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{
Copyright (c) 1998-2002 by Florian Klaempfl
Reads typed constants
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 ptconst;
{$i fpcdefs.inc}
interface
uses symtype,symsym,aasmdata;
procedure read_typed_const(list:tasmlist;sym:tstaticvarsym;in_structure:boolean);
implementation
uses
SysUtils,
globtype,systems,tokens,verbose,constexp,
cclasses,cutils,globals,widestr,scanner,
symconst,symbase,symdef,symtable,
aasmbase,aasmtai,aasmcpu,defutil,defcmp,
{ pass 1 }
node,htypechk,procinfo,
nmat,nadd,ncal,nmem,nset,ncnv,ninl,ncon,nld,nflw,
{ parser specific stuff }
pbase,pexpr,pdecvar,
{ codegen }
cpuinfo,cgbase,dbgbase,
wpobase,asmutils
;
{$maxfpuregisters 0}
{*****************************************************************************
Bitpacked value helpers
*****************************************************************************}
type
tbitpackedval = record
curval, nextval: aword;
curbitoffset: smallint;
loadbitsize,packedbitsize: byte;
end;
procedure initbitpackval(out bp: tbitpackedval; packedbitsize: byte);
begin
bp.curval:=0;
bp.nextval:=0;
bp.curbitoffset:=0;
bp.packedbitsize:=packedbitsize;
bp.loadbitsize:=packedbitsloadsize(bp.packedbitsize)*8;
end;
{$push}
{$r-}
{$q-}
{ (values between quotes below refer to fields of bp; fields not }
{ mentioned are unused by this routine) }
{ bitpacks "value" as bitpacked value of bitsize "packedbitsize" into }
{ "curval", which has already been filled up to "curbitoffset", and }
{ stores the spillover if any into "nextval". It also updates }
{ curbitoffset to reflect how many bits of currval are now used (can be }
{ > AIntBits in case of spillover) }
procedure bitpackval(value: aword; var bp: tbitpackedval);
var
shiftcount: longint;
begin
if (target_info.endian=endian_big) then
begin
{ bitpacked format: left-aligned (i.e., "big endian bitness") }
bp.curval:=bp.curval or ((value shl (AIntBits-bp.packedbitsize)) shr bp.curbitoffset);
shiftcount:=((AIntBits-bp.packedbitsize)-bp.curbitoffset);
{ carry-over to the next element? }
if (shiftcount<0) then
bp.nextval:=(value and ((aword(1) shl (-shiftcount))-1)) shl
(AIntBits+shiftcount)
end
else
begin
{ bitpacked format: right aligned (i.e., "little endian bitness") }
bp.curval:=bp.curval or (value shl bp.curbitoffset);
{ carry-over to the next element? }
if (bp.curbitoffset+bp.packedbitsize>AIntBits) then
bp.nextval:=value shr (AIntBits-bp.curbitoffset)
end;
inc(bp.curbitoffset,bp.packedbitsize);
end;
{$pop}
procedure flush_packed_value(list: tasmlist; var bp: tbitpackedval);
var
bitstowrite: longint;
writeval : byte;
begin
if (bp.curbitoffset < AIntBits) then
begin
{ forced flush -> write multiple of loadsize }
bitstowrite:=align(bp.curbitoffset,bp.loadbitsize);
bp.curbitoffset:=0;
end
else
begin
bitstowrite:=AIntBits;
dec(bp.curbitoffset,AIntBits);
end;
while (bitstowrite>=8) do
begin
if (target_info.endian=endian_little) then
begin
{ write lowest byte }
writeval:=byte(bp.curval);
bp.curval:=bp.curval shr 8;
end
else
begin
{ write highest byte }
writeval:=bp.curval shr (AIntBits-8);
bp.curval:=(bp.curval and (not($ff shl (AIntBits-8)))) shl 8;
end;
list.concat(tai_const.create_8bit(writeval));
dec(bitstowrite,8);
end;
bp.curval:=bp.nextval;
bp.nextval:=0;
end;
{*****************************************************************************
read typed const
*****************************************************************************}
type
{ context used for parsing complex types (arrays/records/objects) }
threc = record
list : tasmlist;
origsym: tstaticvarsym;
offset: asizeint;
origblock: tblock_type;
end;
{ this procedure reads typed constants }
procedure read_typed_const_data(var hr:threc;def:tdef); forward;
procedure parse_orddef(list:tasmlist;def:torddef);
var
n : tnode;
intvalue : tconstexprint;
procedure do_error;
begin
if is_constnode(n) then
IncompatibleTypes(n.resultdef, def)
else
if not(parse_generic) then
Message(parser_e_illegal_expression);
end;
begin
n:=comp_expr(true,false);
{ for C-style booleans, true=-1 and false=0) }
if is_cbool(def) then
inserttypeconv(n,def);
case def.ordtype of
pasbool8,
bool8bit :
begin
if is_constboolnode(n) then
list.concat(Tai_const.Create_8bit(byte(tordconstnode(n).value.svalue)))
else
do_error;
end;
pasbool16,
bool16bit :
begin
if is_constboolnode(n) then
list.concat(Tai_const.Create_16bit(word(tordconstnode(n).value.svalue)))
else
do_error;
end;
pasbool32,
bool32bit :
begin
if is_constboolnode(n) then
list.concat(Tai_const.Create_32bit(longint(tordconstnode(n).value.svalue)))
else
do_error;
end;
pasbool64,
bool64bit :
begin
if is_constboolnode(n) then
list.concat(Tai_const.Create_64bit(int64(tordconstnode(n).value.svalue)))
else
do_error;
end;
uchar :
begin
if is_constwidecharnode(n) then
inserttypeconv(n,cchartype);
if is_constcharnode(n) or
((m_delphi in current_settings.modeswitches) and
is_constwidecharnode(n) and
(tordconstnode(n).value <= 255)) then
list.concat(Tai_const.Create_8bit(byte(tordconstnode(n).value.svalue)))
else
do_error;
end;
uwidechar :
begin
if is_constcharnode(n) then
inserttypeconv(n,cwidechartype);
if is_constwidecharnode(n) then
list.concat(Tai_const.Create_16bit(word(tordconstnode(n).value.svalue)))
else
do_error;
end;
s8bit,u8bit,
u16bit,s16bit,
s32bit,u32bit,
s64bit,u64bit :
begin
if is_constintnode(n) then
begin
testrange(def,tordconstnode(n).value,false,false);
case def.size of
1 :
list.concat(Tai_const.Create_8bit(byte(tordconstnode(n).value.svalue)));
2 :
list.concat(Tai_const.Create_16bit(word(tordconstnode(n).value.svalue)));
4 :
list.concat(Tai_const.Create_32bit(longint(tordconstnode(n).value.svalue)));
8 :
list.concat(Tai_const.Create_64bit(tordconstnode(n).value.svalue));
end;
end
else
do_error;
end;
scurrency:
begin
if is_constintnode(n) then
intvalue:=tordconstnode(n).value*10000
{ allow bootstrapping }
else if is_constrealnode(n) then
intvalue:=PInt64(@trealconstnode(n).value_currency)^
else
begin
intvalue:=0;
IncompatibleTypes(n.resultdef, def);
end;
list.concat(Tai_const.Create_64bit(intvalue));
end;
else
internalerror(200611052);
end;
n.free;
end;
procedure parse_floatdef(list:tasmlist;def:tfloatdef);
var
n : tnode;
value : bestreal;
begin
n:=comp_expr(true,false);
if is_constrealnode(n) then
value:=trealconstnode(n).value_real
else if is_constintnode(n) then
value:=tordconstnode(n).value
else if is_constnode(n) then
IncompatibleTypes(n.resultdef, def)
else
Message(parser_e_illegal_expression);
case def.floattype of
s32real :
list.concat(Tai_real_32bit.Create(ts32real(value)));
s64real :
{$ifdef ARM}
if is_double_hilo_swapped then
list.concat(Tai_real_64bit.Create_hiloswapped(ts64real(value)))
else
{$endif ARM}
list.concat(Tai_real_64bit.Create(ts64real(value)));
s80real :
list.concat(Tai_real_80bit.Create(value,s80floattype.size));
sc80real :
list.concat(Tai_real_80bit.Create(value,sc80floattype.size));
s64comp :
{ the round is necessary for native compilers where comp isn't a float }
list.concat(Tai_comp_64bit.Create(round(value)));
s64currency:
list.concat(Tai_comp_64bit.Create(round(value*10000)));
s128real:
list.concat(Tai_real_128bit.Create(value));
else
internalerror(200611053);
end;
n.free;
end;
procedure parse_classrefdef(list:tasmlist;def:tclassrefdef);
var
n : tnode;
begin
n:=comp_expr(true,false);
case n.nodetype of
loadvmtaddrn:
begin
if not Tobjectdef(tclassrefdef(n.resultdef).pointeddef).is_related(tobjectdef(def.pointeddef)) then
IncompatibleTypes(n.resultdef, def);
list.concat(Tai_const.Create_sym(current_asmdata.RefAsmSymbol(Tobjectdef(tclassrefdef(n.resultdef).pointeddef).vmt_mangledname)));
{ update wpo info }
if not assigned(current_procinfo) or
(po_inline in current_procinfo.procdef.procoptions) or
wpoinfomanager.symbol_live(current_procinfo.procdef.mangledname) then
tobjectdef(tclassrefdef(n.resultdef).pointeddef).register_maybe_created_object_type;
end;
niln:
list.concat(Tai_const.Create_sym(nil));
else if is_constnode(n) then
IncompatibleTypes(n.resultdef, def)
else
Message(parser_e_illegal_expression);
end;
n.free;
end;
procedure parse_pointerdef(list:tasmlist;def:tpointerdef);
var
hp,p : tnode;
srsym : tsym;
pd : tprocdef;
ca : pchar;
pw : pcompilerwidestring;
i,len : longint;
base,
offset : aint;
v : Tconstexprint;
ll : tasmlabel;
varalign : shortint;
begin
p:=comp_expr(true,false);
{ remove equal typecasts for pointer/nil addresses }
if (p.nodetype=typeconvn) then
with Ttypeconvnode(p) do
if (left.nodetype in [addrn,niln]) and equal_defs(def,p.resultdef) then
begin
hp:=left;
left:=nil;
p.free;
p:=hp;
end;
{ allows horrible ofs(typeof(TButton)^) code !! }
if (p.nodetype=addrn) then
with Taddrnode(p) do
if left.nodetype=derefn then
begin
hp:=tderefnode(left).left;
tderefnode(left).left:=nil;
p.free;
p:=hp;
end;
{ const pointer ? }
if (p.nodetype = pointerconstn) then
begin
{$if sizeof(TConstPtrUInt)=8}
list.concat(Tai_const.Create_64bit(int64(tpointerconstnode(p).value)));
{$else}
{$if sizeof(TConstPtrUInt)=4}
list.concat(Tai_const.Create_32bit(longint(tpointerconstnode(p).value)));
{$else}
internalerror(200404122);
{$endif} {$endif}
end
{ nil pointer ? }
else if p.nodetype=niln then
list.concat(Tai_const.Create_sym(nil))
{ maybe pchar ? }
else
if is_char(def.pointeddef) and
(p.nodetype<>addrn) then
begin
current_asmdata.getdatalabel(ll);
list.concat(Tai_const.Create_sym(ll));
if p.nodetype=stringconstn then
varalign:=size_2_align(tstringconstnode(p).len)
else
varalign:=0;
varalign:=const_align(varalign);
new_section(current_asmdata.asmlists[al_const], sec_rodata, ll.name, varalign);
current_asmdata.asmlists[al_const].concat(Tai_label.Create(ll));
if p.nodetype=stringconstn then
begin
len:=tstringconstnode(p).len;
{ For tp7 the maximum lentgh can be 255 }
if (m_tp7 in current_settings.modeswitches) and
(len>255) then
len:=255;
getmem(ca,len+2);
move(tstringconstnode(p).value_str^,ca^,len+1);
current_asmdata.asmlists[al_const].concat(Tai_string.Create_pchar(ca,len+1));
end
else
if is_constcharnode(p) then
current_asmdata.asmlists[al_const].concat(Tai_string.Create(char(byte(tordconstnode(p).value.svalue))+#0))
else
IncompatibleTypes(p.resultdef, def);
end
{ maybe pwidechar ? }
else
if is_widechar(def.pointeddef) and
(p.nodetype<>addrn) then
begin
current_asmdata.getdatalabel(ll);
list.concat(Tai_const.Create_sym(ll));
current_asmdata.asmlists[al_typedconsts].concat(tai_align.create(const_align(sizeof(pint))));
current_asmdata.asmlists[al_typedconsts].concat(Tai_label.Create(ll));
if (p.nodetype in [stringconstn,ordconstn]) then
begin
{ convert to unicodestring stringconstn }
inserttypeconv(p,cunicodestringtype);
if (p.nodetype=stringconstn) and
(tstringconstnode(p).cst_type in [cst_widestring,cst_unicodestring]) then
begin
pw:=pcompilerwidestring(tstringconstnode(p).value_str);
for i:=0 to tstringconstnode(p).len-1 do
current_asmdata.asmlists[al_typedconsts].concat(Tai_const.Create_16bit(pw^.data[i]));
{ ending #0 }
current_asmdata.asmlists[al_typedconsts].concat(Tai_const.Create_16bit(0))
end;
end
else
IncompatibleTypes(p.resultdef, def);
end
else
if (p.nodetype=addrn) or
is_proc2procvar_load(p,pd) then
begin
{ insert typeconv }
inserttypeconv(p,def);
hp:=p;
while assigned(hp) and (hp.nodetype in [addrn,typeconvn,subscriptn,vecn]) do
hp:=tunarynode(hp).left;
if (hp.nodetype=loadn) then
begin
hp:=p;
offset:=0;
while assigned(hp) and (hp.nodetype<>loadn) do
begin
case hp.nodetype of
vecn :
begin
case tvecnode(hp).left.resultdef.typ of
stringdef :
begin
{ this seems OK for shortstring and ansistrings PM }
{ it is wrong for widestrings !! }
len:=1;
base:=0;
end;
arraydef :
begin
if not is_packed_array(tvecnode(hp).left.resultdef) then
begin
len:=tarraydef(tvecnode(hp).left.resultdef).elesize;
base:=tarraydef(tvecnode(hp).left.resultdef).lowrange;
end
else
begin
Message(parser_e_packed_dynamic_open_array);
len:=1;
base:=0;
end;
end
else
Message(parser_e_illegal_expression);
end;
if is_constintnode(tvecnode(hp).right) then
begin
{Prevent overflow.}
v:=get_ordinal_value(tvecnode(hp).right)-base;
if (v<int64(low(offset))) or (v>int64(high(offset))) then
message3(type_e_range_check_error_bounds,tostr(v),tostr(low(offset)),tostr(high(offset)));
if high(offset)-offset div len>v then
inc(offset,len*v.svalue)
else
message3(type_e_range_check_error_bounds,tostr(v),'0',tostr(high(offset)-offset div len))
end
else
Message(parser_e_illegal_expression);
end;
subscriptn :
inc(offset,tsubscriptnode(hp).vs.fieldoffset);
typeconvn :
begin
if not(ttypeconvnode(hp).convtype in [tc_equal,tc_proc_2_procvar]) then
Message(parser_e_illegal_expression);
end;
addrn :
;
else
Message(parser_e_illegal_expression);
end;
hp:=tunarynode(hp).left;
end;
srsym:=tloadnode(hp).symtableentry;
case srsym.typ of
procsym :
begin
pd:=tprocdef(tprocsym(srsym).ProcdefList[0]);
if Tprocsym(srsym).ProcdefList.Count>1 then
Message(parser_e_no_overloaded_procvars);
if po_abstractmethod in pd.procoptions then
Message(type_e_cant_take_address_of_abstract_method)
else
list.concat(Tai_const.Createname(pd.mangledname,offset));
end;
staticvarsym :
list.concat(Tai_const.Createname(tstaticvarsym(srsym).mangledname,offset));
labelsym :
list.concat(Tai_const.Createname(tlabelsym(srsym).mangledname,offset));
constsym :
if tconstsym(srsym).consttyp=constresourcestring then
list.concat(Tai_const.Createname(make_mangledname('RESSTR',tconstsym(srsym).owner,tconstsym(srsym).name),sizeof(pint)))
else
Message(type_e_variable_id_expected);
else
Message(type_e_variable_id_expected);
end;
end
else
Message(parser_e_illegal_expression);
end
else
{ allow typeof(Object type)}
if (p.nodetype=inlinen) and
(tinlinenode(p).inlinenumber=in_typeof_x) then
begin
if (tinlinenode(p).left.nodetype=typen) then
begin
list.concat(Tai_const.createname(
tobjectdef(tinlinenode(p).left.resultdef).vmt_mangledname,0));
end
else
Message(parser_e_illegal_expression);
end
else
Message(parser_e_illegal_expression);
p.free;
end;
procedure parse_setdef(list:tasmlist;def:tsetdef);
type
setbytes = array[0..31] of byte;
Psetbytes = ^setbytes;
var
p : tnode;
i : longint;
begin
p:=comp_expr(true,false);
if p.nodetype=setconstn then
begin
{ be sure to convert to the correct result, else
it can generate smallset data instead of normalset (PFV) }
inserttypeconv(p,def);
{ we only allow const sets }
if (p.nodetype<>setconstn) or
assigned(tsetconstnode(p).left) then
Message(parser_e_illegal_expression)
else
begin
tsetconstnode(p).adjustforsetbase;
{ this writing is endian-dependant }
if source_info.endian = target_info.endian then
begin
for i:=0 to p.resultdef.size-1 do
list.concat(tai_const.create_8bit(Psetbytes(tsetconstnode(p).value_set)^[i]));
end
else
begin
for i:=0 to p.resultdef.size-1 do
list.concat(tai_const.create_8bit(reverse_byte(Psetbytes(tsetconstnode(p).value_set)^[i])));
end;
end;
end
else
Message(parser_e_illegal_expression);
p.free;
end;
procedure parse_enumdef(list:tasmlist;def:tenumdef);
var
p : tnode;
begin
p:=comp_expr(true,false);
if p.nodetype=ordconstn then
begin
if equal_defs(p.resultdef,def) or
is_subequal(p.resultdef,def) then
begin
case longint(p.resultdef.size) of
1 : list.concat(Tai_const.Create_8bit(Byte(tordconstnode(p).value.svalue)));
2 : list.concat(Tai_const.Create_16bit(Word(tordconstnode(p).value.svalue)));
4 : list.concat(Tai_const.Create_32bit(Longint(tordconstnode(p).value.svalue)));
end;
end
else
IncompatibleTypes(p.resultdef,def);
end
else
Message(parser_e_illegal_expression);
p.free;
end;
procedure parse_stringdef(const hr:threc;def:tstringdef);
var
n : tnode;
strlength : aint;
strval : pchar;
strch : char;
ll : tasmlabel;
ca : pchar;
winlike : boolean;
hsym : tconstsym;
begin
n:=comp_expr(true,false);
{ load strval and strlength of the constant tree }
if (n.nodetype=stringconstn) or is_wide_or_unicode_string(def) or is_constwidecharnode(n) or
((n.nodetype=typen) and is_interfacecorba(ttypenode(n).typedef)) then
begin
{ convert to the expected string type so that
for widestrings strval is a pcompilerwidestring }
inserttypeconv(n,def);
if (not codegenerror) and
(n.nodetype=stringconstn) then
begin
strlength:=tstringconstnode(n).len;
strval:=tstringconstnode(n).value_str;
end
else
begin
{ an error occurred trying to convert the result to a string }
strlength:=-1;
{ it's possible that the type conversion could not be
evaluated at compile-time }
if not codegenerror then
CGMessage(parser_e_widestring_to_ansi_compile_time);
end;
end
else if is_constcharnode(n) then
begin
{ strval:=pchar(@tordconstnode(n).value);
THIS FAIL on BIG_ENDIAN MACHINES PM }
strch:=chr(tordconstnode(n).value.svalue and $ff);
strval:=@strch;
strlength:=1
end
else if is_constresourcestringnode(n) then
begin
hsym:=tconstsym(tloadnode(n).symtableentry);
strval:=pchar(hsym.value.valueptr);
strlength:=hsym.value.len;
{ Delphi-compatible (mis)feature:
Link AnsiString constants to their initializing resourcestring,
enabling them to be (re)translated at runtime.
Wide/UnicodeString are currently rejected above (with incorrect error message).
ShortStrings cannot be handled unless another table is built for them;
considering this acceptable, because Delphi rejects them altogether.
}
if (not is_shortstring(def)) and
((hr.origsym.owner.symtablelevel<=main_program_level) or
(hr.origblock=bt_const)) then
begin
current_asmdata.ResStrInits.Concat(
TTCInitItem.Create(hr.origsym,hr.offset,
current_asmdata.RefAsmSymbol(make_mangledname('RESSTR',hsym.owner,hsym.name)))
);
Include(hr.origsym.varoptions,vo_force_finalize);
end;
end
else
begin
Message(parser_e_illegal_expression);
strlength:=-1;
end;
if strlength>=0 then
begin
case def.stringtype of
st_shortstring:
begin
if strlength>=def.size then
begin
message2(parser_w_string_too_long,strpas(strval),tostr(def.size-1));
strlength:=def.size-1;
end;
hr.list.concat(Tai_const.Create_8bit(strlength));
{ this can also handle longer strings }
getmem(ca,strlength+1);
move(strval^,ca^,strlength);
ca[strlength]:=#0;
hr.list.concat(Tai_string.Create_pchar(ca,strlength));
{ fillup with spaces if size is shorter }
if def.size>strlength then
begin
getmem(ca,def.size-strlength);
{ def.size contains also the leading length, so we }
{ we have to subtract one }
fillchar(ca[0],def.size-strlength-1,' ');
ca[def.size-strlength-1]:=#0;
{ this can also handle longer strings }
hr.list.concat(Tai_string.Create_pchar(ca,def.size-strlength-1));
end;
end;
st_ansistring:
begin
{ an empty ansi string is nil! }
if (strlength=0) then
ll := nil
else
ll := emit_ansistring_const(current_asmdata.asmlists[al_const],strval,strlength,def.encoding);
hr.list.concat(Tai_const.Create_sym(ll));
end;
st_unicodestring,
st_widestring:
begin
{ an empty wide/unicode string is nil! }
if (strlength=0) then
ll := nil
else
begin
winlike := (def.stringtype=st_widestring) and (tf_winlikewidestring in target_info.flags);
ll := emit_unicodestring_const(current_asmdata.asmlists[al_const],
strval,
def.encoding,
winlike);
{ Collect Windows widestrings that need initialization at startup.
Local initialized vars are excluded because they are initialized
at function entry instead. }
if winlike and ((hr.origsym.owner.symtablelevel <= main_program_level) or
(hr.origblock=bt_const)) then
begin
current_asmdata.WideInits.Concat(
TTCInitItem.Create(hr.origsym, hr.offset, ll)
);
ll := nil;
Include(hr.origsym.varoptions, vo_force_finalize);
end;
end;
hr.list.concat(Tai_const.Create_sym(ll));
end;
else
internalerror(200107081);
end;
end;
n.free;
end;
{ parse a single constant and add it to the packed const info }
{ represented by curval etc (see explanation of bitpackval for }
{ what the different parameters mean) }
function parse_single_packed_const(list: tasmlist; def: tdef; var bp: tbitpackedval): boolean;
var
n : tnode;
begin
result:=true;
n:=comp_expr(true,false);
if (n.nodetype <> ordconstn) or
(not equal_defs(n.resultdef,def) and
not is_subequal(n.resultdef,def)) then
begin
n.free;
incompatibletypes(n.resultdef,def);
consume_all_until(_SEMICOLON);
result:=false;
exit;
end;
if (Tordconstnode(n).value<qword(low(Aword))) or (Tordconstnode(n).value>qword(high(Aword))) then
message3(type_e_range_check_error_bounds,tostr(Tordconstnode(n).value),tostr(low(Aword)),tostr(high(Aword)))
else
bitpackval(Tordconstnode(n).value.uvalue,bp);
if (bp.curbitoffset>=AIntBits) then
flush_packed_value(list,bp);
n.free;
end;
{ parses a packed array constant }
procedure parse_packed_array_def(list: tasmlist; def: tarraydef);
var
i : aint;
bp : tbitpackedval;
begin
if not(def.elementdef.typ in [orddef,enumdef]) then
internalerror(2007022010);
{ begin of the array }
consume(_LKLAMMER);
initbitpackval(bp,def.elepackedbitsize);
i:=def.lowrange;
{ can't use for-loop, fails when cross-compiling from }
{ 32 to 64 bit because i is then 64 bit }
while (i<def.highrange) do
begin
{ get next item of the packed array }
if not parse_single_packed_const(list,def.elementdef,bp) then
exit;
consume(_COMMA);
inc(i);
end;
{ final item }
if not parse_single_packed_const(list,def.elementdef,bp) then
exit;
{ flush final incomplete value if necessary }
if (bp.curbitoffset <> 0) then
flush_packed_value(list,bp);
consume(_RKLAMMER);
end;
procedure parse_arraydef(hr:threc;def:tarraydef);
var
n : tnode;
i : longint;
len : asizeint;
ch : array[0..1] of char;
ca : pbyte;
int_const: tai_const;
char_size: integer;
begin
{ dynamic array nil }
if is_dynamic_array(def) then
begin
{ Only allow nil initialization }
consume(_NIL);
hr.list.concat(Tai_const.Create_sym(nil));
end
{ packed array constant }
else if is_packed_array(def) and
((def.elepackedbitsize mod 8 <> 0) or
not ispowerof2(def.elepackedbitsize div 8,i)) then
begin
parse_packed_array_def(hr.list,def);
end
{ normal array const between brackets }
else if try_to_consume(_LKLAMMER) then
begin
hr.offset:=0;
for i:=def.lowrange to def.highrange-1 do
begin
read_typed_const_data(hr,def.elementdef);
Inc(hr.offset,def.elementdef.size);
if token=_RKLAMMER then
begin
Message1(parser_e_more_array_elements_expected,tostr(def.highrange-i));
consume(_RKLAMMER);
exit;
end
else
consume(_COMMA);
end;
read_typed_const_data(hr,def.elementdef);
consume(_RKLAMMER);
end
{ if array of char then we allow also a string }
else if is_anychar(def.elementdef) then
begin
char_size:=def.elementdef.size;
n:=comp_expr(true,false);
if n.nodetype=stringconstn then
begin
len:=tstringconstnode(n).len;
case char_size of
1:
begin
if (tstringconstnode(n).cst_type in [cst_unicodestring,cst_widestring]) then
inserttypeconv(n,getansistringdef);
if n.nodetype<>stringconstn then
internalerror(2010033003);
ca:=pointer(tstringconstnode(n).value_str);
end;
2:
begin
inserttypeconv(n,cunicodestringtype);
if n.nodetype<>stringconstn then
internalerror(2010033003);
ca:=pointer(pcompilerwidestring(tstringconstnode(n).value_str)^.data)
end;
else
internalerror(2010033005);
end;
{ For tp7 the maximum lentgh can be 255 }
if (m_tp7 in current_settings.modeswitches) and
(len>255) then
len:=255;
end
else if is_constcharnode(n) then
begin
case char_size of
1:
ch[0]:=chr(tordconstnode(n).value.uvalue and $ff);
2:
begin
inserttypeconv(n,cwidechartype);
if not is_constwidecharnode(n) then
internalerror(2010033001);
widechar(ch):=widechar(tordconstnode(n).value.uvalue and $ffff);
end;
else
internalerror(2010033002);
end;
ca:=@ch;
len:=1;
end
else if is_constwidecharnode(n) and (current_settings.sourcecodepage<>CP_UTF8) then
begin
case char_size of
1:
begin
inserttypeconv(n,cchartype);
if not is_constcharnode(n) then
internalerror(2010033001);
ch[0]:=chr(tordconstnode(n).value.uvalue and $ff);
end;
2:
widechar(ch):=widechar(tordconstnode(n).value.uvalue and $ffff);
else
internalerror(2010033002);
end;
ca:=@ch;
len:=1;
end
else
begin
Message(parser_e_illegal_expression);
len:=0;
end;
if len>(def.highrange-def.lowrange+1) then
Message(parser_e_string_larger_array);
for i:=0 to def.highrange-def.lowrange do
begin
if i<len then
begin
case char_size of
1:
int_const:=Tai_const.Create_char(char_size,pbyte(ca)^);
2:
int_const:=Tai_const.Create_char(char_size,pword(ca)^);
else
internalerror(2010033004);
end;
inc(ca, char_size);
end
else
{Fill the remaining positions with #0.}
int_const:=Tai_const.Create_char(char_size,0);
hr.list.concat(int_const)
end;
n.free;
end
else
begin
{ we want the ( }
consume(_LKLAMMER);
end;
end;
procedure parse_procvardef(list:tasmlist;def:tprocvardef);
var
tmpn,n : tnode;
pd : tprocdef;
begin
{ Procvars and pointers are no longer compatible. }
{ under tp: =nil or =var under fpc: =nil or =@var }
if try_to_consume(_NIL) then
begin
list.concat(Tai_const.Create_sym(nil));
if not def.is_addressonly then
list.concat(Tai_const.Create_sym(nil));
exit;
end;
{ you can't assign a value other than NIL to a typed constant }
{ which is a "procedure of object", because this also requires }
{ address of an object/class instance, which is not known at }
{ compile time (JM) }
if (po_methodpointer in def.procoptions) then
Message(parser_e_no_procvarobj_const);
{ parse the rest too, so we can continue with error checking }
getprocvardef:=def;
n:=comp_expr(true,false);
getprocvardef:=nil;
if codegenerror then
begin
n.free;
exit;
end;
{ let type conversion check everything needed }
inserttypeconv(n,def);
if codegenerror then
begin
n.free;
exit;
end;
{ remove typeconvs, that will normally insert a lea
instruction which is not necessary for us }
while n.nodetype=typeconvn do
begin
tmpn:=ttypeconvnode(n).left;
ttypeconvnode(n).left:=nil;
n.free;
n:=tmpn;
end;
{ remove addrn which we also don't need here }
if n.nodetype=addrn then
begin
tmpn:=taddrnode(n).left;
taddrnode(n).left:=nil;
n.free;
n:=tmpn;
end;
{ we now need to have a loadn with a procsym }
if (n.nodetype=loadn) and
(tloadnode(n).symtableentry.typ=procsym) then
begin
pd:=tloadnode(n).procdef;
list.concat(Tai_const.createname(pd.mangledname,0));
{ nested procvar typed consts can only be initialised with nil
(checked above) or with a global procedure (checked here),
because in other cases we need a valid frame pointer }
if is_nested_pd(def) then
begin
if is_nested_pd(pd) then
Message(parser_e_no_procvarnested_const);
list.concat(Tai_const.Create_sym(nil));
end
end
else
Message(parser_e_illegal_expression);
n.free;
end;
procedure parse_recorddef(hr:threc;def:trecorddef);
var
n : tnode;
symidx : longint;
recsym,
srsym : tsym;
hs : string;
sorg,s : TIDString;
tmpguid : tguid;
curroffset,
fillbytes : aint;
bp : tbitpackedval;
error,
is_packed: boolean;
startoffset: aint;
procedure handle_stringconstn;
var
i : longint;
begin
hs:=strpas(tstringconstnode(n).value_str);
if string2guid(hs,tmpguid) then
begin
hr.list.concat(Tai_const.Create_32bit(longint(tmpguid.D1)));
hr.list.concat(Tai_const.Create_16bit(tmpguid.D2));
hr.list.concat(Tai_const.Create_16bit(tmpguid.D3));
for i:=Low(tmpguid.D4) to High(tmpguid.D4) do
hr.list.concat(Tai_const.Create_8bit(tmpguid.D4[i]));
end
else
Message(parser_e_improper_guid_syntax);
end;
function get_next_varsym(const SymList:TFPHashObjectList; var symidx:longint):tsym;inline;
begin
while symidx<SymList.Count do
begin
result:=tsym(def.symtable.SymList[symidx]);
inc(symidx);
if result.typ=fieldvarsym then
exit;
end;
result:=nil;
end;
var
i : longint;
SymList:TFPHashObjectList;
begin
{ GUID }
if (def=rec_tguid) and (token=_ID) then
begin
n:=comp_expr(true,false);
if n.nodetype=stringconstn then
handle_stringconstn
else
begin
inserttypeconv(n,rec_tguid);
if n.nodetype=guidconstn then
begin
tmpguid:=tguidconstnode(n).value;
hr.list.concat(Tai_const.Create_32bit(longint(tmpguid.D1)));
hr.list.concat(Tai_const.Create_16bit(tmpguid.D2));
hr.list.concat(Tai_const.Create_16bit(tmpguid.D3));
for i:=Low(tmpguid.D4) to High(tmpguid.D4) do
hr.list.concat(Tai_const.Create_8bit(tmpguid.D4[i]));
end
else
Message(parser_e_illegal_expression);
end;
n.free;
exit;
end;
if (def=rec_tguid) and ((token=_CSTRING) or (token=_CCHAR)) then
begin
n:=comp_expr(true,false);
inserttypeconv(n,cshortstringtype);
if n.nodetype=stringconstn then
handle_stringconstn
else
Message(parser_e_illegal_expression);
n.free;
exit;
end;
{ bitpacked record? }
is_packed:=is_packed_record_or_object(def);
if (is_packed) then
begin
{ loadbitsize = 8, bitpacked records are always padded to }
{ a multiple of a byte. packedbitsize will be set separately }
{ for each field }
initbitpackval(bp,0);
bp.loadbitsize:=8;
end;
{ normal record }
consume(_LKLAMMER);
curroffset:=0;
sorg:='';
symidx:=0;
symlist:=def.symtable.SymList;
srsym:=get_next_varsym(symlist,symidx);
recsym := nil;
startoffset:=hr.offset;
while token<>_RKLAMMER do
begin
s:=pattern;
sorg:=orgpattern;
consume(_ID);
consume(_COLON);
error := false;
recsym := tsym(def.symtable.Find(s));
if not assigned(recsym) then
begin
Message1(sym_e_illegal_field,sorg);
error := true;
end;
if (not error) and
(not assigned(srsym) or
(s <> srsym.name)) then
{ possible variant record (JM) }
begin
{ All parts of a variant start at the same offset }
{ Also allow jumping from one variant part to another, }
{ as long as the offsets match }
if (assigned(srsym) and
(tfieldvarsym(recsym).fieldoffset = tfieldvarsym(srsym).fieldoffset)) or
{ srsym is not assigned after parsing w2 in the }
{ typed const in the next example: }
{ type tr = record case byte of }
{ 1: (l1,l2: dword); }
{ 2: (w1,w2: word); }
{ end; }
{ const r: tr = (w1:1;w2:1;l2:5); }
(tfieldvarsym(recsym).fieldoffset = curroffset) then
begin
srsym:=recsym;
{ symidx should contain the next symbol id to search }
symidx:=SymList.indexof(srsym)+1;
end
{ going backwards isn't allowed in any mode }
else if (tfieldvarsym(recsym).fieldoffset<curroffset) then
begin
Message(parser_e_invalid_record_const);
error := true;
end
{ Delphi allows you to skip fields }
else if (m_delphi in current_settings.modeswitches) then
begin
Message1(parser_w_skipped_fields_before,sorg);
srsym := recsym;
end
{ FPC and TP don't }
else
begin
Message1(parser_e_skipped_fields_before,sorg);
error := true;
end;
end;
if error then
consume_all_until(_SEMICOLON)
else
begin
{ if needed fill (alignment) }
if tfieldvarsym(srsym).fieldoffset>curroffset then
begin
if not(is_packed) then
fillbytes:=tfieldvarsym(srsym).fieldoffset-curroffset
else
begin
flush_packed_value(hr.list,bp);
{ curoffset is now aligned to the next byte }
curroffset:=align(curroffset,8);
{ offsets are in bits in this case }
fillbytes:=(tfieldvarsym(srsym).fieldoffset-curroffset) div 8;
end;
for i:=1 to fillbytes do
hr.list.concat(Tai_const.Create_8bit(0))
end;
{ new position }
curroffset:=tfieldvarsym(srsym).fieldoffset;
if not(is_packed) then
inc(curroffset,tfieldvarsym(srsym).vardef.size)
else
inc(curroffset,tfieldvarsym(srsym).vardef.packedbitsize);
{ read the data }
if not(is_packed) or
{ only orddefs and enumdefs are bitpacked, as in gcc/gpc }
not(tfieldvarsym(srsym).vardef.typ in [orddef,enumdef]) then
begin
if is_packed then
begin
flush_packed_value(hr.list,bp);
curroffset:=align(curroffset,8);
end;
hr.offset:=startoffset+tfieldvarsym(srsym).fieldoffset;
read_typed_const_data(hr,tfieldvarsym(srsym).vardef);
end
else
begin
bp.packedbitsize:=tfieldvarsym(srsym).vardef.packedbitsize;
parse_single_packed_const(hr.list,tfieldvarsym(srsym).vardef,bp);
end;
{ keep previous field for checking whether whole }
{ record was initialized (JM) }
recsym := srsym;
{ goto next field }
srsym:=get_next_varsym(SymList,symidx);
if token=_SEMICOLON then
consume(_SEMICOLON)
else if (token=_COMMA) and (m_mac in current_settings.modeswitches) then
consume(_COMMA)
else
break;
end;
end;
{ are there any fields left, but don't complain if there only
come other variant parts after the last initialized field }
if assigned(srsym) and
(
(recsym=nil) or
(tfieldvarsym(srsym).fieldoffset > tfieldvarsym(recsym).fieldoffset)
) then
Message1(parser_w_skipped_fields_after,sorg);
if not(is_packed) then
fillbytes:=def.size-curroffset
else
begin
flush_packed_value(hr.list,bp);
curroffset:=align(curroffset,8);
fillbytes:=def.size-(curroffset div 8);
end;
for i:=1 to fillbytes do
hr.list.concat(Tai_const.Create_8bit(0));
consume(_RKLAMMER);
end;
{ note: hr is passed by value }
procedure parse_objectdef(hr:threc;def:tobjectdef);
var
n : tnode;
i : longint;
obj : tobjectdef;
srsym : tsym;
st : tsymtable;
curroffset : aint;
s,sorg : TIDString;
vmtwritten : boolean;
startoffset:aint;
begin
{ no support for packed object }
if is_packed_record_or_object(def) then
begin
Message(type_e_no_const_packed_record);
exit;
end;
{ only allow nil for implicit pointer object types }
if is_implicit_pointer_object_type(def) then
begin
n:=comp_expr(true,false);
if n.nodetype<>niln then
begin
Message(parser_e_type_const_not_possible);
consume_all_until(_SEMICOLON);
end
else
hr.list.concat(Tai_const.Create_sym(nil));
n.free;
exit;
end;
{ for objects we allow it only if it doesn't contain a vmt }
if (oo_has_vmt in def.objectoptions) and
(m_fpc in current_settings.modeswitches) then
begin
Message(parser_e_type_object_constants);
exit;
end;
consume(_LKLAMMER);
startoffset:=hr.offset;
curroffset:=0;
vmtwritten:=false;
while token<>_RKLAMMER do
begin
s:=pattern;
sorg:=orgpattern;
consume(_ID);
consume(_COLON);
srsym:=nil;
obj:=tobjectdef(def);
st:=obj.symtable;
while (srsym=nil) and assigned(st) do
begin
srsym:=tsym(st.Find(s));
if assigned(obj) then
obj:=obj.childof;
if assigned(obj) then
st:=obj.symtable
else
st:=nil;
end;
if (srsym=nil) or
(srsym.typ<>fieldvarsym) then
begin
if (srsym=nil) then
Message1(sym_e_id_not_found,sorg)
else
Message1(sym_e_illegal_field,sorg);
consume_all_until(_RKLAMMER);
break;
end
else
with tfieldvarsym(srsym) do
begin
{ check position }
if fieldoffset<curroffset then
message(parser_e_invalid_record_const);
{ check in VMT needs to be added for TP mode }
if not(vmtwritten) and
not(m_fpc in current_settings.modeswitches) and
(oo_has_vmt in def.objectoptions) and
(def.vmt_offset<fieldoffset) then
begin
for i:=1 to def.vmt_offset-curroffset do
hr.list.concat(tai_const.create_8bit(0));
hr.list.concat(tai_const.createname(def.vmt_mangledname,0));
{ this is more general }
curroffset:=def.vmt_offset + sizeof(pint);
vmtwritten:=true;
end;
{ if needed fill }
if fieldoffset>curroffset then
for i:=1 to fieldoffset-curroffset do
hr.list.concat(Tai_const.Create_8bit(0));
{ new position }
curroffset:=fieldoffset+vardef.size;
{ read the data }
hr.offset:=startoffset+fieldoffset;
read_typed_const_data(hr,vardef);
if not try_to_consume(_SEMICOLON) then
break;
end;
end;
if not(m_fpc in current_settings.modeswitches) and
(oo_has_vmt in def.objectoptions) and
(def.vmt_offset>=curroffset) then
begin
for i:=1 to def.vmt_offset-curroffset do
hr.list.concat(tai_const.create_8bit(0));
hr.list.concat(tai_const.createname(def.vmt_mangledname,0));
{ this is more general }
curroffset:=def.vmt_offset + sizeof(pint);
end;
for i:=1 to def.size-curroffset do
hr.list.concat(Tai_const.Create_8bit(0));
consume(_RKLAMMER);
end;
procedure read_typed_const_data(var hr:threc;def:tdef);
var
old_block_type : tblock_type;
begin
old_block_type:=block_type;
block_type:=bt_const;
case def.typ of
orddef :
parse_orddef(hr.list,torddef(def));
floatdef :
parse_floatdef(hr.list,tfloatdef(def));
classrefdef :
parse_classrefdef(hr.list,tclassrefdef(def));
pointerdef :
parse_pointerdef(hr.list,tpointerdef(def));
setdef :
parse_setdef(hr.list,tsetdef(def));
enumdef :
parse_enumdef(hr.list,tenumdef(def));
stringdef :
parse_stringdef(hr,tstringdef(def));
arraydef :
parse_arraydef(hr,tarraydef(def));
procvardef:
parse_procvardef(hr.list,tprocvardef(def));
recorddef:
parse_recorddef(hr,trecorddef(def));
objectdef:
parse_objectdef(hr,tobjectdef(def));
errordef:
begin
{ try to consume something useful }
if token=_LKLAMMER then
consume_all_until(_RKLAMMER)
else
consume_all_until(_SEMICOLON);
end;
else
Message(parser_e_type_const_not_possible);
end;
block_type:=old_block_type;
end;
{$maxfpuregisters default}
procedure read_typed_const(list:tasmlist;sym:tstaticvarsym;in_structure:boolean);
var
storefilepos : tfileposinfo;
cursectype : TAsmSectionType;
hrec : threc;
section : ansistring;
begin
{ mark the staticvarsym as typedconst }
include(sym.varoptions,vo_is_typed_const);
{ The variable has a value assigned }
sym.varstate:=vs_initialised;
{ the variable can't be placed in a register }
sym.varregable:=vr_none;
{ generate data for typed const }
storefilepos:=current_filepos;
current_filepos:=sym.fileinfo;
if sym.varspez=vs_const then
cursectype:=sec_rodata
else
cursectype:=sec_data;
maybe_new_object_file(list);
hrec.list:=tasmlist.create;
hrec.origsym:=sym;
hrec.offset:=0;
hrec.origblock:=block_type;
read_typed_const_data(hrec,sym.vardef);
{ Parse hints }
try_consume_hintdirective(sym.symoptions,sym.deprecatedmsg);
consume(_SEMICOLON);
{ parse public/external/export/... }
if not in_structure and
(
(
(token = _ID) and
(idtoken in [_EXPORT,_EXTERNAL,_WEAKEXTERNAL,_PUBLIC,_CVAR]) and
(m_cvar_support in current_settings.modeswitches)
) or
(
(m_mac in current_settings.modeswitches) and
(
(cs_external_var in current_settings.localswitches) or
(cs_externally_visible in current_settings.localswitches)
)
)
) then
read_public_and_external(sym);
{ try to parse a section directive }
if not in_structure and (target_info.system in systems_allow_section) and
(symtablestack.top.symtabletype in [staticsymtable,globalsymtable]) and
(idtoken=_SECTION) then
begin
try_consume_sectiondirective(section);
if section<>'' then
begin
if (sym.varoptions *[vo_is_external,vo_is_weak_external])<>[] then
Message(parser_e_externals_no_section);
if sym.typ<>staticvarsym then
Message(parser_e_section_no_locals);
tstaticvarsym(sym).section:=section;
include(sym.varoptions, vo_has_section);
end;
end;
{ only now add items based on the symbolname, because it may }
{ have been modified by the directives parsed above }
if vo_has_section in sym.varoptions then
new_section(list,sec_user,sym.section,const_align(sym.vardef.alignment))
else
new_section(list,cursectype,lower(sym.mangledname),const_align(sym.vardef.alignment));
if (sym.owner.symtabletype=globalsymtable) or
create_smartlink or
(assigned(current_procinfo) and
(po_inline in current_procinfo.procdef.procoptions)) or
DLLSource then
begin
{ see same code in ncgutil.insertbssdata }
if (target_dbg.id=dbg_stabx) and
(cs_debuginfo in current_settings.moduleswitches) and
not assigned(current_asmdata.GetAsmSymbol(sym.name)) then
begin
list.concat(tai_symbol.Create(current_asmdata.DefineAsmSymbol(sym.name,AB_LOCAL,AT_DATA),0));
list.concat(tai_directive.Create(asd_reference,sym.name));
end;
list.concat(Tai_symbol.Createname_global(sym.mangledname,AT_DATA,0))
end
else
list.concat(Tai_symbol.Createname(sym.mangledname,AT_DATA,0));
{ add the parsed value }
list.concatlist(hrec.list);
hrec.list.free;
list.concat(tai_symbol_end.Createname(sym.mangledname));
current_filepos:=storefilepos;
end;
end.
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