PROCEDURE -Kill*(pid, sig: LONGINT): LONGINT
"kill(pid, sig)";
PROCEDURE -Sigsetmask*(mask: LONGINT): LONGINT
"sigsetmask(mask)";
(* TCP/IP networking *)
PROCEDURE -Gethostbyname*(name: Name): HostEntry
"(Unix_HostEntry)gethostbyname(name)";
PROCEDURE -Gethostname*(VAR name: Name): LONGINT
"gethostname(name, name__len)";
PROCEDURE -Socket*(af, type, protocol: LONGINT): LONGINT
"socket(af, type, protocol)";
PROCEDURE -Connect*(socket: LONGINT; name: Sockaddr; namelen: LONGINT): LONGINT
"connect(socket, &(name), namelen)";
PROCEDURE -Getsockname*(socket: LONGINT; VAR name: Sockaddr; VAR namelen: LONGINT): LONGINT
"getsockname(socket, name, namelen)";
PROCEDURE -Bind*(socket: LONGINT; name: Sockaddr; namelen: LONGINT): LONGINT
"bind(socket, &(name), namelen)";
PROCEDURE -Listen*(socket, backlog: LONGINT): LONGINT
"listen(socket, backlog)";
PROCEDURE -Accept*(socket: LONGINT; VAR addr: Sockaddr; VAR addrlen: LONGINT): LONGINT
"accept(socket, addr, addrlen)";
PROCEDURE -Recv*(socket, bufadr, buflen, flags: LONGINT): LONGINT
"recv(socket, bufadr, buflen, flags)";
PROCEDURE -Send*(socket, bufadr, buflen, flags: LONGINT): LONGINT
"send(socket, bufadr, buflen, flags)";
PROCEDURE -sys(str: ARRAY OF CHAR): INTEGER (* need this to call external tools like gcc or gas; noch *)
"system(str)";
PROCEDURE system*(cmd : ARRAY OF CHAR);
VAR r : INTEGER;
BEGIN
r := sys(cmd);
END system;
END Unix.