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|
{
Copyright (c) 1998-2002 by Florian Klaempfl
Generate assembler for nodes that handle loads and assignments which
are the same for all (most) processors
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 ncgld;
{$i fpcdefs.inc}
interface
uses
globtype,
symtype,symsym,
aasmdata,
node,nld,cgutils;
type
tcgloadnode = class(tloadnode)
protected
procedure generate_nested_access(vs: tsym);virtual;
procedure generate_absaddr_access(vs: tabsolutevarsym); virtual;
procedure generate_threadvar_access(gvs: tstaticvarsym); virtual;
function use_indirect_symbol(gvs: tstaticvarsym): boolean;
public
procedure pass_generate_code;override;
procedure changereflocation(const ref: treference);
end;
tcgassignmentnode = class(tassignmentnode)
protected
function maybechangetemp(list: TAsmList; var n: tnode; const newref: treference): boolean;virtual;
public
procedure pass_generate_code;override;
end;
tcgarrayconstructornode = class(tarrayconstructornode)
protected
procedure makearrayref(var ref: treference; eledef: tdef);virtual;
procedure advancearrayoffset(var ref: treference; elesize: asizeint);virtual;
public
procedure pass_generate_code;override;
end;
tcgrttinode = class(trttinode)
procedure pass_generate_code;override;
end;
implementation
uses
cutils,
systems,
verbose,globals,constexp,fmodule,
nutils,
symtable,symconst,symdef,defutil,paramgr,ncon,nbas,ncgrtti,
aasmbase,
cgbase,pass_2,
procinfo,
cpuinfo,
cpubase,parabase,
tgobj,
cgobj,hlcgobj,
ncgbas,ncgflw,
wpobase;
{*****************************************************************************
SSA (for memory temps) support
*****************************************************************************}
type
preplacerefrec = ^treplacerefrec;
treplacerefrec = record
old, new: preference;
ressym: tsym;
end;
function doreplaceref(var n: tnode; para: pointer): foreachnoderesult;
var
rr: preplacerefrec absolute para;
begin
result := fen_false;
case n.nodetype of
loadn:
begin
{ regular variable }
if (tabstractvarsym(tloadnode(n).symtableentry).varoptions * [vo_is_dll_var, vo_is_thread_var] = []) and
not assigned(tloadnode(n).left) and
{ not function result, or no exit in function }
(((tloadnode(n).symtableentry <> rr^.ressym) and
not(vo_is_funcret in tabstractvarsym(tloadnode(n).symtableentry).varoptions)) or
not(fc_exit in flowcontrol)) and
{ stored in memory... }
(tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.loc in [LOC_REFERENCE]) and
{ ... at the place we are looking for }
references_equal(tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.reference,rr^.old^) and
{ its address cannot have escaped the current routine }
not(tabstractvarsym(tloadnode(n).symtableentry).addr_taken) and
{ it is not accessed in nested procedures }
not(tabstractvarsym(tloadnode(n).symtableentry).different_scope) then
begin
{ relocate variable }
tcgloadnode(n).changereflocation(rr^.new^);
result := fen_norecurse_true;
end;
end;
temprefn:
begin
if (ti_valid in ttemprefnode(n).tempflags) and
{ memory temp... }
(ttemprefnode(n).tempinfo^.location.loc in [LOC_REFERENCE]) and
{ ... at the place we are looking for }
references_equal(ttemprefnode(n).tempinfo^.location.reference,rr^.old^) and
{ its address cannot have escaped the current routine }
not(ti_addr_taken in ttemprefnode(n).tempflags) then
begin
{ relocate the temp }
tcgtemprefnode(n).changelocation(rr^.new^);
result := fen_norecurse_true;
end;
end;
{ Subscriptn must be rejected, otherwise we may replace an
an entire record with a temp for its first field, mantis #13948)
Exception: the field's size is the same as the entire record
The same goes for array indexing
}
subscriptn,
vecn:
if not(tunarynode(n).left.resultdef.typ in [recorddef,objectdef,arraydef,stringdef]) or
{ make sure we don't try to call resultdef.size for types that
don't have a compile-time size such as open arrays }
is_special_array(tunarynode(n).left.resultdef) or
(tunarynode(n).left.resultdef.size<>tunarynode(n).resultdef.size) then
result := fen_norecurse_false;
{ optimize the searching a bit }
derefn,addrn,
calln,inlinen,casen,
addn,subn,muln,
andn,orn,xorn,
ltn,lten,gtn,gten,equaln,unequaln,
slashn,divn,shrn,shln,notn,
inn,
asn,isn:
result := fen_norecurse_false;
else
;
end;
end;
function tcgassignmentnode.maybechangetemp(list: TAsmList; var n: tnode; const newref: treference): boolean;
var
rr: treplacerefrec;
begin
result := false;
{ only do for -O2 or higher (breaks debugging since }
{ variables move to different memory locations) }
if not(cs_opt_level2 in current_settings.optimizerswitches) or
{ must be a copy to a memory location ... }
(n.location.loc <> LOC_REFERENCE) or
{ not inside a control flow statement and no goto's in sight }
([fc_inflowcontrol,fc_gotolabel] * flowcontrol <> []) or
{ not for refcounted types, because those locations are }
{ still used later on in initialisation/finalisation code }
is_managed_type(n.resultdef) or
{ source and destination are temps (= not global variables) }
{ and both point to the start of a temp, and the source is a }
{ non-persistent temp (otherwise we need some kind of copy- }
{ on-write support in case later on both are still used) }
not tg.isstartoftemp(newref) or
not tg.isstartoftemp(n.location.reference) or
(tg.gettypeoftemp(newref) <> tt_normal) or
not (tg.gettypeoftemp(n.location.reference) in [tt_normal,tt_persistent]) or
{ and both have the same size }
(tg.sizeoftemp(current_asmdata.CurrAsmList,newref) <> tg.sizeoftemp(current_asmdata.CurrAsmList,n.location.reference)) then
exit;
{ find the source of the old reference (loadnode or tempnode) }
{ and replace it with the new reference }
rr.old := @n.location.reference;
rr.new := @newref;
rr.ressym := nil;
if assigned(current_procinfo.procdef.funcretsym) and
(tabstractvarsym(current_procinfo.procdef.funcretsym).refs <> 0) then
if (current_procinfo.procdef.proctypeoption=potype_constructor) then
rr.ressym:=tsym(current_procinfo.procdef.parast.Find('self'))
else
rr.ressym:=current_procinfo.procdef.funcretsym;
{ if source not found, don't do anything }
if not foreachnodestatic(n,@doreplaceref,@rr) then
exit;
n.location.reference := newref;
result:=true;
end;
{*****************************************************************************
SecondLoad
*****************************************************************************}
procedure tcgloadnode.changereflocation(const ref: treference);
var
oldtemptype: ttemptype;
begin
if (location.loc<>LOC_REFERENCE) then
internalerror(2007020812);
if not tg.istemp(location.reference) then
internalerror(2007020813);
oldtemptype:=tg.gettypeoftemp(location.reference);
if (oldtemptype = tt_persistent) then
tg.ChangeTempType(current_asmdata.CurrAsmList,location.reference,tt_normal);
tg.ungettemp(current_asmdata.CurrAsmList,location.reference);
location.reference:=ref;
tg.ChangeTempType(current_asmdata.CurrAsmList,location.reference,oldtemptype);
tabstractnormalvarsym(symtableentry).localloc:=location;
end;
procedure tcgloadnode.generate_nested_access(vs: tsym);
var
{ paramter declared as tsym to reduce interface unit dependencies }
lvs: tabstractnormalvarsym absolute vs;
begin
secondpass(left);
if not(left.location.loc in [LOC_REGISTER,LOC_CREGISTER]) then
internalerror(200309286);
if lvs.localloc.loc<>LOC_REFERENCE then
internalerror(200409241);
hlcg.reference_reset_base(location.reference,left.resultdef,left.location.register,lvs.localloc.reference.offset,ctempposinvalid,lvs.localloc.reference.alignment,lvs.localloc.reference.volatility);
end;
procedure tcgloadnode.generate_absaddr_access(vs: tabsolutevarsym);
begin
location.reference.offset:=asizeint(vs.addroffset);
location.reference.volatility:=[vol_read,vol_write];
end;
procedure tcgloadnode.generate_threadvar_access(gvs: tstaticvarsym);
var
respara,
paraloc1 : tcgpara;
fieldptrdef,
pvd : tdef;
endrelocatelab,
norelocatelab : tasmlabel;
tvref,
href : treference;
hregister, hreg_tv_rec : tregister;
tv_rec : trecorddef;
tv_index_field,
tv_non_mt_data_field: tsym;
tmpresloc: tlocation;
issystemunit,
indirect : boolean;
size_opt : boolean;
begin
if (tf_section_threadvars in target_info.flags) then
begin
if gvs.localloc.loc=LOC_INVALID then
if not(vo_is_weak_external in gvs.varoptions) then
reference_reset_symbol(location.reference,current_asmdata.RefAsmSymbol(gvs.mangledname,AT_TLS,use_indirect_symbol(gvs)),0,location.reference.alignment,[])
else
reference_reset_symbol(location.reference,current_asmdata.WeakRefAsmSymbol(gvs.mangledname,AT_TLS),0,location.reference.alignment,[])
else
location:=gvs.localloc;
end
else
begin
{
Thread var loading is optimized to first check if
a relocate function is available. When the function
is available it is called to retrieve the address.
Otherwise the address is loaded with the symbol
}
tv_rec:=get_threadvar_record(resultdef,tv_index_field,tv_non_mt_data_field);
fieldptrdef:=cpointerdef.getreusable(resultdef);
current_asmdata.getjumplabel(norelocatelab);
current_asmdata.getjumplabel(endrelocatelab);
{ make sure hregister can't allocate the register necessary for the parameter }
pvd:=search_system_type('TRELOCATETHREADVARHANDLER').typedef;
if pvd.typ<>procvardef then
internalerror(2012120901);
{ FPC_THREADVAR_RELOCATE is nil? }
issystemunit:=(
assigned(current_module.globalsymtable) and
(current_module.globalsymtable=systemunit)
) or
(
not assigned(current_module.globalsymtable) and
(current_module.localsymtable=systemunit)
);
indirect:=(tf_supports_packages in target_info.flags) and
(target_info.system in systems_indirect_var_imports) and
(cs_imported_data in localswitches) and
not issystemunit;
if not(vo_is_weak_external in gvs.varoptions) then
reference_reset_symbol(tvref,current_asmdata.RefAsmSymbol(gvs.mangledname,AT_DATA,use_indirect_symbol(gvs)),0,sizeof(pint),[])
else
reference_reset_symbol(tvref,current_asmdata.WeakRefAsmSymbol(gvs.mangledname,AT_DATA),0,sizeof(pint),[]);
{ Enable size optimization with -Os or PIC code is generated and PIC uses GOT }
size_opt:=(cs_opt_size in current_settings.optimizerswitches)
or ((cs_create_pic in current_settings.moduleswitches) and (tf_pic_uses_got in target_info.flags));
hreg_tv_rec:=NR_INVALID;
if size_opt then
begin
{ Load a pointer to the thread var record into a register. }
{ This register will be used in both multithreaded and non-multithreaded cases. }
hreg_tv_rec:=hlcg.getaddressregister(current_asmdata.CurrAsmList,cpointerdef.getreusable(tv_rec));
hlcg.a_loadaddr_ref_reg(current_asmdata.CurrAsmList,tv_rec,cpointerdef.getreusable(tv_rec),tvref,hreg_tv_rec);
reference_reset_base(tvref,hreg_tv_rec,0,ctempposinvalid,tvref.alignment,tvref.volatility)
end;
paraloc1.init;
paramanager.getcgtempparaloc(current_asmdata.CurrAsmList,tprocvardef(pvd),1,paraloc1);
hregister:=hlcg.getaddressregister(current_asmdata.CurrAsmList,pvd);
reference_reset_symbol(href,current_asmdata.RefAsmSymbol('FPC_THREADVAR_RELOCATE',AT_DATA,indirect),0,pvd.alignment,[]);
if not issystemunit then
current_module.add_extern_asmsym('FPC_THREADVAR_RELOCATE',AB_EXTERNAL,AT_DATA);
hlcg.a_load_ref_reg(current_asmdata.CurrAsmList,pvd,pvd,href,hregister);
hlcg.a_cmp_const_reg_label(current_asmdata.CurrAsmList,pvd,OC_EQ,0,hregister,norelocatelab);
{ no, call it with the index of the threadvar as parameter }
href:=tvref;
hlcg.g_set_addr_nonbitpacked_field_ref(current_asmdata.CurrAsmList,
tv_rec,
tfieldvarsym(tv_index_field),href);
hlcg.a_load_ref_cgpara(current_asmdata.CurrAsmList,tfieldvarsym(tv_index_field).vardef,href,paraloc1);
{ Dealloc the threadvar record register before calling the helper function to allow }
{ the register allocator to assign non-mandatory real registers for hreg_tv_rec. }
if size_opt then
cg.a_reg_dealloc(current_asmdata.CurrAsmList,hreg_tv_rec);
paramanager.freecgpara(current_asmdata.CurrAsmList,paraloc1);
cg.allocallcpuregisters(current_asmdata.CurrAsmList);
{ result is the address of the threadvar }
respara:=hlcg.a_call_reg(current_asmdata.CurrAsmList,tprocvardef(pvd),hregister,[@paraloc1]);
paraloc1.done;
cg.deallocallcpuregisters(current_asmdata.CurrAsmList);
{ load the address of the result in hregister }
hregister:=hlcg.getaddressregister(current_asmdata.CurrAsmList,fieldptrdef);
location_reset(tmpresloc,LOC_REGISTER,def_cgsize(fieldptrdef));
tmpresloc.register:=hregister;
hlcg.gen_load_cgpara_loc(current_asmdata.CurrAsmList,fieldptrdef,respara,tmpresloc,true);
respara.resetiftemp;
hlcg.a_jmp_always(current_asmdata.CurrAsmList,endrelocatelab);
{ no relocation needed, load the address of the variable only, the
layout of a threadvar is:
0 - Threadvar index
sizeof(pint) - Threadvar value in single threading }
hlcg.a_label(current_asmdata.CurrAsmList,norelocatelab);
href:=tvref;
hlcg.g_set_addr_nonbitpacked_field_ref(current_asmdata.CurrAsmList,
tv_rec,
tfieldvarsym(tv_non_mt_data_field),href);
hlcg.a_loadaddr_ref_reg(current_asmdata.CurrAsmList,resultdef,fieldptrdef,href,hregister);
hlcg.a_label(current_asmdata.CurrAsmList,endrelocatelab);
hlcg.reference_reset_base(location.reference,fieldptrdef,hregister,0,ctempposinvalid,resultdef.alignment,[]);
end;
end;
function tcgloadnode.use_indirect_symbol(gvs:tstaticvarsym):boolean;
begin
{ we are using a direct reference if any of the following is true:
- the target does not support packages
- the target does not use indirect references
- the variable is declared as (weak) external
- G- is set
- the variable is located inside the same unit }
result:=(tf_supports_packages in target_info.flags) and
(target_info.system in systems_indirect_var_imports) and
(gvs.varoptions*[vo_is_external,vo_is_weak_external]=[]) and
(gvs.owner.symtabletype in [globalsymtable,staticsymtable]) and
(cs_imported_data in localswitches) and
not sym_is_owned_by(gvs,current_module.globalsymtable) and
(
(current_module.globalsymtable=current_module.localsymtable) or
not sym_is_owned_by(gvs,current_module.localsymtable)
);
end;
procedure tcgloadnode.pass_generate_code;
var
hregister : tregister;
vs : tabstractnormalvarsym;
gvs : tstaticvarsym;
vmtdef : tpointerdef;
vmtentry: tfieldvarsym;
pd : tprocdef;
href : treference;
newsize : tcgsize;
vd : tdef;
alignment: longint;
indirect : boolean;
name : TSymStr;
begin
{ we don't know the size of all arrays }
newsize:=def_cgsize(resultdef);
{ alignment is overridden per case below }
location_reset_ref(location,LOC_REFERENCE,newsize,resultdef.alignment,[]);
case symtableentry.typ of
absolutevarsym :
begin
{ this is only for toasm and toaddr }
case tabsolutevarsym(symtableentry).abstyp of
toaddr :
generate_absaddr_access(tabsolutevarsym(symtableentry));
toasm :
location.reference.symbol:=current_asmdata.RefAsmSymbol(tabsolutevarsym(symtableentry).mangledname,AT_DATA);
else
internalerror(200310283);
end;
end;
constsym:
begin
if tconstsym(symtableentry).consttyp=constresourcestring then
begin
location_reset_ref(location,LOC_CREFERENCE,def_cgsize(cansistringtype),cansistringtype.size,[]);
indirect:=(tf_supports_packages in target_info.flags) and
(target_info.system in systems_indirect_var_imports) and
(cs_imported_data in localswitches) and
(symtableentry.owner.moduleid<>current_module.moduleid);
name:=make_mangledname('RESSTR',symtableentry.owner,symtableentry.name);
location.reference.symbol:=current_asmdata.RefAsmSymbol(name,AT_DATA,indirect);
if symtableentry.owner.moduleid<>current_module.moduleid then
current_module.addimportedsym(symtableentry);
vd:=search_system_type('TRESOURCESTRINGRECORD').typedef;
hlcg.g_set_addr_nonbitpacked_field_ref(
current_asmdata.CurrAsmList,
trecorddef(vd),
tfieldvarsym(search_struct_member(trecorddef(vd),'CURRENTVALUE')),
location.reference);
end
else
internalerror(22798);
end;
staticvarsym :
begin
gvs:=tstaticvarsym(symtableentry);
if (vo_is_dll_var in gvs.varoptions) then
{ DLL variable }
begin
hregister:=cg.getaddressregister(current_asmdata.CurrAsmList);
if not(vo_is_weak_external in gvs.varoptions) then
location.reference.symbol:=current_asmdata.RefAsmSymbol(tstaticvarsym(symtableentry).mangledname,AT_DATA)
else
location.reference.symbol:=current_asmdata.WeakRefAsmSymbol(tstaticvarsym(symtableentry).mangledname,AT_DATA);
cg.a_load_ref_reg(current_asmdata.CurrAsmList,OS_ADDR,OS_ADDR,location.reference,hregister);
reference_reset_base(location.reference,hregister,0,ctempposinvalid,location.reference.alignment,[]);
end
{ Thread variable }
else if (vo_is_thread_var in gvs.varoptions) then
generate_threadvar_access(gvs)
{ Normal (or external) variable }
else
begin
if gvs.localloc.loc=LOC_INVALID then
begin
{ static data is currently always volatile }
if not(vo_is_weak_external in gvs.varoptions) then
reference_reset_symbol(location.reference,current_asmdata.RefAsmSymbol(gvs.mangledname,AT_DATA,use_indirect_symbol(gvs)),0,location.reference.alignment,[])
else
reference_reset_symbol(location.reference,current_asmdata.WeakRefAsmSymbol(gvs.mangledname,AT_DATA),0,location.reference.alignment,[])
end
else
location:=gvs.localloc;
end;
{ make const a LOC_CREFERENCE }
if (gvs.varspez=vs_const) and
(location.loc=LOC_REFERENCE) then
location.loc:=LOC_CREFERENCE;
end;
paravarsym,
localvarsym :
begin
vs:=tabstractnormalvarsym(symtableentry);
{ Nested variable }
if assigned(left) then
generate_nested_access(vs)
else
location:=vs.localloc;
{ handle call by reference variables when they are not
already copied to local copies. Also ignore the reference
when we need to load the self pointer for objects }
if is_addr_param_load then
begin
if (location.loc in [LOC_CREGISTER,LOC_REGISTER]) then
hregister:=location.register
else
begin
vd:=cpointerdef.getreusable(resultdef);
hregister:=hlcg.getaddressregister(current_asmdata.CurrAsmList,vd);
{ we need to load only an address }
location.size:=int_cgsize(vd.size);
hlcg.a_load_loc_reg(current_asmdata.CurrAsmList,vd,vd,location,hregister);
end;
{ assume packed records may always be unaligned }
if not(resultdef.typ in [recorddef,objectdef]) or
(tabstractrecordsymtable(tabstractrecorddef(resultdef).symtable).usefieldalignment<>1) then
begin
alignment:=min(min(min(resultdef.alignment,current_settings.alignment.localalignmax),current_settings.alignment.constalignmax),current_settings.alignment.varalignmax);
location_reset_ref(location,LOC_REFERENCE,newsize,alignment,[]);
end
else
location_reset_ref(location,LOC_REFERENCE,newsize,1,[]);
hlcg.reference_reset_base(location.reference,voidpointertype,hregister,0,ctempposinvalid,location.reference.alignment,[]);
end;
{ make const a LOC_CREFERENCE }
if (vs.varspez=vs_const) and
(location.loc=LOC_REFERENCE) then
location.loc:=LOC_CREFERENCE;
end;
procsym:
begin
if not assigned(procdef) then
internalerror(200312011);
if assigned(left) and
(resultdef.typ in [symconst.procdef,procvardef]) and
not tabstractprocdef(resultdef).is_addressonly then
begin
location_reset(location,LOC_CREGISTER,int_cgsize(voidpointertype.size*2));
secondpass(left);
{ load class instance/classrefdef address }
if left.location.loc=LOC_CONSTANT then
hlcg.location_force_reg(current_asmdata.CurrAsmList,left.location,left.resultdef,left.resultdef,false);
{ vd will contain the type of the self pointer (self in
case of a class/classref, address of self in case of
an object, frame pointer or pointer to parentfpstruct
in case of nested procsym load }
vd:=nil;
case left.location.loc of
LOC_CREGISTER,
LOC_REGISTER:
begin
{ this is not possible for objects }
if is_object(left.resultdef) then
internalerror(200304234);
location.registerhi:=left.location.register;
vd:=left.resultdef;
end;
LOC_CREFERENCE,
LOC_REFERENCE:
begin
if is_implicit_pointer_object_type(left.resultdef) or
(left.resultdef.typ=classrefdef) or
is_nested_pd(procdef) then
begin
vd:=left.resultdef;
location.registerhi:=hlcg.getaddressregister(current_asmdata.CurrAsmList,left.resultdef);
hlcg.a_load_ref_reg(current_asmdata.CurrAsmList,left.resultdef,left.resultdef,left.location.reference,location.registerhi)
end
else
begin
vd:=cpointerdef.getreusable(left.resultdef);
location.registerhi:=hlcg.getaddressregister(current_asmdata.CurrAsmList,vd);
hlcg.a_loadaddr_ref_reg(current_asmdata.CurrAsmList,left.resultdef,vd,left.location.reference,location.registerhi);
end;
location_freetemp(current_asmdata.CurrAsmList,left.location);
end;
else
internalerror(200610311);
end;
{ virtual method ? }
if (po_virtualmethod in procdef.procoptions) and
not(loadnf_inherited in loadnodeflags) and
not is_objectpascal_helper(procdef.struct) then
begin
if (not assigned(current_procinfo) or
wpoinfomanager.symbol_live(current_procinfo.procdef.mangledname)) then
tobjectdef(procdef.struct).register_vmt_call(procdef.extnumber);
{$ifdef vtentry}
if not is_interface(procdef.struct) then
begin
inc(current_asmdata.NextVTEntryNr);
current_asmdata.CurrAsmList.Concat(tai_symbol.CreateName('VTREF'+tostr(current_asmdata.NextVTEntryNr)+'_'+procdef._class.vmt_mangledname+'$$'+tostr(vmtoffset div sizeof(pint)),AT_FUNCTION,0,voidpointerdef));
end;
{$endif vtentry}
if (left.resultdef.typ=objectdef) and
assigned(tobjectdef(left.resultdef).vmt_field) then
begin
{ vmt pointer is a pointer to the vmt record }
hlcg.reference_reset_base(href,vd,location.registerhi,0,ctempposinvalid,vd.alignment,[]);
vmtdef:=cpointerdef.getreusable(tobjectdef(left.resultdef).vmt_def);
hlcg.g_set_addr_nonbitpacked_field_ref(current_asmdata.CurrAsmList,tobjectdef(left.resultdef),tfieldvarsym(tobjectdef(left.resultdef).vmt_field),href);
hregister:=hlcg.getaddressregister(current_asmdata.CurrAsmList,vmtdef);
hlcg.a_load_ref_reg(current_asmdata.CurrAsmList,tfieldvarsym(tobjectdef(left.resultdef).vmt_field).vardef,vmtdef,href,hregister);
end
else if left.resultdef.typ=classrefdef then
begin
{ classrefdef is a pointer to the vmt already }
hregister:=location.registerhi;
vmtdef:=cpointerdef.getreusable(tobjectdef(tclassrefdef(left.resultdef).pointeddef).vmt_def);
hlcg.g_ptrtypecast_reg(current_asmdata.CurrAsmList,left.resultdef,vmtdef,hregister);
end
else if is_any_interface_kind(left.resultdef) then
begin
{ an interface is a pointer to a pointer to a vmt }
hlcg.reference_reset_base(href,vd,location.registerhi,0,ctempposinvalid,vd.alignment,[]);
vmtdef:=cpointerdef.getreusable(tobjectdef(left.resultdef).vmt_def);
hregister:=hlcg.getaddressregister(current_asmdata.CurrAsmList,vmtdef);
hlcg.a_load_ref_reg(current_asmdata.CurrAsmList,vmtdef,vmtdef,href,hregister);
end
else
internalerror(2015112501);
{ load method address }
vmtentry:=tabstractrecordsymtable(trecorddef(vmtdef.pointeddef).symtable).findfieldbyoffset(
tobjectdef(procdef.struct).vmtmethodoffset(procdef.extnumber));
hlcg.reference_reset_base(href,vmtdef,hregister,0,ctempposinvalid,vmtdef.alignment,[]);
location.register:=hlcg.getaddressregister(current_asmdata.CurrAsmList,vmtentry.vardef);
hlcg.g_set_addr_nonbitpacked_field_ref(current_asmdata.CurrAsmList,tabstractrecorddef(vmtdef.pointeddef),vmtentry,href);
hlcg.a_load_ref_reg(current_asmdata.CurrAsmList,vmtentry.vardef,vmtentry.vardef,href,location.register);
end
else
begin
{ load address of the function }
reference_reset_symbol(href,current_asmdata.RefAsmSymbol(procdef.mangledname,AT_FUNCTION),0,procdef.address_type.alignment,[]);
location.register:=hlcg.getaddressregister(current_asmdata.CurrAsmList,cprocvardef.getreusableprocaddr(procdef,pc_address_only));
hlcg.a_loadaddr_ref_reg(current_asmdata.CurrAsmList,procdef,cprocvardef.getreusableprocaddr(procdef,pc_address_only),href,location.register);
end;
{ to get methodpointers stored correctly, code and self register must be swapped on
big endian targets }
if target_info.endian=endian_big then
begin
hregister:=location.register;
location.register:=location.registerhi;
location.registerhi:=hregister;
end;
end
else
begin
pd:=tprocdef(tprocsym(symtableentry).ProcdefList[0]);
{ def_cgsize does not work for tprocdef, so we use pd.address_type }
location.size:=def_cgsize(pd.address_type);
if not(po_weakexternal in pd.procoptions) then
location.reference.symbol:=current_asmdata.RefAsmSymbol(procdef.mangledname,AT_FUNCTION)
else
location.reference.symbol:=current_asmdata.WeakRefAsmSymbol(procdef.mangledname,AT_FUNCTION);
end;
end;
labelsym :
if assigned(tlabelsym(symtableentry).asmblocklabel) then
location.reference.symbol:=tlabelsym(symtableentry).asmblocklabel
else
location.reference.symbol:=tcglabelnode((tlabelsym(symtableentry).code)).getasmlabel;
else internalerror(200510032);
end;
end;
{*****************************************************************************
SecondAssignment
*****************************************************************************}
procedure tcgassignmentnode.pass_generate_code;
var
shuffle : pmmshuffle;
hlabel : tasmlabel;
href : treference;
releaseright : boolean;
alignmentrequirement,
len : tcgint;
r : tregister;
{$if not defined(cpu64bitalu) and not defined(cpuhighleveltarget)}
r64 : tregister64;
{$endif}
oldflowcontrol : tflowcontrol;
begin
{ previously, managed types were handled in firstpass
newer FPCs however can identify situations when
assignments of managed types require no special code and the
value could be just copied so this could should be able also to handle
managed types without any special "managing code"}
location_reset(location,LOC_VOID,OS_NO);
{
in most cases we can process first the right node which contains
the most complex code. Exceptions for this are:
- result is in flags, loading left will then destroy the flags
- result is a jump, loading left must be already done before the jump is made
- result need reference count, when left points to a value used in
right then decreasing the refcnt on left can possibly release
the memory before right increased the refcnt, result is that an
empty value is assigned
But not when the result is in the flags, then
loading the left node afterwards can destroy the flags.
}
if not(right.expectloc in [LOC_FLAGS,LOC_JUMP]) and
(node_complexity(right)>node_complexity(left)) then
begin
secondpass(right);
if codegenerror then
exit;
secondpass(left);
if codegenerror then
exit;
end
else
begin
{ calculate left sides }
secondpass(left);
if codegenerror then
exit;
{ tell the SSA/SSL code that the left side was handled first so
ni SSL is done
}
oldflowcontrol:=flowcontrol;
include(flowcontrol,fc_lefthandled);
secondpass(right);
flowcontrol:=oldflowcontrol;
if codegenerror then
exit;
end;
releaseright:=
(left.nodetype<>temprefn) or
not(ti_const in ttemprefnode(left).tempflags);
{ shortstring assignments are handled separately }
if is_shortstring(left.resultdef) then
begin
{
we can get here only in the following situations
for the right node:
- empty constant string
- char
}
{ The addn is replaced by a blockn or calln that already returns
a shortstring }
if is_shortstring(right.resultdef) and
(right.nodetype in [blockn,calln]) then
begin
{ verify that we indeed have nothing to do }
if not(nf_assign_done_in_right in flags) then
internalerror(2015042201);
end
{ empty constant string }
else if (right.nodetype=stringconstn) and
(tstringconstnode(right).len=0) then
begin
hlcg.g_ptrtypecast_ref(current_asmdata.CurrAsmList,cpointerdef.getreusable(left.resultdef),tpointerdef(charpointertype),left.location.reference);
hlcg.a_load_const_ref(current_asmdata.CurrAsmList,cansichartype,0,left.location.reference);
end
{ char loading }
else if is_char(right.resultdef) then
begin
if right.nodetype=ordconstn then
begin
hlcg.g_ptrtypecast_ref(current_asmdata.CurrAsmList,cpointerdef.getreusable(left.resultdef),cpointerdef.getreusable(u16inttype),left.location.reference);
if (target_info.endian = endian_little) then
hlcg.a_load_const_ref(current_asmdata.CurrAsmList,u16inttype,(tordconstnode(right).value.svalue shl 8) or 1,
setalignment(left.location.reference,1))
else
hlcg.a_load_const_ref(current_asmdata.CurrAsmList,u16inttype,tordconstnode(right).value.svalue or (1 shl 8),
setalignment(left.location.reference,1));
end
else
begin
href:=left.location.reference;
hlcg.g_ptrtypecast_ref(current_asmdata.CurrAsmList,cpointerdef.getreusable(left.resultdef),tpointerdef(charpointertype),href);
hlcg.a_load_const_ref(current_asmdata.CurrAsmList,cansichartype,1,href);
inc(href.offset,1);
href.alignment:=1;
case right.location.loc of
LOC_REGISTER,
LOC_CREGISTER :
begin
{$ifndef cpuhighleveltarget}
r:=cg.makeregsize(current_asmdata.CurrAsmList,right.location.register,OS_8);
{$else not cpuhighleveltarget}
r:=hlcg.getintregister(current_asmdata.CurrAsmList,u8inttype);
hlcg.a_load_reg_reg(current_asmdata.CurrAsmList,cansichartype,u8inttype,right.location.register,r);
{$endif cpuhighleveltarget}
hlcg.a_load_reg_ref(current_asmdata.CurrAsmList,u8inttype,u8inttype,r,href);
end;
LOC_REFERENCE,
LOC_CREFERENCE :
hlcg.a_load_ref_ref(current_asmdata.CurrAsmList,cansichartype,cansichartype,right.location.reference,href);
else
internalerror(200205111);
end;
end;
end
else
internalerror(2002042410);
end
{ try to reuse memory locations instead of copying }
{ copy to a memory location ... }
else if (right.location.loc = LOC_REFERENCE) and
maybechangetemp(current_asmdata.CurrAsmList,left,right.location.reference) then
begin
{ if it worked, we're done }
end
else
begin
{ SSA support }
hlcg.maybe_change_load_node_reg(current_asmdata.CurrAsmList,left,false);
hlcg.maybe_change_load_node_reg(current_asmdata.CurrAsmList,right,true);
case right.location.loc of
LOC_CONSTANT :
begin
{$if not defined(cpu64bitalu) and not defined(cpuhighleveltarget)}
if (left.location.size in [OS_64,OS_S64]) or (right.location.size in [OS_64,OS_S64]) then
cg64.a_load64_const_loc(current_asmdata.CurrAsmList,right.location.value64,left.location)
else
{$endif not cpu64bitalu and not cpuhighleveltarget}
hlcg.a_load_const_loc(current_asmdata.CurrAsmList,left.resultdef,right.location.value,left.location);
end;
LOC_REFERENCE,
LOC_CREFERENCE :
begin
case left.location.loc of
LOC_REGISTER,
LOC_CREGISTER :
begin
{$ifndef cpuhighleveltarget}
{$ifdef cpu64bitalu}
if left.location.size in [OS_128,OS_S128] then
cg128.a_load128_ref_reg(current_asmdata.CurrAsmList,right.location.reference,left.location.register128)
else
{$else cpu64bitalu}
if left.location.size in [OS_64,OS_S64] then
cg64.a_load64_ref_reg(current_asmdata.CurrAsmList,right.location.reference,left.location.register64)
else
{$endif cpu64bitalu}
{$endif not cpuhighleveltarget}
hlcg.a_load_ref_reg(current_asmdata.CurrAsmList,right.resultdef,left.resultdef,right.location.reference,left.location.register);
end;
LOC_FPUREGISTER,
LOC_CFPUREGISTER :
begin
hlcg.a_loadfpu_ref_reg(current_asmdata.CurrAsmList,
right.resultdef,left.resultdef,
right.location.reference,
left.location.register);
end;
LOC_REFERENCE,
LOC_CREFERENCE :
begin
if (left.resultdef.typ=floatdef) and
(right.resultdef.typ=floatdef) and
((left.location.size<>right.location.size)
{ on newer (1993+ :)) x86 cpus, use the fpu to copy extended values }
{$ifdef x86}
or ({$ifndef x86_64}(current_settings.cputype>=cpu_Pentium) and{$endif x86_64}
(is_extended(right.resultdef) {$ifdef i386} or is_double(right.resultdef){$endif i386} ))
{$endif x86}
)then
begin
{ assume that all float types can be handed by the
fpu if one can be handled by the fpu }
if not use_vectorfpu(left.resultdef) or
not use_vectorfpu(right.resultdef) then
hlcg.a_loadfpu_ref_ref(current_asmdata.CurrAsmList,
right.resultdef,left.resultdef,
right.location.reference,left.location.reference)
else
hlcg.a_loadmm_ref_ref(current_asmdata.CurrAsmList,
right.resultdef,left.resultdef,
right.location.reference,left.location.reference,mms_movescalar)
end
else
begin
{ TODO: HACK: unaligned test, maybe remove all unaligned locations (array of char) from the compiler}
{ Use unaligned copy when the offset is not aligned }
len:=left.resultdef.size;
{ can be 0 in case of formaldef on JVM target }
if len=0 then
len:=sizeof(pint);
{ data smaller than an aint has less alignment requirements }
{ max(1,...) avoids div by zero in case of an empty record }
alignmentrequirement:=min(max(1,len),sizeof(aint));
if (right.location.reference.offset mod alignmentrequirement<>0) or
(left.location.reference.offset mod alignmentrequirement<>0) or
(right.resultdef.alignment<alignmentrequirement) or
((right.location.reference.alignment<>0) and
(right.location.reference.alignment<alignmentrequirement)) or
((left.location.reference.alignment<>0) and
(left.location.reference.alignment<alignmentrequirement)) then
hlcg.g_concatcopy_unaligned(current_asmdata.CurrAsmList,left.resultdef,right.location.reference,left.location.reference)
else
hlcg.g_concatcopy(current_asmdata.CurrAsmList,left.resultdef,right.location.reference,left.location.reference);
end;
end;
LOC_MMREGISTER,
LOC_CMMREGISTER:
begin
{$if defined(x86) and not defined(llvm)}
if (right.resultdef.typ=floatdef) and
not use_vectorfpu(right.resultdef) then
begin
{ perform size conversion if needed (the mm-code cannot }
{ convert an extended into a double/single, since sse }
{ doesn't support extended) }
r:=cg.getfpuregister(current_asmdata.CurrAsmList,right.location.size);
tg.gethltemp(current_asmdata.CurrAsmList,left.resultdef,left.resultdef.size,tt_normal,href);
cg.a_loadfpu_ref_reg(current_asmdata.CurrAsmList,right.location.size,right.location.size,right.location.reference,r);
cg.a_loadfpu_reg_ref(current_asmdata.CurrAsmList,right.location.size,left.location.size,r,href);
if releaseright then
location_freetemp(current_asmdata.CurrAsmList,right.location);
releaseright:=true;
location_reset_ref(right.location,LOC_REFERENCE,left.location.size,0,[]);
right.location.reference:=href;
right.resultdef:=left.resultdef;
end;
{$endif}
hlcg.a_loadmm_ref_reg(current_asmdata.CurrAsmList,
right.resultdef,
left.resultdef,
right.location.reference,
left.location.register,mms_movescalar);
end;
LOC_SUBSETREG,
LOC_CSUBSETREG:
hlcg.a_load_ref_subsetreg(current_asmdata.CurrAsmList,right.resultdef,left.resultdef,right.location.reference,left.location.sreg);
LOC_SUBSETREF,
LOC_CSUBSETREF:
{$if not defined(cpu64bitalu) and not defined(cpuhighleveltarget)}
if right.location.size in [OS_64,OS_S64] then
cg64.a_load64_ref_subsetref(current_asmdata.CurrAsmList,right.location.reference,left.location.sref)
else
{$endif not cpu64bitalu and not cpuhighleveltarget}
hlcg.a_load_ref_subsetref(current_asmdata.CurrAsmList,right.resultdef,left.resultdef,right.location.reference,left.location.sref);
else
internalerror(200203284);
end;
end;
{$ifdef SUPPORT_MMX}
LOC_CMMXREGISTER,
LOC_MMXREGISTER:
begin
if left.location.loc=LOC_CMMXREGISTER then
cg.a_loadmm_reg_reg(current_asmdata.CurrAsmList,OS_M64,OS_M64,right.location.register,left.location.register,nil)
else
cg.a_loadmm_reg_ref(current_asmdata.CurrAsmList,OS_M64,OS_M64,right.location.register,left.location.reference,nil);
end;
{$endif SUPPORT_MMX}
LOC_MMREGISTER,
LOC_CMMREGISTER:
begin
if (is_vector(left.resultdef)) then
shuffle := nil
else
shuffle := mms_movescalar;
case left.location.loc of
LOC_CMMREGISTER,
LOC_MMREGISTER:
hlcg.a_loadmm_reg_reg(current_asmdata.CurrAsmList,right.resultdef,left.resultdef,right.location.register,left.location.register, shuffle);
LOC_REFERENCE,
LOC_CREFERENCE:
hlcg.a_loadmm_reg_ref(current_asmdata.CurrAsmList,right.resultdef,left.resultdef,right.location.register,left.location.reference, shuffle);
else
internalerror(2009112601);
end;
end;
LOC_REGISTER,
LOC_CREGISTER :
begin
{$ifndef cpuhighleveltarget}
{$ifdef cpu64bitalu}
if left.location.size in [OS_128,OS_S128] then
cg128.a_load128_reg_loc(current_asmdata.CurrAsmList,
right.location.register128,left.location)
else
{$else cpu64bitalu}
{ also OS_F64 in case of mmreg -> intreg }
if left.location.size in [OS_64,OS_S64,OS_F64] then
cg64.a_load64_reg_loc(current_asmdata.CurrAsmList,
right.location.register64,left.location)
else
{$endif cpu64bitalu}
{$endif not cpuhighleveltarget}
{$ifdef i8086}
{ prefer a_load_loc_ref, because it supports i8086-specific types
that use registerhi (like 6-byte method pointers)
(todo: maybe we should add a_load_loc_loc?) }
if left.location.loc in [LOC_REFERENCE,LOC_CREFERENCE] then
hlcg.a_load_loc_ref(current_asmdata.CurrAsmList,right.resultdef,left.resultdef,right.location,left.location.reference)
else
{$endif i8086}
hlcg.a_load_reg_loc(current_asmdata.CurrAsmList,right.resultdef,left.resultdef,right.location.register,left.location);
end;
LOC_FPUREGISTER,
LOC_CFPUREGISTER :
begin
{ we can't do direct moves between fpu and mm registers }
if left.location.loc in [LOC_MMREGISTER,LOC_CMMREGISTER] then
begin
{$if defined(x86) and not defined(llvm)}
if not use_vectorfpu(right.resultdef) then
begin
{ perform size conversion if needed (the mm-code cannot convert an }
{ extended into a double/single, since sse doesn't support extended) }
tg.gethltemp(current_asmdata.CurrAsmList,left.resultdef,left.resultdef.size,tt_normal,href);
cg.a_loadfpu_reg_ref(current_asmdata.CurrAsmList,right.location.size,left.location.size,right.location.register,href);
location_reset_ref(right.location,LOC_REFERENCE,left.location.size,0,[]);
right.location.reference:=href;
right.resultdef:=left.resultdef;
end;
{$endif}
hlcg.location_force_mmregscalar(current_asmdata.CurrAsmList,right.location,right.resultdef,false);
hlcg.a_loadmm_reg_reg(current_asmdata.CurrAsmList,
right.resultdef,left.resultdef,
right.location.register,left.location.register,mms_movescalar);
end
else
hlcg.a_loadfpu_reg_loc(current_asmdata.CurrAsmList,
right.resultdef,left.resultdef,
right.location.register,left.location);
end;
LOC_SUBSETREG,
LOC_CSUBSETREG:
begin
hlcg.a_load_subsetreg_loc(current_asmdata.CurrAsmList,
right.resultdef,left.resultdef,right.location.sreg,left.location);
end;
LOC_SUBSETREF,
LOC_CSUBSETREF:
begin
{$if not defined(cpu64bitalu) and not defined(cpuhighleveltarget)}
if right.location.size in [OS_64,OS_S64] then
cg64.a_load64_subsetref_loc(current_asmdata.CurrAsmList,right.location.sref,left.location)
else
{$endif not cpu64bitalu and not cpuhighleveltarget}
hlcg.a_load_subsetref_loc(current_asmdata.CurrAsmList,
right.resultdef,left.resultdef,right.location.sref,left.location);
end;
LOC_JUMP :
begin
current_asmdata.getjumplabel(hlabel);
hlcg.a_label(current_asmdata.CurrAsmList,right.location.truelabel);
if is_pasbool(left.resultdef) then
begin
{$if not defined(cpu64bitalu) and not defined(cpuhighleveltarget)}
if left.location.size in [OS_64,OS_S64] then
cg64.a_load64_const_loc(current_asmdata.CurrAsmList,1,left.location)
else
{$endif not cpu64bitalu and not cpuhighleveltarget}
hlcg.a_load_const_loc(current_asmdata.CurrAsmList,left.resultdef,1,left.location)
end
else
begin
{$if not defined(cpu64bitalu) and not defined(cpuhighleveltarget)}
if left.location.size in [OS_64,OS_S64] then
cg64.a_load64_const_loc(current_asmdata.CurrAsmList,-1,left.location)
else
{$endif not cpu64bitalu and not cpuhighleveltarget}
hlcg.a_load_const_loc(current_asmdata.CurrAsmList,left.resultdef,-1,left.location);
end;
hlcg.a_jmp_always(current_asmdata.CurrAsmList,hlabel);
hlcg.a_label(current_asmdata.CurrAsmList,right.location.falselabel);
{$if not defined(cpu64bitalu) and not defined(cpuhighleveltarget)}
if left.location.size in [OS_64,OS_S64] then
cg64.a_load64_const_loc(current_asmdata.CurrAsmList,0,left.location)
else
{$endif not cpu64bitalu and not cpuhighleveltarget}
hlcg.a_load_const_loc(current_asmdata.CurrAsmList,left.resultdef,0,left.location);
hlcg.a_label(current_asmdata.CurrAsmList,hlabel);
end;
{$ifdef cpuflags}
LOC_FLAGS :
begin
if is_pasbool(left.resultdef) then
begin
case left.location.loc of
LOC_REGISTER,LOC_CREGISTER:
{$if not defined(cpu64bitalu) and not defined(cpuhighleveltarget)}
if left.location.size in [OS_S64,OS_64] then
begin
cg.g_flags2reg(current_asmdata.CurrAsmList,OS_32,right.location.resflags,left.location.register64.reglo);
cg.a_reg_dealloc(current_asmdata.CurrAsmList,NR_DEFAULTFLAGS);
cg.a_load_const_reg(current_asmdata.CurrAsmList,OS_32,0,left.location.register64.reghi);
end
else
{$endif not cpu64bitalu and not cpuhighleveltarget}
begin
cg.g_flags2reg(current_asmdata.CurrAsmList,left.location.size,right.location.resflags,left.location.register);
cg.a_reg_dealloc(current_asmdata.CurrAsmList,NR_DEFAULTFLAGS);
end;
LOC_REFERENCE:
{ i8086 and i386 have hacks in their code generators so that they can
deal with 64 bit locations in this parcticular case }
{$if not defined(cpu64bitalu) and not defined(x86) and not defined(cpuhighleveltarget)}
if left.location.size in [OS_S64,OS_64] then
begin
r64.reglo:=cg.getintregister(current_asmdata.CurrAsmList,OS_32);
r64.reghi:=cg.getintregister(current_asmdata.CurrAsmList,OS_32);
cg.g_flags2reg(current_asmdata.CurrAsmList,OS_32,right.location.resflags,r64.reglo);
cg.a_reg_dealloc(current_asmdata.CurrAsmList,NR_DEFAULTFLAGS);
cg.a_load_const_reg(current_asmdata.CurrAsmList,OS_32,0,r64.reghi);
cg64.a_load64_reg_ref(current_asmdata.CurrAsmList,r64,left.location.reference);
end
else
{$endif not cpu64bitalu and not x86 and not cpuhighleveltarget}
begin
cg.g_flags2ref(current_asmdata.CurrAsmList,left.location.size,right.location.resflags,left.location.reference);
cg.a_reg_dealloc(current_asmdata.CurrAsmList,NR_DEFAULTFLAGS);
end;
LOC_CSUBSETREG,LOC_SUBSETREG,LOC_SUBSETREF:
begin
r:=cg.getintregister(current_asmdata.CurrAsmList,left.location.size);
cg.g_flags2reg(current_asmdata.CurrAsmList,left.location.size,right.location.resflags,r);
cg.a_reg_dealloc(current_asmdata.CurrAsmList,NR_DEFAULTFLAGS);
hlcg.a_load_reg_loc(current_asmdata.CurrAsmList,left.resultdef,left.resultdef,r,left.location);
end;
else
internalerror(200203273);
end;
end
else
begin
{$if not defined(cpu64bitalu) and not defined(cpuhighleveltarget)}
if left.location.size in [OS_S64,OS_64] then
begin
r64.reglo:=cg.getintregister(current_asmdata.CurrAsmList,OS_32);
r64.reghi:=cg.getintregister(current_asmdata.CurrAsmList,OS_32);
cg.g_flags2reg(current_asmdata.CurrAsmList,OS_32,right.location.resflags,r64.reglo);
cg.a_reg_dealloc(current_asmdata.CurrAsmList,NR_DEFAULTFLAGS);
cg.a_load_const_reg(current_asmdata.CurrAsmList,OS_32,0,r64.reghi);
cg64.a_op64_reg_reg(current_asmdata.CurrAsmList,OP_NEG,OS_S64,
r64,r64);
cg64.a_load64_reg_loc(current_asmdata.CurrAsmList,r64,left.location);
end
else
{$endif not cpu64bitalu and not cpuhighleveltarget}
begin
r:=cg.getintregister(current_asmdata.CurrAsmList,left.location.size);
cg.g_flags2reg(current_asmdata.CurrAsmList,left.location.size,right.location.resflags,r);
cg.a_reg_dealloc(current_asmdata.CurrAsmList,NR_DEFAULTFLAGS);
cg.a_op_reg_reg(current_asmdata.CurrAsmList,OP_NEG,left.location.size,r,r);
hlcg.a_load_reg_loc(current_asmdata.CurrAsmList,left.resultdef,left.resultdef,r,left.location);
end
end;
end;
{$endif cpuflags}
LOC_VOID:
;
else
internalerror(2019050706);
end;
end;
if releaseright then
location_freetemp(current_asmdata.CurrAsmList,right.location);
end;
{*****************************************************************************
SecondArrayConstruct
*****************************************************************************}
const
vtInteger = 0;
vtBoolean = 1;
vtChar = 2;
vtExtended = 3;
vtString = 4;
vtPointer = 5;
vtPChar = 6;
vtObject = 7;
vtClass = 8;
vtWideChar = 9;
vtPWideChar = 10;
vtAnsiString32 = 11;
vtCurrency = 12;
vtVariant = 13;
vtInterface = 14;
vtWideString = 15;
vtInt64 = 16;
vtQWord = 17;
vtUnicodeString = 18;
vtAnsiString16 = 19;
vtAnsiString64 = 20;
procedure tcgarrayconstructornode.makearrayref(var ref: treference; eledef: tdef);
begin
{ do nothing by default }
end;
procedure tcgarrayconstructornode.advancearrayoffset(var ref: treference; elesize: asizeint);
begin
ref.alignment:=newalignment(ref.alignment,elesize);
inc(ref.offset,elesize);
end;
procedure tcgarrayconstructornode.pass_generate_code;
var
hp : tarrayconstructornode;
href,
fref : treference;
lt : tdef;
paraloc : tcgparalocation;
varvtypefield,
varfield : tfieldvarsym;
vtype : longint;
eledef: tdef;
elesize : longint;
tmpreg : tregister;
vaddr : boolean;
freetemp,
dovariant: boolean;
begin
if is_packed_array(resultdef) then
internalerror(200608042);
dovariant:=
((nf_forcevaria in flags) or is_variant_array(resultdef)) and
not(target_info.system in systems_managed_vm);
eledef:=tarraydef(resultdef).elementdef;
elesize:=eledef.size;
if dovariant then
varvtypefield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VTYPE'))
else
varvtypefield:=nil;
{ alignment is filled in by tg.gethltemp below }
location_reset_ref(location,LOC_CREFERENCE,OS_NO,0,[]);
fillchar(paraloc,sizeof(paraloc),0);
{ Allocate always a temp, also if no elements are required, to
be sure that location is valid (PFV) }
{ on the JVM platform, an array can have 0 elements; since the length
of the array is part of the array itself, make sure we allocate one
of the proper length to avoid getting unexpected results later --
allocating a temp of size 0 also forces it to be size 4 on regular
targets }
tg.gethltemp(current_asmdata.CurrAsmList,resultdef,(tarraydef(resultdef).highrange+1)*elesize,tt_normal,location.reference);
href:=location.reference;
makearrayref(href,eledef);
{ Process nodes in array constructor }
hp:=self;
while assigned(hp) do
begin
if assigned(hp.left) then
begin
freetemp:=true;
secondpass(hp.left);
if (hp.left.location.loc=LOC_JUMP)<>
(hp.left.expectloc=LOC_JUMP) then
internalerror(2007103101);
{ Move flags and jump in register }
if hp.left.location.loc in [LOC_FLAGS,LOC_JUMP] then
hlcg.location_force_reg(current_asmdata.CurrAsmList,hp.left.location,hp.left.resultdef,hp.left.resultdef,false);
if dovariant then
begin
{ find the correct vtype value }
vtype:=$ff;
varfield:=nil;
vaddr:=false;
lt:=hp.left.resultdef;
case lt.typ of
enumdef,
orddef :
begin
if is_64bit(lt) then
begin
case torddef(lt).ordtype of
scurrency:
begin
vtype:=vtCurrency;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VCURRENCY'));
end;
s64bit:
begin
vtype:=vtInt64;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VINT64'));
end;
u64bit:
begin
vtype:=vtQWord;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VQWORD'));
end;
else
;
end;
freetemp:=false;
vaddr:=true;
end
else if (lt.typ=enumdef) or
is_integer(lt) then
begin
vtype:=vtInteger;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VINTEGER'));
end
else
if is_boolean(lt) then
begin
vtype:=vtBoolean;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VINTEGER'));
end
else
if (lt.typ=orddef) then
begin
case torddef(lt).ordtype of
uchar:
begin
vtype:=vtChar;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VINTEGER'));
end;
uwidechar:
begin
vtype:=vtWideChar;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VINTEGER'));
end;
else
;
end;
end;
end;
floatdef :
begin
if is_currency(lt) then
begin
vtype:=vtCurrency;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VCURRENCY'));
end
else
begin
vtype:=vtExtended;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VEXTENDED'));
end;
freetemp:=false;
vaddr:=true;
end;
procvardef,
pointerdef :
begin
if is_pchar(lt) then
begin
vtype:=vtPChar;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VPCHAR'));
end
else if is_pwidechar(lt) then
begin
vtype:=vtPWideChar;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VPWIDECHAR'));
end
else
begin
vtype:=vtPointer;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VPOINTER'));
end;
end;
variantdef :
begin
vtype:=vtVariant;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VVARIANT'));
vaddr:=true;
freetemp:=false;
end;
classrefdef :
begin
vtype:=vtClass;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VCLASS'));
end;
objectdef :
if is_interface(lt) then
begin
vtype:=vtInterface;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VINTERFACE'));
end
{ vtObject really means a class based on TObject }
else if is_class(lt) then
begin
vtype:=vtObject;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VOBJECT'));
end
else
internalerror(200505171);
stringdef :
begin
if is_shortstring(lt) then
begin
vtype:=vtString;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VSTRING'));
vaddr:=true;
freetemp:=false;
end
else
if is_ansistring(lt) then
begin
vtype:=vtAnsiString;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VANSISTRING'));
freetemp:=false;
end
else
if is_widestring(lt) then
begin
vtype:=vtWideString;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VWIDESTRING'));
freetemp:=false;
end
else
if is_unicodestring(lt) then
begin
vtype:=vtUnicodeString;
varfield:=tfieldvarsym(search_struct_member_no_helper(trecorddef(eledef),'VUNICODESTRING'));
freetemp:=false;
end;
end;
else
;
end;
if vtype=$ff then
internalerror(14357);
if not assigned(varfield) then
internalerror(2015102901);
{ write changing field update href to the next element }
fref:=href;
hlcg.g_set_addr_nonbitpacked_field_ref(current_asmdata.CurrAsmList,trecorddef(eledef),varfield,fref);
if vaddr then
begin
hlcg.location_force_mem(current_asmdata.CurrAsmList,hp.left.location,lt);
tmpreg:=hlcg.getaddressregister(current_asmdata.CurrAsmList,cpointerdef.getreusable(lt));
hlcg.a_loadaddr_ref_reg(current_asmdata.CurrAsmList,hp.left.resultdef,cpointerdef.getreusable(lt),hp.left.location.reference,tmpreg);
hlcg.a_load_reg_ref(current_asmdata.CurrAsmList,cpointerdef.getreusable(lt),varfield.vardef,tmpreg,fref);
end
else
hlcg.a_load_loc_ref(current_asmdata.CurrAsmList,hp.left.resultdef,varfield.vardef,hp.left.location,fref);
{ update href to the vtype field and write it }
fref:=href;
hlcg.g_set_addr_nonbitpacked_field_ref(current_asmdata.CurrAsmList,trecorddef(eledef),varvtypefield,fref);
hlcg.a_load_const_ref(current_asmdata.CurrAsmList,varvtypefield.vardef,vtype,fref);
{ goto next array element }
advancearrayoffset(href,elesize);
end
else
{ normal array constructor of the same type }
begin
if is_managed_type(resultdef) then
freetemp:=false;
case hp.left.location.loc of
LOC_MMREGISTER,
LOC_CMMREGISTER:
hlcg.a_loadmm_reg_ref(current_asmdata.CurrAsmList,hp.left.resultdef,hp.left.resultdef,
hp.left.location.register,href,mms_movescalar);
LOC_FPUREGISTER,
LOC_CFPUREGISTER :
hlcg.a_loadfpu_reg_ref(current_asmdata.CurrAsmList,hp.left.resultdef,hp.left.resultdef,hp.left.location.register,href);
LOC_REFERENCE,
LOC_CREFERENCE :
begin
if is_shortstring(hp.left.resultdef) then
hlcg.g_copyshortstring(current_asmdata.CurrAsmList,hp.left.location.reference,href,
Tstringdef(hp.left.resultdef))
else
hlcg.g_concatcopy(current_asmdata.CurrAsmList,eledef,hp.left.location.reference,href);
end;
else
begin
{$ifndef cpuhighleveltarget}
{$ifdef cpu64bitalu}
if hp.left.location.size in [OS_128,OS_S128] then
cg128.a_load128_loc_ref(current_asmdata.CurrAsmList,hp.left.location,href)
else
{$else cpu64bitalu}
if hp.left.location.size in [OS_64,OS_S64] then
cg64.a_load64_loc_ref(current_asmdata.CurrAsmList,hp.left.location,href)
else
{$endif cpu64bitalu}
{$endif not cpuhighleveltarget}
hlcg.a_load_loc_ref(current_asmdata.CurrAsmList,eledef,eledef,hp.left.location,href);
end;
end;
advancearrayoffset(href,elesize);
end;
if freetemp then
location_freetemp(current_asmdata.CurrAsmList,hp.left.location);
end;
{ load next entry }
hp:=tarrayconstructornode(hp.right);
end;
end;
{*****************************************************************************
SecondRTTI
*****************************************************************************}
procedure tcgrttinode.pass_generate_code;
var
indirect : boolean;
begin
indirect := (tf_supports_packages in target_info.flags) and
(target_info.system in systems_indirect_var_imports) and
(cs_imported_data in localswitches) and
(rttidef.owner.moduleid<>current_module.moduleid);
location_reset_ref(location,LOC_CREFERENCE,OS_NO,sizeof(pint),[]);
case rttidatatype of
rdt_normal:
location.reference.symbol:=RTTIWriter.get_rtti_label(rttidef,rttitype,indirect);
rdt_ord2str:
location.reference.symbol:=RTTIWriter.get_rtti_label_ord2str(rttidef,rttitype,indirect);
rdt_str2ord:
location.reference.symbol:=RTTIWriter.get_rtti_label_str2ord(rttidef,rttitype,indirect);
end;
end;
begin
cloadnode:=tcgloadnode;
cassignmentnode:=tcgassignmentnode;
carrayconstructornode:=tcgarrayconstructornode;
crttinode:=tcgrttinode;
end.
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