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d6966e545b
fpc/compiler/ncgrtti.pas
Jonas Maebe 28740dce2d - removed extra "fordefinition" parameter again from tprocdef.mangledname(), 
since the definition-specific adorning of JVM mangled names is Jasmin-
    specific, and such code has no place in symdef
  * moved code to adorn JVM mangled names for Jasmin definitions to agjasmin

git-svn-id: branches/jvmbackend@18346 -
2011-08-20 07:49:31 +00:00

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{
Copyright (c) 1998-2002 by Florian Klaempfl
Routines for the code generation of RTTI data structures
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 ncgrtti;
{$i fpcdefs.inc}
interface
uses
cclasses,constexp,
aasmbase,
symbase,symconst,symtype,symdef;
type
{ TRTTIWriter }
TRTTIWriter=class
private
procedure fields_write_rtti(st:tsymtable;rt:trttitype);
procedure fields_write_rtti_data(def:tabstractrecorddef;rt:trttitype);
procedure write_rtti_extrasyms(def:Tdef;rt:Trttitype;mainrtti:Tasmsymbol);
procedure published_write_rtti(st:tsymtable;rt:trttitype);
function published_properties_count(st:tsymtable):longint;
procedure published_properties_write_rtti_data(propnamelist:TFPHashObjectList;st:tsymtable);
procedure collect_propnamelist(propnamelist:TFPHashObjectList;objdef:tobjectdef);
procedure write_rtti_name(def:tdef);
procedure write_rtti_data(def:tdef;rt:trttitype);
procedure write_child_rtti_data(def:tdef;rt:trttitype);
function ref_rtti(def:tdef;rt:trttitype):tasmsymbol;
procedure write_header(def: tdef; typekind: byte);
procedure write_string(const s: string);
procedure maybe_write_align;
public
procedure write_rtti(def:tdef;rt:trttitype);
function get_rtti_label(def:tdef;rt:trttitype):tasmsymbol;
function get_rtti_label_ord2str(def:tdef;rt:trttitype):tasmsymbol;
function get_rtti_label_str2ord(def:tdef;rt:trttitype):tasmsymbol;
end;
var
RTTIWriter : TRTTIWriter;
implementation
uses
cutils,
globals,globtype,verbose,systems,
fmodule,
symsym,
aasmtai,aasmdata,
defutil,
wpobase
;
const
rttidefstate : array[trttitype] of tdefstate =
(ds_rtti_table_written,ds_init_table_written,
{ Objective-C related, does not pass here }
symconst.ds_none,symconst.ds_none,
symconst.ds_none,symconst.ds_none);
type
TPropNameListItem = class(TFPHashObject)
propindex : longint;
propowner : TSymtable;
end;
{***************************************************************************
TRTTIWriter
***************************************************************************}
procedure TRTTIWriter.maybe_write_align;
begin
if (tf_requires_proper_alignment in target_info.flags) then
current_asmdata.asmlists[al_rtti].concat(cai_align.Create(sizeof(TConstPtrUInt)));
end;
procedure TRTTIWriter.write_string(const s: string);
begin
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(length(s)));
current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(s));
end;
procedure TRTTIWriter.write_header(def: tdef; typekind: byte);
begin
if def.typ=arraydef then
InternalError(201012211);
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(typekind));
if assigned(def.typesym) then
write_string(ttypesym(def.typesym).realname)
else
current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(#0));
end;
procedure TRTTIWriter.write_rtti_name(def:tdef);
var
hs : string;
begin
if is_open_array(def) then
{ open arrays never have a typesym with a name, since you cannot
define an "open array type". Kylix prints the type of the
elements in the array in this case (so together with the pfArray
flag, you can reconstruct the full typename, I assume (JM))
}
def:=tarraydef(def).elementdef;
{ name }
if assigned(def.typesym) then
begin
hs:=ttypesym(def.typesym).realname;
current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(chr(length(hs))+hs));
end
else
current_asmdata.asmlists[al_rtti].concat(Tai_string.Create(#0));
end;
{ writes a 32-bit count followed by array of field infos for given symtable }
procedure TRTTIWriter.fields_write_rtti_data(def:tabstractrecorddef;rt:trttitype);
var
i : longint;
sym : tsym;
fieldcnt: longint;
lastai: TLinkedListItem;
st: tsymtable;
begin
fieldcnt:=0;
{ Count will be inserted at this location. It cannot be nil as we've just
written header for this symtable owner. But stay safe. }
lastai:=current_asmdata.asmlists[al_rtti].last;
if lastai=nil then
InternalError(201012212);
{ For objects, treat parent (if any) as a field with offset 0. This
provides correct handling of entire instance with RTL rtti routines. }
if (def.typ=objectdef) and (tobjectdef(def).objecttype=odt_object) and
Assigned(tobjectdef(def).childof) and
((rt=fullrtti) or (tobjectdef(def).childof.needs_inittable)) then
begin
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(tobjectdef(def).childof,rt)));
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(0));
inc(fieldcnt);
end;
st:=def.symtable;
for i:=0 to st.SymList.Count-1 do
begin
sym:=tsym(st.SymList[i]);
if (tsym(sym).typ=fieldvarsym) and
not(sp_static in tsym(sym).symoptions) and
(
(rt=fullrtti) or
tfieldvarsym(sym).vardef.needs_inittable
) then
begin
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(tfieldvarsym(sym).vardef,rt)));
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(tfieldvarsym(sym).fieldoffset));
inc(fieldcnt);
end;
end;
{ insert field count before data }
current_asmdata.asmlists[al_rtti].InsertAfter(Tai_const.Create_32bit(fieldcnt),lastai)
end;
procedure TRTTIWriter.fields_write_rtti(st:tsymtable;rt:trttitype);
var
i : longint;
sym : tsym;
begin
for i:=0 to st.SymList.Count-1 do
begin
sym:=tsym(st.SymList[i]);
if (tsym(sym).typ=fieldvarsym) and
not(sp_static in tsym(sym).symoptions) and
(
(rt=fullrtti) or
tfieldvarsym(sym).vardef.needs_inittable
) then
write_rtti(tfieldvarsym(sym).vardef,rt);
end;
end;
procedure TRTTIWriter.published_write_rtti(st:tsymtable;rt:trttitype);
var
i : longint;
sym : tsym;
begin
for i:=0 to st.SymList.Count-1 do
begin
sym:=tsym(st.SymList[i]);
if (sym.visibility=vis_published) then
begin
case tsym(sym).typ of
propertysym:
write_rtti(tpropertysym(sym).propdef,rt);
fieldvarsym:
write_rtti(tfieldvarsym(sym).vardef,rt);
end;
end;
end;
end;
function TRTTIWriter.published_properties_count(st:tsymtable):longint;
var
i : longint;
sym : tsym;
begin
result:=0;
for i:=0 to st.SymList.Count-1 do
begin
sym:=tsym(st.SymList[i]);
if (tsym(sym).typ=propertysym) and
(sym.visibility=vis_published) then
inc(result);
end;
end;
procedure TRTTIWriter.collect_propnamelist(propnamelist:TFPHashObjectList;objdef:tobjectdef);
var
i : longint;
sym : tsym;
pn : tpropnamelistitem;
begin
if assigned(objdef.childof) then
collect_propnamelist(propnamelist,objdef.childof);
for i:=0 to objdef.symtable.SymList.Count-1 do
begin
sym:=tsym(objdef.symtable.SymList[i]);
if (tsym(sym).typ=propertysym) and
(sym.visibility=vis_published) then
begin
pn:=TPropNameListItem(propnamelist.Find(tsym(sym).name));
if not assigned(pn) then
begin
pn:=tpropnamelistitem.create(propnamelist,tsym(sym).name);
pn.propindex:=propnamelist.count-1;
pn.propowner:=tsym(sym).owner;
end;
end;
end;
end;
procedure TRTTIWriter.published_properties_write_rtti_data(propnamelist:TFPHashObjectList;st:tsymtable);
var
i : longint;
sym : tsym;
proctypesinfo : byte;
propnameitem : tpropnamelistitem;
procedure writeaccessproc(pap:tpropaccesslisttypes; shiftvalue : byte; unsetvalue: byte);
var
typvalue : byte;
hp : ppropaccesslistitem;
address,space : longint;
def : tdef;
hpropsym : tpropertysym;
propaccesslist : tpropaccesslist;
begin
hpropsym:=tpropertysym(sym);
repeat
propaccesslist:=hpropsym.propaccesslist[pap];
if not propaccesslist.empty then
break;
hpropsym:=hpropsym.overriddenpropsym;
until not assigned(hpropsym);
if not(assigned(propaccesslist) and assigned(propaccesslist.firstsym)) then
begin
current_asmdata.asmlists[al_rtti].concat(Tai_const.create(aitconst_ptr,unsetvalue));
typvalue:=3;
end
else if propaccesslist.firstsym^.sym.typ=fieldvarsym then
begin
address:=0;
hp:=propaccesslist.firstsym;
def:=nil;
while assigned(hp) do
begin
case hp^.sltype of
sl_load :
begin
def:=tfieldvarsym(hp^.sym).vardef;
inc(address,tfieldvarsym(hp^.sym).fieldoffset);
end;
sl_subscript :
begin
if not(assigned(def) and
((def.typ=recorddef) or
is_object(def))) then
internalerror(200402171);
inc(address,tfieldvarsym(hp^.sym).fieldoffset);
def:=tfieldvarsym(hp^.sym).vardef;
end;
sl_vec :
begin
if not(assigned(def) and (def.typ=arraydef)) then
internalerror(200402172);
def:=tarraydef(def).elementdef;
{Hp.value is a Tconstexprint, which can be rather large,
sanity check for longint overflow.}
space:=(high(address)-address) div def.size;
if int64(space)<hp^.value then
internalerror(200706101);
inc(address,int64(def.size*hp^.value));
end;
end;
hp:=hp^.next;
end;
current_asmdata.asmlists[al_rtti].concat(Tai_const.create(aitconst_ptr,address));
typvalue:=0;
end
else
begin
{ When there was an error then procdef is not assigned }
if not assigned(propaccesslist.procdef) then
exit;
if not(po_virtualmethod in tprocdef(propaccesslist.procdef).procoptions) or
is_objectpascal_helper(tprocdef(propaccesslist.procdef).struct) then
begin
current_asmdata.asmlists[al_rtti].concat(Tai_const.createname(tprocdef(propaccesslist.procdef).mangledname,0));
typvalue:=1;
end
else
begin
{ virtual method, write vmt offset }
current_asmdata.asmlists[al_rtti].concat(Tai_const.create(aitconst_ptr,
tobjectdef(tprocdef(propaccesslist.procdef).struct).vmtmethodoffset(tprocdef(propaccesslist.procdef).extnumber)));
{ register for wpo }
tobjectdef(tprocdef(propaccesslist.procdef).struct).register_vmt_call(tprocdef(propaccesslist.procdef).extnumber);
{$ifdef vtentry}
{ not sure if we can insert those vtentry symbols safely here }
{$error register methods used for published properties}
{$endif vtentry}
typvalue:=2;
end;
end;
proctypesinfo:=proctypesinfo or (typvalue shl shiftvalue);
end;
begin
for i:=0 to st.SymList.Count-1 do
begin
sym:=tsym(st.SymList[i]);
if (sym.typ=propertysym) and
(sym.visibility=vis_published) then
begin
if ppo_indexed in tpropertysym(sym).propoptions then
proctypesinfo:=$40
else
proctypesinfo:=0;
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(tpropertysym(sym).propdef,fullrtti)));
writeaccessproc(palt_read,0,0);
writeaccessproc(palt_write,2,0);
{ is it stored ? }
if not(ppo_stored in tpropertysym(sym).propoptions) then
begin
{ no, so put a constant zero }
current_asmdata.asmlists[al_rtti].concat(Tai_const.create(aitconst_ptr,0));
proctypesinfo:=proctypesinfo or (3 shl 4);
end
else
writeaccessproc(palt_stored,4,1); { maybe; if no procedure put a constant 1 (=true) }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(tpropertysym(sym).index));
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(tpropertysym(sym).default));
propnameitem:=TPropNameListItem(propnamelist.Find(tpropertysym(sym).name));
if not assigned(propnameitem) then
internalerror(200512201);
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_16bit(propnameitem.propindex));
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(proctypesinfo));
write_string(tpropertysym(sym).realname);
maybe_write_align;
end;
end;
end;
procedure TRTTIWriter.write_rtti_data(def:tdef;rt:trttitype);
procedure unknown_rtti(def:tstoreddef);
begin
current_asmdata.asmlists[al_rtti].concat(tai_const.create_8bit(tkUnknown));
write_rtti_name(def);
end;
procedure variantdef_rtti(def:tvariantdef);
begin
write_header(def,tkVariant);
end;
procedure stringdef_rtti(def:tstringdef);
begin
case def.stringtype of
st_ansistring:
write_header(def,tkAString);
st_widestring:
write_header(def,tkWString);
st_unicodestring:
write_header(def,tkUString);
st_longstring:
write_header(def,tkLString);
st_shortstring:
begin
write_header(def,tkSString);
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(def.len));
maybe_write_align; // is align necessary here?
end;
end;
end;
procedure enumdef_rtti(def:tenumdef);
var
i : integer;
hp : tenumsym;
begin
write_header(def,tkEnumeration);
maybe_write_align;
case longint(def.size) of
1 :
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otUByte));
2 :
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otUWord));
4 :
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otULong));
end;
{ we need to align by Tconstptruint here to satisfy the alignment rules set by
records: in the typinfo unit we overlay a TTypeData record on this data, which at
the innermost variant record needs an alignment of TConstPtrUint due to e.g.
the "CompType" member for tkSet (also the "BaseType" member for tkEnumeration).
We need to adhere to this, otherwise things will break.
Note that other code (e.g. enumdef_rtti_calcstringtablestart()) relies on the
exact sequence too. }
maybe_write_align;
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(def.min));
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(def.max));
maybe_write_align; // is align necessary here?
{ write base type }
if assigned(def.basedef) then
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.basedef,rt)))
else
current_asmdata.asmlists[al_rtti].concat(Tai_const.create_sym(nil));
for i := 0 to def.symtable.SymList.Count - 1 do
begin
hp:=tenumsym(def.symtable.SymList[i]);
if hp.value<def.minval then
continue
else
if hp.value>def.maxval then
break;
write_string(hp.realname);
end;
{ write unit name }
write_string(current_module.realmodulename^);
{ write zero which is required by RTL }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(0));
end;
procedure orddef_rtti(def:torddef);
procedure dointeger(typekind: byte);
const
trans : array[tordtype] of byte =
(otUByte{otNone},
otUByte,otUWord,otULong,otUByte{otNone},
otSByte,otSWord,otSLong,otUByte{otNone},
otUByte,otUWord,otULong,otUByte,
otSByte,otSWord,otSLong,otSByte,
otUByte,otUWord,otUByte);
begin
write_header(def,typekind);
maybe_write_align;
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(byte(trans[def.ordtype])));
maybe_write_align;
{Convert to longint to smuggle values in high(longint)+1..high(cardinal) into asmlist.}
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(longint(def.low.svalue)));
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(longint(def.high.svalue)));
end;
begin
case def.ordtype of
s64bit :
begin
write_header(def,tkInt64);
maybe_write_align;
{ low }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_64bit(def.low.svalue));
{ high }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_64bit(def.high.svalue));
end;
u64bit :
begin
write_header(def,tkQWord);
maybe_write_align;
{use svalue because Create_64bit accepts int64, prevents range checks}
{ low }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_64bit(def.low.svalue));
{ high }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_64bit(def.high.svalue));
end;
pasbool8:
dointeger(tkBool);
uchar:
dointeger(tkChar);
uwidechar:
dointeger(tkWChar);
scurrency:
begin
write_header(def,tkFloat);
maybe_write_align;
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(ftCurr));
end;
else
dointeger(tkInteger);
end;
end;
procedure floatdef_rtti(def:tfloatdef);
const
{tfloattype = (s32real,s64real,s80real,sc80real,s64bit,s128bit);}
translate : array[tfloattype] of byte =
(ftSingle,ftDouble,ftExtended,ftExtended,ftComp,ftCurr,ftFloat128);
begin
write_header(def,tkFloat);
maybe_write_align;
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(translate[def.floattype]));
end;
procedure setdef_rtti(def:tsetdef);
begin
write_header(def,tkSet);
maybe_write_align;
case def.size of
1:
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otUByte));
2:
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otUWord));
4:
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otULong));
else
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(otUByte));
end;
maybe_write_align;
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.elementdef,rt)));
end;
procedure arraydef_rtti(def:tarraydef);
begin
if ado_IsDynamicArray in def.arrayoptions then
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkdynarray))
else
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkarray));
write_rtti_name(def);
maybe_write_align;
{ size of elements }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_pint(def.elesize));
if not(ado_IsDynamicArray in def.arrayoptions) then
begin
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_pint(pint(def.elecount)));
{ element type }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.elementdef,rt)));
end
else
{ write a delphi almost compatible dyn. array entry:
there are two types, eltype and eltype2, the latter is nil if the element type needs
no finalization, the former is always valid, delphi has this swapped, but for
compatibility with older fpc versions we do it different, to be delphi compatible,
the names are swapped in typinfo.pp
}
begin
{ element type }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.elementdef,rt)));
end;
{ variant type }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(tstoreddef(def.elementdef).getvardef));
if ado_IsDynamicArray in def.arrayoptions then
begin
{ element type }
if def.elementdef.needs_inittable then
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.elementdef,rt)))
else
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_pint(0));
{ write unit name }
write_string(current_module.realmodulename^);
end;
end;
procedure recorddef_rtti(def:trecorddef);
begin
write_header(def,tkRecord);
maybe_write_align;
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(def.size));
fields_write_rtti_data(def,rt);
end;
procedure procvardef_rtti(def:tprocvardef);
const
ProcCallOptionToCallConv: array[tproccalloption] of byte = (
{ pocall_none } 0,
{ pocall_cdecl } 1,
{ pocall_cppdecl } 5,
{ pocall_far16 } 6,
{ pocall_oldfpccall } 7,
{ pocall_internproc } 8,
{ pocall_syscall } 9,
{ pocall_pascal } 2,
{ pocall_register } 0,
{ pocall_safecall } 4,
{ pocall_stdcall } 3,
{ pocall_softfloat } 10,
{ pocall_mwpascal } 11,
{ pocall_interrupt } 12
);
procedure write_para(parasym:tparavarsym);
var
paraspec : byte;
begin
{ only store user visible parameters }
if not(vo_is_hidden_para in parasym.varoptions) then
begin
case parasym.varspez of
vs_value : paraspec := 0;
vs_const : paraspec := pfConst;
vs_var : paraspec := pfVar;
vs_out : paraspec := pfOut;
vs_constref: paraspec := pfConstRef;
end;
{ Kylix also seems to always add both pfArray and pfReference
in this case
}
if is_open_array(parasym.vardef) then
paraspec:=paraspec or pfArray or pfReference;
{ and these for classes and interfaces (maybe because they
are themselves addresses?)
}
if is_class_or_interface(parasym.vardef) then
paraspec:=paraspec or pfAddress;
{ set bits run from the highest to the lowest bit on
big endian systems
}
if (target_info.endian = endian_big) then
paraspec:=reverse_byte(paraspec);
{ write flags for current parameter }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(paraspec));
{ write name of current parameter }
write_string(parasym.realname);
{ write name of type of current parameter }
write_rtti_name(parasym.vardef);
end;
end;
var
methodkind : byte;
i : integer;
begin
if po_methodpointer in def.procoptions then
begin
{ write method id and name }
write_header(def,tkMethod);
maybe_write_align;
{ write kind of method }
case def.proctypeoption of
potype_constructor: methodkind:=mkConstructor;
potype_destructor: methodkind:=mkDestructor;
potype_class_constructor: methodkind:=mkClassConstructor;
potype_class_destructor: methodkind:=mkClassDestructor;
potype_operator: methodkind:=mkOperatorOverload;
potype_procedure:
if po_classmethod in def.procoptions then
methodkind:=mkClassProcedure
else
methodkind:=mkProcedure;
potype_function:
if po_classmethod in def.procoptions then
methodkind:=mkClassFunction
else
methodkind:=mkFunction;
else
begin
if def.returndef = voidtype then
methodkind:=mkProcedure
else
methodkind:=mkFunction;
end;
end;
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(methodkind));
{ write parameter info. The parameters must be written in reverse order
if this method uses right to left parameter pushing! }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(def.maxparacount));
for i:=0 to def.paras.count-1 do
write_para(tparavarsym(def.paras[i]));
if (methodkind=mkFunction) or (methodkind=mkClassFunction) then
begin
{ write name of result type }
write_rtti_name(def.returndef);
maybe_write_align;
{ write result typeinfo }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.returndef,fullrtti)))
end;
{ write calling convention }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(ProcCallOptionToCallConv[def.proccalloption]));
maybe_write_align;
{ write params typeinfo }
for i:=0 to def.paras.count-1 do
if not(vo_is_hidden_para in tparavarsym(def.paras[i]).varoptions) then
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(tparavarsym(def.paras[i]).vardef,fullrtti)));
end
else
write_header(def,tkProcvar);
end;
procedure objectdef_rtti(def:tobjectdef);
procedure objectdef_rtti_fields(def:tobjectdef);
begin
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(def.size));
fields_write_rtti_data(def,rt);
end;
procedure objectdef_rtti_interface_init(def:tobjectdef);
begin
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(def.size));
end;
procedure objectdef_rtti_class_full(def:tobjectdef);
var
propnamelist : TFPHashObjectList;
begin
{ Collect unique property names with nameindex }
propnamelist:=TFPHashObjectList.Create;
collect_propnamelist(propnamelist,def);
if not is_objectpascal_helper(def) then
if (oo_has_vmt in def.objectoptions) then
current_asmdata.asmlists[al_rtti].concat(Tai_const.Createname(def.vmt_mangledname,0))
else
current_asmdata.asmlists[al_rtti].concat(Tai_const.create_sym(nil));
{ write parent typeinfo }
if assigned(def.childof) then
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.childof,fullrtti)))
else
current_asmdata.asmlists[al_rtti].concat(Tai_const.create_sym(nil));
{ write typeinfo of extended type }
if is_objectpascal_helper(def) then
if assigned(def.extendeddef) then
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.extendeddef,fullrtti)))
else
InternalError(2011033001);
{ total number of unique properties }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_16bit(propnamelist.count));
{ write unit name }
write_string(current_module.realmodulename^);
maybe_write_align;
{ write published properties for this object }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_16bit(published_properties_count(def.symtable)));
maybe_write_align;
published_properties_write_rtti_data(propnamelist,def.symtable);
propnamelist.free;
end;
procedure objectdef_rtti_interface_full(def:tobjectdef);
var
i : longint;
propnamelist : TFPHashObjectList;
{ if changed to a set, make sure it's still a byte large, and
swap appropriately when cross-compiling
}
IntfFlags: byte;
begin
{ Collect unique property names with nameindex }
propnamelist:=TFPHashObjectList.Create;
collect_propnamelist(propnamelist,def);
{ write parent typeinfo }
if assigned(def.childof) then
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_sym(ref_rtti(def.childof,fullrtti)))
else
current_asmdata.asmlists[al_rtti].concat(Tai_const.create_sym(nil));
{ interface: write flags, iid and iidstr }
IntfFlags:=0;
if assigned(def.iidguid) then
IntfFlags:=IntfFlags or (1 shl ord(ifHasGuid));
if assigned(def.iidstr) then
IntfFlags:=IntfFlags or (1 shl ord(ifHasStrGUID));
if (def.objecttype=odt_dispinterface) then
IntfFlags:=IntfFlags or (1 shl ord(ifDispInterface));
if (target_info.endian=endian_big) then
IntfFlags:=reverse_byte(IntfFlags);
{
ifDispatch, }
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(IntfFlags));
maybe_write_align;
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_32bit(longint(def.iidguid^.D1)));
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_16bit(def.iidguid^.D2));
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_16bit(def.iidguid^.D3));
for i:=Low(def.iidguid^.D4) to High(def.iidguid^.D4) do
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(def.iidguid^.D4[i]));
{ write unit name }
write_string(current_module.realmodulename^);
maybe_write_align;
{ write iidstr }
if assigned(def.iidstr) then
write_string(def.iidstr^)
else
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(0));
maybe_write_align;
{ write published properties for this object }
published_properties_write_rtti_data(propnamelist,def.symtable);
propnamelist.free;
end;
begin
case def.objecttype of
odt_class:
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkclass));
odt_object:
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkobject));
odt_dispinterface,
odt_interfacecom:
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkinterface));
odt_interfacecorba:
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkinterfaceCorba));
odt_helper:
current_asmdata.asmlists[al_rtti].concat(Tai_const.Create_8bit(tkhelper));
else
internalerror(200611034);
end;
{ generate the name }
write_string(def.objrealname^);
maybe_write_align;
case rt of
initrtti :
begin
if def.objecttype in [odt_class,odt_object,odt_helper] then
objectdef_rtti_fields(def)
else
objectdef_rtti_interface_init(def);
end;
fullrtti :
begin
case def.objecttype of
odt_helper,
odt_class:
objectdef_rtti_class_full(def);
odt_object:
objectdef_rtti_fields(def);
else
objectdef_rtti_interface_full(def);
end;
end;
end;
end;
begin
case def.typ of
variantdef :
variantdef_rtti(tvariantdef(def));
stringdef :
stringdef_rtti(tstringdef(def));
enumdef :
enumdef_rtti(tenumdef(def));
orddef :
orddef_rtti(torddef(def));
floatdef :
floatdef_rtti(tfloatdef(def));
setdef :
setdef_rtti(tsetdef(def));
procvardef :
procvardef_rtti(tprocvardef(def));
arraydef :
begin
if ado_IsBitPacked in tarraydef(def).arrayoptions then
unknown_rtti(tstoreddef(def))
else
arraydef_rtti(tarraydef(def));
end;
recorddef :
begin
if trecorddef(def).is_packed then
unknown_rtti(tstoreddef(def))
else
recorddef_rtti(trecorddef(def));
end;
objectdef :
objectdef_rtti(tobjectdef(def));
else
unknown_rtti(tstoreddef(def));
end;
end;
procedure TRTTIWriter.write_rtti_extrasyms(def:Tdef;rt:Trttitype;mainrtti:Tasmsymbol);
type Penumsym = ^Tenumsym;
function enumdef_rtti_calcstringtablestart(const def : Tenumdef) : integer;
begin
{ the alignment calls must correspond to the ones used during generating the
actual data structure created elsewhere in this file }
result:=1;
if assigned(def.typesym) then
inc(result,length(def.typesym.realname)+1)
else
inc(result);
if (tf_requires_proper_alignment in target_info.flags) then
result:=align(result,sizeof(Tconstptruint));
inc(result);
if (tf_requires_proper_alignment in target_info.flags) then
result:=align(result,sizeof(Tconstptruint));
inc(result, sizeof(longint) * 2);
if (tf_requires_proper_alignment in target_info.flags) then
result:=align(result,sizeof(Tconstptruint));
inc(result, sizeof(pint));
end;
{ Writes a helper table for accelerated conversion of ordinal enum values to strings.
If you change something in this method, make sure to adapt the corresponding code
in sstrings.inc. }
procedure enumdef_rtti_ord2stringindex(const sym_count:longint; const offsets:plongint; const syms:Penumsym; const st:longint);
var rttilab:Tasmsymbol;
h,i,o:longint;
mode:(lookup,search); {Modify with care, ordinal value of enum is written.}
r:single; {Must be real type because of integer overflow risk.}
begin
{Decide wether a lookup array is size efficient.}
mode:=lookup;
if sym_count>0 then
begin
i:=1;
r:=0;
h:=syms[0].value; {Next expected enum value is min.}
while i<sym_count do
begin
{Calculate size of hole between values. Avoid integer overflows.}
r:=r+(single(syms[i].value)-single(h))-1;
h:=syms[i].value;
inc(i);
end;
if r>sym_count then
mode:=search; {Don't waste more than 50% space.}
end;
{ write rtti data; make sure that the alignment matches the corresponding data structure
in the code that uses it (if alignment is required). }
with current_asmdata do
begin
rttilab:=defineasmsymbol(Tstoreddef(def).rtti_mangledname(rt)+'_o2s',AB_GLOBAL,AT_DATA);
maybe_new_object_file(asmlists[al_rtti]);
new_section(asmlists[al_rtti],sec_rodata,rttilab.name,const_align(sizeof(pint)));
asmlists[al_rtti].concat(Tai_symbol.create_global(rttilab,0));
asmlists[al_rtti].concat(Tai_const.create_32bit(longint(mode)));
if mode=lookup then
begin
maybe_write_align;
o:=syms[0].value; {Start with min value.}
for i:=0 to sym_count-1 do
begin
while o<syms[i].value do
begin
asmlists[al_rtti].concat(Tai_const.create_pint(0));
inc(o);
end;
inc(o);
asmlists[al_rtti].concat(Tai_const.create_sym_offset(mainrtti,st+offsets[i]));
end;
end
else
begin
maybe_write_align;
asmlists[al_rtti].concat(Tai_const.create_32bit(sym_count));
for i:=0 to sym_count-1 do
begin
maybe_write_align;
asmlists[al_rtti].concat(Tai_const.create_32bit(syms[i].value));
maybe_write_align;
asmlists[al_rtti].concat(Tai_const.create_sym_offset(mainrtti,st+offsets[i]));
end;
end;
asmlists[al_rtti].concat(Tai_symbol_end.create(rttilab));
end;
end;
{ Writes a helper table for accelerated conversion of string to ordinal enum values.
If you change something in this method, make sure to adapt the corresponding code
in sstrings.inc. }
procedure enumdef_rtti_string2ordindex(const sym_count:longint; const offsets:plongint; const syms:Penumsym; const st:longint);
var rttilab:Tasmsymbol;
i:longint;
begin
{ write rtti data }
with current_asmdata do
begin
rttilab:=defineasmsymbol(Tstoreddef(def).rtti_mangledname(rt)+'_s2o',AB_GLOBAL,AT_DATA);
maybe_new_object_file(asmlists[al_rtti]);
new_section(asmlists[al_rtti],sec_rodata,rttilab.name,const_align(sizeof(pint)));
asmlists[al_rtti].concat(Tai_symbol.create_global(rttilab,0));
asmlists[al_rtti].concat(Tai_const.create_32bit(sym_count));
{ need to align the entry record according to the largest member }
maybe_write_align;
for i:=0 to sym_count-1 do
begin
if (tf_requires_proper_alignment in target_info.flags) then
current_asmdata.asmlists[al_rtti].concat(cai_align.Create(4)); // necessary?
asmlists[al_rtti].concat(Tai_const.create_32bit(syms[i].value));
maybe_write_align;
asmlists[al_rtti].concat(Tai_const.create_sym_offset(mainrtti,st+offsets[i]));
end;
asmlists[al_rtti].concat(Tai_symbol_end.create(rttilab));
end;
end;
procedure enumdef_rtti_extrasyms(def:Tenumdef);
var
t:Tenumsym;
syms:Penumsym;
sym_count,sym_alloc:sizeuint;
offsets:^longint;
h,i,p,o,st:longint;
begin
{Random access needed, put in array.}
getmem(syms,64*sizeof(Tenumsym));
getmem(offsets,64*sizeof(longint));
sym_count:=0;
sym_alloc:=64;
st:=0;
for i := 0 to def.symtable.SymList.Count - 1 do
begin
t:=tenumsym(def.symtable.SymList[i]);
if t.value<def.minval then
continue
else
if t.value>def.maxval then
break;
if sym_count>=sym_alloc then
begin
reallocmem(syms,2*sym_alloc*sizeof(Tenumsym));
reallocmem(offsets,2*sym_alloc*sizeof(longint));
sym_alloc:=sym_alloc*2;
end;
syms[sym_count]:=t;
offsets[sym_count]:=st;
inc(sym_count);
st:=st+length(t.realname)+1;
end;
{Sort the syms by enum name}
if sym_count>=2 then
begin
p:=1;
while 2*p<sym_count do
p:=2*p;
while p<>0 do
begin
for h:=p to sym_count-1 do
begin
i:=h;
t:=syms[i];
o:=offsets[i];
repeat
if syms[i-p].name<=t.name then
break;
syms[i]:=syms[i-p];
offsets[i]:=offsets[i-p];
dec(i,p);
until i<p;
syms[i]:=t;
offsets[i]:=o;
end;
p:=p shr 1;
end;
end;
st:=enumdef_rtti_calcstringtablestart(def);
enumdef_rtti_string2ordindex(sym_count,offsets,syms,st);
{ Sort the syms by enum value }
if sym_count>=2 then
begin
p:=1;
while 2*p<sym_count do
p:=2*p;
while p<>0 do
begin
for h:=p to sym_count-1 do
begin
i:=h;
t:=syms[i];
o:=offsets[i];
repeat
if syms[i-p].value<=t.value then
break;
syms[i]:=syms[i-p];
offsets[i]:=offsets[i-p];
dec(i,p);
until i<p;
syms[i]:=t;
offsets[i]:=o;
end;
p:=p shr 1;
end;
end;
enumdef_rtti_ord2stringindex(sym_count,offsets,syms,st);
freemem(syms);
freemem(offsets);
end;
begin
case def.typ of
enumdef:
if rt=fullrtti then
begin
enumdef_rtti_extrasyms(Tenumdef(def));
end;
end;
end;
procedure TRTTIWriter.write_child_rtti_data(def:tdef;rt:trttitype);
begin
case def.typ of
enumdef :
if assigned(tenumdef(def).basedef) then
write_rtti(tenumdef(def).basedef,rt);
setdef :
write_rtti(tsetdef(def).elementdef,rt);
arraydef :
write_rtti(tarraydef(def).elementdef,rt);
recorddef :
fields_write_rtti(trecorddef(def).symtable,rt);
objectdef :
begin
if assigned(tobjectdef(def).childof) then
write_rtti(tobjectdef(def).childof,rt);
if (rt=initrtti) or (tobjectdef(def).objecttype=odt_object) then
fields_write_rtti(tobjectdef(def).symtable,rt)
else
published_write_rtti(tobjectdef(def).symtable,rt);
end;
end;
end;
function TRTTIWriter.ref_rtti(def:tdef;rt:trttitype):tasmsymbol;
begin
result:=current_asmdata.RefAsmSymbol(def.rtti_mangledname(rt));
end;
procedure TRTTIWriter.write_rtti(def:tdef;rt:trttitype);
var
rttilab : tasmsymbol;
begin
{ only write rtti of definitions from the current module }
if not findunitsymtable(def.owner).iscurrentunit then
exit;
{ prevent recursion }
if rttidefstate[rt] in def.defstates then
exit;
include(def.defstates,rttidefstate[rt]);
{ write first all dependencies }
write_child_rtti_data(def,rt);
{ write rtti data }
rttilab:=current_asmdata.DefineAsmSymbol(tstoreddef(def).rtti_mangledname(rt),AB_GLOBAL,AT_DATA);
maybe_new_object_file(current_asmdata.asmlists[al_rtti]);
new_section(current_asmdata.asmlists[al_rtti],sec_rodata,rttilab.name,const_align(sizeof(pint)));
current_asmdata.asmlists[al_rtti].concat(Tai_symbol.Create_global(rttilab,0));
write_rtti_data(def,rt);
current_asmdata.asmlists[al_rtti].concat(Tai_symbol_end.Create(rttilab));
write_rtti_extrasyms(def,rt,rttilab);
end;
function TRTTIWriter.get_rtti_label(def:tdef;rt:trttitype):tasmsymbol;
begin
result:=current_asmdata.RefAsmSymbol(def.rtti_mangledname(rt));
end;
function TRTTIWriter.get_rtti_label_ord2str(def:tdef;rt:trttitype):tasmsymbol;
begin
result:=current_asmdata.RefAsmSymbol(def.rtti_mangledname(rt)+'_o2s');
end;
function TRTTIWriter.get_rtti_label_str2ord(def:tdef;rt:trttitype):tasmsymbol;
begin
result:=current_asmdata.RefAsmSymbol(def.rtti_mangledname(rt)+'_s2o');
end;
end.
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