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87aa88e9b7
fpc/compiler/symdef.pas
carl 87aa88e9b7 + generic FPC_CHECKPOINTER 
+ first parameter offset in stack now portable
* rename some constants
+ move some cpu stuff to other units
- remove unused constents
* fix stacksize for some targets
* fix generic size problems which depend now on EXTEND_SIZE constant
2002-04-20 21:32:23 +00:00

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{
$Id$
Copyright (c) 1998-2000 by Florian Klaempfl, Pierre Muller
Symbol table implementation for the definitions
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
****************************************************************************
}
unit symdef;
{$i defines.inc}
interface
uses
{ common }
cutils,cclasses,
{ global }
globtype,globals,tokens,
{ symtable }
symconst,symbase,symtype,
{ ppu }
symppu,ppu,
{ node }
node,
{ aasm }
aasm,cpubase,cpuinfo
;
type
{************************************************
TDef
************************************************}
tstoreddef = class(tdef)
{ persistent (available across units) rtti and init tables }
rttitablesym,
inittablesym : tsym; {trttisym}
{ local (per module) rtti and init tables }
localrttilab : array[trttitype] of tasmlabel;
{ linked list of global definitions }
nextglobal,
previousglobal : tstoreddef;
{$ifdef EXTDEBUG}
fileinfo : tfileposinfo;
{$endif}
{$ifdef GDB}
globalnb : word;
is_def_stab_written : tdefstabstatus;
{$endif GDB}
constructor create;
constructor loaddef(ppufile:tcompilerppufile);
destructor destroy;override;
procedure writedef(ppufile:tcompilerppufile);
procedure write(ppufile:tcompilerppufile);virtual;abstract;
procedure deref;override;
procedure derefimpl;override;
function size:longint;override;
function alignment:longint;override;
function is_publishable : boolean;override;
function needs_inittable : boolean;override;
{ debug }
{$ifdef GDB}
function stabstring : pchar;virtual;
procedure concatstabto(asmlist : taasmoutput);virtual;
function NumberString:string;
procedure set_globalnb;virtual;
function allstabstring : pchar;virtual;
{$endif GDB}
{ rtti generation }
procedure write_rtti_name;
procedure write_rtti_data(rt:trttitype);virtual;
procedure write_child_rtti_data(rt:trttitype);virtual;
function get_rtti_label(rt:trttitype):tasmsymbol;
{ regvars }
function is_intregable : boolean;
function is_fpuregable : boolean;
private
savesize : longint;
end;
targconvtyp = (act_convertable,act_equal,act_exact);
tvarspez = (vs_value,vs_const,vs_var,vs_out);
tparaitem = class(tlinkedlistitem)
paratype : ttype;
parasym : tsym;
paratyp : tvarspez;
argconvtyp : targconvtyp;
convertlevel : byte;
defaultvalue : tsym; { tconstsym }
end;
{ this is only here to override the count method,
which can't be used }
tparalinkedlist = class(tlinkedlist)
function count:longint;
end;
tfiletyp = (ft_text,ft_typed,ft_untyped);
tfiledef = class(tstoreddef)
filetyp : tfiletyp;
typedfiletype : ttype;
constructor createtext;
constructor createuntyped;
constructor createtyped(const tt : ttype);
constructor load(ppufile:tcompilerppufile);
procedure write(ppufile:tcompilerppufile);override;
procedure deref;override;
function gettypename:string;override;
function getmangledparaname:string;override;
procedure setsize;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput);override;
{$endif GDB}
end;
tvariantdef = class(tstoreddef)
constructor create;
constructor load(ppufile:tcompilerppufile);
function gettypename:string;override;
procedure write(ppufile:tcompilerppufile);override;
procedure setsize;
function needs_inittable : boolean;override;
procedure write_rtti_data(rt:trttitype);override;
end;
tformaldef = class(tstoreddef)
constructor create;
constructor load(ppufile:tcompilerppufile);
procedure write(ppufile:tcompilerppufile);override;
function gettypename:string;override;
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput);override;
{$endif GDB}
end;
tforwarddef = class(tstoreddef)
tosymname : string;
forwardpos : tfileposinfo;
constructor create(const s:string;const pos : tfileposinfo);
function gettypename:string;override;
end;
terrordef = class(tstoreddef)
constructor create;
function gettypename:string;override;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
{$endif GDB}
end;
{ tpointerdef and tclassrefdef should get a common
base class, but I derived tclassrefdef from tpointerdef
to avoid problems with bugs (FK)
}
tpointerdef = class(tstoreddef)
pointertype : ttype;
is_far : boolean;
constructor create(const tt : ttype);
constructor createfar(const tt : ttype);
constructor load(ppufile:tcompilerppufile);
procedure write(ppufile:tcompilerppufile);override;
procedure deref;override;
function gettypename:string;override;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput);override;
{$endif GDB}
end;
tabstractrecorddef = class(tstoreddef)
private
Count : integer;
FRTTIType : trttitype;
{$ifdef GDB}
StabRecString : pchar;
StabRecSize : Integer;
RecOffset : Integer;
procedure addname(p : tnamedindexitem);
{$endif}
procedure count_field_rtti(sym : tnamedindexitem);
procedure write_field_rtti(sym : tnamedindexitem);
procedure generate_field_rtti(sym : tnamedindexitem);
public
symtable : tsymtable;
function getsymtable(t:tgetsymtable):tsymtable;override;
end;
trecorddef = class(tabstractrecorddef)
public
constructor create(p : tsymtable);
constructor load(ppufile:tcompilerppufile);
destructor destroy;override;
procedure write(ppufile:tcompilerppufile);override;
procedure deref;override;
function size:longint;override;
function alignment : longint;override;
function gettypename:string;override;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput);override;
{$endif GDB}
function needs_inittable : boolean;override;
{ rtti }
procedure write_child_rtti_data(rt:trttitype);override;
procedure write_rtti_data(rt:trttitype);override;
end;
tprocdef = class;
timplementedinterfaces = class;
tobjectdef = class(tabstractrecorddef)
private
sd : tprocdef;
procedure _searchdestructor(sym : tnamedindexitem);
{$ifdef GDB}
procedure addprocname(p :tnamedindexitem);
{$endif GDB}
procedure count_published_properties(sym:tnamedindexitem);
procedure write_property_info(sym : tnamedindexitem);
procedure generate_published_child_rtti(sym : tnamedindexitem);
procedure count_published_fields(sym:tnamedindexitem);
procedure writefields(sym:tnamedindexitem);
public
childof : tobjectdef;
objname,
objrealname : pstring;
objectoptions : tobjectoptions;
{ to be able to have a variable vmt position }
{ and no vmt field for objects without virtuals }
vmt_offset : longint;
{$ifdef GDB}
writing_class_record_stab : boolean;
{$endif GDB}
objecttype : tobjectdeftype;
isiidguidvalid: boolean;
iidguid: TGUID;
iidstr: pstring;
lastvtableindex: longint;
{ store implemented interfaces defs and name mappings }
implementedinterfaces: timplementedinterfaces;
constructor create(ot : tobjectdeftype;const n : string;c : tobjectdef);
constructor load(ppufile:tcompilerppufile);
destructor destroy;override;
procedure write(ppufile:tcompilerppufile);override;
procedure deref;override;
function size : longint;override;
function alignment:longint;override;
function vmtmethodoffset(index:longint):longint;
function is_publishable : boolean;override;
function needs_inittable : boolean;override;
function vmt_mangledname : string;
function rtti_name : string;
procedure check_forwards;
function is_related(d : tobjectdef) : boolean;
function next_free_name_index : longint;
procedure insertvmt;
procedure set_parent(c : tobjectdef);
function searchdestructor : tprocdef;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
procedure set_globalnb;override;
function classnumberstring : string;
procedure concatstabto(asmlist : taasmoutput);override;
function allstabstring : pchar;override;
{$endif GDB}
{ rtti }
procedure write_child_rtti_data(rt:trttitype);override;
procedure write_rtti_data(rt:trttitype);override;
function generate_field_table : tasmlabel;
end;
timplementedinterfaces = class
constructor create;
destructor destroy; override;
function count: longint;
function interfaces(intfindex: longint): tobjectdef;
function ioffsets(intfindex: longint): plongint;
function searchintf(def: tdef): longint;
procedure addintf(def: tdef);
procedure deref;
procedure addintfref(def: tdef);
procedure clearmappings;
procedure addmappings(intfindex: longint; const name, newname: string);
function getmappings(intfindex: longint; const name: string; var nextexist: pointer): string;
procedure clearimplprocs;
procedure addimplproc(intfindex: longint; procdef: tprocdef);
function implproccount(intfindex: longint): longint;
function implprocs(intfindex: longint; procindex: longint): tprocdef;
function isimplmergepossible(intfindex, remainindex: longint; var weight: longint): boolean;
private
finterfaces: tindexarray;
procedure checkindex(intfindex: longint);
end;
tclassrefdef = class(tpointerdef)
constructor create(const t:ttype);
constructor load(ppufile:tcompilerppufile);
procedure write(ppufile:tcompilerppufile);override;
function gettypename:string;override;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput);override;
{$endif GDB}
end;
tarraydef = class(tstoreddef)
rangenr : longint;
lowrange,
highrange : longint;
elementtype,
rangetype : ttype;
IsDynamicArray,
IsVariant,
IsConstructor,
IsArrayOfConst : boolean;
function elesize : longint;
constructor create(l,h : longint;const t : ttype);
constructor load(ppufile:tcompilerppufile);
procedure write(ppufile:tcompilerppufile);override;
function gettypename:string;override;
function getmangledparaname : string;override;
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput);override;
{$endif GDB}
procedure deref;override;
function size : longint;override;
function alignment : longint;override;
{ generates the ranges needed by the asm instruction BOUND (i386)
or CMP2 (Motorola) }
procedure genrangecheck;
{ returns the label of the range check string }
function getrangecheckstring : string;
function needs_inittable : boolean;override;
procedure write_child_rtti_data(rt:trttitype);override;
procedure write_rtti_data(rt:trttitype);override;
end;
torddef = class(tstoreddef)
rangenr : longint;
low,high : TConstExprInt;
typ : tbasetype;
constructor create(t : tbasetype;v,b : TConstExprInt);
constructor load(ppufile:tcompilerppufile);
procedure write(ppufile:tcompilerppufile);override;
function is_publishable : boolean;override;
function gettypename:string;override;
procedure setsize;
{ generates the ranges needed by the asm instruction BOUND }
{ or CMP2 (Motorola) }
procedure genrangecheck;
function getrangecheckstring : string;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
{$endif GDB}
{ rtti }
procedure write_rtti_data(rt:trttitype);override;
end;
tfloatdef = class(tstoreddef)
typ : tfloattype;
constructor create(t : tfloattype);
constructor load(ppufile:tcompilerppufile);
procedure write(ppufile:tcompilerppufile);override;
function gettypename:string;override;
function is_publishable : boolean;override;
procedure setsize;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
{$endif GDB}
{ rtti }
procedure write_rtti_data(rt:trttitype);override;
end;
tabstractprocdef = class(tstoreddef)
{ saves a definition to the return type }
rettype : ttype;
proctypeoption : tproctypeoption;
proccalloption : tproccalloption;
procoptions : tprocoptions;
para : tparalinkedlist;
maxparacount,
minparacount : longint;
symtablelevel : byte;
fpu_used : byte; { how many stack fpu must be empty }
constructor create;
constructor load(ppufile:tcompilerppufile);
destructor destroy;override;
procedure write(ppufile:tcompilerppufile);override;
procedure deref;override;
procedure concatpara(const tt:ttype;sym : tsym;vsp : tvarspez;defval:tsym);
function para_size(alignsize:longint) : longint;
function typename_paras : string;
procedure test_if_fpu_result;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput);override;
{$endif GDB}
end;
tprocvardef = class(tabstractprocdef)
constructor create;
constructor load(ppufile:tcompilerppufile);
procedure write(ppufile:tcompilerppufile);override;
function size : longint;override;
function gettypename:string;override;
function is_publishable : boolean;override;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput); override;
{$endif GDB}
{ rtti }
procedure write_rtti_data(rt:trttitype);override;
end;
tmessageinf = record
case integer of
0 : (str : pchar);
1 : (i : longint);
end;
tprocdef = class(tabstractprocdef)
private
_mangledname : pstring;
{$ifdef GDB}
isstabwritten : boolean;
{$endif GDB}
public
extnumber : word;
overloadnumber : word;
messageinf : tmessageinf;
{$ifndef EXTDEBUG}
{ where is this function defined, needed here because there
is only one symbol for all overloaded functions
EXTDEBUG has fileinfo in tdef (PFV) }
fileinfo : tfileposinfo;
{$endif}
{ symbol owning this definition }
procsym : tsym;
{ alias names }
aliasnames : tstringlist;
{ symtables }
parast,
localst : tsymtable;
funcretsym : tsym;
{ next is only used to check if RESULT is accessed,
not stored in a tnode }
resultfuncretsym : tsym;
{ browser info }
lastref,
defref,
crossref,
lastwritten : tref;
refcount : longint;
_class : tobjectdef;
{ it's a tree, but this not easy to handle }
{ used for inlined procs }
code : tnode;
{ info about register variables (JM) }
regvarinfo: pointer;
{ true, if the procedure is only declared }
{ (forward procedure) }
forwarddef,
{ true if the procedure is declared in the interface }
interfacedef : boolean;
{ true if the procedure has a forward declaration }
hasforward : boolean;
{ check the problems of manglednames }
has_mangledname : boolean;
{ small set which contains the modified registers }
usedregisters : tregisterset;
constructor create;
constructor load(ppufile:tcompilerppufile);
destructor destroy;override;
procedure write(ppufile:tcompilerppufile);override;
procedure deref;override;
procedure derefimpl;override;
function getsymtable(t:tgetsymtable):tsymtable;override;
function haspara:boolean;
function mangledname : string;
procedure setmangledname(const s : string);
procedure load_references(ppufile:tcompilerppufile;locals:boolean);
function write_references(ppufile:tcompilerppufile;locals:boolean):boolean;
function fullprocname:string;
function fullprocnamewithret:string;
function cplusplusmangledname : string;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput);override;
{$endif GDB}
end;
{ single linked list of overloaded procs }
pprocdeflist = ^tprocdeflist;
tprocdeflist = record
def : tprocdef;
next : pprocdeflist;
end;
tstringdef = class(tstoreddef)
string_typ : tstringtype;
len : longint;
constructor createshort(l : byte);
constructor loadshort(ppufile:tcompilerppufile);
constructor createlong(l : longint);
constructor loadlong(ppufile:tcompilerppufile);
constructor createansi(l : longint);
constructor loadansi(ppufile:tcompilerppufile);
constructor createwide(l : longint);
constructor loadwide(ppufile:tcompilerppufile);
function stringtypname:string;
function size : longint;override;
procedure write(ppufile:tcompilerppufile);override;
function gettypename:string;override;
function getmangledparaname:string;override;
function is_publishable : boolean;override;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput);override;
{$endif GDB}
{ init/final }
function needs_inittable : boolean;override;
{ rtti }
procedure write_rtti_data(rt:trttitype);override;
end;
tenumdef = class(tstoreddef)
rangenr,
minval,
maxval : longint;
has_jumps : boolean;
firstenum : tsym; {tenumsym}
basedef : tenumdef;
constructor create;
constructor create_subrange(_basedef:tenumdef;_min,_max:longint);
constructor load(ppufile:tcompilerppufile);
destructor destroy;override;
procedure write(ppufile:tcompilerppufile);override;
procedure deref;override;
function gettypename:string;override;
function is_publishable : boolean;override;
procedure calcsavesize;
procedure setmax(_max:longint);
procedure setmin(_min:longint);
function min:longint;
function max:longint;
function getrangecheckstring:string;
procedure genrangecheck;
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
{$endif GDB}
{ rtti }
procedure write_rtti_data(rt:trttitype);override;
procedure write_child_rtti_data(rt:trttitype);override;
private
procedure correct_owner_symtable;
end;
tsetdef = class(tstoreddef)
elementtype : ttype;
settype : tsettype;
constructor create(const t:ttype;high : longint);
constructor load(ppufile:tcompilerppufile);
destructor destroy;override;
procedure write(ppufile:tcompilerppufile);override;
procedure deref;override;
function gettypename:string;override;
function is_publishable : boolean;override;
procedure changesettype(s:tsettype);
{ debug }
{$ifdef GDB}
function stabstring : pchar;override;
procedure concatstabto(asmlist : taasmoutput);override;
{$endif GDB}
{ rtti }
procedure write_rtti_data(rt:trttitype);override;
procedure write_child_rtti_data(rt:trttitype);override;
end;
var
aktobjectdef : tobjectdef; { used for private functions check !! }
firstglobaldef, { linked list of all globals defs }
lastglobaldef : tstoreddef; { used to reset stabs/ranges }
{$ifdef GDB}
{ for STAB debugging }
globaltypecount : word;
pglobaltypecount : pword;
{$endif GDB}
{ default types }
generrortype, { error in definition }
voidpointertype, { pointer for Void-Pointerdef }
charpointertype, { pointer for Char-Pointerdef }
voidfarpointertype,
cformaltype, { unique formal definition }
voidtype, { Pointer to Void (procedure) }
cchartype, { Pointer to Char }
cwidechartype, { Pointer to WideChar }
booltype, { pointer to boolean type }
u8bittype, { Pointer to 8-Bit unsigned }
u16bittype, { Pointer to 16-Bit unsigned }
u32bittype, { Pointer to 32-Bit unsigned }
s32bittype, { Pointer to 32-Bit signed }
cu64bittype, { pointer to 64 bit unsigned def }
cs64bittype, { pointer to 64 bit signed def, }
s32floattype, { pointer for realconstn }
s64floattype, { pointer for realconstn }
s80floattype, { pointer to type of temp. floats }
s32fixedtype, { pointer to type of temp. fixed }
cshortstringtype, { pointer to type of short string const }
clongstringtype, { pointer to type of long string const }
cansistringtype, { pointer to type of ansi string const }
cwidestringtype, { pointer to type of wide string const }
openshortstringtype, { pointer to type of an open shortstring,
needed for readln() }
openchararraytype, { pointer to type of an open array of char,
needed for readln() }
cfiletype, { get the same definition for all file }
{ used for stabs }
cvarianttype, { we use only one variant def }
pvmttype : ttype; { type of classrefs, used for stabs }
class_tobject : tobjectdef; { pointer to the anchestor of all classes }
interface_iunknown : tobjectdef; { KAZ: pointer to the ancestor }
rec_tguid : trecorddef; { KAZ: pointer to the TGUID type }
{ of all interfaces }
const
{$ifdef i386}
pbestrealtype : ^ttype = @s80floattype;
{$endif}
{$ifdef m68k}
pbestrealtype : ^ttype = @s64floattype;
{$endif}
{$ifdef alpha}
pbestrealtype : ^ttype = @s64floattype;
{$endif}
{$ifdef powerpc}
pbestrealtype : ^ttype = @s64floattype;
{$endif}
{$ifdef ia64}
pbestrealtype : ^ttype = @s64floattype;
{$endif}
{$ifdef SPARC}
pbestrealtype : ^ttype = @s64floattype;
{$endif SPARC}
function mangledname_prefix(typeprefix:string;st:tsymtable):string;
{$ifdef GDB}
{ GDB Helpers }
function typeglobalnumber(const s : string) : string;
{$endif GDB}
{ should be in the types unit, but the types unit uses the node stuff :( }
function is_interfacecom(def: tdef): boolean;
function is_interfacecorba(def: tdef): boolean;
function is_interface(def: tdef): boolean;
function is_object(def: tdef): boolean;
function is_class(def: tdef): boolean;
function is_cppclass(def: tdef): boolean;
function is_class_or_interface(def: tdef): boolean;
procedure reset_global_defs;
implementation
uses
{$ifdef Delphi}
sysutils,
{$else Delphi}
strings,
{$endif Delphi}
{ global }
verbose,
{ target }
systems,
{ symtable }
symsym,symtable,
types,
{ module }
{$ifdef GDB}
gdb,
{$endif GDB}
fmodule,
{ other }
gendef
;
{****************************************************************************
Helpers
****************************************************************************}
function mangledname_prefix(typeprefix:string;st:tsymtable):string;
var
s,
prefix : string;
begin
prefix:='';
{ sub procedures }
while (st.symtabletype=localsymtable) do
begin
if st.defowner.deftype<>procdef then
internalerror(200204173);
s:=tprocdef(st.defowner).procsym.name;
if tprocdef(st.defowner).overloadnumber>0 then
s:=s+'$'+tostr(tprocdef(st.defowner).overloadnumber);
prefix:=s+'$'+prefix;
st:=st.defowner.owner;
end;
{ object/classes symtable }
if (st.symtabletype=objectsymtable) then
begin
if st.defowner.deftype<>objectdef then
internalerror(200204174);
prefix:=tobjectdef(st.defowner).objname^+'_$_'+prefix;
st:=st.defowner.owner;
end;
{ symtable must now be static or global }
if not(st.symtabletype in [staticsymtable,globalsymtable]) then
internalerror(200204175);
mangledname_prefix:=typeprefix+'_'+st.name^+'_'+prefix;
end;
{$ifdef GDB}
procedure forcestabto(asmlist : taasmoutput; pd : tdef);
begin
if tstoreddef(pd).is_def_stab_written = not_written then
begin
if assigned(pd.typesym) then
ttypesym(pd.typesym).isusedinstab := true;
tstoreddef(pd).concatstabto(asmlist);
end;
end;
{$endif GDB}
{****************************************************************************
TDEF (base class for definitions)
****************************************************************************}
constructor tstoreddef.create;
begin
inherited create;
savesize := 0;
{$ifdef EXTDEBUG}
fileinfo := aktfilepos;
{$endif}
if registerdef then
symtablestack.registerdef(self);
{$ifdef GDB}
is_def_stab_written := not_written;
globalnb := 0;
{$endif GDB}
if assigned(lastglobaldef) then
begin
lastglobaldef.nextglobal := self;
previousglobal:=lastglobaldef;
end
else
begin
firstglobaldef := self;
previousglobal := nil;
end;
lastglobaldef := self;
nextglobal := nil;
fillchar(localrttilab,sizeof(localrttilab),0);
end;
{$ifdef MEMDEBUG}
var
manglenamesize : longint;
{$endif}
constructor tstoreddef.loaddef(ppufile:tcompilerppufile);
begin
inherited create;
{$ifdef EXTDEBUG}
fillchar(fileinfo,sizeof(fileinfo),0);
{$endif}
{$ifdef GDB}
is_def_stab_written := not_written;
globalnb := 0;
{$endif GDB}
if assigned(lastglobaldef) then
begin
lastglobaldef.nextglobal := self;
previousglobal:=lastglobaldef;
end
else
begin
firstglobaldef := self;
previousglobal:=nil;
end;
lastglobaldef := self;
nextglobal := nil;
fillchar(localrttilab,sizeof(localrttilab),0);
{ load }
indexnr:=ppufile.getword;
typesym:=ttypesym(ppufile.getderef);
ppufile.getsmallset(defoptions);
if df_has_rttitable in defoptions then
rttitablesym:=tsym(ppufile.getderef);
if df_has_inittable in defoptions then
inittablesym:=tsym(ppufile.getderef);
end;
destructor tstoreddef.destroy;
begin
{ first element ? }
if not(assigned(previousglobal)) then
begin
firstglobaldef := nextglobal;
if assigned(firstglobaldef) then
firstglobaldef.previousglobal:=nil;
end
else
begin
{ remove reference in the element before }
previousglobal.nextglobal:=nextglobal;
end;
{ last element ? }
if not(assigned(nextglobal)) then
begin
lastglobaldef := previousglobal;
if assigned(lastglobaldef) then
lastglobaldef.nextglobal:=nil;
end
else
nextglobal.previousglobal:=previousglobal;
previousglobal:=nil;
nextglobal:=nil;
end;
procedure tstoreddef.writedef(ppufile:tcompilerppufile);
begin
ppufile.putword(indexnr);
ppufile.putderef(typesym);
ppufile.putsmallset(defoptions);
if df_has_rttitable in defoptions then
ppufile.putderef(rttitablesym);
if df_has_inittable in defoptions then
ppufile.putderef(inittablesym);
{$ifdef GDB}
if globalnb = 0 then
begin
if assigned(owner) then
globalnb := owner.getnewtypecount
else
begin
globalnb := PGlobalTypeCount^;
Inc(PGlobalTypeCount^);
end;
end;
{$endif GDB}
end;
procedure tstoreddef.deref;
begin
resolvesym(typesym);
resolvesym(rttitablesym);
resolvesym(inittablesym);
end;
procedure tstoreddef.derefimpl;
begin
end;
function tstoreddef.size : longint;
begin
size:=savesize;
end;
function tstoreddef.alignment : longint;
begin
{ normal alignment by default }
alignment:=0;
end;
{$ifdef GDB}
procedure tstoreddef.set_globalnb;
begin
globalnb :=PGlobalTypeCount^;
inc(PglobalTypeCount^);
end;
function tstoreddef.stabstring : pchar;
begin
stabstring := strpnew('t'+numberstring+';');
end;
function tstoreddef.numberstring : string;
var table : tsymtable;
begin
{formal def have no type !}
if deftype = formaldef then
begin
numberstring := tstoreddef(voidtype.def).numberstring;
exit;
end;
if (not assigned(typesym)) or (not ttypesym(typesym).isusedinstab) then
begin
{set even if debuglist is not defined}
if assigned(typesym) then
ttypesym(typesym).isusedinstab := true;
if assigned(debuglist) and (is_def_stab_written = not_written) then
concatstabto(debuglist);
end;
if not (cs_gdb_dbx in aktglobalswitches) then
begin
if globalnb = 0 then
set_globalnb;
numberstring := tostr(globalnb);
end
else
begin
if globalnb = 0 then
begin
if assigned(owner) then
globalnb := owner.getnewtypecount
else
begin
globalnb := PGlobalTypeCount^;
Inc(PGlobalTypeCount^);
end;
end;
if assigned(typesym) then
begin
table := ttypesym(typesym).owner;
if table.unitid > 0 then
numberstring := '('+tostr(table.unitid)+','+tostr(tstoreddef(ttypesym(typesym).restype.def).globalnb)+')'
else
numberstring := tostr(globalnb);
exit;
end;
numberstring := tostr(globalnb);
end;
end;
function tstoreddef.allstabstring : pchar;
var stabchar : string[2];
ss,st : pchar;
sname : string;
sym_line_no : longint;
begin
ss := stabstring;
getmem(st,strlen(ss)+512);
stabchar := 't';
if deftype in tagtypes then
stabchar := 'Tt';
if assigned(typesym) then
begin
sname := ttypesym(typesym).name;
sym_line_no:=ttypesym(typesym).fileinfo.line;
end
else
begin
sname := ' ';
sym_line_no:=0;
end;
strpcopy(st,'"'+sname+':'+stabchar+numberstring+'=');
strpcopy(strecopy(strend(st),ss),'",'+tostr(N_LSYM)+',0,'+tostr(sym_line_no)+',0');
allstabstring := strnew(st);
freemem(st,strlen(ss)+512);
strdispose(ss);
end;
procedure tstoreddef.concatstabto(asmlist : taasmoutput);
var stab_str : pchar;
begin
if ((typesym = nil) or ttypesym(typesym).isusedinstab or (cs_gdb_dbx in aktglobalswitches))
and (is_def_stab_written = not_written) then
begin
If cs_gdb_dbx in aktglobalswitches then
begin
{ otherwise you get two of each def }
If assigned(typesym) then
begin
if ttypesym(typesym).typ=symconst.typesym then
ttypesym(typesym).isusedinstab:=true;
if (ttypesym(typesym).owner = nil) or
((ttypesym(typesym).owner.symtabletype = globalsymtable) and
tglobalsymtable(ttypesym(typesym).owner).dbx_count_ok) then
begin
{with DBX we get the definition from the other objects }
is_def_stab_written := written;
exit;
end;
end;
end;
{ to avoid infinite loops }
is_def_stab_written := being_written;
stab_str := allstabstring;
asmList.concat(Tai_stabs.Create(stab_str));
is_def_stab_written := written;
end;
end;
{$endif GDB}
procedure tstoreddef.write_rtti_name;
var
str : string;
begin
{ name }
if assigned(typesym) then
begin
str:=ttypesym(typesym).realname;
rttiList.concat(Tai_string.Create(chr(length(str))+str));
end
else
rttiList.concat(Tai_string.Create(#0))
end;
procedure tstoreddef.write_rtti_data(rt:trttitype);
begin
end;
procedure tstoreddef.write_child_rtti_data(rt:trttitype);
begin
end;
function tstoreddef.get_rtti_label(rt:trttitype) : tasmsymbol;
begin
{ try to reuse persistent rtti data }
if (rt=fullrtti) and (df_has_rttitable in defoptions) then
get_rtti_label:=trttisym(rttitablesym).get_label
else
if (rt=initrtti) and (df_has_inittable in defoptions) then
get_rtti_label:=trttisym(inittablesym).get_label
else
begin
if not assigned(localrttilab[rt]) then
begin
getdatalabel(localrttilab[rt]);
write_child_rtti_data(rt);
if (cs_create_smart in aktmoduleswitches) then
rttiList.concat(Tai_cut.Create);
rttiList.concat(Tai_symbol.Create(localrttilab[rt],0));
write_rtti_data(rt);
rttiList.concat(Tai_symbol_end.Create(localrttilab[rt]));
end;
get_rtti_label:=localrttilab[rt];
end;
end;
{ returns true, if the definition can be published }
function tstoreddef.is_publishable : boolean;
begin
is_publishable:=false;
end;
{ needs an init table }
function tstoreddef.needs_inittable : boolean;
begin
needs_inittable:=false;
end;
function tstoreddef.is_intregable : boolean;
begin
is_intregable:=false;
case deftype of
pointerdef,
enumdef:
is_intregable:=true;
procvardef :
is_intregable:=not(po_methodpointer in tprocvardef(self).procoptions);
orddef :
case torddef(self).typ of
bool8bit,bool16bit,bool32bit,
u8bit,u16bit,u32bit,
s8bit,s16bit,s32bit:
is_intregable:=true;
end;
setdef:
is_intregable:=(tsetdef(self).settype=smallset);
end;
end;
function tstoreddef.is_fpuregable : boolean;
begin
is_fpuregable:=(deftype=floatdef);
end;
{****************************************************************************
TPARALINKEDLIST
****************************************************************************}
function tparalinkedlist.count:longint;
begin
{ You must use tabstractprocdef.minparacount and .maxparacount instead }
internalerror(432432978);
count:=0;
end;
{****************************************************************************
Tstringdef
****************************************************************************}
constructor tstringdef.createshort(l : byte);
begin
inherited create;
string_typ:=st_shortstring;
deftype:=stringdef;
len:=l;
savesize:=len+1;
end;
constructor tstringdef.loadshort(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
string_typ:=st_shortstring;
deftype:=stringdef;
len:=ppufile.getbyte;
savesize:=len+1;
end;
constructor tstringdef.createlong(l : longint);
begin
inherited create;
string_typ:=st_longstring;
deftype:=stringdef;
len:=l;
savesize:=POINTER_SIZE;
end;
constructor tstringdef.loadlong(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=stringdef;
string_typ:=st_longstring;
len:=ppufile.getlongint;
savesize:=POINTER_SIZE;
end;
constructor tstringdef.createansi(l : longint);
begin
inherited create;
string_typ:=st_ansistring;
deftype:=stringdef;
len:=l;
savesize:=POINTER_SIZE;
end;
constructor tstringdef.loadansi(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=stringdef;
string_typ:=st_ansistring;
len:=ppufile.getlongint;
savesize:=POINTER_SIZE;
end;
constructor tstringdef.createwide(l : longint);
begin
inherited create;
string_typ:=st_widestring;
deftype:=stringdef;
len:=l;
savesize:=POINTER_SIZE;
end;
constructor tstringdef.loadwide(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=stringdef;
string_typ:=st_widestring;
len:=ppufile.getlongint;
savesize:=POINTER_SIZE;
end;
function tstringdef.stringtypname:string;
const
typname:array[tstringtype] of string[8]=('',
'SHORTSTR','LONGSTR','ANSISTR','WIDESTR'
);
begin
stringtypname:=typname[string_typ];
end;
function tstringdef.size : longint;
begin
size:=savesize;
end;
procedure tstringdef.write(ppufile:tcompilerppufile);
begin
inherited writedef(ppufile);
if string_typ=st_shortstring then
ppufile.putbyte(len)
else
ppufile.putlongint(len);
case string_typ of
st_shortstring : ppufile.writeentry(ibshortstringdef);
st_longstring : ppufile.writeentry(iblongstringdef);
st_ansistring : ppufile.writeentry(ibansistringdef);
st_widestring : ppufile.writeentry(ibwidestringdef);
end;
end;
{$ifdef GDB}
function tstringdef.stabstring : pchar;
var
bytest,charst,longst : string;
begin
case string_typ of
st_shortstring:
begin
charst := typeglobalnumber('char');
{ this is what I found in stabs.texinfo but
gdb 4.12 for go32 doesn't understand that !! }
{$IfDef GDBknowsstrings}
stabstring := strpnew('n'+charst+';'+tostr(len));
{$else}
bytest := typeglobalnumber('byte');
stabstring := strpnew('s'+tostr(len+1)+'length:'+bytest
+',0,8;st:ar'+bytest
+';1;'+tostr(len)+';'+charst+',8,'+tostr(len*8)+';;');
{$EndIf}
end;
st_longstring:
begin
charst := typeglobalnumber('char');
{ this is what I found in stabs.texinfo but
gdb 4.12 for go32 doesn't understand that !! }
{$IfDef GDBknowsstrings}
stabstring := strpnew('n'+charst+';'+tostr(len));
{$else}
bytest := typeglobalnumber('byte');
longst := typeglobalnumber('longint');
stabstring := strpnew('s'+tostr(len+5)+'length:'+longst
+',0,32;dummy:'+bytest+',32,8;st:ar'+bytest
+';1;'+tostr(len)+';'+charst+',40,'+tostr(len*8)+';;');
{$EndIf}
end;
st_ansistring:
begin
{ an ansi string looks like a pchar easy !! }
stabstring:=strpnew('*'+typeglobalnumber('char'));
end;
st_widestring:
begin
{ an ansi string looks like a pchar easy !! }
stabstring:=strpnew('*'+typeglobalnumber('char'));
end;
end;
end;
procedure tstringdef.concatstabto(asmlist : taasmoutput);
begin
inherited concatstabto(asmlist);
end;
{$endif GDB}
function tstringdef.needs_inittable : boolean;
begin
needs_inittable:=string_typ in [st_ansistring,st_widestring];
end;
function tstringdef.gettypename : string;
const
names : array[tstringtype] of string[20] = ('',
'ShortString','LongString','AnsiString','WideString');
begin
gettypename:=names[string_typ];
end;
procedure tstringdef.write_rtti_data(rt:trttitype);
begin
case string_typ of
st_ansistring:
begin
rttiList.concat(Tai_const.Create_8bit(tkAString));
write_rtti_name;
end;
st_widestring:
begin
rttiList.concat(Tai_const.Create_8bit(tkWString));
write_rtti_name;
end;
st_longstring:
begin
rttiList.concat(Tai_const.Create_8bit(tkLString));
write_rtti_name;
end;
st_shortstring:
begin
rttiList.concat(Tai_const.Create_8bit(tkSString));
write_rtti_name;
rttiList.concat(Tai_const.Create_8bit(len));
end;
end;
end;
function tstringdef.getmangledparaname : string;
begin
getmangledparaname:='STRING';
end;
function tstringdef.is_publishable : boolean;
begin
is_publishable:=true;
end;
{****************************************************************************
TENUMDEF
****************************************************************************}
constructor tenumdef.create;
begin
inherited create;
deftype:=enumdef;
minval:=0;
maxval:=0;
calcsavesize;
has_jumps:=false;
basedef:=nil;
rangenr:=0;
firstenum:=nil;
correct_owner_symtable;
end;
constructor tenumdef.create_subrange(_basedef:tenumdef;_min,_max:longint);
begin
inherited create;
deftype:=enumdef;
minval:=_min;
maxval:=_max;
basedef:=_basedef;
calcsavesize;
has_jumps:=false;
rangenr:=0;
firstenum:=basedef.firstenum;
while assigned(firstenum) and (tenumsym(firstenum).value<>minval) do
firstenum:=tenumsym(firstenum).nextenum;
correct_owner_symtable;
end;
constructor tenumdef.load(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=enumdef;
basedef:=tenumdef(ppufile.getderef);
minval:=ppufile.getlongint;
maxval:=ppufile.getlongint;
savesize:=ppufile.getlongint;
has_jumps:=false;
firstenum:=Nil;
end;
procedure tenumdef.calcsavesize;
begin
if (aktpackenum=4) or (min<0) or (max>65535) then
savesize:=4
else
if (aktpackenum=2) or (min<0) or (max>255) then
savesize:=2
else
savesize:=1;
end;
procedure tenumdef.setmax(_max:longint);
begin
maxval:=_max;
calcsavesize;
end;
procedure tenumdef.setmin(_min:longint);
begin
minval:=_min;
calcsavesize;
end;
function tenumdef.min:longint;
begin
min:=minval;
end;
function tenumdef.max:longint;
begin
max:=maxval;
end;
procedure tenumdef.deref;
begin
inherited deref;
resolvedef(tdef(basedef));
end;
destructor tenumdef.destroy;
begin
inherited destroy;
end;
procedure tenumdef.write(ppufile:tcompilerppufile);
begin
inherited writedef(ppufile);
ppufile.putderef(basedef);
ppufile.putlongint(min);
ppufile.putlongint(max);
ppufile.putlongint(savesize);
ppufile.writeentry(ibenumdef);
end;
function tenumdef.getrangecheckstring : string;
begin
if (cs_create_smart in aktmoduleswitches) then
getrangecheckstring:='R_'+current_module.modulename^+tostr(rangenr)
else
getrangecheckstring:='R_'+tostr(rangenr);
end;
procedure tenumdef.genrangecheck;
begin
if rangenr=0 then
begin
{ generate two constant for bounds }
getlabelnr(rangenr);
if (cs_create_smart in aktmoduleswitches) then
dataSegment.concat(Tai_symbol.Createname_global(getrangecheckstring,8))
else
dataSegment.concat(Tai_symbol.Createname(getrangecheckstring,8));
dataSegment.concat(Tai_const.Create_32bit(min));
dataSegment.concat(Tai_const.Create_32bit(max));
end;
end;
{ used for enumdef because the symbols are
inserted in the owner symtable }
procedure tenumdef.correct_owner_symtable;
var
st : tsymtable;
begin
if assigned(owner) and
(owner.symtabletype in [recordsymtable,objectsymtable]) then
begin
owner.defindex.deleteindex(self);
st:=owner;
while (st.symtabletype in [recordsymtable,objectsymtable]) do
st:=st.next;
st.registerdef(self);
end;
end;
{$ifdef GDB}
function tenumdef.stabstring : pchar;
var st,st2 : pchar;
p : tenumsym;
s : string;
memsize : word;
begin
memsize := memsizeinc;
getmem(st,memsize);
{ we can specify the size with @s<size>; prefix PM }
if savesize <> std_param_align then
strpcopy(st,'@s'+tostr(savesize*8)+';e')
else
strpcopy(st,'e');
p := tenumsym(firstenum);
while assigned(p) do
begin
s :=p.name+':'+tostr(p.value)+',';
{ place for the ending ';' also }
if (strlen(st)+length(s)+1<memsize) then
strpcopy(strend(st),s)
else
begin
getmem(st2,memsize+memsizeinc);
strcopy(st2,st);
freemem(st,memsize);
st := st2;
memsize := memsize+memsizeinc;
strpcopy(strend(st),s);
end;
p := p.nextenum;
end;
strpcopy(strend(st),';');
stabstring := strnew(st);
freemem(st,memsize);
end;
{$endif GDB}
procedure tenumdef.write_child_rtti_data(rt:trttitype);
begin
if assigned(basedef) then
basedef.get_rtti_label(rt);
end;
procedure tenumdef.write_rtti_data(rt:trttitype);
var
hp : tenumsym;
begin
rttiList.concat(Tai_const.Create_8bit(tkEnumeration));
write_rtti_name;
case savesize of
1:
rttiList.concat(Tai_const.Create_8bit(otUByte));
2:
rttiList.concat(Tai_const.Create_8bit(otUWord));
4:
rttiList.concat(Tai_const.Create_8bit(otULong));
end;
rttiList.concat(Tai_const.Create_32bit(min));
rttiList.concat(Tai_const.Create_32bit(max));
if assigned(basedef) then
rttiList.concat(Tai_const_symbol.Create(basedef.get_rtti_label(rt)))
else
rttiList.concat(Tai_const.Create_32bit(0));
hp:=tenumsym(firstenum);
while assigned(hp) do
begin
rttiList.concat(Tai_const.Create_8bit(length(hp.name)));
rttiList.concat(Tai_string.Create(lower(hp.name)));
hp:=hp.nextenum;
end;
rttiList.concat(Tai_const.Create_8bit(0));
end;
function tenumdef.is_publishable : boolean;
begin
is_publishable:=true;
end;
function tenumdef.gettypename : string;
begin
gettypename:='<enumeration type>';
end;
{****************************************************************************
TORDDEF
****************************************************************************}
constructor torddef.create(t : tbasetype;v,b : TConstExprInt);
begin
inherited create;
deftype:=orddef;
low:=v;
high:=b;
typ:=t;
rangenr:=0;
setsize;
end;
constructor torddef.load(ppufile:tcompilerppufile);
var
l1,l2 : longint;
begin
inherited loaddef(ppufile);
deftype:=orddef;
typ:=tbasetype(ppufile.getbyte);
if sizeof(TConstExprInt)=8 then
begin
l1:=ppufile.getlongint;
l2:=ppufile.getlongint;
{$ifopt R+}
{$define Range_check_on}
{$endif opt R+}
{$R- needed here }
low:=qword(l1)+(int64(l2) shl 32);
{$ifdef Range_check_on}
{$R+}
{$undef Range_check_on}
{$endif Range_check_on}
end
else
low:=ppufile.getlongint;
if sizeof(TConstExprInt)=8 then
begin
l1:=ppufile.getlongint;
l2:=ppufile.getlongint;
{$ifopt R+}
{$define Range_check_on}
{$endif opt R+}
{$R- needed here }
high:=qword(l1)+(int64(l2) shl 32);
{$ifdef Range_check_on}
{$R+}
{$undef Range_check_on}
{$endif Range_check_on}
end
else
high:=ppufile.getlongint;
rangenr:=0;
setsize;
end;
procedure torddef.setsize;
begin
case typ of
u8bit,s8bit,
uchar,bool8bit:
savesize:=1;
u16bit,s16bit,
bool16bit,uwidechar:
savesize:=2;
s32bit,u32bit,
bool32bit:
savesize:=4;
u64bit,s64bit:
savesize:=8;
else
savesize:=0;
end;
{ there are no entrys for range checking }
rangenr:=0;
end;
function torddef.getrangecheckstring : string;
begin
if (cs_create_smart in aktmoduleswitches) then
getrangecheckstring:='R_'+current_module.modulename^+tostr(rangenr)
else
getrangecheckstring:='R_'+tostr(rangenr);
end;
procedure torddef.genrangecheck;
var
rangechecksize : longint;
begin
if rangenr=0 then
begin
if low<=high then
rangechecksize:=8
else
rangechecksize:=16;
{ generate two constant for bounds }
getlabelnr(rangenr);
if (cs_create_smart in aktmoduleswitches) then
dataSegment.concat(Tai_symbol.Createname_global(getrangecheckstring,rangechecksize))
else
dataSegment.concat(Tai_symbol.Createname(getrangecheckstring,rangechecksize));
if low<=high then
begin
dataSegment.concat(Tai_const.Create_32bit(low));
dataSegment.concat(Tai_const.Create_32bit(high));
end
{ for u32bit we need two bounds }
else
begin
dataSegment.concat(Tai_const.Create_32bit(low));
dataSegment.concat(Tai_const.Create_32bit($7fffffff));
dataSegment.concat(Tai_const.Create_32bit(longint($80000000)));
dataSegment.concat(Tai_const.Create_32bit(high));
end;
end;
end;
procedure torddef.write(ppufile:tcompilerppufile);
begin
inherited writedef(ppufile);
ppufile.putbyte(byte(typ));
if sizeof(TConstExprInt)=8 then
begin
ppufile.putlongint(longint(lo(low)));
ppufile.putlongint(longint(hi(low)));
end
else
ppufile.putlongint(low);
if sizeof(TConstExprInt)=8 then
begin
ppufile.putlongint(longint(lo(high)));
ppufile.putlongint(longint(hi(high)));
end
else
ppufile.putlongint(high);
ppufile.writeentry(iborddef);
end;
{$ifdef GDB}
function torddef.stabstring : pchar;
begin
case typ of
uvoid : stabstring := strpnew(numberstring+';');
{GDB 4.12 for go32 doesn't like boolean as range for 0 to 1 !!!}
{$ifdef Use_integer_types_for_boolean}
bool8bit,
bool16bit,
bool32bit : stabstring := strpnew('r'+numberstring+';0;255;');
{$else : not Use_integer_types_for_boolean}
bool8bit : stabstring := strpnew('-21;');
bool16bit : stabstring := strpnew('-22;');
bool32bit : stabstring := strpnew('-23;');
u64bit : stabstring := strpnew('-32;');
s64bit : stabstring := strpnew('-31;');
{$endif not Use_integer_types_for_boolean}
{u32bit : stabstring := tstoreddef(s32bittype.def).numberstring+';0;-1;'); }
else
stabstring := strpnew('r'+tstoreddef(s32bittype.def).numberstring+';'+tostr(longint(low))+';'+tostr(longint(high))+';');
end;
end;
{$endif GDB}
procedure torddef.write_rtti_data(rt:trttitype);
procedure dointeger;
const
trans : array[tbasetype] of byte =
(otUByte{otNone},
otUByte,otUWord,otULong,otUByte{otNone},
otSByte,otSWord,otSLong,otUByte{otNone},
otUByte,otUWord,otULong,
otUByte,otUWord);
begin
write_rtti_name;
rttiList.concat(Tai_const.Create_8bit(byte(trans[typ])));
rttiList.concat(Tai_const.Create_32bit(longint(low)));
rttiList.concat(Tai_const.Create_32bit(longint(high)));
end;
begin
case typ of
s64bit :
begin
rttiList.concat(Tai_const.Create_8bit(tkInt64));
write_rtti_name;
{ low }
rttiList.concat(Tai_const.Create_32bit($0));
rttiList.concat(Tai_const.Create_32bit($8000));
{ high }
rttiList.concat(Tai_const.Create_32bit($ffff));
rttiList.concat(Tai_const.Create_32bit($7fff));
end;
u64bit :
begin
rttiList.concat(Tai_const.Create_8bit(tkQWord));
write_rtti_name;
{ low }
rttiList.concat(Tai_const.Create_32bit($0));
rttiList.concat(Tai_const.Create_32bit($0));
{ high }
rttiList.concat(Tai_const.Create_32bit($0));
rttiList.concat(Tai_const.Create_32bit($8000));
end;
bool8bit:
begin
rttiList.concat(Tai_const.Create_8bit(tkBool));
dointeger;
end;
uchar:
begin
rttiList.concat(Tai_const.Create_8bit(tkChar));
dointeger;
end;
uwidechar:
begin
rttiList.concat(Tai_const.Create_8bit(tkWChar));
dointeger;
end;
else
begin
rttiList.concat(Tai_const.Create_8bit(tkInteger));
dointeger;
end;
end;
end;
function torddef.is_publishable : boolean;
begin
is_publishable:=(typ<>uvoid);
end;
function torddef.gettypename : string;
const
names : array[tbasetype] of string[20] = (
'untyped',
'Byte','Word','DWord','QWord',
'ShortInt','SmallInt','LongInt','Int64',
'Boolean','WordBool','LongBool',
'Char','WideChar');
begin
gettypename:=names[typ];
end;
{****************************************************************************
TFLOATDEF
****************************************************************************}
constructor tfloatdef.create(t : tfloattype);
begin
inherited create;
deftype:=floatdef;
typ:=t;
setsize;
end;
constructor tfloatdef.load(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=floatdef;
typ:=tfloattype(ppufile.getbyte);
setsize;
end;
procedure tfloatdef.setsize;
begin
case typ of
s32real : savesize:=4;
s64real : savesize:=8;
s80real : savesize:=extended_size;
s64comp : savesize:=8;
else
savesize:=0;
end;
end;
procedure tfloatdef.write(ppufile:tcompilerppufile);
begin
inherited writedef(ppufile);
ppufile.putbyte(byte(typ));
ppufile.writeentry(ibfloatdef);
end;
{$ifdef GDB}
function tfloatdef.stabstring : pchar;
begin
case typ of
s32real,
s64real : stabstring := strpnew('r'+
tstoreddef(s32bittype.def).numberstring+';'+tostr(savesize)+';0;');
{ found this solution in stabsread.c from GDB v4.16 }
s64comp : stabstring := strpnew('r'+
tstoreddef(s32bittype.def).numberstring+';-'+tostr(savesize)+';0;');
{ under dos at least you must give a size of twelve instead of 10 !! }
{ this is probably do to the fact that in gcc all is pushed in 4 bytes size }
s80real : stabstring := strpnew('r'+tstoreddef(s32bittype.def).numberstring+';12;0;');
else
internalerror(10005);
end;
end;
{$endif GDB}
procedure tfloatdef.write_rtti_data(rt:trttitype);
const
{tfloattype = (s32real,s64real,s80real,s64bit);}
translate : array[tfloattype] of byte =
(ftSingle,ftDouble,ftExtended,ftComp);
begin
rttiList.concat(Tai_const.Create_8bit(tkFloat));
write_rtti_name;
rttiList.concat(Tai_const.Create_8bit(translate[typ]));
end;
function tfloatdef.is_publishable : boolean;
begin
is_publishable:=true;
end;
function tfloatdef.gettypename : string;
const
names : array[tfloattype] of string[20] = (
'Single','Double','Extended','Comp');
begin
gettypename:=names[typ];
end;
{****************************************************************************
TFILEDEF
****************************************************************************}
constructor tfiledef.createtext;
begin
inherited create;
deftype:=filedef;
filetyp:=ft_text;
typedfiletype.reset;
setsize;
end;
constructor tfiledef.createuntyped;
begin
inherited create;
deftype:=filedef;
filetyp:=ft_untyped;
typedfiletype.reset;
setsize;
end;
constructor tfiledef.createtyped(const tt : ttype);
begin
inherited create;
deftype:=filedef;
filetyp:=ft_typed;
typedfiletype:=tt;
setsize;
end;
constructor tfiledef.load(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=filedef;
filetyp:=tfiletyp(ppufile.getbyte);
if filetyp=ft_typed then
ppufile.gettype(typedfiletype)
else
typedfiletype.reset;
setsize;
end;
procedure tfiledef.deref;
begin
inherited deref;
if filetyp=ft_typed then
typedfiletype.resolve;
end;
procedure tfiledef.setsize;
begin
case filetyp of
ft_text :
savesize:=572;
ft_typed,
ft_untyped :
savesize:=316;
end;
end;
procedure tfiledef.write(ppufile:tcompilerppufile);
begin
inherited writedef(ppufile);
ppufile.putbyte(byte(filetyp));
if filetyp=ft_typed then
ppufile.puttype(typedfiletype);
ppufile.writeentry(ibfiledef);
end;
{$ifdef GDB}
function tfiledef.stabstring : pchar;
begin
{$IfDef GDBknowsfiles}
case filetyp of
ft_typed :
stabstring := strpnew('d'+typedfiletype.def.numberstring{+';'});
ft_untyped :
stabstring := strpnew('d'+voiddef.numberstring{+';'});
ft_text :
stabstring := strpnew('d'+cchartype^.numberstring{+';'});
end;
{$Else}
{based on
FileRec = Packed Record
Handle,
Mode,
RecSize : longint;
_private : array[1..32] of byte;
UserData : array[1..16] of byte;
name : array[0..255] of char;
End; }
{ the buffer part is still missing !! (PM) }
{ but the string could become too long !! }
stabstring := strpnew('s'+tostr(savesize)+
'HANDLE:'+typeglobalnumber('longint')+',0,32;'+
'MODE:'+typeglobalnumber('longint')+',32,32;'+
'RECSIZE:'+typeglobalnumber('longint')+',64,32;'+
'_PRIVATE:ar'+typeglobalnumber('word')+';1;32;'+typeglobalnumber('byte')
+',96,256;'+
'USERDATA:ar'+typeglobalnumber('word')+';1;16;'+typeglobalnumber('byte')
+',352,128;'+
'NAME:ar'+typeglobalnumber('word')+';0;255;'+typeglobalnumber('char')
+',480,2048;;');
{$EndIf}
end;
procedure tfiledef.concatstabto(asmlist : taasmoutput);
begin
{ most file defs are unnamed !!! }
if ((typesym = nil) or ttypesym(typesym).isusedinstab or (cs_gdb_dbx in aktglobalswitches)) and
(is_def_stab_written = not_written) then
begin
if assigned(typedfiletype.def) then
forcestabto(asmlist,typedfiletype.def);
inherited concatstabto(asmlist);
end;
end;
{$endif GDB}
function tfiledef.gettypename : string;
begin
case filetyp of
ft_untyped:
gettypename:='File';
ft_typed:
gettypename:='File Of '+typedfiletype.def.typename;
ft_text:
gettypename:='Text'
end;
end;
function tfiledef.getmangledparaname : string;
begin
case filetyp of
ft_untyped:
getmangledparaname:='FILE';
ft_typed:
getmangledparaname:='FILE$OF$'+typedfiletype.def.mangledparaname;
ft_text:
getmangledparaname:='TEXT'
end;
end;
{****************************************************************************
TVARIANTDEF
****************************************************************************}
constructor tvariantdef.create;
begin
inherited create;
deftype:=variantdef;
setsize;
end;
constructor tvariantdef.load(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=variantdef;
setsize;
end;
procedure tvariantdef.write(ppufile:tcompilerppufile);
begin
inherited writedef(ppufile);
ppufile.writeentry(ibvariantdef);
end;
procedure tvariantdef.setsize;
begin
savesize:=16;
end;
function tvariantdef.gettypename : string;
begin
gettypename:='Variant';
end;
procedure tvariantdef.write_rtti_data(rt:trttitype);
begin
rttiList.concat(Tai_const.Create_8bit(tkVariant));
end;
function tvariantdef.needs_inittable : boolean;
begin
needs_inittable:=true;
end;
{****************************************************************************
TPOINTERDEF
****************************************************************************}
constructor tpointerdef.create(const tt : ttype);
begin
inherited create;
deftype:=pointerdef;
pointertype:=tt;
is_far:=false;
savesize:=POINTER_SIZE;
end;
constructor tpointerdef.createfar(const tt : ttype);
begin
inherited create;
deftype:=pointerdef;
pointertype:=tt;
is_far:=true;
savesize:=POINTER_SIZE;
end;
constructor tpointerdef.load(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=pointerdef;
ppufile.gettype(pointertype);
is_far:=(ppufile.getbyte<>0);
savesize:=POINTER_SIZE;
end;
procedure tpointerdef.deref;
begin
inherited deref;
pointertype.resolve;
end;
procedure tpointerdef.write(ppufile:tcompilerppufile);
begin
inherited writedef(ppufile);
ppufile.puttype(pointertype);
ppufile.putbyte(byte(is_far));
ppufile.writeentry(ibpointerdef);
end;
{$ifdef GDB}
function tpointerdef.stabstring : pchar;
begin
stabstring := strpnew('*'+tstoreddef(pointertype.def).numberstring);
end;
procedure tpointerdef.concatstabto(asmlist : taasmoutput);
var st,nb : string;
sym_line_no : longint;
begin
if assigned(pointertype.def) and
(pointertype.def.deftype=forwarddef) then
exit;
if ( (typesym=nil) or ttypesym(typesym).isusedinstab or (cs_gdb_dbx in aktglobalswitches)) and
(is_def_stab_written = not_written) then
begin
is_def_stab_written := being_written;
if assigned(pointertype.def) and
(pointertype.def.deftype in [recorddef,objectdef]) then
begin
nb:=tstoreddef(pointertype.def).numberstring;
{to avoid infinite recursion in record with next-like fields }
if tstoreddef(pointertype.def).is_def_stab_written = being_written then
begin
if assigned(pointertype.def.typesym) then
begin
if assigned(typesym) then
begin
st := ttypesym(typesym).name;
sym_line_no:=ttypesym(typesym).fileinfo.line;
end
else
begin
st := ' ';
sym_line_no:=0;
end;
st := '"'+st+':t'+numberstring+'=*'+nb
+'=xs'+pointertype.def.typesym.name+':",'+tostr(N_LSYM)+',0,'+tostr(sym_line_no)+',0';
asmList.concat(Tai_stabs.Create(strpnew(st)));
end;
end
else
begin
is_def_stab_written := not_written;
inherited concatstabto(asmlist);
end;
is_def_stab_written := written;
end
else
begin
if assigned(pointertype.def) then
forcestabto(asmlist,pointertype.def);
is_def_stab_written := not_written;
inherited concatstabto(asmlist);
end;
end;
end;
{$endif GDB}
function tpointerdef.gettypename : string;
begin
if is_far then
gettypename:='^'+pointertype.def.typename+';far'
else
gettypename:='^'+pointertype.def.typename;
end;
{****************************************************************************
TCLASSREFDEF
****************************************************************************}
constructor tclassrefdef.create(const t:ttype);
begin
inherited create(t);
deftype:=classrefdef;
end;
constructor tclassrefdef.load(ppufile:tcompilerppufile);
begin
{ be careful, tclassdefref inherits from tpointerdef }
inherited loaddef(ppufile);
deftype:=classrefdef;
ppufile.gettype(pointertype);
is_far:=false;
savesize:=POINTER_SIZE;
end;
procedure tclassrefdef.write(ppufile:tcompilerppufile);
begin
{ be careful, tclassdefref inherits from tpointerdef }
inherited writedef(ppufile);
ppufile.puttype(pointertype);
ppufile.writeentry(ibclassrefdef);
end;
{$ifdef GDB}
function tclassrefdef.stabstring : pchar;
begin
stabstring:=strpnew(tstoreddef(pvmttype.def).numberstring+';');
end;
procedure tclassrefdef.concatstabto(asmlist : taasmoutput);
begin
inherited concatstabto(asmlist);
end;
{$endif GDB}
function tclassrefdef.gettypename : string;
begin
gettypename:='Class Of '+pointertype.def.typename;
end;
{***************************************************************************
TSETDEF
***************************************************************************}
constructor tsetdef.create(const t:ttype;high : longint);
begin
inherited create;
deftype:=setdef;
elementtype:=t;
if high<32 then
begin
settype:=smallset;
{$ifdef testvarsets}
if aktsetalloc=0 THEN { $PACKSET Fixed?}
{$endif}
savesize:=Sizeof(longint)
{$ifdef testvarsets}
else {No, use $PACKSET VALUE for rounding}
savesize:=aktsetalloc*((high+aktsetalloc*8-1) DIV (aktsetalloc*8))
{$endif}
;
end
else
if high<256 then
begin
settype:=normset;
savesize:=32;
end
else
{$ifdef testvarsets}
if high<$10000 then
begin
settype:=varset;
savesize:=4*((high+31) div 32);
end
else
{$endif testvarsets}
Message(sym_e_ill_type_decl_set);
end;
constructor tsetdef.load(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=setdef;
ppufile.gettype(elementtype);
settype:=tsettype(ppufile.getbyte);
case settype of
normset : savesize:=32;
varset : savesize:=ppufile.getlongint;
smallset : savesize:=Sizeof(longint);
end;
end;
destructor tsetdef.destroy;
begin
inherited destroy;
end;
procedure tsetdef.write(ppufile:tcompilerppufile);
begin
inherited writedef(ppufile);
ppufile.puttype(elementtype);
ppufile.putbyte(byte(settype));
if settype=varset then
ppufile.putlongint(savesize);
ppufile.writeentry(ibsetdef);
end;
procedure tsetdef.changesettype(s:tsettype);
begin
case s of
smallset :
savesize:=sizeof(longint);
normset :
savesize:=32;
varset :
internalerror(200110201);
end;
settype:=s;
end;
{$ifdef GDB}
function tsetdef.stabstring : pchar;
begin
{ For small sets write a longint, which can at least be seen
in the current GDB's (PFV)
this is obsolete with GDBPAS !!
and anyhow creates problems with version 4.18!! PM
if settype=smallset then
stabstring := strpnew('r'+s32bittype^.numberstring+';0;0xffffffff;')
else }
stabstring := strpnew('S'+tstoreddef(elementtype.def).numberstring);
end;
procedure tsetdef.concatstabto(asmlist : taasmoutput);
begin
if ( not assigned(typesym) or ttypesym(typesym).isusedinstab or (cs_gdb_dbx in aktglobalswitches)) and
(is_def_stab_written = not_written) then
begin
if assigned(elementtype.def) then
forcestabto(asmlist,elementtype.def);
inherited concatstabto(asmlist);
end;
end;
{$endif GDB}
procedure tsetdef.deref;
begin
inherited deref;
elementtype.resolve;
end;
procedure tsetdef.write_child_rtti_data(rt:trttitype);
begin
tstoreddef(elementtype.def).get_rtti_label(rt);
end;
procedure tsetdef.write_rtti_data(rt:trttitype);
begin
rttiList.concat(Tai_const.Create_8bit(tkSet));
write_rtti_name;
rttiList.concat(Tai_const.Create_8bit(otULong));
rttiList.concat(Tai_const_symbol.Create(tstoreddef(elementtype.def).get_rtti_label(rt)));
end;
function tsetdef.is_publishable : boolean;
begin
is_publishable:=(settype=smallset);
end;
function tsetdef.gettypename : string;
begin
if assigned(elementtype.def) then
gettypename:='Set Of '+elementtype.def.typename
else
gettypename:='Empty Set';
end;
{***************************************************************************
TFORMALDEF
***************************************************************************}
constructor tformaldef.create;
var
stregdef : boolean;
begin
stregdef:=registerdef;
registerdef:=false;
inherited create;
deftype:=formaldef;
registerdef:=stregdef;
{ formaldef must be registered at unit level !! }
if registerdef and assigned(current_module) then
if assigned(current_module.localsymtable) then
tsymtable(current_module.localsymtable).registerdef(self)
else if assigned(current_module.globalsymtable) then
tsymtable(current_module.globalsymtable).registerdef(self);
savesize:=POINTER_SIZE;
end;
constructor tformaldef.load(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=formaldef;
savesize:=POINTER_SIZE;
end;
procedure tformaldef.write(ppufile:tcompilerppufile);
begin
inherited writedef(ppufile);
ppufile.writeentry(ibformaldef);
end;
{$ifdef GDB}
function tformaldef.stabstring : pchar;
begin
stabstring := strpnew('formal'+numberstring+';');
end;
procedure tformaldef.concatstabto(asmlist : taasmoutput);
begin
{ formaldef can't be stab'ed !}
end;
{$endif GDB}
function tformaldef.gettypename : string;
begin
gettypename:='Var';
end;
{***************************************************************************
TARRAYDEF
***************************************************************************}
constructor tarraydef.create(l,h : longint;const t : ttype);
begin
inherited create;
deftype:=arraydef;
lowrange:=l;
highrange:=h;
rangetype:=t;
elementtype.reset;
IsVariant:=false;
IsConstructor:=false;
IsArrayOfConst:=false;
IsDynamicArray:=false;
rangenr:=0;
end;
constructor tarraydef.load(ppufile:tcompilerppufile);
begin
inherited loaddef(ppufile);
deftype:=arraydef;
{ the addresses are calculated later }
ppufile.gettype(elementtype);
ppufile.gettype(rangetype);
lowrange:=ppufile.getlongint;
highrange:=ppufile.getlongint;
IsArrayOfConst:=boolean(ppufile.getbyte);
IsDynamicArray:=boolean(ppufile.getbyte);
IsVariant:=false;
IsConstructor:=false;
rangenr:=0;
end;
function tarraydef.getrangecheckstring : string;
begin
if (cs_create_smart in aktmoduleswitches) then
getrangecheckstring:='R_'+current_module.modulename^+tostr(rangenr)
else
getrangecheckstring:='R_'+tostr(rangenr);
end;
procedure tarraydef.genrangecheck;
begin
if rangenr=0 then
begin
{ generates the data for range checking }
getlabelnr(rangenr);
if (cs_create_smart in aktmoduleswitches) then
dataSegment.concat(Tai_symbol.Createname_global(getrangecheckstring,8))
else
dataSegment.concat(Tai_symbol.Createname(getrangecheckstring,8));
if lowrange<=highrange then
begin
dataSegment.concat(Tai_const.Create_32bit(lowrange));
dataSegment.concat(Tai_const.Create_32bit(highrange));
end
{ for big arrays we need two bounds }
else
begin
dataSegment.concat(Tai_const.Create_32bit(lowrange));
dataSegment.concat(Tai_const.Create_32bit($7fffffff));
dataSegment.concat(Tai_const.Create_32bit(longint($80000000)));
dataSegment.concat(Tai_const.Create_32bit(highrange));
end;
end;
end;
procedure tarraydef.deref;
begin
inherited deref;
elementtype.resolve;
rangetype.resolve;
end;
procedure tarraydef.write(ppufile:tcompilerppufile);
begin
inherited writedef(ppufile);
ppufile.puttype(elementtype);
ppufile.puttype(rangetype);
ppufile.putlongint(lowrange);
ppufile.putlongint(highrange);
ppufile.putbyte(byte(IsArrayOfConst));
ppufile.putbyte(byte(IsDynamicArray));
ppufile.writeentry(ibarraydef);
end;
{$ifdef GDB}
function tarraydef.stabstring : pchar;
begin
stabstring := strpnew('ar'+tstoreddef(rangetype.def).numberstring+';'
+tostr(lowrange)+';'+tostr(highrange)+';'+tstoreddef(elementtype.def).numberstring);
end;
procedure tarraydef.concatstabto(asmlist : taasmoutput);
begin
if (not assigned(typesym) or ttypesym(typesym).isusedinstab or (cs_gdb_dbx in aktglobalswitches))
and (is_def_stab_written = not_written) then
begin
{when array are inserted they have no definition yet !!}
if assigned(elementtype.def) then
inherited concatstabto(asmlist);
end;
end;
{$endif GDB}
function tarraydef.elesize : longint;
begin
elesize:=elementtype.def.size;
end;
function tarraydef.size : longint;
var
cachedsize: TConstExprInt;
begin
if IsDynamicArray then
begin
size:=POINTER_SIZE;
exit;
end;
{Tarraydef.size may never be called for an open array!}
if highrange<lowrange then
internalerror(99080501);
cachedsize := elesize;
If (cachedsize>0) and
(
(TConstExprInt(highrange)-TConstExprInt(lowrange) > $7fffffff) or
{ () are needed around elesize-1 to avoid a possible
integer overflow for elesize=1 !! PM }
(($7fffffff div cachedsize + (cachedsize -1)) < (int64(highrange) - int64(lowrange)))
) Then
Begin
Message(sym_e_segment_too_large);
size := 4
End
Else size:=longint((highrange-lowrange+1)*cachedsize);
end;
function tarraydef.alignment : longint;
begin
{ alignment is the size of the elements }
if elementtype.def.deftype=recorddef then
alignment:=elementtype.def.alignment
else
alignment:=elesize;
end;
function tarraydef.needs_inittable : boolean;
begin
needs_inittable:=IsDynamicArray or elementtype.def.needs_inittable;
end;
procedure tarraydef.write_child_rtti_data(rt:trttitype);
begin
tstoreddef(elementtype.def).get_rtti_label(rt);
end;
procedure tarraydef.write_rtti_data(rt:trttitype);
begin
if IsDynamicArray then
rttiList.concat(Tai_const.Create_8bit(tkdynarray))
else
rttiList.concat(Tai_const.Create_8bit(tkarray));
write_rtti_name;
{ size of elements }
rttiList.concat(Tai_const.Create_32bit(elesize));
{ count of elements }
if not(IsDynamicArray) then
rttiList.concat(Tai_const.Create_32bit(highrange-lowrange+1));
{ element type }
rttiList.concat(Tai_const_symbol.Create(tstoreddef(elementtype.def).get_rtti_label(rt)));
{ variant type }
// !!!!!!!!!!!!!!!!
end;
function tarraydef.gettypename : string;
begin
if isarrayofconst or isConstructor then
begin
if isvariant or ((highrange=-1) and (lowrange=0)) then
gettypename:='Array Of Const'
else
gettypename:='Array Of '+elementtype.def.typename;
end
else if ((highrange=-1) and (lowrange=0)) or IsDynamicArray then
gettypename:='Array Of '+elementtype.def.typename
else
begin
if rangetype.def.deftype=enumdef then
gettypename:='Array['+rangetype.def.typename+'] Of '+elementtype.def.typename
else
gettypename:='Array['+tostr(lowrange)+'..'+
tostr(highrange)+'] Of '+elementtype.def.typename
end;
end;
function tarraydef.getmangledparaname : string;
begin
if isarrayofconst then
getmangledparaname:='array_of_const'
else
if ((highrange=-1) and (lowrange=0)) then
getmangledparaname:='array_of_'+elementtype.def.mangledparaname
else
internalerror(200204176);
end;
{***************************************************************************
tabstractrecorddef
***************************************************************************}
function tabstractrecorddef.getsymtable(t:tgetsymtable):tsymtable;
begin
if t=gs_record then
getsymtable:=symtable
else
getsymtable:=nil;
end;
{$ifdef GDB}
procedure tabstractrecorddef.addname(p : tnamedindexitem);
var
news, newrec : pchar;
spec : string[3];
varsize : longint;
begin
{ static variables from objects are like global objects }
if (sp_static in tsym(p).symoptions) then
exit;
If tsym(p).typ = varsym then
begin
if (sp_protected in tsym(p).symoptions) then
spec:='/1'
else if (sp_private in tsym(p).symoptions) then
spec:='/0'
else
spec:='';
if not assigned(tvarsym(p).vartype.def) then
writeln(tvarsym(p).name);
{ class fields are pointers PM, obsolete now PM }
{if (tvarsym(p).vartype.def.deftype=objectdef) and
tobjectdef(tvarsym(p).vartype.def).is_class then
spec:=spec+'*'; }
varsize:=tvarsym(p).vartype.def.size;
{ open arrays made overflows !! }
if varsize>$fffffff then
varsize:=$fffffff;
newrec := strpnew(p.name+':'+spec+tstoreddef(tvarsym(p).vartype.def).numberstring
+','+tostr(tvarsym(p).address*8)+','
+tostr(varsize*8)+';');
if strlen(StabRecString) + strlen(newrec) >= StabRecSize-256 then
begin
getmem(news,stabrecsize+memsizeinc);
strcopy(news,stabrecstring);
freemem(stabrecstring,stabrecsize);
stabrecsize:=stabrecsize+memsizeinc;
stabrecstring:=news;
end;
strcat(StabRecstring,newrec);
strdispose(newrec);
{This should be used for case !!}
inc(RecOffset,tvarsym(p).vartype.def.size);
end;
end;
{$endif GDB}
procedure tabstractrecorddef.count_field_rtti(sym : tnamedindexitem);
begin
if (FRTTIType=fullrtti) or
((tsym(sym).typ=varsym) and
tvarsym(sym).vartype.def.needs_inittable) then
inc(Count);
end;
procedure tabstractrecorddef.generate_field_rtti(sym:tnamedindexitem);
begin
if (FRTTIType=fullrtti) or
((tsym(sym).typ=varsym) and
tvarsym(sym).vartype.def.needs_inittable) then
tstoreddef(tvarsym(sym).vartype.def).get_rtti_label(FRTTIType);
end;
procedure tabstractrecorddef.write_field_rtti(sym : tnamedindexitem);
begin
if (FRTTIType=fullrtti) or
((tsym(sym).typ=varsym) and
tvarsym(sym).vartype.def.needs_inittable) then
begin
rttiList.concat(Tai_const_symbol.Create(tstoreddef(tvarsym(sym).vartype.def).get_rtti_label(FRTTIType)));
rttiList.concat(Tai_const.Create_32bit(tvarsym(sym).address));
end;
end;
{***************************************************************************
trecorddef
***************************************************************************}
constructor trecorddef.create(p : tsymtable);
begin
inherited create;
deftype:=recorddef;
symtable:=p;
symtable.defowner:=self;
{ recordalign -1 means C record packing, that starts
with an alignment of 1 }
if aktalignment.recordalignmax=-1 then
symtable.dataalignment:=1
else
symtable.dataalignment:=aktalignment.recordalignmax;
end;
constructor trecorddef.load(ppufile:tcompilerppufile);
var
oldread_member : boolean;
begin
inherited loaddef(ppufile);
deftype:=recorddef;
savesize:=ppufile.getlongint;
oldread_member:=read_member;
read_member:=true;
symtable:=trecordsymtable.create;
trecordsymtable(symtable).load(ppufile);
read_member:=oldread_member;
symtable.defowner:=self;
end;
destructor trecorddef.destroy;
begin
if assigned(symtable) then
symtable.free;
inherited destroy;
end;
function trecorddef.needs_inittable : boolean;
begin
needs_inittable:=trecordsymtable(symtable).needs_init_final
end;
procedure trecorddef.deref;
var
oldrecsyms : tsymtable;
begin
inherited deref;
oldrecsyms:=aktrecordsymtable;
aktrecordsymtable:=symtable;
{ now dereference the definitions }
tstoredsymtable(symtable).deref;
aktrecordsymtable:=oldrecsyms;
{ assign TGUID? load only from system unit (unitid=1) }
if not(assigned(rec_tguid)) and
(upper(typename)='TGUID') and
assigned(owner) and
assigned(owner.name) and
(owner.name^='SYSTEM') then
rec_tguid:=self;
end;
procedure trecorddef.write(ppufile:tcompilerppufile);
var
oldread_member : boolean;
begin
oldread_member:=read_member;
read_member:=true;
inherited writedef(ppufile);
ppufile.putlongint(savesize);
ppufile.writeentry(ibrecorddef);
trecordsymtable(symtable).write(ppufile);
read_member:=oldread_member;
end;
function trecorddef.size:longint;
begin
size:=symtable.datasize;
end;
function trecorddef.alignment:longint;
var
l : longint;
hp : tvarsym;
begin
{ also check the first symbol for it's size, because a
packed record has dataalignment of 1, but the first
sym could be a longint which should be aligned on 4 bytes,
this is compatible with C record packing (PFV) }
hp:=tvarsym(symtable.symindex.first);
if assigned(hp) then
begin
if hp.vartype.def.deftype in [recorddef,arraydef] then
l:=hp.vartype.def.alignment
else
l:=hp.vartype.def.size;
if l>symtable.dataalignment then
begin
if l>=4 then
alignment:=4
else
if l>=2 then
alignment:=2
else
alignment:=1;
end
else
alignment:=symtable.dataalignment;
end
else
alignment:=symtable.dataalignment;
end;
{$ifdef GDB}
function trecorddef.stabstring : pchar;
begin
GetMem(stabrecstring,memsizeinc);
stabrecsize:=memsizeinc;
strpcopy(stabRecString,'s'+tostr(size));
RecOffset := 0;
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}addname);
strpcopy(strend(StabRecString),';');
stabstring := strnew(StabRecString);
Freemem(stabrecstring,stabrecsize);
end;
procedure trecorddef.concatstabto(asmlist : taasmoutput);
begin
if (not assigned(typesym) or ttypesym(typesym).isusedinstab or (cs_gdb_dbx in aktglobalswitches)) and
(is_def_stab_written = not_written) then
inherited concatstabto(asmlist);
end;
{$endif GDB}
procedure trecorddef.write_child_rtti_data(rt:trttitype);
begin
FRTTIType:=rt;
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}generate_field_rtti);
end;
procedure trecorddef.write_rtti_data(rt:trttitype);
begin
rttiList.concat(Tai_const.Create_8bit(tkrecord));
write_rtti_name;
rttiList.concat(Tai_const.Create_32bit(size));
Count:=0;
FRTTIType:=rt;
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}count_field_rtti);
rttiList.concat(Tai_const.Create_32bit(Count));
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}write_field_rtti);
end;
function trecorddef.gettypename : string;
begin
gettypename:='<record type>'
end;
{***************************************************************************
TABSTRACTPROCDEF
***************************************************************************}
constructor tabstractprocdef.create;
begin
inherited create;
para:=TParaLinkedList.Create;
minparacount:=0;
maxparacount:=0;
proctypeoption:=potype_none;
proccalloption:=pocall_none;
procoptions:=[];
rettype:=voidtype;
symtablelevel:=0;
fpu_used:=0;
savesize:=POINTER_SIZE;
end;
destructor tabstractprocdef.destroy;
begin
Para.Free;
inherited destroy;
end;
procedure tabstractprocdef.concatpara(const tt:ttype;sym : tsym;vsp : tvarspez;defval:tsym);
var
hp : TParaItem;
begin
hp:=TParaItem.Create;
hp.paratyp:=vsp;
hp.parasym:=sym;
hp.paratype:=tt;
hp.defaultvalue:=defval;
Para.insert(hp);
if not assigned(defval) then
inc(minparacount);
inc(maxparacount);
end;
{ all functions returning in FPU are
assume to use 2 FPU registers
until the function implementation
is processed PM }
procedure tabstractprocdef.test_if_fpu_result;
begin
if assigned(rettype.def) and
(rettype.def.deftype=floatdef) then
{$ifdef FAST_FPU}
fpu_used:=3;
{$else : not FAST_FPU, i.e. SAFE_FPU}
fpu_used:={2}maxfpuregs;
{$endif FAST_FPU}
end;
procedure tabstractprocdef.deref;
var
hp : TParaItem;
begin
inherited deref;
rettype.resolve;
hp:=TParaItem(Para.first);
while assigned(hp) do
begin
hp.paratype.resolve;
resolvesym(tsym(hp.defaultvalue));
resolvesym(tsym(hp.parasym));
hp:=TParaItem(hp.next);
end;
end;
constructor tabstractprocdef.load(ppufile:tcompilerppufile);
var
hp : TParaItem;
count,i : word;
begin
inherited loaddef(ppufile);
Para:=TParaLinkedList.Create;
minparacount:=0;
maxparacount:=0;
ppufile.gettype(rettype);
fpu_used:=ppufile.getbyte;
proctypeoption:=tproctypeoption(ppufile.getbyte);
proccalloption:=tproccalloption(ppufile.getbyte);
ppufile.getsmallset(procoptions);
count:=ppufile.getword;
savesize:=POINTER_SIZE;
for i:=1 to count do
begin
hp:=TParaItem.Create;
hp.paratyp:=tvarspez(ppufile.getbyte);
{ hp.register:=tregister(ppufile.getbyte); }
ppufile.gettype(hp.paratype);
hp.defaultvalue:=tsym(ppufile.getderef);
hp.parasym:=tsym(ppufile.getderef);
if not assigned(hp.defaultvalue) then
inc(minparacount);
inc(maxparacount);
Para.concat(hp);
end;
end;
procedure tabstractprocdef.write(ppufile:tcompilerppufile);
var
hp : TParaItem;
oldintfcrc : boolean;
begin
inherited writedef(ppufile);
ppufile.puttype(rettype);
oldintfcrc:=ppufile.do_interface_crc;
ppufile.do_interface_crc:=false;
if simplify_ppu then
fpu_used:=0;
ppufile.putbyte(fpu_used);
ppufile.putbyte(ord(proctypeoption));
ppufile.putbyte(ord(proccalloption));
ppufile.putsmallset(procoptions);
ppufile.do_interface_crc:=oldintfcrc;
ppufile.putword(maxparacount);
hp:=TParaItem(Para.first);
while assigned(hp) do
begin
ppufile.putbyte(byte(hp.paratyp));
{ ppufile.putbyte(byte(hp.register)); }
ppufile.puttype(hp.paratype);
ppufile.putderef(hp.defaultvalue);
ppufile.putderef(hp.parasym);
hp:=TParaItem(hp.next);
end;
end;
function tabstractprocdef.para_size(alignsize:longint) : longint;
var
pdc : TParaItem;
l : longint;
begin
l:=0;
pdc:=TParaItem(Para.first);
while assigned(pdc) do
begin
case pdc.paratyp of
vs_out,
vs_var : inc(l,POINTER_SIZE);
vs_value,
vs_const : if push_addr_param(pdc.paratype.def) then
inc(l,POINTER_SIZE)
else
inc(l,pdc.paratype.def.size);
end;
l:=align(l,alignsize);
pdc:=TParaItem(pdc.next);
end;
para_size:=l;
end;
function tabstractprocdef.typename_paras : string;
var
hs,s : string;
hp : TParaItem;
hpc : tconstsym;
begin
hp:=TParaItem(Para.last);
if not(assigned(hp)) then
begin
typename_paras:='';
exit;
end;
s:='(';
while assigned(hp) do
begin
if hp.paratyp=vs_var then
s:=s+'var'
else if hp.paratyp=vs_const then
s:=s+'const'
else if hp.paratyp=vs_out then
s:=s+'out';
if assigned(hp.paratype.def.typesym) then
begin
if hp.paratyp in [vs_var,vs_const,vs_out] then
s := s + ' ';
s:=s+hp.paratype.def.typesym.realname;
end;
{ default value }
if assigned(hp.defaultvalue) then
begin
hpc:=tconstsym(hp.defaultvalue);
hs:='';
case hpc.consttyp of
conststring,
constresourcestring :
hs:=strpas(pchar(hpc.valueptr));
constreal :
str(pbestreal(hpc.valueptr)^,hs);
constord :
hs:=tostr(hpc.valueord);
constpointer :
hs:=tostr(hpc.valueordptr);
constbool :
begin
if hpc.valueord<>0 then
hs:='TRUE'
else
hs:='FALSE';
end;
constnil :
hs:='nil';
constchar :
hs:=chr(hpc.valueord);
constset :
hs:='<set>';
end;
if hs<>'' then
s:=s+'="'+hs+'"';
end;
hp:=TParaItem(hp.previous);
if assigned(hp) then
s:=s+',';
end;
s:=s+')';
if (po_varargs in procoptions) then
s:=s+';VarArgs';
typename_paras:=s;
end;
{$ifdef GDB}
function tabstractprocdef.stabstring : pchar;
begin
stabstring := strpnew('abstractproc'+numberstring+';');
end;
procedure tabstractprocdef.concatstabto(asmlist : taasmoutput);
begin
if (not assigned(typesym) or ttypesym(typesym).isusedinstab or (cs_gdb_dbx in aktglobalswitches))
and (is_def_stab_written = not_written) then
begin
if assigned(rettype.def) then forcestabto(asmlist,rettype.def);
inherited concatstabto(asmlist);
end;
end;
{$endif GDB}
{***************************************************************************
TPROCDEF
***************************************************************************}
constructor tprocdef.create;
begin
inherited create;
deftype:=procdef;
has_mangledname:=false;
_mangledname:=nil;
fileinfo:=aktfilepos;
extnumber:=$ffff;
aliasnames:=tstringlist.create;
localst:=tlocalsymtable.create;
parast:=tparasymtable.create;
funcretsym:=nil;
localst.defowner:=self;
parast.defowner:=self;
{ this is used by insert
to check same names in parast and localst }
localst.next:=parast;
defref:=nil;
crossref:=nil;
lastwritten:=nil;
refcount:=0;
if (cs_browser in aktmoduleswitches) and make_ref then
begin
defref:=tref.create(defref,@akttokenpos);
inc(refcount);
end;
lastref:=defref;
{ first, we assume that all registers are used }
usedregisters:=ALL_REGISTERS;
forwarddef:=true;
interfacedef:=false;
hasforward:=false;
_class := nil;
code:=nil;
regvarinfo := nil;
overloadnumber:=0;
{$ifdef GDB}
isstabwritten := false;
{$endif GDB}
end;
constructor tprocdef.load(ppufile:tcompilerppufile);
begin
inherited load(ppufile);
deftype:=procdef;
ppufile.getnormalset(usedregisters);
has_mangledname:=boolean(ppufile.getbyte);
if has_mangledname then
_mangledname:=stringdup(ppufile.getstring)
else
_mangledname:=nil;
overloadnumber:=ppufile.getword;
extnumber:=ppufile.getword;
_class := tobjectdef(ppufile.getderef);
procsym := tsym(ppufile.getderef);
ppufile.getposinfo(fileinfo);
{ inline stuff }
if proccalloption=pocall_inline then
funcretsym:=tsym(ppufile.getderef)
else
funcretsym:=nil;
{ load para and local symtables }
parast:=tparasymtable.create;
tparasymtable(parast).load(ppufile);
parast.defowner:=self;
if (proccalloption=pocall_inline) or
((current_module.flags and uf_local_browser)<>0) then
begin
localst:=tlocalsymtable.create;
tlocalsymtable(localst).load(ppufile);
localst.defowner:=self;
end
else
localst:=nil;
{ default values for no persistent data }
if (cs_link_deffile in aktglobalswitches) and
(tf_need_export in target_info.flags) and
(po_exports in procoptions) then
deffile.AddExport(mangledname);
aliasnames:=tstringlist.create;
forwarddef:=false;
interfacedef:=false;
hasforward:=false;
code := nil;
regvarinfo := nil;
lastref:=nil;
lastwritten:=nil;
defref:=nil;
refcount:=0;
{$ifdef GDB}
isstabwritten := false;
{$endif GDB}
end;
destructor tprocdef.destroy;
begin
if assigned(defref) then
begin
defref.freechain;
defref.free;
end;
aliasnames.free;
if assigned(parast) then
parast.free;
if assigned(localst) and (localst.symtabletype<>staticsymtable) then
localst.free;
if (proccalloption=pocall_inline) and assigned(code) then
tnode(code).free;
if assigned(regvarinfo) then
dispose(pregvarinfo(regvarinfo));
if (po_msgstr in procoptions) then
strdispose(messageinf.str);
if assigned(_mangledname) then
stringdispose(_mangledname);
inherited destroy;
end;
procedure tprocdef.write(ppufile:tcompilerppufile);
var
oldintfcrc : boolean;
begin
inherited write(ppufile);
oldintfcrc:=ppufile.do_interface_crc;
ppufile.do_interface_crc:=false;
{ set all registers to used for simplified compilation PM }
if simplify_ppu then
begin
usedregisters:=ALL_REGISTERS;
end;
ppufile.putnormalset(usedregisters);
ppufile.do_interface_crc:=oldintfcrc;
ppufile.putbyte(byte(has_mangledname));
if has_mangledname then
ppufile.putstring(mangledname);
ppufile.putword(overloadnumber);
ppufile.putword(extnumber);
ppufile.putderef(_class);
ppufile.putderef(procsym);
ppufile.putposinfo(fileinfo);
{ inline stuff references to localsymtable, no influence
on the crc }
oldintfcrc:=ppufile.do_crc;
ppufile.do_crc:=false;
if (proccalloption=pocall_inline) then
ppufile.putderef(funcretsym);
ppufile.do_crc:=oldintfcrc;
{ write this entry }
ppufile.writeentry(ibprocdef);
{ Save the para symtable, this is taken from the interface }
if not assigned(parast) then
begin
parast:=tparasymtable.create;
parast.defowner:=self;
end;
tparasymtable(parast).write(ppufile);
{ save localsymtable for inline procedures or when local
browser info is requested, this has no influence on the crc }
if (proccalloption=pocall_inline) or
((current_module.flags and uf_local_browser)<>0) then
begin
oldintfcrc:=ppufile.do_crc;
ppufile.do_crc:=false;
if not assigned(localst) then
begin
localst:=tlocalsymtable.create;
localst.defowner:=self;
end;
tlocalsymtable(localst).write(ppufile);
ppufile.do_crc:=oldintfcrc;
end;
end;
function tprocdef.fullprocname:string;
var
s : string;
begin
s:='';
if assigned(_class) then
s:=_class.objrealname^+'.';
s:=s+procsym.realname+typename_paras;
fullprocname:=s;
end;
function tprocdef.fullprocnamewithret:string;
var
s : string;
begin
s:=fullprocname;
if assigned(rettype.def) and
not(is_equal(rettype.def,voidtype.def)) then
s:=s+' : '+rettype.def.gettypename;
fullprocnamewithret:=s;
end;
function tprocdef.getsymtable(t:tgetsymtable):tsymtable;
begin
case t of
gs_local :
getsymtable:=localst;
gs_para :
getsymtable:=parast;
else
getsymtable:=nil;
end;
end;
procedure tprocdef.load_references(ppufile:tcompilerppufile;locals:boolean);
var
pos : tfileposinfo;
move_last : boolean;
begin
move_last:=lastwritten=lastref;
while (not ppufile.endofentry) do
begin
ppufile.getposinfo(pos);
inc(refcount);
lastref:=tref.create(lastref,@pos);
lastref.is_written:=true;
if refcount=1 then
defref:=lastref;
end;
if move_last then
lastwritten:=lastref;
if ((current_module.flags and uf_local_browser)<>0) and
locals then
begin
tparasymtable(parast).load_references(ppufile,locals);
tlocalsymtable(localst).load_references(ppufile,locals);
end;
end;
Const
local_symtable_index : longint = $8001;
function tprocdef.write_references(ppufile:tcompilerppufile;locals:boolean):boolean;
var
ref : tref;
pdo : tobjectdef;
move_last : boolean;
begin
move_last:=lastwritten=lastref;
if move_last and
(((current_module.flags and uf_local_browser)=0) or
not locals) then
exit;
{ write address of this symbol }
ppufile.putderef(self);
{ write refs }
if assigned(lastwritten) then
ref:=lastwritten
else
ref:=defref;
while assigned(ref) do
begin
if ref.moduleindex=current_module.unit_index then
begin
ppufile.putposinfo(ref.posinfo);
ref.is_written:=true;
if move_last then
lastwritten:=ref;
end
else if not ref.is_written then
move_last:=false
else if move_last then
lastwritten:=ref;
ref:=ref.nextref;
end;
ppufile.writeentry(ibdefref);
write_references:=true;
if ((current_module.flags and uf_local_browser)<>0) and
locals then
begin
pdo:=_class;
if (owner.symtabletype<>localsymtable) then
while assigned(pdo) do
begin
if pdo.symtable<>aktrecordsymtable then
begin
pdo.symtable.unitid:=local_symtable_index;
inc(local_symtable_index);
end;
pdo:=pdo.childof;
end;
parast.unitid:=local_symtable_index;
inc(local_symtable_index);
localst.unitid:=local_symtable_index;
inc(local_symtable_index);
tstoredsymtable(parast).write_references(ppufile,locals);
tstoredsymtable(localst).write_references(ppufile,locals);
{ decrement for }
local_symtable_index:=local_symtable_index-2;
pdo:=_class;
if (owner.symtabletype<>localsymtable) then
while assigned(pdo) do
begin
if pdo.symtable<>aktrecordsymtable then
dec(local_symtable_index);
pdo:=pdo.childof;
end;
end;
end;
function tprocdef.haspara:boolean;
begin
haspara:=assigned(parast.symindex.first);
end;
{$ifdef GDB}
{$ifdef unused}
{ procedure addparaname(p : tsym);
var vs : char;
begin
if tvarsym(p).varspez = vs_value then vs := '1'
else vs := '0';
strpcopy(strend(StabRecString),p^.name+':'+tstoreddef(tvarsym(p).vartype.def).numberstring+','+vs+';');
end; }
function tprocdef.stabstring : pchar;
var
i : longint;
stabrecstring : pchar;
begin
getmem(StabRecString,1024);
strpcopy(StabRecString,'f'+tstoreddef(rettype.def).numberstring);
i:=maxparacount;
if i>0 then
begin
strpcopy(strend(StabRecString),','+tostr(i)+';');
(* confuse gdb !! PM
if assigned(parast) then
parast.foreach({$ifdef FPCPROCVAR}@{$endif}addparaname)
else
begin
param := para1;
i := 0;
while assigned(param) do
begin
inc(i);
if param^.paratyp = vs_value then vartyp := '1' else vartyp := '0';
{Here we have lost the parameter names !!}
{using lower case parameters }
strpcopy(strend(stabrecstring),'p'+tostr(i)
+':'+param^.paratype.def.numberstring+','+vartyp+';');
param := param^.next;
end;
end; *)
{strpcopy(strend(StabRecString),';');}
end;
stabstring := strnew(stabrecstring);
freemem(stabrecstring,1024);
end;
{$endif unused}
function tprocdef.stabstring: pchar;
Var RType : Char;
Obj,Info : String;
stabsstr : string;
p : pchar;
begin
obj := procsym.name;
info := '';
if tprocsym(procsym).is_global then
RType := 'F'
else
RType := 'f';
if assigned(owner) then
begin
if (owner.symtabletype = objectsymtable) then
obj := upper(owner.name^)+'__'+procsym.name;
{ this code was correct only as long as the local symboltable
of the parent had the same name as the function
but this is no true anymore !! PM
if (owner.symtabletype=localsymtable) and assigned(owner.name) then
info := ','+name+','+owner.name^; }
if (owner.symtabletype=localsymtable) and
assigned(owner.defowner) and
assigned(tprocdef(owner.defowner).procsym) then
info := ','+procsym.name+','+tprocdef(owner.defowner).procsym.name;
end;
stabsstr:=mangledname;
getmem(p,length(stabsstr)+255);
strpcopy(p,'"'+obj+':'+RType
+tstoreddef(rettype.def).numberstring+info+'",'+tostr(n_function)
+',0,'+
tostr(fileinfo.line)
+',');
strpcopy(strend(p),stabsstr);
stabstring:=strnew(p);
freemem(p,length(stabsstr)+255);
end;
procedure tprocdef.concatstabto(asmlist : taasmoutput);
begin
if (proccalloption=pocall_internproc) then
exit;
if not isstabwritten then
asmList.concat(Tai_stabs.Create(stabstring));
isstabwritten := true;
if assigned(parast) then
tstoredsymtable(parast).concatstabto(asmlist);
{ local type defs and vars should not be written
inside the main proc stab }
if assigned(localst) and
(lexlevel>main_program_level) then
tstoredsymtable(localst).concatstabto(asmlist);
is_def_stab_written := written;
end;
{$endif GDB}
procedure tprocdef.deref;
var
oldlocalsymtable : tsymtable;
begin
inherited deref;
resolvedef(tdef(_class));
{ parast }
oldlocalsymtable:=aktlocalsymtable;
aktlocalsymtable:=parast;
tparasymtable(parast).deref;
aktlocalsymtable:=oldlocalsymtable;
{ procsym that originaly defined this definition, should be in the
same symtable }
resolvesym(procsym);
end;
procedure tprocdef.derefimpl;
var
oldlocalsymtable : tsymtable;
begin
{ locals }
if assigned(localst) then
begin
{ localst }
oldlocalsymtable:=aktlocalsymtable;
aktlocalsymtable:=localst;
{ we can deref both interface and implementation parts }
tlocalsymtable(localst).deref;
tlocalsymtable(localst).derefimpl;
aktlocalsymtable:=oldlocalsymtable;
{ funcretsym, this is always located in the localst }
resolvesym(funcretsym);
end
else
begin
{ safety }
funcretsym:=nil;
end;
end;
function tprocdef.mangledname : string;
var
s : string;
hp : TParaItem;
begin
if assigned(_mangledname) then
begin
mangledname:=_mangledname^;
exit;
end;
{ we need to use the symtable where the procsym is inserted,
because that is visible to the world }
s:=mangledname_prefix('',procsym.owner)+procsym.name+'$';
if overloadnumber>0 then
s:=s+tostr(overloadnumber)+'$';
{ add parameter types }
hp:=TParaItem(Para.last);
while assigned(hp) do
begin
s:=s+hp.paratype.def.mangledparaname;
hp:=TParaItem(hp.previous);
if assigned(hp) then
s:=s+'$';
end;
_mangledname:=stringdup(s);
mangledname:=_mangledname^;
end;
function tprocdef.cplusplusmangledname : string;
function getcppparaname(p : tdef) : string;
const
ordtype2str : array[tbasetype] of string[2] = (
'',
'Uc','Us','Ui','Us',
'Sc','s','i','x',
'b','b','b',
'c','w');
var
s : string;
begin
case p.deftype of
orddef:
s:=ordtype2str[torddef(p).typ];
pointerdef:
s:='P'+getcppparaname(tpointerdef(p).pointertype.def);
else
internalerror(2103001);
end;
getcppparaname:=s;
end;
var
s,s2 : string;
param : TParaItem;
begin
s := procsym.realname;
if procsym.owner.symtabletype=objectsymtable then
begin
s2:=upper(tobjectdef(procsym.owner.defowner).typesym.realname);
case proctypeoption of
potype_destructor:
s:='_$_'+tostr(length(s2))+s2;
potype_constructor:
s:='___'+tostr(length(s2))+s2;
else
s:='_'+s+'__'+tostr(length(s2))+s2;
end;
end
else s:=s+'__';
s:=s+'F';
{ concat modifiers }
{ !!!!! }
{ now we handle the parameters }
param := TParaItem(Para.first);
if assigned(param) then
while assigned(param) do
begin
s2:=getcppparaname(param.paratype.def);
if param.paratyp in [vs_var,vs_out] then
s2:='R'+s2;
s:=s+s2;
param:=TParaItem(param.next);
end
else
s:=s+'v';
cplusplusmangledname:=s;
end;
procedure tprocdef.setmangledname(const s : string);
begin
stringdispose(_mangledname);
_mangledname:=stringdup(s);
has_mangledname:=true;
end;
{***************************************************************************
TPROCVARDEF
***************************************************************************}
constructor tprocvardef.create;
begin
inherited create;
deftype:=procvardef;
end;
constructor tprocvardef.load(ppufile:tcompilerppufile);
begin
inherited load(ppufile);
deftype:=procvardef;
end;
procedure tprocvardef.write(ppufile:tcompilerppufile);
begin
{ here we cannot get a real good value so just give something }
{ plausible (PM) }
{ a more secure way would be
to allways store in a temp }
if is_fpu(rettype.def) then
{$ifdef FAST_FPU}
fpu_used:=3
{$else : not FAST_FPU, i.e. SAFE_FPU}
fpu_used:={2}maxfpuregs
{$endif FAST_FPU}
else
fpu_used:=0;
inherited write(ppufile);
ppufile.writeentry(ibprocvardef);
end;
function tprocvardef.size : longint;
begin
if (po_methodpointer in procoptions) then
size:=2*POINTER_SIZE
else
size:=POINTER_SIZE;
end;
{$ifdef GDB}
function tprocvardef.stabstring : pchar;
var
nss : pchar;
{ i : longint; }
begin
{ i := maxparacount; }
getmem(nss,1024);
{ it is not a function but a function pointer !! (PM) }
strpcopy(nss,'*f'+tstoreddef(rettype.def).numberstring{+','+tostr(i)}+';');
{ this confuses gdb !!
we should use 'F' instead of 'f' but
as we use c++ language mode
it does not like that either
Please do not remove this part
might be used once
gdb for pascal is ready PM }
(*
param := para1;
i := 0;
while assigned(param) do
begin
inc(i);
if param^.paratyp = vs_value then vartyp := '1' else vartyp := '0';
{Here we have lost the parameter names !!}
pst := strpnew('p'+tostr(i)+':'+param^.paratype.def.numberstring+','+vartyp+';');
strcat(nss,pst);
strdispose(pst);
param := param^.next;
end; *)
{strpcopy(strend(nss),';');}
stabstring := strnew(nss);
freemem(nss,1024);
end;
procedure tprocvardef.concatstabto(asmlist : taasmoutput);
begin
if ( not assigned(typesym) or ttypesym(typesym).isusedinstab or (cs_gdb_dbx in aktglobalswitches))
and (is_def_stab_written = not_written) then
inherited concatstabto(asmlist);
is_def_stab_written:=written;
end;
{$endif GDB}
procedure tprocvardef.write_rtti_data(rt:trttitype);
var
pdc : TParaItem;
methodkind, paraspec : byte;
begin
if po_methodpointer in procoptions then
begin
{ write method id and name }
rttiList.concat(Tai_const.Create_8bit(tkmethod));
write_rtti_name;
{ write kind of method (can only be function or procedure)}
if rettype.def = voidtype.def then
methodkind := mkProcedure
else
methodkind := mkFunction;
rttiList.concat(Tai_const.Create_8bit(methodkind));
{ get # of parameters }
rttiList.concat(Tai_const.Create_8bit(maxparacount));
{ write parameter info. The parameters must be written in reverse order
if this method uses right to left parameter pushing! }
if (po_leftright in procoptions) then
pdc:=TParaItem(Para.last)
else
pdc:=TParaItem(Para.first);
while assigned(pdc) do
begin
case pdc.paratyp of
vs_value: paraspec := 0;
vs_const: paraspec := pfConst;
vs_var : paraspec := pfVar;
vs_out : paraspec := pfOut;
end;
{ write flags for current parameter }
rttiList.concat(Tai_const.Create_8bit(paraspec));
{ write name of current parameter ### how can I get this??? (sg)}
rttiList.concat(Tai_const.Create_8bit(0));
{ write name of type of current parameter }
tstoreddef(pdc.paratype.def).write_rtti_name;
if (po_leftright in procoptions) then
pdc:=TParaItem(pdc.previous)
else
pdc:=TParaItem(pdc.next);
end;
{ write name of result type }
tstoreddef(rettype.def).write_rtti_name;
end;
end;
function tprocvardef.is_publishable : boolean;
begin
is_publishable:=(po_methodpointer in procoptions);
end;
function tprocvardef.gettypename : string;
var
s: string;
begin
if assigned(rettype.def) and
(rettype.def<>voidtype.def) then
s:='<procedure variable type of function'+typename_paras+
':'+rettype.def.gettypename
else
s:='<procedure variable type of procedure'+typename_paras;
if po_methodpointer in procoptions then
s := s+' of object';
gettypename := s+';'+ProcCallOptionStr[proccalloption]+'>';
end;
{***************************************************************************
TOBJECTDEF
***************************************************************************}
{$ifdef GDB}
const
vtabletype : word = 0;
vtableassigned : boolean = false;
{$endif GDB}
constructor tobjectdef.create(ot : tobjectdeftype;const n : string;c : tobjectdef);
begin
inherited create;
objecttype:=ot;
deftype:=objectdef;
objectoptions:=[];
childof:=nil;
symtable:=tobjectsymtable.create(n);
{ create space for vmt !! }
vmt_offset:=0;
symtable.datasize:=0;
symtable.defowner:=self;
{ recordalign -1 means C record packing, that starts
with an alignment of 1 }
if aktalignment.recordalignmax=-1 then
symtable.dataalignment:=1
else
symtable.dataalignment:=aktalignment.recordalignmax;
lastvtableindex:=0;
set_parent(c);
objname:=stringdup(upper(n));
objrealname:=stringdup(n);
{ set up guid }
isiidguidvalid:=true; { default null guid }
fillchar(iidguid,sizeof(iidguid),0); { default null guid }
iidstr:=stringdup(''); { default is empty string }
{ setup implemented interfaces }
if objecttype in [odt_class,odt_interfacecorba] then
implementedinterfaces:=timplementedinterfaces.create
else
implementedinterfaces:=nil;
{$ifdef GDB}
writing_class_record_stab:=false;
{$endif GDB}
end;
constructor tobjectdef.load(ppufile:tcompilerppufile);
var
oldread_member : boolean;
i,implintfcount: longint;
begin
inherited loaddef(ppufile);
deftype:=objectdef;
objecttype:=tobjectdeftype(ppufile.getbyte);
savesize:=ppufile.getlongint;
vmt_offset:=ppufile.getlongint;
objrealname:=stringdup(ppufile.getstring);
objname:=stringdup(upper(objrealname^));
childof:=tobjectdef(ppufile.getderef);
ppufile.getsmallset(objectoptions);
{ load guid }
iidstr:=nil;
if objecttype in [odt_interfacecom,odt_interfacecorba] then
begin
isiidguidvalid:=boolean(ppufile.getbyte);
ppufile.putguid(iidguid);
iidstr:=stringdup(ppufile.getstring);
lastvtableindex:=ppufile.getlongint;
end;
{ load implemented interfaces }
if objecttype in [odt_class,odt_interfacecorba] then
begin
implementedinterfaces:=timplementedinterfaces.create;
implintfcount:=ppufile.getlongint;
for i:=1 to implintfcount do
begin
implementedinterfaces.addintfref(tdef(ppufile.getderef));
implementedinterfaces.ioffsets(i)^:=ppufile.getlongint;
end;
end
else
implementedinterfaces:=nil;
oldread_member:=read_member;
read_member:=true;
symtable:=tobjectsymtable.create(objrealname^);
tobjectsymtable(symtable).load(ppufile);
read_member:=oldread_member;
symtable.defowner:=self;
{ handles the predefined class tobject }
{ the last TOBJECT which is loaded gets }
{ it ! }
if (childof=nil) and
(objecttype=odt_class) and
(objname^='TOBJECT') then
class_tobject:=self;
if (childof=nil) and
(objecttype=odt_interfacecom) and
(objname^='IUNKNOWN') then
interface_iunknown:=self;
{$ifdef GDB}
writing_class_record_stab:=false;
{$endif GDB}
end;
destructor tobjectdef.destroy;
begin
if assigned(symtable) then
symtable.free;
stringdispose(objname);
stringdispose(objrealname);
stringdispose(iidstr);
if assigned(implementedinterfaces) then
implementedinterfaces.free;
inherited destroy;
end;
procedure tobjectdef.write(ppufile:tcompilerppufile);
var
oldread_member : boolean;
implintfcount : longint;
i : longint;
begin
inherited writedef(ppufile);
ppufile.putbyte(byte(objecttype));
ppufile.putlongint(size);
ppufile.putlongint(vmt_offset);
ppufile.putstring(objrealname^);
ppufile.putderef(childof);
ppufile.putsmallset(objectoptions);
if objecttype in [odt_interfacecom,odt_interfacecorba] then
begin
ppufile.putbyte(byte(isiidguidvalid));
ppufile.putguid(iidguid);
ppufile.putstring(iidstr^);
ppufile.putlongint(lastvtableindex);
end;
if objecttype in [odt_class,odt_interfacecorba] then
begin
implintfcount:=implementedinterfaces.count;
ppufile.putlongint(implintfcount);
for i:=1 to implintfcount do
begin
ppufile.putderef(implementedinterfaces.interfaces(i));
ppufile.putlongint(implementedinterfaces.ioffsets(i)^);
end;
end;
ppufile.writeentry(ibobjectdef);
oldread_member:=read_member;
read_member:=true;
tobjectsymtable(symtable).write(ppufile);
read_member:=oldread_member;
end;
procedure tobjectdef.deref;
var
oldrecsyms : tsymtable;
begin
inherited deref;
resolvedef(tdef(childof));
oldrecsyms:=aktrecordsymtable;
aktrecordsymtable:=symtable;
tstoredsymtable(symtable).deref;
aktrecordsymtable:=oldrecsyms;
if objecttype in [odt_class,odt_interfacecorba] then
implementedinterfaces.deref;
end;
procedure tobjectdef.set_parent( c : tobjectdef);
begin
{ nothing to do if the parent was not forward !}
if assigned(childof) then
exit;
childof:=c;
{ some options are inherited !! }
if assigned(c) then
begin
{ only important for classes }
lastvtableindex:=c.lastvtableindex;
objectoptions:=objectoptions+(c.objectoptions*
[oo_has_virtual,oo_has_private,oo_has_protected,
oo_has_constructor,oo_has_destructor]);
if not (objecttype in [odt_interfacecom,odt_interfacecorba]) then
begin
{ add the data of the anchestor class }
inc(symtable.datasize,c.symtable.datasize);
if (oo_has_vmt in objectoptions) and
(oo_has_vmt in c.objectoptions) then
dec(symtable.datasize,POINTER_SIZE);
{ if parent has a vmt field then
the offset is the same for the child PM }
if (oo_has_vmt in c.objectoptions) or is_class(self) then
begin
vmt_offset:=c.vmt_offset;
include(objectoptions,oo_has_vmt);
end;
end;
end;
savesize := symtable.datasize;
end;
procedure tobjectdef.insertvmt;
begin
if objecttype in [odt_interfacecom,odt_interfacecorba] then
exit;
if (oo_has_vmt in objectoptions) then
internalerror(12345)
else
begin
symtable.datasize:=align(symtable.datasize,symtable.dataalignment);
vmt_offset:=symtable.datasize;
inc(symtable.datasize,POINTER_SIZE);
include(objectoptions,oo_has_vmt);
end;
end;
procedure tobjectdef.check_forwards;
begin
if not(objecttype in [odt_interfacecom,odt_interfacecorba]) then
tstoredsymtable(symtable).check_forwards;
if (oo_is_forward in objectoptions) then
begin
{ ok, in future, the forward can be resolved }
Message1(sym_e_class_forward_not_resolved,objrealname^);
exclude(objectoptions,oo_is_forward);
end;
end;
{ true, if self inherits from d (or if they are equal) }
function tobjectdef.is_related(d : tobjectdef) : boolean;
var
hp : tobjectdef;
begin
hp:=self;
while assigned(hp) do
begin
if hp=d then
begin
is_related:=true;
exit;
end;
hp:=hp.childof;
end;
is_related:=false;
end;
procedure tobjectdef._searchdestructor(sym : tnamedindexitem);
var
p : pprocdeflist;
begin
{ if we found already a destructor, then we exit }
if assigned(sd) then
exit;
if tsym(sym).typ=procsym then
begin
p:=tprocsym(sym).defs;
while assigned(p) do
begin
if p^.def.proctypeoption=potype_destructor then
begin
sd:=p^.def;
exit;
end;
p:=p^.next;
end;
end;
end;
function tobjectdef.searchdestructor : tprocdef;
var
o : tobjectdef;
begin
searchdestructor:=nil;
o:=self;
sd:=nil;
while assigned(o) do
begin
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}_searchdestructor);
if assigned(sd) then
begin
searchdestructor:=sd;
exit;
end;
o:=o.childof;
end;
end;
function tobjectdef.size : longint;
begin
if objecttype in [odt_class,odt_interfacecom,odt_interfacecorba] then
size:=POINTER_SIZE
else
size:=symtable.datasize;
end;
function tobjectdef.alignment:longint;
begin
alignment:=symtable.dataalignment;
end;
function tobjectdef.vmtmethodoffset(index:longint):longint;
begin
{ for offset of methods for classes, see rtl/inc/objpash.inc }
case objecttype of
odt_class:
vmtmethodoffset:=(index+12)*POINTER_SIZE;
odt_interfacecom,odt_interfacecorba:
vmtmethodoffset:=index*POINTER_SIZE;
else
{$ifdef WITHDMT}
vmtmethodoffset:=(index+4)*POINTER_SIZE;
{$else WITHDMT}
vmtmethodoffset:=(index+3)*POINTER_SIZE;
{$endif WITHDMT}
end;
end;
function tobjectdef.vmt_mangledname : string;
begin
if not(oo_has_vmt in objectoptions) then
Message1(parser_object_has_no_vmt,objrealname^);
vmt_mangledname:=mangledname_prefix('VMT',owner)+objname^;
end;
function tobjectdef.rtti_name : string;
begin
rtti_name:=mangledname_prefix('RTTI',owner)+objname^;
end;
{$ifdef GDB}
procedure tobjectdef.addprocname(p :tnamedindexitem);
var virtualind,argnames : string;
news, newrec : pchar;
pd,ipd : tprocdef;
lindex : longint;
para : TParaItem;
arglength : byte;
sp : char;
pdl : pprocdeflist;
begin
If tsym(p).typ = procsym then
begin
pd := tprocsym(p).defs^.def;
{ this will be used for full implementation of object stabs
not yet done }
pdl:=tprocsym(p).defs;
while assigned(pdl) do
begin
ipd:=pdl^.def;
pdl:=pdl^.next;
end;
if (po_virtualmethod in pd.procoptions) then
begin
lindex := pd.extnumber;
{doesnt seem to be necessary
lindex := lindex or $80000000;}
virtualind := '*'+tostr(lindex)+';'+ipd._class.classnumberstring+';'
end
else
virtualind := '.';
{ used by gdbpas to recognize constructor and destructors }
if (pd.proctypeoption=potype_constructor) then
argnames:='__ct__'
else if (pd.proctypeoption=potype_destructor) then
argnames:='__dt__'
else
argnames := '';
{ arguments are not listed here }
{we don't need another definition}
para := TParaItem(pd.Para.first);
while assigned(para) do
begin
if Para.paratype.def.deftype = formaldef then
begin
if Para.paratyp=vs_var then
argnames := argnames+'3var'
else if Para.paratyp=vs_const then
argnames:=argnames+'5const'
else if Para.paratyp=vs_out then
argnames:=argnames+'3out';
end
else
begin
{ if the arg definition is like (v: ^byte;..
there is no sym attached to data !!! }
if assigned(Para.paratype.def.typesym) then
begin
arglength := length(Para.paratype.def.typesym.name);
argnames := argnames + tostr(arglength)+Para.paratype.def.typesym.name;
end
else
begin
argnames:=argnames+'11unnamedtype';
end;
end;
para := TParaItem(Para.next);
end;
ipd.is_def_stab_written := written;
{ here 2A must be changed for private and protected }
{ 0 is private 1 protected and 2 public }
if (sp_private in tsym(p).symoptions) then sp:='0'
else if (sp_protected in tsym(p).symoptions) then sp:='1'
else sp:='2';
newrec := strpnew(p.name+'::'+ipd.numberstring
+'=##'+tstoreddef(pd.rettype.def).numberstring+';:'+argnames+';'+sp+'A'
+virtualind+';');
{ get spare place for a string at the end }
if strlen(StabRecString) + strlen(newrec) >= StabRecSize-256 then
begin
getmem(news,stabrecsize+memsizeinc);
strcopy(news,stabrecstring);
freemem(stabrecstring,stabrecsize);
stabrecsize:=stabrecsize+memsizeinc;
stabrecstring:=news;
end;
strcat(StabRecstring,newrec);
{freemem(newrec,memsizeinc); }
strdispose(newrec);
{This should be used for case !!
RecOffset := RecOffset + pd.size;}
end;
end;
function tobjectdef.stabstring : pchar;
var anc : tobjectdef;
oldrec : pchar;
oldrecsize,oldrecoffset : longint;
str_end : string;
begin
if not (objecttype=odt_class) or writing_class_record_stab then
begin
oldrec := stabrecstring;
oldrecsize:=stabrecsize;
stabrecsize:=memsizeinc;
GetMem(stabrecstring,stabrecsize);
strpcopy(stabRecString,'s'+tostr(symtable.datasize));
if assigned(childof) then
begin
{only one ancestor not virtual, public, at base offset 0 }
{ !1 , 0 2 0 , }
strpcopy(strend(stabrecstring),'!1,020,'+childof.classnumberstring+';');
end;
{virtual table to implement yet}
OldRecOffset:=RecOffset;
RecOffset := 0;
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}addname);
RecOffset:=OldRecOffset;
if (oo_has_vmt in objectoptions) then
if not assigned(childof) or not(oo_has_vmt in childof.objectoptions) then
begin
strpcopy(strend(stabrecstring),'$vf'+classnumberstring+':'+typeglobalnumber('vtblarray')
+','+tostr(vmt_offset*8)+';');
end;
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}addprocname);
if (oo_has_vmt in objectoptions) then
begin
anc := self;
while assigned(anc.childof) and (oo_has_vmt in anc.childof.objectoptions) do
anc := anc.childof;
{ just in case anc = self }
str_end:=';~%'+anc.classnumberstring+';';
end
else
str_end:=';';
strpcopy(strend(stabrecstring),str_end);
stabstring := strnew(StabRecString);
freemem(stabrecstring,stabrecsize);
stabrecstring := oldrec;
stabrecsize:=oldrecsize;
end
else
begin
stabstring:=strpnew('*'+classnumberstring);
end;
end;
procedure tobjectdef.set_globalnb;
begin
globalnb:=PglobalTypeCount^;
inc(PglobalTypeCount^);
{ classes need two type numbers, the globalnb is set to the ptr }
if objecttype=odt_class then
begin
globalnb:=PGlobalTypeCount^;
inc(PglobalTypeCount^);
end;
end;
function tobjectdef.classnumberstring : string;
begin
{ write stabs again if needed }
numberstring;
if objecttype=odt_class then
begin
dec(globalnb);
classnumberstring:=numberstring;
inc(globalnb);
end
else
classnumberstring:=numberstring;
end;
function tobjectdef.allstabstring : pchar;
var stabchar : string[2];
ss,st : pchar;
sname : string;
sym_line_no : longint;
begin
ss := stabstring;
getmem(st,strlen(ss)+512);
stabchar := 't';
if deftype in tagtypes then
stabchar := 'Tt';
if assigned(typesym) then
begin
sname := typesym.name;
sym_line_no:=typesym.fileinfo.line;
end
else
begin
sname := ' ';
sym_line_no:=0;
end;
if writing_class_record_stab then
strpcopy(st,'"'+sname+':'+stabchar+classnumberstring+'=')
else
strpcopy(st,'"'+sname+':'+stabchar+numberstring+'=');
strpcopy(strecopy(strend(st),ss),'",'+tostr(N_LSYM)+',0,'+tostr(sym_line_no)+',0');
allstabstring := strnew(st);
freemem(st,strlen(ss)+512);
strdispose(ss);
end;
procedure tobjectdef.concatstabto(asmlist : taasmoutput);
var st : pstring;
begin
if objecttype<>odt_class then
begin
inherited concatstabto(asmlist);
exit;
end;
if ((typesym=nil) or ttypesym(typesym).isusedinstab or (cs_gdb_dbx in aktglobalswitches)) and
(is_def_stab_written = not_written) then
begin
if globalnb=0 then
set_globalnb;
{ Write the record class itself }
writing_class_record_stab:=true;
inherited concatstabto(asmlist);
writing_class_record_stab:=false;
{ Write the invisible pointer class }
is_def_stab_written:=not_written;
if assigned(typesym) then
begin
st:=typesym.FName;
typesym.FName:=stringdup(' ');
end;
inherited concatstabto(asmlist);
if assigned(typesym) then
begin
stringdispose(typesym.FName);
typesym.FName:=st;
end;
end;
end;
{$endif GDB}
function tobjectdef.needs_inittable : boolean;
begin
case objecttype of
odt_class :
needs_inittable:=false;
odt_interfacecom:
needs_inittable:=true;
odt_interfacecorba:
needs_inittable:=is_related(interface_iunknown);
odt_object:
needs_inittable:=tobjectsymtable(symtable).needs_init_final;
else
internalerror(200108267);
end;
end;
procedure tobjectdef.count_published_properties(sym:tnamedindexitem);
begin
if needs_prop_entry(tsym(sym)) and
(tsym(sym).typ<>varsym) then
inc(count);
end;
procedure tobjectdef.write_property_info(sym : tnamedindexitem);
var
proctypesinfo : byte;
procedure writeproc(proc : tsymlist; shiftvalue : byte);
var
typvalue : byte;
hp : psymlistitem;
address : longint;
begin
if not(assigned(proc) and assigned(proc.firstsym)) then
begin
rttiList.concat(Tai_const.Create_32bit(1));
typvalue:=3;
end
else if proc.firstsym^.sym.typ=varsym then
begin
address:=0;
hp:=proc.firstsym;
while assigned(hp) do
begin
inc(address,tvarsym(hp^.sym).address);
hp:=hp^.next;
end;
rttiList.concat(Tai_const.Create_32bit(address));
typvalue:=0;
end
else
begin
if not(po_virtualmethod in tprocdef(proc.def).procoptions) then
begin
rttiList.concat(Tai_const_symbol.Createname(tprocdef(proc.def).mangledname));
typvalue:=1;
end
else
begin
{ virtual method, write vmt offset }
rttiList.concat(Tai_const.Create_32bit(
tprocdef(proc.def)._class.vmtmethodoffset(tprocdef(proc.def).extnumber)));
typvalue:=2;
end;
end;
proctypesinfo:=proctypesinfo or (typvalue shl shiftvalue);
end;
begin
if needs_prop_entry(tsym(sym)) then
case tsym(sym).typ of
varsym:
begin
{$ifdef dummy}
if not(tvarsym(sym).vartype.def.deftype=objectdef) or
not(tobjectdef(tvarsym(sym).vartype.def).is_class) then
internalerror(1509992);
{ access to implicit class property as field }
proctypesinfo:=(0 shl 0) or (0 shl 2) or (0 shl 4);
rttiList.concat(Tai_const_symbol.Createname(tvarsym(sym.vartype.def.get_rtti_label)));
rttiList.concat(Tai_const.Create_32bit(tvarsym(sym.address)));
rttiList.concat(Tai_const.Create_32bit(tvarsym(sym.address)));
{ per default stored }
rttiList.concat(Tai_const.Create_32bit(1));
{ index as well as ... }
rttiList.concat(Tai_const.Create_32bit(0));
{ default value are zero }
rttiList.concat(Tai_const.Create_32bit(0));
rttiList.concat(Tai_const.Create_16bit(count));
inc(count);
rttiList.concat(Tai_const.Create_8bit(proctypesinfo));
rttiList.concat(Tai_const.Create_8bit(length(tvarsym(sym.realname))));
rttiList.concat(Tai_string.Create(tvarsym(sym.realname)));
{$endif dummy}
end;
propertysym:
begin
if ppo_indexed in tpropertysym(sym).propoptions then
proctypesinfo:=$40
else
proctypesinfo:=0;
rttiList.concat(Tai_const_symbol.Create(tstoreddef(tpropertysym(sym).proptype.def).get_rtti_label(fullrtti)));
writeproc(tpropertysym(sym).readaccess,0);
writeproc(tpropertysym(sym).writeaccess,2);
{ isn't it stored ? }
if not(ppo_stored in tpropertysym(sym).propoptions) then
begin
rttiList.concat(Tai_const.Create_32bit(0));
proctypesinfo:=proctypesinfo or (3 shl 4);
end
else
writeproc(tpropertysym(sym).storedaccess,4);
rttiList.concat(Tai_const.Create_32bit(tpropertysym(sym).index));
rttiList.concat(Tai_const.Create_32bit(tpropertysym(sym).default));
rttiList.concat(Tai_const.Create_16bit(count));
inc(count);
rttiList.concat(Tai_const.Create_8bit(proctypesinfo));
rttiList.concat(Tai_const.Create_8bit(length(tpropertysym(sym).realname)));
rttiList.concat(Tai_string.Create(tpropertysym(sym).realname));
end;
else internalerror(1509992);
end;
end;
procedure tobjectdef.generate_published_child_rtti(sym : tnamedindexitem);
begin
if needs_prop_entry(tsym(sym)) then
begin
case tsym(sym).typ of
propertysym:
tstoreddef(tpropertysym(sym).proptype.def).get_rtti_label(fullrtti);
varsym:
tstoreddef(tvarsym(sym).vartype.def).get_rtti_label(fullrtti);
else
internalerror(1509991);
end;
end;
end;
procedure tobjectdef.write_child_rtti_data(rt:trttitype);
begin
FRTTIType:=rt;
case rt of
initrtti :
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}generate_field_rtti);
fullrtti :
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}generate_published_child_rtti);
else
internalerror(200108301);
end;
end;
type
tclasslistitem = class(tlinkedlistitem)
index : longint;
p : tobjectdef;
end;
var
classtablelist : tlinkedlist;
tablecount : longint;
function searchclasstablelist(p : tobjectdef) : tclasslistitem;
var
hp : tclasslistitem;
begin
hp:=tclasslistitem(classtablelist.first);
while assigned(hp) do
if hp.p=p then
begin
searchclasstablelist:=hp;
exit;
end
else
hp:=tclasslistitem(hp.next);
searchclasstablelist:=nil;
end;
procedure tobjectdef.count_published_fields(sym:tnamedindexitem);
var
hp : tclasslistitem;
begin
if needs_prop_entry(tsym(sym)) and
(tsym(sym).typ=varsym) then
begin
if tvarsym(sym).vartype.def.deftype<>objectdef then
internalerror(0206001);
hp:=searchclasstablelist(tobjectdef(tvarsym(sym).vartype.def));
if not(assigned(hp)) then
begin
hp:=tclasslistitem.create;
hp.p:=tobjectdef(tvarsym(sym).vartype.def);
hp.index:=tablecount;
classtablelist.concat(hp);
inc(tablecount);
end;
inc(count);
end;
end;
procedure tobjectdef.writefields(sym:tnamedindexitem);
var
hp : tclasslistitem;
begin
if needs_prop_entry(tsym(sym)) and
(tsym(sym).typ=varsym) then
begin
rttiList.concat(Tai_const.Create_32bit(tvarsym(sym).address));
hp:=searchclasstablelist(tobjectdef(tvarsym(sym).vartype.def));
if not(assigned(hp)) then
internalerror(0206002);
rttiList.concat(Tai_const.Create_16bit(hp.index));
rttiList.concat(Tai_const.Create_8bit(length(tvarsym(sym).realname)));
rttiList.concat(Tai_string.Create(tvarsym(sym).realname));
end;
end;
function tobjectdef.generate_field_table : tasmlabel;
var
fieldtable,
classtable : tasmlabel;
hp : tclasslistitem;
begin
classtablelist:=TLinkedList.Create;
getdatalabel(fieldtable);
getdatalabel(classtable);
count:=0;
tablecount:=0;
symtable.foreach({$ifdef FPC}@{$endif}count_published_fields);
if (cs_create_smart in aktmoduleswitches) then
rttiList.concat(Tai_cut.Create);
rttiList.concat(Tai_label.Create(fieldtable));
rttiList.concat(Tai_const.Create_16bit(count));
rttiList.concat(Tai_const_symbol.Create(classtable));
symtable.foreach({$ifdef FPC}@{$endif}writefields);
{ generate the class table }
rttiList.concat(Tai_label.Create(classtable));
rttiList.concat(Tai_const.Create_16bit(tablecount));
hp:=tclasslistitem(classtablelist.first);
while assigned(hp) do
begin
rttiList.concat(Tai_const_symbol.Createname(tobjectdef(hp.p).vmt_mangledname));
hp:=tclasslistitem(hp.next);
end;
generate_field_table:=fieldtable;
classtablelist.free;
end;
function tobjectdef.next_free_name_index : longint;
var
i : longint;
begin
if assigned(childof) and (oo_can_have_published in childof.objectoptions) then
i:=childof.next_free_name_index
else
i:=0;
count:=0;
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}count_published_properties);
next_free_name_index:=i+count;
end;
procedure tobjectdef.write_rtti_data(rt:trttitype);
begin
case objecttype of
odt_class:
rttiList.concat(Tai_const.Create_8bit(tkclass));
odt_object:
rttiList.concat(Tai_const.Create_8bit(tkobject));
odt_interfacecom:
rttiList.concat(Tai_const.Create_8bit(tkinterface));
odt_interfacecorba:
rttiList.concat(Tai_const.Create_8bit(tkinterfaceCorba));
else
exit;
end;
{ generate the name }
rttiList.concat(Tai_const.Create_8bit(length(objrealname^)));
rttiList.concat(Tai_string.Create(objrealname^));
case rt of
initrtti :
begin
rttiList.concat(Tai_const.Create_32bit(size));
if objecttype in [odt_class,odt_object] then
begin
count:=0;
FRTTIType:=rt;
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}count_field_rtti);
rttiList.concat(Tai_const.Create_32bit(count));
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}write_field_rtti);
end;
end;
fullrtti :
begin
if objecttype in [odt_interfacecom,odt_interfacecorba] then
rttiList.concat(Tai_const.Create_32bit(0))
else
rttiList.concat(Tai_const_symbol.Createname(vmt_mangledname));
{ write owner typeinfo }
if assigned(childof) and (oo_can_have_published in childof.objectoptions) then
rttiList.concat(Tai_const_symbol.Create(childof.get_rtti_label(fullrtti)))
else
rttiList.concat(Tai_const.Create_32bit(0));
{ count total number of properties }
if assigned(childof) and (oo_can_have_published in childof.objectoptions) then
count:=childof.next_free_name_index
else
count:=0;
{ write it }
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}count_published_properties);
rttiList.concat(Tai_const.Create_16bit(count));
{ write unit name }
rttiList.concat(Tai_const.Create_8bit(length(current_module.realmodulename^)));
rttiList.concat(Tai_string.Create(current_module.realmodulename^));
{ write published properties count }
count:=0;
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}count_published_properties);
rttiList.concat(Tai_const.Create_16bit(count));
{ count is used to write nameindex }
{ but we need an offset of the owner }
{ to give each property an own slot }
if assigned(childof) and (oo_can_have_published in childof.objectoptions) then
count:=childof.next_free_name_index
else
count:=0;
symtable.foreach({$ifdef FPCPROCVAR}@{$endif}write_property_info);
end;
end;
end;
function tobjectdef.is_publishable : boolean;
begin
is_publishable:=objecttype in [odt_class,odt_interfacecom,odt_interfacecorba];
end;
{****************************************************************************
TIMPLEMENTEDINTERFACES
****************************************************************************}
type
tnamemap = class(TNamedIndexItem)
newname: pstring;
constructor create(const aname, anewname: string);
destructor destroy; override;
end;
constructor tnamemap.create(const aname, anewname: string);
begin
inherited createname(name);
newname:=stringdup(anewname);
end;
destructor tnamemap.destroy;
begin
stringdispose(newname);
inherited destroy;
end;
type
tprocdefstore = class(TNamedIndexItem)
procdef: tprocdef;
constructor create(aprocdef: tprocdef);
end;
constructor tprocdefstore.create(aprocdef: tprocdef);
begin
inherited create;
procdef:=aprocdef;
end;
type
timplintfentry = class(TNamedIndexItem)
intf: tobjectdef;
ioffs: longint;
namemappings: tdictionary;
procdefs: TIndexArray;
constructor create(aintf: tobjectdef);
destructor destroy; override;
end;
constructor timplintfentry.create(aintf: tobjectdef);
begin
inherited create;
intf:=aintf;
ioffs:=-1;
namemappings:=nil;
procdefs:=nil;
end;
destructor timplintfentry.destroy;
begin
if assigned(namemappings) then
namemappings.free;
if assigned(procdefs) then
procdefs.free;
inherited destroy;
end;
constructor timplementedinterfaces.create;
begin
finterfaces:=tindexarray.create(1);
end;
destructor timplementedinterfaces.destroy;
begin
finterfaces.destroy;
end;
function timplementedinterfaces.count: longint;
begin
count:=finterfaces.count;
end;
procedure timplementedinterfaces.checkindex(intfindex: longint);
begin
if (intfindex<1) or (intfindex>count) then
InternalError(200006123);
end;
function timplementedinterfaces.interfaces(intfindex: longint): tobjectdef;
begin
checkindex(intfindex);
interfaces:=timplintfentry(finterfaces.search(intfindex)).intf;
end;
function timplementedinterfaces.ioffsets(intfindex: longint): plongint;
begin
checkindex(intfindex);
ioffsets:=@timplintfentry(finterfaces.search(intfindex)).ioffs;
end;
function timplementedinterfaces.searchintf(def: tdef): longint;
var
i: longint;
begin
i:=1;
while (i<=count) and (tdef(interfaces(i))<>def) do inc(i);
if i<=count then
searchintf:=i
else
searchintf:=-1;
end;
procedure timplementedinterfaces.deref;
var
i: longint;
begin
for i:=1 to count do
with timplintfentry(finterfaces.search(i)) do
resolvedef(tdef(intf));
end;
procedure timplementedinterfaces.addintfref(def: tdef);
begin
finterfaces.insert(timplintfentry.create(tobjectdef(def)));
end;
procedure timplementedinterfaces.addintf(def: tdef);
begin
if not assigned(def) or (searchintf(def)<>-1) or (def.deftype<>objectdef) or
not (tobjectdef(def).objecttype in [odt_interfacecom,odt_interfacecorba]) then
internalerror(200006124);
finterfaces.insert(timplintfentry.create(tobjectdef(def)));
end;
procedure timplementedinterfaces.clearmappings;
var
i: longint;
begin
for i:=1 to count do
with timplintfentry(finterfaces.search(i)) do
begin
if assigned(namemappings) then
namemappings.free;
namemappings:=nil;
end;
end;
procedure timplementedinterfaces.addmappings(intfindex: longint; const name, newname: string);
begin
checkindex(intfindex);
with timplintfentry(finterfaces.search(intfindex)) do
begin
if not assigned(namemappings) then
namemappings:=tdictionary.create;
namemappings.insert(tnamemap.create(name,newname));
end;
end;
function timplementedinterfaces.getmappings(intfindex: longint; const name: string; var nextexist: pointer): string;
begin
checkindex(intfindex);
if not assigned(nextexist) then
with timplintfentry(finterfaces.search(intfindex)) do
begin
if assigned(namemappings) then
nextexist:=namemappings.search(name)
else
nextexist:=nil;
end;
if assigned(nextexist) then
begin
getmappings:=tnamemap(nextexist).newname^;
nextexist:=tnamemap(nextexist).listnext;
end
else
getmappings:='';
end;
procedure timplementedinterfaces.clearimplprocs;
var
i: longint;
begin
for i:=1 to count do
with timplintfentry(finterfaces.search(i)) do
begin
if assigned(procdefs) then
procdefs.free;
procdefs:=nil;
end;
end;
procedure timplementedinterfaces.addimplproc(intfindex: longint; procdef: tprocdef);
begin
checkindex(intfindex);
with timplintfentry(finterfaces.search(intfindex)) do
begin
if not assigned(procdefs) then
procdefs:=tindexarray.create(4);
procdefs.insert(tprocdefstore.create(procdef));
end;
end;
function timplementedinterfaces.implproccount(intfindex: longint): longint;
begin
checkindex(intfindex);
with timplintfentry(finterfaces.search(intfindex)) do
if assigned(procdefs) then
implproccount:=procdefs.count
else
implproccount:=0;
end;
function timplementedinterfaces.implprocs(intfindex: longint; procindex: longint): tprocdef;
begin
checkindex(intfindex);
with timplintfentry(finterfaces.search(intfindex)) do
if assigned(procdefs) then
implprocs:=tprocdefstore(procdefs.search(procindex)).procdef
else
internalerror(200006131);
end;
function timplementedinterfaces.isimplmergepossible(intfindex, remainindex: longint; var weight: longint): boolean;
var
possible: boolean;
i: longint;
iiep1: TIndexArray;
iiep2: TIndexArray;
begin
checkindex(intfindex);
checkindex(remainindex);
iiep1:=timplintfentry(finterfaces.search(intfindex)).procdefs;
iiep2:=timplintfentry(finterfaces.search(remainindex)).procdefs;
if not assigned(iiep1) then { empty interface is mergeable :-) }
begin
possible:=true;
weight:=0;
end
else
begin
possible:=assigned(iiep2) and (iiep1.count<=iiep2.count);
i:=1;
while (possible) and (i<=iiep1.count) do
begin
possible:=
(tprocdefstore(iiep1.search(i)).procdef=tprocdefstore(iiep2.search(i)).procdef);
inc(i);
end;
if possible then
weight:=iiep1.count;
end;
isimplmergepossible:=possible;
end;
{****************************************************************************
TFORWARDDEF
****************************************************************************}
constructor tforwarddef.create(const s:string;const pos : tfileposinfo);
var
oldregisterdef : boolean;
begin
{ never register the forwarddefs, they are disposed at the
end of the type declaration block }
oldregisterdef:=registerdef;
registerdef:=false;
inherited create;
registerdef:=oldregisterdef;
deftype:=forwarddef;
tosymname:=s;
forwardpos:=pos;
end;
function tforwarddef.gettypename:string;
begin
gettypename:='unresolved forward to '+tosymname;
end;
{****************************************************************************
TERRORDEF
****************************************************************************}
constructor terrordef.create;
begin
inherited create;
deftype:=errordef;
end;
{$ifdef GDB}
function terrordef.stabstring : pchar;
begin
stabstring:=strpnew('error'+numberstring);
end;
{$endif GDB}
function terrordef.gettypename:string;
begin
gettypename:='<erroneous type>';
end;
{****************************************************************************
GDB Helpers
****************************************************************************}
{$ifdef GDB}
function typeglobalnumber(const s : string) : string;
var st : string;
symt : tsymtable;
srsym : tsym;
srsymtable : tsymtable;
old_make_ref : boolean;
begin
old_make_ref:=make_ref;
make_ref:=false;
typeglobalnumber := '0';
srsym := nil;
if pos('.',s) > 0 then
begin
st := copy(s,1,pos('.',s)-1);
searchsym(st,srsym,srsymtable);
st := copy(s,pos('.',s)+1,255);
if assigned(srsym) then
begin
if srsym.typ = unitsym then
begin
symt := tunitsym(srsym).unitsymtable;
srsym := tsym(symt.search(st));
end else srsym := nil;
end;
end else st := s;
if srsym = nil then
searchsym(st,srsym,srsymtable);
if (srsym=nil) or
(srsym.typ<>typesym) then
begin
Message(type_e_type_id_expected);
exit;
end;
typeglobalnumber := tstoreddef(ttypesym(srsym).restype.def).numberstring;
make_ref:=old_make_ref;
end;
{$endif GDB}
{****************************************************************************
Definition Helpers
****************************************************************************}
procedure reset_global_defs;
var
def : tstoreddef;
{$ifdef debug}
prevdef : tstoreddef;
{$endif debug}
begin
{$ifdef debug}
prevdef:=nil;
{$endif debug}
{$ifdef GDB}
pglobaltypecount:=@globaltypecount;
{$endif GDB}
def:=firstglobaldef;
while assigned(def) do
begin
{$ifdef GDB}
if assigned(def.typesym) then
ttypesym(def.typesym).isusedinstab:=false;
def.is_def_stab_written:=not_written;
{$endif GDB}
{ reset rangenr's }
case def.deftype of
orddef : torddef(def).rangenr:=0;
enumdef : tenumdef(def).rangenr:=0;
arraydef : tarraydef(def).rangenr:=0;
end;
if assigned(def.rttitablesym) then
trttisym(def.rttitablesym).lab := nil;
if assigned(def.inittablesym) then
trttisym(def.inittablesym).lab := nil;
def.localrttilab[initrtti]:=nil;
def.localrttilab[fullrtti]:=nil;
{$ifdef debug}
prevdef:=def;
{$endif debug}
def:=def.nextglobal;
end;
end;
function is_interfacecom(def: tdef): boolean;
begin
is_interfacecom:=
assigned(def) and
(def.deftype=objectdef) and
(tobjectdef(def).objecttype=odt_interfacecom);
end;
function is_interfacecorba(def: tdef): boolean;
begin
is_interfacecorba:=
assigned(def) and
(def.deftype=objectdef) and
(tobjectdef(def).objecttype=odt_interfacecorba);
end;
function is_interface(def: tdef): boolean;
begin
is_interface:=
assigned(def) and
(def.deftype=objectdef) and
(tobjectdef(def).objecttype in [odt_interfacecom,odt_interfacecorba]);
end;
function is_class(def: tdef): boolean;
begin
is_class:=
assigned(def) and
(def.deftype=objectdef) and
(tobjectdef(def).objecttype=odt_class);
end;
function is_object(def: tdef): boolean;
begin
is_object:=
assigned(def) and
(def.deftype=objectdef) and
(tobjectdef(def).objecttype=odt_object);
end;
function is_cppclass(def: tdef): boolean;
begin
is_cppclass:=
assigned(def) and
(def.deftype=objectdef) and
(tobjectdef(def).objecttype=odt_cppclass);
end;
function is_class_or_interface(def: tdef): boolean;
begin
is_class_or_interface:=
assigned(def) and
(def.deftype=objectdef) and
(tobjectdef(def).objecttype in [odt_class,odt_interfacecom,odt_interfacecorba]);
end;
end.
{
$Log$
Revision 1.72 2002-04-20 21:32:25 carl
+ generic FPC_CHECKPOINTER
+ first parameter offset in stack now portable
* rename some constants
+ move some cpu stuff to other units
- remove unused constents
* fix stacksize for some targets
* fix generic size problems which depend now on EXTEND_SIZE constant
Revision 1.71 2002/04/19 15:46:03 peter
* mangledname rewrite, tprocdef.mangledname is now created dynamicly
in most cases and not written to the ppu
* add mangeledname_prefix() routine to generate the prefix of
manglednames depending on the current procedure, object and module
* removed static procprefix since the mangledname is now build only
on demand from tprocdef.mangledname
Revision 1.70 2002/04/15 19:06:34 carl
+ target_info.size_of_pointer -> pointer_Size
Revision 1.69 2002/04/14 16:55:43 carl
+ replace some stuff by ALL_REGISTERS
Revision 1.68 2002/04/02 17:11:29 peter
* tlocation,treference update
* LOC_CONSTANT added for better constant handling
* secondadd splitted in multiple routines
* location_force_reg added for loading a location to a register
of a specified size
* secondassignment parses now first the right and then the left node
(this is compatible with Kylix). This saves a lot of push/pop especially
with string operations
* adapted some routines to use the new cg methods
Revision 1.67 2002/03/31 20:26:36 jonas
+ a_loadfpu_* and a_loadmm_* methods in tcg
* register allocation is now handled by a class and is mostly processor
independent (+rgobj.pas and i386/rgcpu.pas)
* temp allocation is now handled by a class (+tgobj.pas, -i386\tgcpu.pas)
* some small improvements and fixes to the optimizer
* some register allocation fixes
* some fpuvaroffset fixes in the unary minus node
* push/popusedregisters is now called rg.save/restoreusedregisters and
(for i386) uses temps instead of push/pop's when using -Op3 (that code is
also better optimizable)
* fixed and optimized register saving/restoring for new/dispose nodes
* LOC_FPU locations now also require their "register" field to be set to
R_ST, not R_ST0 (the latter is used for LOC_CFPUREGISTER locations only)
- list field removed of the tnode class because it's not used currently
and can cause hard-to-find bugs
Revision 1.66 2002/03/24 19:10:14 carl
+ patch for SPARC from Mazen NEIFER
Revision 1.65 2002/02/04 08:16:07 jonas
* fixed severe slowdown when compiling a program with arrays that have
a lot (15+) dimensions ("merged")
Revision 1.64 2002/01/19 15:12:34 peter
* check for unresolved forward classes in the interface
Revision 1.63 2002/01/06 21:52:30 peter
* fixed previous commit
Revision 1.62 2002/01/06 12:08:15 peter
* removed uauto from orddef, use new range_to_basetype generating
the correct ordinal type for a range
Revision 1.61 2001/12/19 09:34:51 florian
* publishing of publishable classes fixed
Revision 1.60 2001/12/06 17:57:39 florian
+ parasym to tparaitem added
Revision 1.59 2001/12/03 21:48:42 peter
* freemem change to value parameter
* torddef low/high range changed to int64
Revision 1.58 2001/11/30 15:01:51 jonas
* tarraydef.size returns POINTER_SIZE instead of 4 for
dynamic arrays
Revision 1.57 2001/11/18 18:43:14 peter
* overloading supported in child classes
* fixed parsing of classes with private and virtual and overloaded
so it is compatible with delphi
Revision 1.56 2001/11/18 18:27:57 florian
* publishing of qword, int64 and widechar properties is now possible
Revision 1.55 2001/11/02 22:58:06 peter
* procsym definition rewrite
Revision 1.54 2001/10/25 21:22:37 peter
* calling convention rewrite
Revision 1.53 2001/10/20 17:21:54 peter
* fixed size of constset when change from small to normalset
Revision 1.52 2001/10/15 13:16:26 jonas
* better size checking of data (now an error is returned for
"array[longint] of longint") ("merged")
Revision 1.51 2001/09/19 11:04:42 michael
* Smartlinking with interfaces fixed
* Better smartlinking for rtti and init tables
Revision 1.50 2001/09/17 21:29:12 peter
* merged netbsd, fpu-overflow from fixes branch
Revision 1.49 2001/09/10 10:26:27 jonas
* fixed web bug 1593
* writing of procvar headers is more complete (mention var/const/out for
paras, add "of object" if applicable)
+ error if declaring explicit self para as var/const
* fixed mangled name of procedures which contain an explicit self para
* parsing para's should be slightly faster because mangled name of
procedure is only updated once instead of after parsing each para
(all merged from fixes)
Revision 1.48 2001/09/03 15:18:38 jonas
* aded missing reset of labels of rttitablesym and inittablesym labels
Revision 1.47 2001/09/02 21:18:28 peter
* split constsym.value in valueord,valueordptr,valueptr. The valueordptr
is used for holding target platform pointer values. As those can be
bigger than the source platform.
Revision 1.46 2001/08/30 20:13:54 peter
* rtti/init table updates
* rttisym for reusable global rtti/init info
* support published for interfaces
Revision 1.45 2001/08/26 13:36:49 florian
* some cg reorganisation
* some PPC updates
Revision 1.44 2001/08/22 21:16:22 florian
* some interfaces related problems regarding
mapping of interface implementions fixed
Revision 1.43 2001/08/19 09:39:27 peter
* local browser support fixed
Revision 1.41 2001/08/12 20:04:33 peter
* fpu_used=0 when simplify_ppu is used
* small crc updating fixes for tprocdef
Revision 1.40 2001/08/06 21:40:48 peter
* funcret moved from tprocinfo to tprocdef
Revision 1.39 2001/08/01 21:47:48 peter
* fixed passing of array of record or shortstring to open array
Revision 1.38 2001/07/30 20:59:27 peter
* m68k updates from v10 merged
Revision 1.37 2001/07/30 11:52:57 jonas
* fixed web bugs 1563/1564: procvars of object can't be regvars (merged)
Revision 1.36 2001/07/01 20:16:16 peter
* alignmentinfo record added
* -Oa argument supports more alignment settings that can be specified
per type: PROC,LOOP,VARMIN,VARMAX,CONSTMIN,CONSTMAX,RECORDMIN
RECORDMAX,LOCALMIN,LOCALMAX. It is possible to set the mimimum
required alignment and the maximum usefull alignment. The final
alignment will be choosen per variable size dependent on these
settings
Revision 1.35 2001/06/27 21:37:36 peter
* v10 merges
Revision 1.34 2001/06/04 18:05:39 peter
* procdef demangling fixed
Revision 1.33 2001/06/04 11:53:13 peter
+ varargs directive
Revision 1.32 2001/05/09 19:58:45 peter
* m68k doesn't support double (merged)
Revision 1.31 2001/05/06 14:49:17 peter
* ppu object to class rewrite
* move ppu read and write stuff to fppu
Revision 1.30 2001/04/22 22:46:49 florian
* more variant support
Revision 1.29 2001/04/21 12:03:12 peter
* m68k updates merged from fixes branch
Revision 1.28 2001/04/18 22:01:58 peter
* registration of targets and assemblers
Revision 1.27 2001/04/13 01:22:15 peter
* symtable change to classes
* range check generation and errors fixed, make cycle DEBUG=1 works
* memory leaks fixed
Revision 1.26 2001/04/05 21:32:22 peter
* enum stabs fix (merged)
Revision 1.25 2001/04/04 21:30:45 florian
* applied several fixes to get the DD8 Delphi Unit compiled
e.g. "forward"-interfaces are working now
Revision 1.24 2001/04/02 21:20:34 peter
* resulttype rewrite
Revision 1.23 2001/03/22 23:28:39 florian
* correct initialisation of rec_tguid when loading the system unit
Revision 1.22 2001/03/22 00:10:58 florian
+ basic variant type support in the compiler
Revision 1.21 2001/03/11 22:58:50 peter
* getsym redesign, removed the globals srsym,srsymtable
Revision 1.20 2001/01/06 20:11:29 peter
* merged c packrecords fix
Revision 1.19 2000/12/25 00:07:29 peter
+ new tlinkedlist class (merge of old tstringqueue,tcontainer and
tlinkedlist objects)
Revision 1.18 2000/12/24 12:20:45 peter
* classes, enum stabs fixes merged from 1.0.x
Revision 1.17 2000/12/07 17:19:43 jonas
* new constant handling: from now on, hex constants >$7fffffff are
parsed as unsigned constants (otherwise, $80000000 got sign extended
and became $ffffffff80000000), all constants in the longint range
become longints, all constants >$7fffffff and <=cardinal($ffffffff)
are cardinals and the rest are int64's.
* added lots of longint typecast to prevent range check errors in the
compiler and rtl
* type casts of symbolic ordinal constants are now preserved
* fixed bug where the original resulttype.def wasn't restored correctly
after doing a 64bit rangecheck
Revision 1.16 2000/11/30 23:12:57 florian
* if raw interfaces inherit from IUnknown they are ref. counted too
Revision 1.15 2000/11/29 00:30:40 florian
* unused units removed from uses clause
* some changes for widestrings
Revision 1.14 2000/11/28 00:28:06 pierre
* stabs fixing
Revision 1.13 2000/11/26 18:09:40 florian
* fixed rtti for chars
Revision 1.12 2000/11/19 16:23:35 florian
*** empty log message ***
Revision 1.11 2000/11/12 23:24:12 florian
* interfaces are basically running
Revision 1.10 2000/11/11 16:12:38 peter
* add far; to typename for far pointer
Revision 1.9 2000/11/07 20:01:57 peter
* fix vmt index for classes
Revision 1.8 2000/11/06 23:13:53 peter
* uppercase manglednames
Revision 1.7 2000/11/06 23:11:38 florian
* writeln debugger uninstalled ;)
Revision 1.6 2000/11/06 23:05:52 florian
* more fixes
Revision 1.5 2000/11/06 20:30:55 peter
* more fixes to get make cycle working
Revision 1.4 2000/11/04 14:25:22 florian
+ merged Attila's changes for interfaces, not tested yet
Revision 1.3 2000/11/02 12:04:10 pierre
* remove RecOffset code, that created problems
Revision 1.2 2000/11/01 23:04:38 peter
* tprocdef.fullprocname added for better casesensitve writing of
procedures
Revision 1.1 2000/10/31 22:02:52 peter
* symtable splitted, no real code changes
}
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