kolibrios-gitea/programs/develop/oberon07/Source/PROG.ob07
maxcodehack 2f54c7de00 Update oberon07 from akron1's github
git-svn-id: svn://kolibrios.org@8097 a494cfbc-eb01-0410-851d-a64ba20cac60
2020-10-13 07:58:51 +00:00

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(*
BSD 2-Clause License
Copyright (c) 2018-2020, Anton Krotov
All rights reserved.
*)
MODULE PROG;
IMPORT SCAN, LISTS, ARITH, ERRORS, C := COLLECTIONS, IL, UTILS, TARGETS, STRINGS;
CONST
MAXARRDIM* = 5;
MAXSCOPE = 16;
MAXSYSVPARAM* = 26;
idNONE* = 0; idGUARD = 1; idMODULE* = 2; idCONST* = 3;
idTYPE* = 4; idSTFUNC* = 5; idSTPROC* = 6; idVAR* = 7;
idPROC* = 8; idVPAR* = 9; idPARAM* = 10; idSYSFUNC* = 11;
idSYSPROC* = 12; idIMP* = 13;
tINTEGER* = 1; tBYTE* = 2; tCHAR* = 3; tSET* = 4;
tBOOLEAN* = 5; tREAL* = 6; tARRAY* = 7; tRECORD* = 8;
tPOINTER* = 9; tPROCEDURE* = 10; tSTRING* = 11; tNIL* = 12;
tCARD32* = 13; tANYREC* = 14; tWCHAR* = 15; tNONE* = 16;
BASICTYPES* = {tINTEGER, tBYTE, tCHAR, tSET, tBOOLEAN, tREAL, tCARD32, tWCHAR};
stABS* = 1; stASR* = 2; stCHR* = 3; stFLOOR* = 4;
stFLT* = 5; stLEN* = 6; stLSL* = 7; stODD* = 8;
stORD* = 9; stROR* = 10; stASSERT* = 11; stDEC* = 12;
stEXCL* = 13; stINC* = 14; stINCL* = 15; stNEW* = 16;
stPACK* = 17; stUNPK* = 18; sysADR* = 19; sysSIZE* = 20;
sysGET* = 21; sysPUT* = 22;
stDISPOSE* = 23; stLSR* = 24; stBITS* = 25; sysCODE* = 26;
sysMOVE* = 27; stLENGTH* = 28; stMIN* = 29; stMAX* = 30;
sysSADR* = 31; sysTYPEID* = 32; sysCOPY* = 33; sysINF* = 34;
sysPUT8* = 35; sysPUT16* = 36; stCOPY* = 37; stWCHR* = 38;
sysWSADR* = 39; sysPUT32* = 40; (*sysNOP* = 41; sysEINT* = 42;
sysDINT* = 43;*)sysGET8* = 44; sysGET16* = 45; sysGET32* = 46;
default32* = 2; _default32* = default32 + 1;
stdcall* = 4; _stdcall* = stdcall + 1;
ccall* = 6; _ccall* = ccall + 1;
ccall16* = 8; _ccall16* = ccall16 + 1;
win64* = 10; _win64* = win64 + 1;
stdcall64* = 12; _stdcall64* = stdcall64 + 1;
default64* = 14; _default64* = default64 + 1;
systemv* = 16; _systemv* = systemv + 1;
default16* = 18;
code* = 20; _code* = code + 1;
noalign* = 22;
callee_clean_up* = {default32, stdcall, _stdcall, default64, stdcall64, _stdcall64};
sf_stdcall* = 0; sf_stdcall64* = 1; sf_ccall* = 2; sf_ccall16* = 3;
sf_win64* = 4; sf_systemv* = 5; sf_windows* = 6; sf_linux* = 7;
sf_code* = 8; sf_oberon* = 9;
sf_noalign* = 10;
proc_flags* = {sf_stdcall, sf_stdcall64, sf_ccall, sf_ccall16, sf_win64, sf_systemv, sf_windows, sf_linux, sf_code, sf_oberon};
rec_flags* = {sf_noalign};
STACK_FRAME = 2;
TYPE
OPTIONS* = RECORD
version*, stack*, ram*, rom*: INTEGER;
pic*, lower*: BOOLEAN;
checking*: SET
END;
IDENT* = POINTER TO rIDENT;
UNIT* = POINTER TO rUNIT;
_TYPE* = POINTER TO rTYPE;
FRWPTR* = POINTER TO RECORD (LISTS.ITEM)
_type: _TYPE;
baseIdent: SCAN.IDENT;
linked: BOOLEAN;
pos*: SCAN.POSITION;
notRecord*: BOOLEAN
END;
PROC* = POINTER TO RECORD (LISTS.ITEM)
label*: INTEGER;
used*: BOOLEAN;
processed*: BOOLEAN;
_import*: LISTS.ITEM;
using*: LISTS.LIST;
enter*,
leave*: LISTS.ITEM
END;
USED_PROC = POINTER TO RECORD (LISTS.ITEM)
proc: PROC
END;
rUNIT = RECORD (LISTS.ITEM)
name*: SCAN.IDENT;
idents*: LISTS.LIST;
frwPointers: LISTS.LIST;
gscope: IDENT;
closed*: BOOLEAN;
scopeLvl*: INTEGER;
sysimport*: BOOLEAN;
scopes*: ARRAY MAXSCOPE OF PROC
END;
FIELD* = POINTER TO rFIELD;
PARAM* = POINTER TO rPARAM;
rTYPE = RECORD (LISTS.ITEM)
typ*: INTEGER;
size*: INTEGER;
parSize*: INTEGER;
length*: INTEGER;
align*: INTEGER;
base*: _TYPE;
fields*: LISTS.LIST;
params*: LISTS.LIST;
unit*: UNIT;
closed*: BOOLEAN;
num*: INTEGER;
call*: INTEGER;
_import*: BOOLEAN;
noalign*: BOOLEAN
END;
rFIELD = RECORD (LISTS.ITEM)
_type*: _TYPE;
name*: SCAN.IDENT;
export*: BOOLEAN;
offset*: INTEGER
END;
rPARAM = RECORD (LISTS.ITEM)
name*: SCAN.IDENT;
_type*: _TYPE;
vPar*: BOOLEAN;
offset*: INTEGER
END;
rIDENT = RECORD (LISTS.ITEM)
name*: SCAN.IDENT;
typ*: INTEGER;
export*: BOOLEAN;
_import*: LISTS.ITEM;
unit*: UNIT;
value*: ARITH.VALUE;
_type*: _TYPE;
stproc*: INTEGER;
global*: BOOLEAN;
scopeLvl*: INTEGER;
offset*: INTEGER;
proc*: PROC;
pos*: SCAN.POSITION
END;
PROGRAM = RECORD
recCount: INTEGER;
units*: LISTS.LIST;
types*: LISTS.LIST;
sysunit*: UNIT;
rtl*: UNIT;
bss*: INTEGER;
locsize*: INTEGER;
procs*: LISTS.LIST;
sysflags*: SET;
options*: OPTIONS;
stTypes*: RECORD
tINTEGER*, tBYTE*, tCHAR*, tWCHAR*, tSET*, tBOOLEAN*, tREAL*,
tSTRING*, tNIL*, tCARD32*, tANYREC*, tNONE*: _TYPE
END
END;
DELIMPORT = PROCEDURE (_import: LISTS.ITEM);
VAR
LowerCase: BOOLEAN;
idents: C.COLLECTION;
program*: PROGRAM;
PROCEDURE NewIdent (): IDENT;
VAR
ident: IDENT;
citem: C.ITEM;
BEGIN
citem := C.pop(idents);
IF citem = NIL THEN
NEW(ident)
ELSE
ident := citem(IDENT)
END
RETURN ident
END NewIdent;
PROCEDURE getOffset* (varIdent: IDENT): INTEGER;
VAR
size: INTEGER;
BEGIN
IF varIdent.offset = -1 THEN
size := varIdent._type.size;
IF varIdent.global THEN
IF UTILS.Align(program.bss, varIdent._type.align) THEN
IF UTILS.maxint - program.bss >= size THEN
varIdent.offset := program.bss;
INC(program.bss, size)
END
END
ELSE
IF UTILS.Align(size, TARGETS.WordSize) THEN
size := size DIV TARGETS.WordSize;
IF UTILS.maxint - program.locsize >= size THEN
INC(program.locsize, size);
varIdent.offset := program.locsize
END
END
END;
IF varIdent.offset = -1 THEN
ERRORS.Error(204)
END
END
RETURN varIdent.offset
END getOffset;
PROCEDURE closeUnit* (unit: UNIT);
VAR
ident, prev: IDENT;
offset: INTEGER;
BEGIN
ident := unit.idents.last(IDENT);
WHILE (ident # NIL) & (ident.typ # idGUARD) DO
IF (ident.typ = idVAR) & (ident.offset = -1) THEN
ERRORS.HintMsg(ident.name.s, ident.pos.line, ident.pos.col, 0);
IF ident.export THEN
offset := getOffset(ident)
END
END;
ident := ident.prev(IDENT)
END;
ident := unit.idents.last(IDENT);
WHILE ident # NIL DO
prev := ident.prev(IDENT);
IF ~ident.export THEN
LISTS.delete(unit.idents, ident);
C.push(idents, ident)
END;
ident := prev
END;
unit.closed := TRUE
END closeUnit;
PROCEDURE unique (unit: UNIT; ident: SCAN.IDENT): BOOLEAN;
VAR
item: IDENT;
BEGIN
ASSERT(ident # NIL);
item := unit.idents.last(IDENT);
WHILE (item.typ # idGUARD) & (item.name # ident) DO
item := item.prev(IDENT)
END
RETURN item.typ = idGUARD
END unique;
PROCEDURE addIdent* (unit: UNIT; ident: SCAN.IDENT; typ: INTEGER): IDENT;
VAR
item: IDENT;
res: BOOLEAN;
proc: PROC;
BEGIN
ASSERT(unit # NIL);
ASSERT(ident # NIL);
res := unique(unit, ident);
IF res THEN
item := NewIdent();
item.name := ident;
item.typ := typ;
item.unit := NIL;
item.export := FALSE;
item._import := NIL;
item._type := NIL;
item.value.typ := 0;
item.stproc := 0;
item.global := unit.scopeLvl = 0;
item.scopeLvl := unit.scopeLvl;
item.offset := -1;
IF item.typ IN {idPROC, idIMP} THEN
NEW(proc);
proc._import := NIL;
proc.label := 0;
proc.used := FALSE;
proc.processed := FALSE;
proc.using := LISTS.create(NIL);
LISTS.push(program.procs, proc);
item.proc := proc
END;
LISTS.push(unit.idents, item)
ELSE
item := NIL
END
RETURN item
END addIdent;
PROCEDURE UseProc* (unit: UNIT; call_proc: PROC);
VAR
procs: LISTS.LIST;
cur: LISTS.ITEM;
proc: USED_PROC;
BEGIN
IF unit.scopeLvl = 0 THEN
call_proc.used := TRUE
ELSE
procs := unit.scopes[unit.scopeLvl].using;
cur := procs.first;
WHILE (cur # NIL) & (cur(USED_PROC).proc # call_proc) DO
cur := cur.next
END;
IF cur = NIL THEN
NEW(proc);
proc.proc := call_proc;
LISTS.push(procs, proc)
END
END
END UseProc;
PROCEDURE setVarsType* (unit: UNIT; _type: _TYPE);
VAR
item: IDENT;
BEGIN
ASSERT(_type # NIL);
item := unit.idents.last(IDENT);
WHILE (item # NIL) & (item.typ = idVAR) & (item._type = NIL) DO
item._type := _type;
item := item.prev(IDENT)
END
END setVarsType;
PROCEDURE getIdent* (unit: UNIT; ident: SCAN.IDENT; currentScope: BOOLEAN): IDENT;
VAR
item: IDENT;
BEGIN
ASSERT(ident # NIL);
item := unit.idents.last(IDENT);
IF item # NIL THEN
IF currentScope THEN
WHILE (item.name # ident) & (item.typ # idGUARD) DO
item := item.prev(IDENT)
END;
IF item.name # ident THEN
item := NIL
END
ELSE
WHILE (item # NIL) & (item.name # ident) DO
item := item.prev(IDENT)
END
END
END
RETURN item
END getIdent;
PROCEDURE openScope* (unit: UNIT; proc: PROC): BOOLEAN;
VAR
item: IDENT;
res: BOOLEAN;
BEGIN
INC(unit.scopeLvl);
res := unit.scopeLvl < MAXSCOPE;
IF res THEN
unit.scopes[unit.scopeLvl] := proc;
NEW(item);
item := NewIdent();
item.name := NIL;
item.typ := idGUARD;
LISTS.push(unit.idents, item)
END
RETURN res
END openScope;
PROCEDURE closeScope* (unit: UNIT; variables: LISTS.LIST);
VAR
item: IDENT;
del: IDENT;
lvar: IL.LOCALVAR;
BEGIN
item := unit.idents.last(IDENT);
WHILE (item # NIL) & (item.typ # idGUARD) DO
del := item;
item := item.prev(IDENT);
IF (del.typ = idVAR) & (del.offset = -1) THEN
ERRORS.HintMsg(del.name.s, del.pos.line, del.pos.col, 0)
END;
IF (variables # NIL) & (del.typ IN {idVAR, idPARAM}) & (del.offset # -1) THEN
IF del._type.typ IN BASICTYPES - {tREAL} + {tPOINTER, tPROCEDURE} THEN
lvar := IL.NewVar();
lvar.offset := del.offset;
lvar.size := del._type.size;
IF del.typ = idVAR THEN
lvar.offset := -lvar.offset
END;
LISTS.push(variables, lvar)
END
END;
LISTS.delete(unit.idents, del);
C.push(idents, del)
END;
IF (item # NIL) & (item.typ = idGUARD) THEN
LISTS.delete(unit.idents, item);
C.push(idents, item)
END;
DEC(unit.scopeLvl)
END closeScope;
PROCEDURE frwPtr* (unit: UNIT; _type: _TYPE; baseIdent: SCAN.IDENT; pos: SCAN.POSITION);
VAR
newptr: FRWPTR;
BEGIN
ASSERT(unit # NIL);
ASSERT(_type # NIL);
ASSERT(baseIdent # NIL);
NEW(newptr);
newptr._type := _type;
newptr.baseIdent := baseIdent;
newptr.pos := pos;
newptr.linked := FALSE;
newptr.notRecord := FALSE;
LISTS.push(unit.frwPointers, newptr)
END frwPtr;
PROCEDURE linkPtr* (unit: UNIT): FRWPTR;
VAR
item: FRWPTR;
ident: IDENT;
res: FRWPTR;
BEGIN
res := NIL;
item := unit.frwPointers.last(FRWPTR);
WHILE (item # NIL) & ~item.linked & (res = NIL) DO
ident := getIdent(unit, item.baseIdent, TRUE);
IF (ident # NIL) THEN
IF (ident.typ = idTYPE) & (ident._type.typ = tRECORD) THEN
item._type.base := ident._type;
item.linked := TRUE
ELSE
item.notRecord := TRUE;
res := item
END
ELSE
item.notRecord := FALSE;
res := item
END;
item := item.prev(FRWPTR)
END
RETURN res
END linkPtr;
PROCEDURE isTypeEq* (t1, t2: _TYPE): BOOLEAN;
VAR
res: BOOLEAN;
param1, param2: LISTS.ITEM;
BEGIN
IF t1 = t2 THEN
res := TRUE
ELSIF (t1 = NIL) OR (t2 = NIL) THEN
res := FALSE
ELSIF (t1.typ = tPROCEDURE) & (t2.typ = tPROCEDURE) THEN
param1 := t1.params.first;
param2 := t2.params.first;
res := ((t1.call = t2.call) OR (t1.call IN {code, _code}) OR (t2.call IN {code, _code})) & ((param1 # NIL) = (param2 # NIL));
WHILE res & (param1 # NIL) & (param2 # NIL) DO
res := (param1(PARAM).vPar = param2(PARAM).vPar) & isTypeEq(param1(PARAM)._type, param2(PARAM)._type);
param1 := param1.next;
param2 := param2.next;
res := res & ((param1 # NIL) = (param2 # NIL))
END;
res := res & isTypeEq(t1.base, t2.base)
ELSIF (t1.typ = tARRAY) & (t2.typ = tARRAY) THEN
res := (t1.length = 0) & (t2.length = 0) & isTypeEq(t1.base, t2.base)
ELSE
res := FALSE
END
RETURN res
END isTypeEq;
PROCEDURE isBaseOf* (t0, t1: _TYPE): BOOLEAN;
VAR
res: BOOLEAN;
BEGIN
res := (t0.typ = t1.typ) & (t0.typ IN {tPOINTER, tRECORD});
IF res & (t0.typ = tPOINTER) THEN
t0 := t0.base;
t1 := t1.base
END;
IF res THEN
WHILE (t1 # NIL) & (t1 # t0) DO
t1 := t1.base
END;
res := t1 # NIL
END
RETURN res
END isBaseOf;
PROCEDURE isOpenArray* (t: _TYPE): BOOLEAN;
RETURN (t.typ = tARRAY) & (t.length = 0)
END isOpenArray;
PROCEDURE arrcomp* (src, dst: _TYPE): BOOLEAN;
RETURN (dst.typ = tARRAY) & isOpenArray(src) &
~isOpenArray(src.base) & ~isOpenArray(dst.base) &
isTypeEq(src.base, dst.base)
END arrcomp;
PROCEDURE getUnit* (name: SCAN.IDENT): UNIT;
VAR
item: UNIT;
BEGIN
ASSERT(name # NIL);
item := program.units.first(UNIT);
WHILE (item # NIL) & (item.name # name) DO
item := item.next(UNIT)
END;
IF (item = NIL) & ((name.s = "SYSTEM") OR LowerCase & (name.s = "system")) THEN
item := program.sysunit
END
RETURN item
END getUnit;
PROCEDURE enterStTypes (unit: UNIT);
PROCEDURE enter (unit: UNIT; name: SCAN.LEXSTR; _type: _TYPE);
VAR
ident: IDENT;
upper: SCAN.LEXSTR;
BEGIN
IF LowerCase THEN
ident := addIdent(unit, SCAN.enterid(name), idTYPE);
ident._type := _type
END;
upper := name;
STRINGS.UpCase(upper);
ident := addIdent(unit, SCAN.enterid(upper), idTYPE);
ident._type := _type
END enter;
BEGIN
enter(unit, "integer", program.stTypes.tINTEGER);
enter(unit, "byte", program.stTypes.tBYTE);
enter(unit, "char", program.stTypes.tCHAR);
enter(unit, "set", program.stTypes.tSET);
enter(unit, "boolean", program.stTypes.tBOOLEAN);
IF TARGETS.RealSize # 0 THEN
enter(unit, "real", program.stTypes.tREAL)
END;
IF TARGETS.BitDepth >= 32 THEN
enter(unit, "wchar", program.stTypes.tWCHAR)
END
END enterStTypes;
PROCEDURE enterStProcs (unit: UNIT);
PROCEDURE EnterProc (unit: UNIT; name: SCAN.LEXSTR; proc: INTEGER);
VAR
ident: IDENT;
upper: SCAN.LEXSTR;
BEGIN
IF LowerCase THEN
ident := addIdent(unit, SCAN.enterid(name), idSTPROC);
ident.stproc := proc;
ident._type := program.stTypes.tNONE
END;
upper := name;
STRINGS.UpCase(upper);
ident := addIdent(unit, SCAN.enterid(upper), idSTPROC);
ident.stproc := proc;
ident._type := program.stTypes.tNONE
END EnterProc;
PROCEDURE EnterFunc (unit: UNIT; name: SCAN.LEXSTR; func: INTEGER);
VAR
ident: IDENT;
upper: SCAN.LEXSTR;
BEGIN
IF LowerCase THEN
ident := addIdent(unit, SCAN.enterid(name), idSTFUNC);
ident.stproc := func;
ident._type := program.stTypes.tNONE
END;
upper := name;
STRINGS.UpCase(upper);
ident := addIdent(unit, SCAN.enterid(upper), idSTFUNC);
ident.stproc := func;
ident._type := program.stTypes.tNONE
END EnterFunc;
BEGIN
EnterProc(unit, "assert", stASSERT);
EnterProc(unit, "dec", stDEC);
EnterProc(unit, "excl", stEXCL);
EnterProc(unit, "inc", stINC);
EnterProc(unit, "incl", stINCL);
EnterProc(unit, "new", stNEW);
EnterProc(unit, "copy", stCOPY);
EnterFunc(unit, "abs", stABS);
EnterFunc(unit, "asr", stASR);
EnterFunc(unit, "chr", stCHR);
EnterFunc(unit, "len", stLEN);
EnterFunc(unit, "lsl", stLSL);
EnterFunc(unit, "odd", stODD);
EnterFunc(unit, "ord", stORD);
EnterFunc(unit, "ror", stROR);
EnterFunc(unit, "bits", stBITS);
EnterFunc(unit, "lsr", stLSR);
EnterFunc(unit, "length", stLENGTH);
EnterFunc(unit, "min", stMIN);
EnterFunc(unit, "max", stMAX);
IF TARGETS.RealSize # 0 THEN
EnterProc(unit, "pack", stPACK);
EnterProc(unit, "unpk", stUNPK);
EnterFunc(unit, "floor", stFLOOR);
EnterFunc(unit, "flt", stFLT)
END;
IF TARGETS.BitDepth >= 32 THEN
EnterFunc(unit, "wchr", stWCHR)
END;
IF TARGETS.Dispose THEN
EnterProc(unit, "dispose", stDISPOSE)
END
END enterStProcs;
PROCEDURE newUnit* (name: SCAN.IDENT): UNIT;
VAR
unit: UNIT;
BEGIN
ASSERT(name # NIL);
NEW(unit);
unit.name := name;
unit.closed := FALSE;
unit.idents := LISTS.create(NIL);
unit.frwPointers := LISTS.create(NIL);
ASSERT(openScope(unit, NIL));
enterStTypes(unit);
enterStProcs(unit);
ASSERT(openScope(unit, NIL));
unit.gscope := unit.idents.last(IDENT);
LISTS.push(program.units, unit);
unit.scopeLvl := 0;
unit.scopes[0] := NIL;
unit.sysimport := FALSE;
IF unit.name.s = UTILS.RTL_NAME THEN
program.rtl := unit
END
RETURN unit
END newUnit;
PROCEDURE getField* (self: _TYPE; name: SCAN.IDENT; unit: UNIT): FIELD;
VAR
field: FIELD;
BEGIN
ASSERT(self # NIL);
ASSERT(name # NIL);
ASSERT(unit # NIL);
field := NIL;
WHILE (self # NIL) & (field = NIL) DO
field := self.fields.first(FIELD);
WHILE (field # NIL) & (field.name # name) DO
field := field.next(FIELD)
END;
IF field = NIL THEN
self := self.base
END
END;
IF (field # NIL) & (self.unit # unit) & ~field.export THEN
field := NIL
END
RETURN field
END getField;
PROCEDURE addField* (self: _TYPE; name: SCAN.IDENT; export: BOOLEAN): BOOLEAN;
VAR
field: FIELD;
res: BOOLEAN;
BEGIN
ASSERT(name # NIL);
res := getField(self, name, self.unit) = NIL;
IF res THEN
NEW(field);
field.name := name;
field.export := export;
field._type := NIL;
field.offset := self.size;
LISTS.push(self.fields, field)
END
RETURN res
END addField;
PROCEDURE setFields* (self: _TYPE; _type: _TYPE): BOOLEAN;
VAR
item: FIELD;
res: BOOLEAN;
BEGIN
ASSERT(_type # NIL);
item := self.fields.first(FIELD);
WHILE (item # NIL) & (item._type # NIL) DO
item := item.next(FIELD)
END;
res := TRUE;
WHILE res & (item # NIL) & (item._type = NIL) DO
item._type := _type;
IF ~self.noalign THEN
res := UTILS.Align(self.size, _type.align)
ELSE
res := TRUE
END;
item.offset := self.size;
res := res & (UTILS.maxint - self.size >= _type.size);
IF res THEN
INC(self.size, _type.size)
END;
item := item.next(FIELD)
END
RETURN res
END setFields;
PROCEDURE getParam* (self: _TYPE; name: SCAN.IDENT): PARAM;
VAR
item: PARAM;
BEGIN
ASSERT(name # NIL);
item := self.params.first(PARAM);
WHILE (item # NIL) & (item.name # name) DO
item := item.next(PARAM)
END
RETURN item
END getParam;
PROCEDURE addParam* (self: _TYPE; name: SCAN.IDENT; vPar: BOOLEAN): BOOLEAN;
VAR
param: PARAM;
res: BOOLEAN;
BEGIN
ASSERT(name # NIL);
res := getParam(self, name) = NIL;
IF res THEN
NEW(param);
param.name := name;
param._type := NIL;
param.vPar := vPar;
LISTS.push(self.params, param)
END
RETURN res
END addParam;
PROCEDURE Dim* (t: _TYPE): INTEGER;
VAR
res: INTEGER;
BEGIN
res := 0;
WHILE isOpenArray(t) DO
t := t.base;
INC(res)
END
RETURN res
END Dim;
PROCEDURE OpenBase* (t: _TYPE): _TYPE;
BEGIN
WHILE isOpenArray(t) DO t := t.base END
RETURN t
END OpenBase;
PROCEDURE getFloatParamsPos* (self: _TYPE; maxoffs: INTEGER; VAR int, flt: INTEGER): SET;
VAR
res: SET;
param: PARAM;
BEGIN
res := {};
int := 0;
flt := 0;
param := self.params.first(PARAM);
WHILE (param # NIL) & (param.offset <= maxoffs + STACK_FRAME) DO
IF ~param.vPar & (param._type.typ = tREAL) THEN
INCL(res, param.offset - STACK_FRAME);
INC(flt)
END;
param := param.next(PARAM)
END;
int := self.parSize - flt
RETURN res
END getFloatParamsPos;
PROCEDURE setParams* (self: _TYPE; _type: _TYPE);
VAR
item: LISTS.ITEM;
param: PARAM;
word, size: INTEGER;
BEGIN
ASSERT(_type # NIL);
word := UTILS.target.bit_depth DIV 8;
item := self.params.first;
WHILE (item # NIL) & (item(PARAM)._type # NIL) DO
item := item.next
END;
WHILE (item # NIL) & (item(PARAM)._type = NIL) DO
param := item(PARAM);
param._type := _type;
IF param.vPar THEN
IF _type.typ = tRECORD THEN
size := 2
ELSIF isOpenArray(_type) THEN
size := Dim(_type) + 1
ELSE
size := 1
END;
param.offset := self.parSize + ORD(_type.typ = tRECORD) + Dim(_type) + STACK_FRAME;
INC(self.parSize, size)
ELSE
IF _type.typ IN {tRECORD, tARRAY} THEN
IF isOpenArray(_type) THEN
size := Dim(_type) + 1
ELSE
size := 1
END
ELSE
size := _type.size;
ASSERT(UTILS.Align(size, word));
size := size DIV word
END;
param.offset := self.parSize + Dim(_type) + STACK_FRAME;
INC(self.parSize, size)
END;
item := item.next
END
END setParams;
PROCEDURE enterType* (typ, size, length: INTEGER; unit: UNIT): _TYPE;
VAR
t: _TYPE;
BEGIN
NEW(t);
t.typ := typ;
t.size := size;
t.length := length;
t.align := 0;
t.base := NIL;
t.fields := LISTS.create(NIL);
t.params := LISTS.create(NIL);
t.unit := unit;
t.num := 0;
CASE TARGETS.BitDepth OF
|16: t.call := default16
|32: t.call := default32
|64: t.call := default64
END;
t._import := FALSE;
t.noalign := FALSE;
t.parSize := 0;
IF typ IN {tARRAY, tRECORD} THEN
t.closed := FALSE;
IF typ = tRECORD THEN
INC(program.recCount);
t.num := program.recCount
END
ELSE
t.closed := TRUE
END;
LISTS.push(program.types, t)
RETURN t
END enterType;
PROCEDURE getType* (typ: INTEGER): _TYPE;
VAR
res: _TYPE;
BEGIN
CASE typ OF
|ARITH.tINTEGER: res := program.stTypes.tINTEGER
|ARITH.tREAL: res := program.stTypes.tREAL
|ARITH.tSET: res := program.stTypes.tSET
|ARITH.tBOOLEAN: res := program.stTypes.tBOOLEAN
|ARITH.tCHAR: res := program.stTypes.tCHAR
|ARITH.tWCHAR: res := program.stTypes.tWCHAR
|ARITH.tSTRING: res := program.stTypes.tSTRING
END
RETURN res
END getType;
PROCEDURE createSysUnit;
VAR
ident: IDENT;
unit: UNIT;
PROCEDURE EnterProc (sys: UNIT; name: SCAN.LEXSTR; idtyp, proc: INTEGER);
VAR
ident: IDENT;
upper: SCAN.LEXSTR;
BEGIN
IF LowerCase THEN
ident := addIdent(sys, SCAN.enterid(name), idtyp);
ident.stproc := proc;
ident._type := program.stTypes.tNONE;
ident.export := TRUE
END;
upper := name;
STRINGS.UpCase(upper);
ident := addIdent(sys, SCAN.enterid(upper), idtyp);
ident.stproc := proc;
ident._type := program.stTypes.tNONE;
ident.export := TRUE
END EnterProc;
BEGIN
unit := newUnit(SCAN.enterid("$SYSTEM"));
EnterProc(unit, "adr", idSYSFUNC, sysADR);
EnterProc(unit, "size", idSYSFUNC, sysSIZE);
EnterProc(unit, "sadr", idSYSFUNC, sysSADR);
EnterProc(unit, "typeid", idSYSFUNC, sysTYPEID);
EnterProc(unit, "get", idSYSPROC, sysGET);
EnterProc(unit, "get8", idSYSPROC, sysGET8);
EnterProc(unit, "put", idSYSPROC, sysPUT);
EnterProc(unit, "put8", idSYSPROC, sysPUT8);
EnterProc(unit, "code", idSYSPROC, sysCODE);
EnterProc(unit, "move", idSYSPROC, sysMOVE);
(*
IF program.target.sys = mConst.Target_iMSP430 THEN
EnterProc(unit, "nop", idSYSPROC, sysNOP);
EnterProc(unit, "eint", idSYSPROC, sysEINT);
EnterProc(unit, "dint", idSYSPROC, sysDINT)
END;
*)
IF TARGETS.RealSize # 0 THEN
EnterProc(unit, "inf", idSYSFUNC, sysINF);
END;
IF TARGETS.CPU IN {TARGETS.cpuX86, TARGETS.cpuAMD64} THEN
EnterProc(unit, "copy", idSYSPROC, sysCOPY)
END;
IF TARGETS.BitDepth >= 32 THEN
EnterProc(unit, "wsadr", idSYSFUNC, sysWSADR);
EnterProc(unit, "put16", idSYSPROC, sysPUT16);
EnterProc(unit, "put32", idSYSPROC, sysPUT32);
EnterProc(unit, "get16", idSYSPROC, sysGET16);
EnterProc(unit, "get32", idSYSPROC, sysGET32);
IF LowerCase THEN
ident := addIdent(unit, SCAN.enterid("card32"), idTYPE);
ident._type := program.stTypes.tCARD32;
ident.export := TRUE
END;
ident := addIdent(unit, SCAN.enterid("CARD32"), idTYPE);
ident._type := program.stTypes.tCARD32;
ident.export := TRUE;
END;
closeUnit(unit);
program.sysunit := unit
END createSysUnit;
PROCEDURE DelUnused* (DelImport: DELIMPORT);
VAR
proc: PROC;
flag: BOOLEAN;
PROCEDURE process (proc: PROC);
VAR
used_proc: LISTS.ITEM;
BEGIN
proc.processed := TRUE;
used_proc := proc.using.first;
WHILE used_proc # NIL DO
used_proc(USED_PROC).proc.used := TRUE;
used_proc := used_proc.next
END
END process;
BEGIN
REPEAT
flag := FALSE;
proc := program.procs.first(PROC);
WHILE proc # NIL DO
IF proc.used & ~proc.processed THEN
process(proc);
flag := TRUE
END;
proc := proc.next(PROC)
END
UNTIL ~flag;
proc := program.procs.first(PROC);
WHILE proc # NIL DO
IF ~proc.used THEN
IF proc._import = NIL THEN
IL.delete2(proc.enter, proc.leave)
ELSE
DelImport(proc._import)
END
END;
proc := proc.next(PROC)
END
END DelUnused;
PROCEDURE ResetLocSize*;
BEGIN
program.locsize := 0
END ResetLocSize;
PROCEDURE create* (options: OPTIONS);
BEGIN
LowerCase := options.lower;
SCAN.init(options.lower);
idents := C.create();
UTILS.SetBitDepth(TARGETS.BitDepth, TARGETS.RealSize = 8);
program.options := options;
CASE TARGETS.OS OF
|TARGETS.osWIN32: program.sysflags := {sf_oberon, sf_windows, sf_stdcall, sf_ccall, sf_ccall16, sf_noalign}
|TARGETS.osLINUX32: program.sysflags := {sf_oberon, sf_linux, sf_stdcall, sf_ccall, sf_ccall16, sf_noalign}
|TARGETS.osKOS: program.sysflags := {sf_oberon, sf_stdcall, sf_ccall, sf_ccall16, sf_noalign}
|TARGETS.osWIN64: program.sysflags := {sf_oberon, sf_windows, sf_stdcall64, sf_win64, sf_systemv, sf_noalign}
|TARGETS.osLINUX64: program.sysflags := {sf_oberon, sf_linux, sf_stdcall64, sf_win64, sf_systemv, sf_noalign}
|TARGETS.osNONE: program.sysflags := {sf_code}
END;
program.recCount := -1;
program.bss := 0;
program.units := LISTS.create(NIL);
program.types := LISTS.create(NIL);
program.procs := LISTS.create(NIL);
program.stTypes.tINTEGER := enterType(tINTEGER, TARGETS.WordSize, 0, NIL);
program.stTypes.tBYTE := enterType(tBYTE, 1, 0, NIL);
program.stTypes.tCHAR := enterType(tCHAR, 1, 0, NIL);
program.stTypes.tSET := enterType(tSET, TARGETS.WordSize, 0, NIL);
program.stTypes.tBOOLEAN := enterType(tBOOLEAN, 1, 0, NIL);
program.stTypes.tINTEGER.align := TARGETS.WordSize;
program.stTypes.tBYTE.align := 1;
program.stTypes.tCHAR.align := 1;
program.stTypes.tSET.align := TARGETS.WordSize;
program.stTypes.tBOOLEAN.align := 1;
IF TARGETS.BitDepth >= 32 THEN
program.stTypes.tWCHAR := enterType(tWCHAR, 2, 0, NIL);
program.stTypes.tCARD32 := enterType(tCARD32, 4, 0, NIL);
program.stTypes.tWCHAR.align := 2;
program.stTypes.tCARD32.align := 4
END;
IF TARGETS.RealSize # 0 THEN
program.stTypes.tREAL := enterType(tREAL, TARGETS.RealSize, 0, NIL);
program.stTypes.tREAL.align := TARGETS.RealSize
END;
program.stTypes.tSTRING := enterType(tSTRING, TARGETS.WordSize, 0, NIL);
program.stTypes.tNIL := enterType(tNIL, TARGETS.WordSize, 0, NIL);
program.stTypes.tNONE := enterType(tNONE, 0, 0, NIL);
program.stTypes.tANYREC := enterType(tRECORD, 0, 0, NIL);
program.stTypes.tANYREC.closed := TRUE;
createSysUnit
END create;
END PROG.