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28740dce2d
fpc/compiler/ncgutil.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
Helper routines for all code generators
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 ncgutil;
{$i fpcdefs.inc}
interface
uses
node,cpuinfo,
globtype,
cpubase,cgbase,parabase,cgutils,
aasmbase,aasmtai,aasmdata,aasmcpu,
symconst,symbase,symdef,symsym,symtype,symtable
{$ifndef cpu64bitalu}
,cg64f32
{$endif not cpu64bitalu}
;
type
tloadregvars = (lr_dont_load_regvars, lr_load_regvars);
pusedregvars = ^tusedregvars;
tusedregvars = record
intregvars, fpuregvars, mmregvars: Tsuperregisterworklist;
end;
{
Not used currently, implemented because I thought we had to
synchronise around if/then/else as well, but not needed. May
still be useful for SSA once we get around to implementing
that (JM)
pusedregvarscommon = ^tusedregvarscommon;
tusedregvarscommon = record
allregvars, commonregvars, myregvars: tusedregvars;
end;
}
procedure firstcomplex(p : tbinarynode);
procedure maketojumpbool(list:TAsmList; p : tnode; loadregvars: tloadregvars);
// procedure remove_non_regvars_from_loc(const t: tlocation; var regs:Tsuperregisterset);
procedure location_force_reg(list:TAsmList;var l:tlocation;dst_size:TCGSize;maybeconst:boolean);
procedure location_force_fpureg(list:TAsmList;var l: tlocation;maybeconst:boolean);
procedure location_force_mem(list:TAsmList;var l:tlocation);
procedure location_force_mmregscalar(list:TAsmList;var l: tlocation;maybeconst:boolean);
procedure location_force_mmreg(list:TAsmList;var l: tlocation;maybeconst:boolean);
procedure location_allocate_register(list:TAsmList;out l: tlocation;def: tdef;constant: boolean);
{ load a tlocation into a cgpara }
procedure gen_load_loc_cgpara(list: TAsmList; vardef: tdef; const l: tlocation; const cgpara: tcgpara);
{ loads a cgpara into a tlocation; assumes that loc.loc is already
initialised }
procedure gen_load_cgpara_loc(list: TAsmList; vardef: tdef; const para: TCGPara; var destloc: tlocation; reusepara: boolean);
{ allocate registers for a tlocation; assumes that loc.loc is already
set to LOC_CREGISTER/LOC_CFPUREGISTER/... }
procedure gen_alloc_regloc(list:TAsmList;var loc: tlocation);
procedure register_maybe_adjust_setbase(list: TAsmList; var l: tlocation; setbase: aint);
{ Retrieve the location of the data pointed to in location l, when the location is
a register it is expected to contain the address of the data }
procedure location_get_data_ref(list:TAsmList;const l:tlocation;var ref:treference;loadref:boolean; alignment: longint);
function has_alias_name(pd:tprocdef;const s:string):boolean;
procedure alloc_proc_symbol(pd: tprocdef);
procedure gen_proc_symbol(list:TAsmList);
procedure gen_proc_symbol_end(list:TAsmList);
procedure gen_proc_entry_code(list:TAsmList);
procedure gen_proc_exit_code(list:TAsmList);
procedure gen_stack_check_size_para(list:TAsmList);
procedure gen_stack_check_call(list:TAsmList);
procedure gen_save_used_regs(list:TAsmList);
procedure gen_restore_used_regs(list:TAsmList);
procedure gen_initialize_code(list:TAsmList);
procedure gen_finalize_code(list:TAsmList);
procedure gen_entry_code(list:TAsmList);
procedure gen_exit_code(list:TAsmList);
procedure gen_load_para_value(list:TAsmList);
procedure gen_external_stub(list:TAsmList;pd:tprocdef;const externalname:string);
procedure gen_intf_wrappers(list:TAsmList;st:TSymtable;nested:boolean);
procedure gen_load_vmt_register(list:TAsmList;objdef:tobjectdef;selfloc:tlocation;var vmtreg:tregister);
procedure get_used_regvars(n: tnode; var rv: tusedregvars);
{ adds the regvars used in n and its children to rv.allregvars,
those which were already in rv.allregvars to rv.commonregvars and
uses rv.myregvars as scratch (so that two uses of the same regvar
in a single tree to make it appear in commonregvars). Useful to
find out which regvars are used in two different node trees
(e.g. in the "else" and "then" path, or in various case blocks }
// procedure get_used_regvars_common(n: tnode; var rv: tusedregvarscommon);
procedure gen_sync_regvars(list:TAsmList; var rv: tusedregvars);
{ if the result of n is a LOC_C(..)REGISTER, try to find the corresponding }
{ loadn and change its location to a new register (= SSA). In case reload }
{ is true, transfer the old to the new register }
procedure maybechangeloadnodereg(list: TAsmList; var n: tnode; reload: boolean);
{#
Allocate the buffers for exception management and setjmp environment.
Return a pointer to these buffers, send them to the utility routine
so they are registered, and then call setjmp.
Then compare the result of setjmp with 0, and if not equal
to zero, then jump to exceptlabel.
Also store the result of setjmp to a temporary space by calling g_save_exception_reason
It is to note that this routine may be called *after* the stackframe of a
routine has been called, therefore on machines where the stack cannot
be modified, all temps should be allocated on the heap instead of the
stack.
}
const
EXCEPT_BUF_SIZE = 3*sizeof(pint);
type
texceptiontemps=record
jmpbuf,
envbuf,
reasonbuf : treference;
end;
procedure get_exception_temps(list:TAsmList;var t:texceptiontemps);
procedure unget_exception_temps(list:TAsmList;const t:texceptiontemps);
procedure new_exception(list:TAsmList;const t:texceptiontemps;exceptlabel:tasmlabel);
procedure free_exception(list:TAsmList;const t:texceptiontemps;a:aint;endexceptlabel:tasmlabel;onlyfree:boolean);
procedure insertbssdata(sym : tstaticvarsym);
procedure gen_alloc_symtable(list:TAsmList;st:TSymtable);
procedure gen_free_symtable(list:TAsmList;st:TSymtable);
procedure location_free(list: TAsmList; const location : TLocation);
function getprocalign : shortint;
procedure gen_fpc_dummy(list : TAsmList);
procedure InsertInterruptTable;
implementation
uses
version,
cutils,cclasses,
globals,systems,verbose,export,
ppu,defutil,
procinfo,paramgr,fmodule,
regvars,dbgbase,
pass_1,pass_2,
nbas,ncon,nld,nmem,nutils,
tgobj,cgobj,cgcpu,hlcgobj,hlcgcpu
{$ifdef powerpc}
, cpupi
{$endif}
{$ifdef powerpc64}
, cpupi
{$endif}
{$ifdef SUPPORT_MMX}
, cgx86
{$endif SUPPORT_MMX}
;
{*****************************************************************************
Misc Helpers
*****************************************************************************}
procedure location_free(list: TAsmList; const location : TLocation);
begin
case location.loc of
LOC_VOID:
;
LOC_REGISTER,
LOC_CREGISTER:
begin
{$ifdef cpu64bitalu}
{ x86-64 system v abi:
structs with up to 16 bytes are returned in registers }
if location.size in [OS_128,OS_S128] then
begin
if getsupreg(location.register)<first_int_imreg then
cg.ungetcpuregister(list,location.register);
if getsupreg(location.registerhi)<first_int_imreg then
cg.ungetcpuregister(list,location.registerhi);
end
{$else cpu64bitalu}
if location.size in [OS_64,OS_S64] then
begin
if getsupreg(location.register64.reglo)<first_int_imreg then
cg.ungetcpuregister(list,location.register64.reglo);
if getsupreg(location.register64.reghi)<first_int_imreg then
cg.ungetcpuregister(list,location.register64.reghi);
end
{$endif}
else
if getsupreg(location.register)<first_int_imreg then
cg.ungetcpuregister(list,location.register);
end;
LOC_FPUREGISTER,
LOC_CFPUREGISTER:
begin
if getsupreg(location.register)<first_fpu_imreg then
cg.ungetcpuregister(list,location.register);
end;
LOC_MMREGISTER,
LOC_CMMREGISTER :
begin
if getsupreg(location.register)<first_mm_imreg then
cg.ungetcpuregister(list,location.register);
end;
LOC_REFERENCE,
LOC_CREFERENCE :
begin
if paramanager.use_fixed_stack then
location_freetemp(list,location);
end;
else
internalerror(2004110211);
end;
end;
procedure firstcomplex(p : tbinarynode);
var
fcl, fcr: longint;
ncl, ncr: longint;
begin
{ always calculate boolean AND and OR from left to right }
if (p.nodetype in [orn,andn]) and
is_boolean(p.left.resultdef) then
begin
if nf_swapped in p.flags then
internalerror(200709253);
end
else
begin
fcl:=node_resources_fpu(p.left);
fcr:=node_resources_fpu(p.right);
ncl:=node_complexity(p.left);
ncr:=node_complexity(p.right);
{ We swap left and right if
a) right needs more floating point registers than left, and
left needs more than 0 floating point registers (if it
doesn't need any, swapping won't change the floating
point register pressure)
b) both left and right need an equal amount of floating
point registers or right needs no floating point registers,
and in addition right has a higher complexity than left
(+- needs more integer registers, but not necessarily)
}
if ((fcr>fcl) and
(fcl>0)) or
(((fcr=fcl) or
(fcr=0)) and
(ncr>ncl)) then
p.swapleftright
end;
end;
procedure maketojumpbool(list:TAsmList; p : tnode; loadregvars: tloadregvars);
{
produces jumps to true respectively false labels using boolean expressions
depending on whether the loading of regvars is currently being
synchronized manually (such as in an if-node) or automatically (most of
the other cases where this procedure is called), loadregvars can be
"lr_load_regvars" or "lr_dont_load_regvars"
}
var
opsize : tcgsize;
storepos : tfileposinfo;
tmpreg : tregister;
begin
if nf_error in p.flags then
exit;
storepos:=current_filepos;
current_filepos:=p.fileinfo;
if is_boolean(p.resultdef) then
begin
{$ifdef OLDREGVARS}
if loadregvars = lr_load_regvars then
load_all_regvars(list);
{$endif OLDREGVARS}
if is_constboolnode(p) then
begin
if Tordconstnode(p).value.uvalue<>0 then
cg.a_jmp_always(list,current_procinfo.CurrTrueLabel)
else
cg.a_jmp_always(list,current_procinfo.CurrFalseLabel)
end
else
begin
opsize:=def_cgsize(p.resultdef);
case p.location.loc of
LOC_SUBSETREG,LOC_CSUBSETREG,
LOC_SUBSETREF,LOC_CSUBSETREF:
begin
tmpreg := cg.getintregister(list,OS_INT);
cg.a_load_loc_reg(list,OS_INT,p.location,tmpreg);
cg.a_cmp_const_reg_label(list,OS_INT,OC_NE,0,tmpreg,current_procinfo.CurrTrueLabel);
cg.a_jmp_always(list,current_procinfo.CurrFalseLabel);
end;
LOC_CREGISTER,LOC_REGISTER,LOC_CREFERENCE,LOC_REFERENCE :
begin
cg.a_cmp_const_loc_label(list,opsize,OC_NE,0,p.location,current_procinfo.CurrTrueLabel);
cg.a_jmp_always(list,current_procinfo.CurrFalseLabel);
end;
LOC_JUMP:
;
{$ifdef cpuflags}
LOC_FLAGS :
begin
cg.a_jmp_flags(list,p.location.resflags,current_procinfo.CurrTrueLabel);
cg.a_jmp_always(list,current_procinfo.CurrFalseLabel);
end;
{$endif cpuflags}
else
begin
printnode(output,p);
internalerror(200308241);
end;
end;
end;
end
else
internalerror(200112305);
current_filepos:=storepos;
end;
(*
This code needs fixing. It is not safe to use rgint; on the m68000 it
would be rgaddr.
procedure remove_non_regvars_from_loc(const t: tlocation; var regs:Tsuperregisterset);
begin
case t.loc of
LOC_REGISTER:
begin
{ can't be a regvar, since it would be LOC_CREGISTER then }
exclude(regs,getsupreg(t.register));
if t.register64.reghi<>NR_NO then
exclude(regs,getsupreg(t.register64.reghi));
end;
LOC_CREFERENCE,LOC_REFERENCE:
begin
if not(cs_opt_regvar in current_settings.optimizerswitches) or
(getsupreg(t.reference.base) in cg.rgint.usableregs) then
exclude(regs,getsupreg(t.reference.base));
if not(cs_opt_regvar in current_settings.optimizerswitches) or
(getsupreg(t.reference.index) in cg.rgint.usableregs) then
exclude(regs,getsupreg(t.reference.index));
end;
end;
end;
*)
{*****************************************************************************
EXCEPTION MANAGEMENT
*****************************************************************************}
procedure get_exception_temps(list:TAsmList;var t:texceptiontemps);
var
srsym : ttypesym;
begin
if jmp_buf_size=-1 then
begin
srsym:=search_system_type('JMP_BUF');
jmp_buf_size:=srsym.typedef.size;
jmp_buf_align:=srsym.typedef.alignment;
end;
tg.GetTemp(list,EXCEPT_BUF_SIZE,sizeof(pint),tt_persistent,t.envbuf);
tg.GetTemp(list,jmp_buf_size,jmp_buf_align,tt_persistent,t.jmpbuf);
tg.GetTemp(list,sizeof(pint),sizeof(pint),tt_persistent,t.reasonbuf);
end;
procedure unget_exception_temps(list:TAsmList;const t:texceptiontemps);
begin
tg.Ungettemp(list,t.jmpbuf);
tg.ungettemp(list,t.envbuf);
tg.ungettemp(list,t.reasonbuf);
end;
procedure new_exception(list:TAsmList;const t:texceptiontemps;exceptlabel:tasmlabel);
var
paraloc1,paraloc2,paraloc3 : tcgpara;
begin
paraloc1.init;
paraloc2.init;
paraloc3.init;
paramanager.getintparaloc(pocall_default,1,paraloc1);
paramanager.getintparaloc(pocall_default,2,paraloc2);
paramanager.getintparaloc(pocall_default,3,paraloc3);
cg.a_loadaddr_ref_cgpara(list,t.envbuf,paraloc3);
cg.a_loadaddr_ref_cgpara(list,t.jmpbuf,paraloc2);
{ push type of exceptionframe }
cg.a_load_const_cgpara(list,OS_S32,1,paraloc1);
paramanager.freecgpara(list,paraloc3);
paramanager.freecgpara(list,paraloc2);
paramanager.freecgpara(list,paraloc1);
cg.allocallcpuregisters(list);
cg.a_call_name(list,'FPC_PUSHEXCEPTADDR',false);
cg.deallocallcpuregisters(list);
paramanager.getintparaloc(pocall_default,1,paraloc1);
cg.a_load_reg_cgpara(list,OS_ADDR,NR_FUNCTION_RESULT_REG,paraloc1);
paramanager.freecgpara(list,paraloc1);
cg.allocallcpuregisters(list);
cg.a_call_name(list,'FPC_SETJMP',false);
cg.deallocallcpuregisters(list);
cg.alloccpuregisters(list,R_INTREGISTER,[RS_FUNCTION_RESULT_REG]);
cg.g_exception_reason_save(list, t.reasonbuf);
cg.a_cmp_const_reg_label(list,OS_S32,OC_NE,0,cg.makeregsize(list,NR_FUNCTION_RESULT_REG,OS_S32),exceptlabel);
cg.dealloccpuregisters(list,R_INTREGISTER,[RS_FUNCTION_RESULT_REG]);
paraloc1.done;
paraloc2.done;
paraloc3.done;
end;
procedure free_exception(list:TAsmList;const t:texceptiontemps;a:aint;endexceptlabel:tasmlabel;onlyfree:boolean);
begin
cg.allocallcpuregisters(list);
cg.a_call_name(list,'FPC_POPADDRSTACK',false);
cg.deallocallcpuregisters(list);
if not onlyfree then
begin
{ g_exception_reason_load already allocates NR_FUNCTION_RESULT_REG }
cg.g_exception_reason_load(list, t.reasonbuf);
cg.a_cmp_const_reg_label(list,OS_INT,OC_EQ,a,NR_FUNCTION_RESULT_REG,endexceptlabel);
cg.a_reg_dealloc(list,NR_FUNCTION_RESULT_REG);
end;
end;
{*****************************************************************************
TLocation
*****************************************************************************}
{$ifndef cpu64bitalu}
{ 32-bit version }
procedure location_force_reg(list:TAsmList;var l:tlocation;dst_size:TCGSize;maybeconst:boolean);
var
hregister,
hregisterhi : tregister;
hreg64 : tregister64;
hl : tasmlabel;
oldloc : tlocation;
const_location: boolean;
begin
oldloc:=l;
if dst_size=OS_NO then
internalerror(200309144);
{ handle transformations to 64bit separate }
if dst_size in [OS_64,OS_S64] then
begin
if not (l.size in [OS_64,OS_S64]) then
begin
{ load a smaller size to OS_64 }
if l.loc=LOC_REGISTER then
begin
{$ifdef AVR}
{ on avr, we cannot change the size of a register
due to the nature how register with size > OS8 are handled
}
hregister:=cg.getintregister(list,OS_32);
{$else AVR}
hregister:=cg.makeregsize(list,l.register64.reglo,OS_32);
{$endif AVR}
cg.a_load_reg_reg(list,l.size,OS_32,l.register64.reglo,hregister);
end
else
hregister:=cg.getintregister(list,OS_32);
{ load value in low register }
case l.loc of
{$ifdef cpuflags}
LOC_FLAGS :
cg.g_flags2reg(list,OS_INT,l.resflags,hregister);
{$endif cpuflags}
LOC_JUMP :
begin
cg.a_label(list,current_procinfo.CurrTrueLabel);
cg.a_load_const_reg(list,OS_INT,1,hregister);
current_asmdata.getjumplabel(hl);
cg.a_jmp_always(list,hl);
cg.a_label(list,current_procinfo.CurrFalseLabel);
cg.a_load_const_reg(list,OS_INT,0,hregister);
cg.a_label(list,hl);
end;
else
cg.a_load_loc_reg(list,OS_INT,l,hregister);
end;
{ reset hi part, take care of the signed bit of the current value }
hregisterhi:=cg.getintregister(list,OS_32);
if (l.size in [OS_S8,OS_S16,OS_S32]) then
begin
if l.loc=LOC_CONSTANT then
begin
if (longint(l.value)<0) then
cg.a_load_const_reg(list,OS_32,aint($ffffffff),hregisterhi)
else
cg.a_load_const_reg(list,OS_32,0,hregisterhi);
end
else
begin
cg.a_op_const_reg_reg(list,OP_SAR,OS_32,31,hregister,
hregisterhi);
end;
end
else
cg.a_load_const_reg(list,OS_32,0,hregisterhi);
location_reset(l,LOC_REGISTER,dst_size);
l.register64.reglo:=hregister;
l.register64.reghi:=hregisterhi;
end
else
begin
{ 64bit to 64bit }
if ((l.loc=LOC_CREGISTER) and maybeconst) then
begin
hregister:=l.register64.reglo;
hregisterhi:=l.register64.reghi;
const_location := true;
end
else
begin
hregister:=cg.getintregister(list,OS_32);
hregisterhi:=cg.getintregister(list,OS_32);
const_location := false;
end;
hreg64.reglo:=hregister;
hreg64.reghi:=hregisterhi;
{ load value in new register }
cg64.a_load64_loc_reg(list,l,hreg64);
if not const_location then
location_reset(l,LOC_REGISTER,dst_size)
else
location_reset(l,LOC_CREGISTER,dst_size);
l.register64.reglo:=hregister;
l.register64.reghi:=hregisterhi;
end;
end
else
begin
{Do not bother to recycle the existing register. The register
allocator eliminates unnecessary moves, so it's not needed
and trying to recycle registers can cause problems because
the registers changes size and may need aditional constraints.
Not if it's about LOC_CREGISTER's (JM)
}
const_location :=
(maybeconst) and
(l.loc = LOC_CREGISTER) and
(TCGSize2Size[l.size] = TCGSize2Size[dst_size]) and
((l.size = dst_size) or
(TCGSize2Size[l.size] = sizeof(aint)));
if not const_location then
hregister:=cg.getintregister(list,dst_size)
else
hregister := l.register;
{ load value in new register }
case l.loc of
{$ifdef cpuflags}
LOC_FLAGS :
cg.g_flags2reg(list,dst_size,l.resflags,hregister);
{$endif cpuflags}
LOC_JUMP :
begin
cg.a_label(list,current_procinfo.CurrTrueLabel);
cg.a_load_const_reg(list,dst_size,1,hregister);
current_asmdata.getjumplabel(hl);
cg.a_jmp_always(list,hl);
cg.a_label(list,current_procinfo.CurrFalseLabel);
cg.a_load_const_reg(list,dst_size,0,hregister);
cg.a_label(list,hl);
end;
else
begin
{ load_loc_reg can only handle size >= l.size, when the
new size is smaller then we need to adjust the size
of the orignal and maybe recalculate l.register for i386 }
if (TCGSize2Size[dst_size]<TCGSize2Size[l.size]) then
begin
if (l.loc in [LOC_REGISTER,LOC_CREGISTER]) then
l.register:=cg.makeregsize(list,l.register,dst_size);
{ for big endian systems, the reference's offset must }
{ be increased in this case, since they have the }
{ MSB first in memory and e.g. byte(word_var) should }
{ return the second byte in this case (JM) }
if (target_info.endian = ENDIAN_BIG) and
(l.loc in [LOC_REFERENCE,LOC_CREFERENCE]) then
begin
inc(l.reference.offset,TCGSize2Size[l.size]-TCGSize2Size[dst_size]);
l.reference.alignment:=newalignment(l.reference.alignment,TCGSize2Size[l.size]-TCGSize2Size[dst_size]);
end;
{$ifdef x86}
if not (l.loc in [LOC_SUBSETREG,LOC_CSUBSETREG]) then
l.size:=dst_size;
{$endif x86}
end;
cg.a_load_loc_reg(list,dst_size,l,hregister);
if (TCGSize2Size[dst_size]<TCGSize2Size[l.size])
{$ifdef x86}
and (l.loc in [LOC_SUBSETREG,LOC_CSUBSETREG])
{$endif x86}
then
l.size:=dst_size;
end;
end;
if not const_location then
location_reset(l,LOC_REGISTER,dst_size)
else
location_reset(l,LOC_CREGISTER,dst_size);
l.register:=hregister;
end;
{ Release temp when it was a reference }
if oldloc.loc=LOC_REFERENCE then
location_freetemp(list,oldloc);
end;
{$else not cpu64bitalu}
{ 64-bit version }
procedure location_force_reg(list:TAsmList;var l:tlocation;dst_size:TCGSize;maybeconst:boolean);
var
hregister : tregister;
hl : tasmlabel;
oldloc : tlocation;
begin
oldloc:=l;
hregister:=cg.getintregister(list,dst_size);
{ load value in new register }
case l.loc of
{$ifdef cpuflags}
LOC_FLAGS :
cg.g_flags2reg(list,dst_size,l.resflags,hregister);
{$endif cpuflags}
LOC_JUMP :
begin
cg.a_label(list,current_procinfo.CurrTrueLabel);
cg.a_load_const_reg(list,dst_size,1,hregister);
current_asmdata.getjumplabel(hl);
cg.a_jmp_always(list,hl);
cg.a_label(list,current_procinfo.CurrFalseLabel);
cg.a_load_const_reg(list,dst_size,0,hregister);
cg.a_label(list,hl);
end;
else
begin
{ load_loc_reg can only handle size >= l.size, when the
new size is smaller then we need to adjust the size
of the orignal and maybe recalculate l.register for i386 }
if (TCGSize2Size[dst_size]<TCGSize2Size[l.size]) then
begin
if (l.loc in [LOC_REGISTER,LOC_CREGISTER]) then
l.register:=cg.makeregsize(list,l.register,dst_size);
{ for big endian systems, the reference's offset must }
{ be increased in this case, since they have the }
{ MSB first in memory and e.g. byte(word_var) should }
{ return the second byte in this case (JM) }
if (target_info.endian = ENDIAN_BIG) and
(l.loc in [LOC_REFERENCE,LOC_CREFERENCE]) then
begin
inc(l.reference.offset,TCGSize2Size[l.size]-TCGSize2Size[dst_size]);
l.reference.alignment:=newalignment(l.reference.alignment,TCGSize2Size[l.size]-TCGSize2Size[dst_size]);
end;
{$ifdef x86}
l.size:=dst_size;
{$endif x86}
end;
cg.a_load_loc_reg(list,dst_size,l,hregister);
{$ifndef x86}
if (TCGSize2Size[dst_size]<TCGSize2Size[l.size]) then
l.size:=dst_size;
{$endif not x86}
end;
end;
if (l.loc <> LOC_CREGISTER) or
not maybeconst then
location_reset(l,LOC_REGISTER,dst_size)
else
location_reset(l,LOC_CREGISTER,dst_size);
l.register:=hregister;
{ Release temp when it was a reference }
if oldloc.loc=LOC_REFERENCE then
location_freetemp(list,oldloc);
end;
{$endif not cpu64bitalu}
procedure location_force_fpureg(list:TAsmList;var l: tlocation;maybeconst:boolean);
var
reg : tregister;
href : treference;
begin
if (l.loc<>LOC_FPUREGISTER) and
((l.loc<>LOC_CFPUREGISTER) or (not maybeconst)) then
begin
{ if it's in an mm register, store to memory first }
if (l.loc in [LOC_MMREGISTER,LOC_CMMREGISTER]) then
begin
tg.GetTemp(list,tcgsize2size[l.size],tcgsize2size[l.size],tt_normal,href);
cg.a_loadmm_reg_ref(list,l.size,l.size,l.register,href,mms_movescalar);
location_reset_ref(l,LOC_REFERENCE,l.size,0);
l.reference:=href;
end;
reg:=cg.getfpuregister(list,l.size);
cg.a_loadfpu_loc_reg(list,l.size,l,reg);
location_freetemp(list,l);
location_reset(l,LOC_FPUREGISTER,l.size);
l.register:=reg;
end;
end;
procedure location_force_mmregscalar(list:TAsmList;var l: tlocation;maybeconst:boolean);
var
reg : tregister;
href : treference;
newsize : tcgsize;
begin
if (l.loc<>LOC_MMREGISTER) and
((l.loc<>LOC_CMMREGISTER) or (not maybeconst)) then
begin
{ if it's in an fpu register, store to memory first }
if (l.loc in [LOC_FPUREGISTER,LOC_CFPUREGISTER]) then
begin
tg.GetTemp(list,tcgsize2size[l.size],tcgsize2size[l.size],tt_normal,href);
cg.a_loadfpu_reg_ref(list,l.size,l.size,l.register,href);
location_reset_ref(l,LOC_REFERENCE,l.size,0);
l.reference:=href;
end;
{$ifndef cpu64bitalu}
if (l.loc in [LOC_REGISTER,LOC_CREGISTER]) and
(l.size in [OS_64,OS_S64]) then
begin
reg:=cg.getmmregister(list,OS_F64);
cg64.a_loadmm_intreg64_reg(list,OS_F64,l.register64,reg);
l.size:=OS_F64
end
else
{$endif not cpu64bitalu}
begin
{ on ARM, CFP values may be located in integer registers,
and its second_int_to_real() also uses this routine to
force integer (memory) values in an mmregister }
if (l.size in [OS_32,OS_S32]) then
newsize:=OS_F32
else if (l.size in [OS_64,OS_S64]) then
newsize:=OS_F64
else
newsize:=l.size;
reg:=cg.getmmregister(list,newsize);
cg.a_loadmm_loc_reg(list,newsize,l,reg,mms_movescalar);
l.size:=newsize;
end;
location_freetemp(list,l);
location_reset(l,LOC_MMREGISTER,l.size);
l.register:=reg;
end;
end;
procedure gen_loadfpu_loc_cgpara(list: TAsmList; const l: tlocation;const cgpara: tcgpara;locintsize: longint);
var
{$ifdef i386}
href : treference;
size : longint;
{$endif i386}
locsize : tcgsize;
tmploc : tlocation;
begin
if not(l.size in [OS_32,OS_S32,OS_64,OS_S64,OS_128,OS_S128]) then
locsize:=l.size
else
locsize:=int_float_cgsize(tcgsize2size[l.size]);
{$ifdef i386}
case l.loc of
LOC_FPUREGISTER,
LOC_CFPUREGISTER:
begin
case cgpara.location^.loc of
LOC_REFERENCE:
begin
size:=align(locintsize,cgpara.alignment);
if (not paramanager.use_fixed_stack) and
(cgpara.location^.reference.index=NR_STACK_POINTER_REG) then
begin
cg.g_stackpointer_alloc(list,size);
reference_reset_base(href,NR_STACK_POINTER_REG,0,sizeof(pint));
end
else
reference_reset_base(href,cgpara.location^.reference.index,cgpara.location^.reference.offset,cgpara.alignment);
cg.a_loadfpu_reg_ref(list,locsize,locsize,l.register,href);
end;
LOC_FPUREGISTER:
begin
cg.a_loadfpu_reg_reg(list,locsize,cgpara.location^.size,l.register,cgpara.location^.register);
end;
{ can happen if a record with only 1 "single field" is
returned in a floating point register and then is directly
passed to a regcall parameter }
LOC_REGISTER:
begin
tmploc:=l;
location_force_mem(list,tmploc);
case locsize of
OS_F32:
tmploc.size:=OS_32;
OS_F64:
tmploc.size:=OS_64;
else
internalerror(2010053116);
end;
cg.a_load_loc_cgpara(list,tmploc,cgpara);
location_freetemp(list,tmploc);
end
else
internalerror(2010053003);
end;
end;
LOC_MMREGISTER,
LOC_CMMREGISTER:
begin
case cgpara.location^.loc of
LOC_REFERENCE:
begin
{ can't use TCGSize2Size[l.size], because the size of an
80 bit extended parameter can be either 10 or 12 bytes }
size:=align(locintsize,cgpara.alignment);
if (not paramanager.use_fixed_stack) and
(cgpara.location^.reference.index=NR_STACK_POINTER_REG) then
begin
cg.g_stackpointer_alloc(list,size);
reference_reset_base(href,NR_STACK_POINTER_REG,0,sizeof(pint));
end
else
reference_reset_base(href,cgpara.location^.reference.index,cgpara.location^.reference.offset,cgpara.alignment);
cg.a_loadmm_reg_ref(list,locsize,locsize,l.register,href,mms_movescalar);
end;
LOC_FPUREGISTER:
begin
tmploc:=l;
location_force_mem(list,tmploc);
cg.a_loadfpu_ref_cgpara(list,tmploc.size,tmploc.reference,cgpara);
location_freetemp(list,tmploc);
end;
else
internalerror(2010053004);
end;
end;
LOC_REFERENCE,
LOC_CREFERENCE :
begin
case cgpara.location^.loc of
LOC_REFERENCE:
begin
size:=align(locintsize,cgpara.alignment);
if (not paramanager.use_fixed_stack) and
(cgpara.location^.reference.index=NR_STACK_POINTER_REG) then
cg.a_load_ref_cgpara(list,locsize,l.reference,cgpara)
else
begin
reference_reset_base(href,cgpara.location^.reference.index,cgpara.location^.reference.offset,cgpara.alignment);
cg.g_concatcopy(list,l.reference,href,size);
end;
end;
LOC_FPUREGISTER:
begin
cg.a_loadfpu_ref_cgpara(list,locsize,l.reference,cgpara);
end;
else
internalerror(2010053005);
end;
end;
else
internalerror(2002042430);
end;
{$else i386}
case l.loc of
LOC_MMREGISTER,
LOC_CMMREGISTER:
case cgpara.location^.loc of
LOC_REFERENCE,
LOC_CREFERENCE,
LOC_MMREGISTER,
LOC_CMMREGISTER,
LOC_REGISTER,
LOC_CREGISTER :
cg.a_loadmm_reg_cgpara(list,locsize,l.register,cgpara,mms_movescalar);
LOC_FPUREGISTER,
LOC_CFPUREGISTER:
begin
tmploc:=l;
location_force_fpureg(list,tmploc,false);
cg.a_loadfpu_reg_cgpara(list,tmploc.size,tmploc.register,cgpara);
end;
else
internalerror(200204249);
end;
LOC_FPUREGISTER,
LOC_CFPUREGISTER:
case cgpara.location^.loc of
LOC_MMREGISTER,
LOC_CMMREGISTER:
begin
tmploc:=l;
location_force_mmregscalar(list,tmploc,false);
cg.a_loadmm_reg_cgpara(list,tmploc.size,tmploc.register,cgpara,mms_movescalar);
end;
{ Some targets pass floats in normal registers }
LOC_REGISTER,
LOC_CREGISTER,
LOC_REFERENCE,
LOC_CREFERENCE,
LOC_FPUREGISTER,
LOC_CFPUREGISTER:
cg.a_loadfpu_reg_cgpara(list,locsize,l.register,cgpara);
else
internalerror(2002042433);
end;
LOC_REFERENCE,
LOC_CREFERENCE:
case cgpara.location^.loc of
LOC_MMREGISTER,
LOC_CMMREGISTER:
cg.a_loadmm_ref_cgpara(list,locsize,l.reference,cgpara,mms_movescalar);
{ Some targets pass floats in normal registers }
LOC_REGISTER,
LOC_CREGISTER,
LOC_REFERENCE,
LOC_CREFERENCE,
LOC_FPUREGISTER,
LOC_CFPUREGISTER:
cg.a_loadfpu_ref_cgpara(list,locsize,l.reference,cgpara);
else
internalerror(2002042431);
end;
LOC_REGISTER,
LOC_CREGISTER :
begin
{$ifndef cpu64bitalu}
{ Only a_load_ref_cgpara supports multiple locations, when the
value is still a const or in a register then write it
to a reference first. This situation can be triggered
by typecasting an int64 constant to a record of 8 bytes }
if locsize = OS_F64 then
begin
tmploc:=l;
location_force_mem(list,tmploc);
cg.a_load_loc_cgpara(list,tmploc,cgpara);
location_freetemp(list,tmploc);
end
else
{$endif not cpu64bitalu}
cg.a_load_loc_cgpara(list,l,cgpara);
end;
else
internalerror(2002042432);
end;
{$endif i386}
end;
procedure gen_load_loc_cgpara(list: TAsmList; vardef: tdef; const l: tlocation; const cgpara: tcgpara);
{$ifndef cpu64bitalu}
var
tmploc: tlocation;
{$endif not cpu64bitalu}
begin
{ Handle Floating point types differently
This doesn't depend on emulator settings, emulator settings should
be handled by cpupara }
if (vardef.typ=floatdef) or
{ some ABIs return certain records in an fpu register }
(l.loc in [LOC_FPUREGISTER,LOC_CFPUREGISTER]) or
(assigned(cgpara.location) and
(cgpara.Location^.loc in [LOC_FPUREGISTER,LOC_CFPUREGISTER])) then
begin
gen_loadfpu_loc_cgpara(list,l,cgpara,vardef.size);
exit;
end;
case l.loc of
LOC_CONSTANT,
LOC_REGISTER,
LOC_CREGISTER,
LOC_REFERENCE,
LOC_CREFERENCE :
begin
{$ifndef cpu64bitalu}
{ use cg64 only for int64, not for 8 byte records }
if is_64bit(vardef) then
cg64.a_load64_loc_cgpara(list,l,cgpara)
else
{$endif not cpu64bitalu}
begin
{$ifndef cpu64bitalu}
{ Only a_load_ref_cgpara supports multiple locations, when the
value is still a const or in a register then write it
to a reference first. This situation can be triggered
by typecasting an int64 constant to a record of 8 bytes }
if l.size in [OS_64,OS_S64] then
begin
tmploc:=l;
location_force_mem(list,tmploc);
cg.a_load_loc_cgpara(list,tmploc,cgpara);
{ do not free the tmploc in case the original value was
already in memory, because the caller (ncgcal) will then
free it again later }
if not(l.loc in [LOC_REFERENCE,LOC_CREFERENCE]) then
location_freetemp(list,tmploc);
end
else
{$endif not cpu64bitalu}
cg.a_load_loc_cgpara(list,l,cgpara);
end;
end;
LOC_MMREGISTER,
LOC_CMMREGISTER:
begin
case l.size of
OS_F32,
OS_F64:
cg.a_loadmm_loc_cgpara(list,l,cgpara,mms_movescalar);
else
cg.a_loadmm_loc_cgpara(list,l,cgpara,nil);
end;
end;
{$ifdef SUPPORT_MMX}
LOC_MMXREGISTER,
LOC_CMMXREGISTER:
cg.a_loadmm_reg_cgpara(list,OS_M64,l.register,cgpara,nil);
{$endif SUPPORT_MMX}
else
internalerror(200204241);
end;
end;
procedure register_maybe_adjust_setbase(list: TAsmList; var l: tlocation; setbase: aint);
var
tmpreg: tregister;
begin
if (setbase<>0) then
begin
if not(l.loc in [LOC_REGISTER,LOC_CREGISTER]) then
internalerror(2007091502);
{ subtract the setbase }
case l.loc of
LOC_CREGISTER:
begin
tmpreg := cg.getintregister(list,l.size);
cg.a_op_const_reg_reg(list,OP_SUB,l.size,setbase,l.register,tmpreg);
l.loc:=LOC_REGISTER;
l.register:=tmpreg;
end;
LOC_REGISTER:
begin
cg.a_op_const_reg(list,OP_SUB,l.size,setbase,l.register);
end;
end;
end;
end;
procedure location_force_mmreg(list:TAsmList;var l: tlocation;maybeconst:boolean);
var
reg : tregister;
begin
if (l.loc<>LOC_MMREGISTER) and
((l.loc<>LOC_CMMREGISTER) or (not maybeconst)) then
begin
reg:=cg.getmmregister(list,OS_VECTOR);
cg.a_loadmm_loc_reg(list,OS_VECTOR,l,reg,nil);
location_freetemp(list,l);
location_reset(l,LOC_MMREGISTER,OS_VECTOR);
l.register:=reg;
end;
end;
procedure location_allocate_register(list: TAsmList;out l: tlocation;def: tdef;constant: boolean);
begin
l.size:=def_cgsize(def);
if (def.typ=floatdef) and
not(cs_fp_emulation in current_settings.moduleswitches) then
begin
if use_vectorfpu(def) then
begin
if constant then
location_reset(l,LOC_CMMREGISTER,l.size)
else
location_reset(l,LOC_MMREGISTER,l.size);
l.register:=cg.getmmregister(list,l.size);
end
else
begin
if constant then
location_reset(l,LOC_CFPUREGISTER,l.size)
else
location_reset(l,LOC_FPUREGISTER,l.size);
l.register:=cg.getfpuregister(list,l.size);
end;
end
else
begin
if constant then
location_reset(l,LOC_CREGISTER,l.size)
else
location_reset(l,LOC_REGISTER,l.size);
{$ifndef cpu64bitalu}
if l.size in [OS_64,OS_S64,OS_F64] then
begin
l.register64.reglo:=cg.getintregister(list,OS_32);
l.register64.reghi:=cg.getintregister(list,OS_32);
end
else
{$endif not cpu64bitalu}
l.register:=cg.getintregister(list,l.size);
end;
end;
procedure location_force_mem(list:TAsmList;var l:tlocation);
var
r : treference;
begin
case l.loc of
LOC_FPUREGISTER,
LOC_CFPUREGISTER :
begin
tg.GetTemp(list,TCGSize2Size[l.size],TCGSize2Size[l.size],tt_normal,r);
cg.a_loadfpu_reg_ref(list,l.size,l.size,l.register,r);
location_reset_ref(l,LOC_REFERENCE,l.size,0);
l.reference:=r;
end;
LOC_MMREGISTER,
LOC_CMMREGISTER:
begin
tg.GetTemp(list,TCGSize2Size[l.size],TCGSize2Size[l.size],tt_normal,r);
cg.a_loadmm_reg_ref(list,l.size,l.size,l.register,r,mms_movescalar);
location_reset_ref(l,LOC_REFERENCE,l.size,0);
l.reference:=r;
end;
LOC_CONSTANT,
LOC_REGISTER,
LOC_CREGISTER :
begin
tg.GetTemp(list,TCGSize2Size[l.size],TCGSize2Size[l.size],tt_normal,r);
{$ifndef cpu64bitalu}
if l.size in [OS_64,OS_S64] then
cg64.a_load64_loc_ref(list,l,r)
else
{$endif not cpu64bitalu}
cg.a_load_loc_ref(list,l.size,l,r);
location_reset_ref(l,LOC_REFERENCE,l.size,0);
l.reference:=r;
end;
LOC_SUBSETREG,
LOC_CSUBSETREG,
LOC_SUBSETREF,
LOC_CSUBSETREF:
begin
tg.GetTemp(list,TCGSize2Size[l.size],TCGSize2Size[l.size],tt_normal,r);
cg.a_load_loc_ref(list,l.size,l,r);
location_reset_ref(l,LOC_REFERENCE,l.size,0);
l.reference:=r;
end;
LOC_CREFERENCE,
LOC_REFERENCE : ;
else
internalerror(200203219);
end;
end;
procedure location_get_data_ref(list:TAsmList;const l:tlocation;var ref:treference;loadref:boolean; alignment: longint);
begin
case l.loc of
LOC_REGISTER,
LOC_CREGISTER :
begin
if not loadref then
internalerror(200410231);
reference_reset_base(ref,l.register,0,alignment);
end;
LOC_REFERENCE,
LOC_CREFERENCE :
begin
if loadref then
begin
reference_reset_base(ref,cg.getaddressregister(list),0,alignment);
cg.a_load_ref_reg(list,OS_ADDR,OS_ADDR,l.reference,ref.base);
end
else
ref:=l.reference;
end;
else
internalerror(200309181);
end;
end;
{****************************************************************************
Init/Finalize Code
****************************************************************************}
procedure copyvalueparas(p:TObject;arg:pointer);
var
href : treference;
hreg : tregister;
list : TAsmList;
hsym : tparavarsym;
l : longint;
localcopyloc : tlocation;
begin
list:=TAsmList(arg);
if (tsym(p).typ=paravarsym) and
(tparavarsym(p).varspez=vs_value) and
(paramanager.push_addr_param(tparavarsym(p).varspez,tparavarsym(p).vardef,current_procinfo.procdef.proccalloption)) then
begin
{ we have no idea about the alignment at the caller side }
location_get_data_ref(list,tparavarsym(p).initialloc,href,true,1);
if is_open_array(tparavarsym(p).vardef) or
is_array_of_const(tparavarsym(p).vardef) then
begin
{ cdecl functions don't have a high pointer so it is not possible to generate
a local copy }
if not(current_procinfo.procdef.proccalloption in cdecl_pocalls) then
begin
hsym:=tparavarsym(tsym(p).owner.Find('high'+tsym(p).name));
if not assigned(hsym) then
internalerror(200306061);
hreg:=cg.getaddressregister(list);
if not is_packed_array(tparavarsym(p).vardef) then
cg.g_copyvaluepara_openarray(list,href,hsym.initialloc,tarraydef(tparavarsym(p).vardef).elesize,hreg)
else
internalerror(2006080401);
// cg.g_copyvaluepara_packedopenarray(list,href,hsym.intialloc,tarraydef(tparavarsym(p).vardef).elepackedbitsize,hreg);
cg.a_load_reg_loc(list,OS_ADDR,hreg,tparavarsym(p).initialloc);
end;
end
else
begin
{ Allocate space for the local copy }
l:=tparavarsym(p).getsize;
localcopyloc.loc:=LOC_REFERENCE;
localcopyloc.size:=int_cgsize(l);
tg.GetLocal(list,l,tparavarsym(p).vardef,localcopyloc.reference);
{ Copy data }
if is_shortstring(tparavarsym(p).vardef) then
begin
{ this code is only executed before the code for the body and the entry/exit code is generated
so we're allowed to include pi_do_call here; after pass1 is run, this isn't allowed anymore
}
include(current_procinfo.flags,pi_do_call);
cg.g_copyshortstring(list,href,localcopyloc.reference,tstringdef(tparavarsym(p).vardef).len)
end
else if tparavarsym(p).vardef.typ = variantdef then
begin
{ this code is only executed before the code for the body and the entry/exit code is generated
so we're allowed to include pi_do_call here; after pass1 is run, this isn't allowed anymore
}
include(current_procinfo.flags,pi_do_call);
cg.g_copyvariant(list,href,localcopyloc.reference)
end
else
begin
{ pass proper alignment info }
localcopyloc.reference.alignment:=tparavarsym(p).vardef.alignment;
cg.g_concatcopy(list,href,localcopyloc.reference,tparavarsym(p).vardef.size);
end;
{ update localloc of varsym }
tg.Ungetlocal(list,tparavarsym(p).localloc.reference);
tparavarsym(p).localloc:=localcopyloc;
tparavarsym(p).initialloc:=localcopyloc;
end;
end;
end;
const
{$ifdef cpu64bitalu}
trashintvalues: array[0..nroftrashvalues-1] of aint = ($5555555555555555,aint($AAAAAAAAAAAAAAAA),aint($EFEFEFEFEFEFEFEF),0);
{$endif cpu64bitalu}
{$ifdef cpu32bitalu}
trashintvalues: array[0..nroftrashvalues-1] of aint = ($55555555,aint($AAAAAAAA),aint($EFEFEFEF),0);
{$endif cpu32bitalu}
{$ifdef cpu8bitalu}
trashintvalues: array[0..nroftrashvalues-1] of aint = ($55,aint($AA),aint($EF),0);
{$endif cpu8bitalu}
procedure trash_reference(list: TAsmList; const ref: treference; size: aint);
var
countreg, valuereg: tregister;
hl: tasmlabel;
trashintval: aint;
tmpref: treference;
begin
trashintval := trashintvalues[localvartrashing];
case size of
0: ; { empty record }
1: cg.a_load_const_ref(list,OS_8,byte(trashintval),ref);
2: cg.a_load_const_ref(list,OS_16,word(trashintval),ref);
4: cg.a_load_const_ref(list,OS_32,longint(trashintval),ref);
{$ifdef cpu64bitalu}
8: cg.a_load_const_ref(list,OS_64,int64(trashintval),ref);
{$endif cpu64bitalu}
else
begin
countreg := cg.getintregister(list,OS_ADDR);
valuereg := cg.getintregister(list,OS_8);
cg.a_load_const_reg(list,OS_INT,size,countreg);
cg.a_load_const_reg(list,OS_8,byte(trashintval),valuereg);
current_asmdata.getjumplabel(hl);
tmpref := ref;
if (tmpref.index <> NR_NO) then
internalerror(200607201);
tmpref.index := countreg;
dec(tmpref.offset);
cg.a_label(list,hl);
cg.a_load_reg_ref(list,OS_8,OS_8,valuereg,tmpref);
cg.a_op_const_reg(list,OP_SUB,OS_INT,1,countreg);
cg.a_cmp_const_reg_label(list,OS_INT,OC_NE,0,countreg,hl);
cg.a_reg_sync(list,tmpref.base);
cg.a_reg_sync(list,valuereg);
end;
end;
end;
{ trash contents of local variables or parameters (function result) }
procedure trash_variable(p:TObject;arg:pointer);
var
trashintval: aint;
list: TAsmList absolute arg;
begin
if ((tsym(p).typ=localvarsym) or
((tsym(p).typ=paravarsym) and
(vo_is_funcret in tparavarsym(p).varoptions))) and
not(is_managed_type(tabstractnormalvarsym(p).vardef)) and
not(assigned(tabstractnormalvarsym(p).defaultconstsym)) then
begin
trashintval := trashintvalues[localvartrashing];
case tabstractnormalvarsym(p).initialloc.loc of
LOC_CREGISTER :
{$ifopt q+}
{$define overflowon}
{$q-}
{$endif}
begin
{ avoid problems with broken x86 shifts }
case tcgsize2size[tabstractnormalvarsym(p).initialloc.size] of
1: cg.a_load_const_reg(list,OS_8,byte(trashintval),tabstractnormalvarsym(p).initialloc.register);
2: cg.a_load_const_reg(list,OS_16,word(trashintval),tabstractnormalvarsym(p).initialloc.register);
4: cg.a_load_const_reg(list,OS_32,longint(trashintval),tabstractnormalvarsym(p).initialloc.register);
8:
begin
{$ifdef cpu64bitalu}
cg.a_load_const_reg(list,OS_64,aint(trashintval),tabstractnormalvarsym(p).initialloc.register);
{$else}
cg64.a_load64_const_reg(list,int64(trashintval) shl 32 or int64(trashintval),tabstractnormalvarsym(p).initialloc.register64);
{$endif}
end;
else
internalerror(2010060801);
end;
end;
{$ifdef overflowon}
{$undef overflowon}
{$q+}
{$endif}
LOC_REFERENCE :
begin
if ((tsym(p).typ=localvarsym) and
not(vo_is_funcret in tabstractvarsym(p).varoptions)) or
not is_shortstring(tabstractnormalvarsym(p).vardef) then
trash_reference(list,tabstractnormalvarsym(p).initialloc.reference,
tlocalvarsym(p).getsize)
else
{ may be an open string, even if is_open_string() returns }
{ false (for some helpers in the system unit) }
{ an open string has at least size 2 }
trash_reference(list,tabstractnormalvarsym(p).initialloc.reference,
2);
end;
LOC_CMMREGISTER :
;
LOC_CFPUREGISTER :
;
else
internalerror(200410124);
end;
end;
end;
{ initializes the regvars from staticsymtable with 0 }
procedure initialize_regvars(p:TObject;arg:pointer);
var
href : treference;
begin
if (tsym(p).typ=staticvarsym) then
begin
{ Static variables can have the initialloc only set to LOC_CxREGISTER
or LOC_INVALID, for explaination see gen_alloc_symtable (PFV) }
case tstaticvarsym(p).initialloc.loc of
LOC_CREGISTER :
begin
{$ifndef cpu64bitalu}
if (tstaticvarsym(p).initialloc.size in [OS_64,OS_S64]) then
cg64.a_load64_const_reg(TAsmList(arg),0,tstaticvarsym(p).initialloc.register64)
else
{$endif not cpu64bitalu}
cg.a_load_const_reg(TAsmList(arg),reg_cgsize(tstaticvarsym(p).initialloc.register),0,
tstaticvarsym(p).initialloc.register);
end;
LOC_CMMREGISTER :
{ clear the whole register }
cg.a_opmm_reg_reg(TAsmList(arg),OP_XOR,reg_cgsize(tstaticvarsym(p).initialloc.register),
tstaticvarsym(p).initialloc.register,
tstaticvarsym(p).initialloc.register,
nil);
LOC_CFPUREGISTER :
begin
{ initialize fpu regvar by loading from memory }
reference_reset_symbol(href,
current_asmdata.RefAsmSymbol(tstaticvarsym(p).mangledname), 0,
var_align(tstaticvarsym(p).vardef.alignment));
cg.a_loadfpu_ref_reg(TAsmList(arg), tstaticvarsym(p).initialloc.size,
tstaticvarsym(p).initialloc.size, href, tstaticvarsym(p).initialloc.register);
end;
LOC_INVALID :
;
else
internalerror(200410124);
end;
end;
end;
{ generates the code for initialisation of local data }
procedure initialize_data(p:TObject;arg:pointer);
var
OldAsmList : TAsmList;
hp : tnode;
begin
if (tsym(p).typ = localvarsym) and
{ local (procedure or unit) variables only need initialization if
they are used }
((tabstractvarsym(p).refs>0) or
{ managed return symbols must be inited }
((tsym(p).typ=localvarsym) and (vo_is_funcret in tlocalvarsym(p).varoptions))
) and
not(vo_is_typed_const in tabstractvarsym(p).varoptions) and
not(vo_is_external in tabstractvarsym(p).varoptions) and
(is_managed_type(tabstractvarsym(p).vardef) or
((m_iso in current_settings.modeswitches) and (tabstractvarsym(p).vardef.typ=filedef))
) then
begin
OldAsmList:=current_asmdata.CurrAsmList;
current_asmdata.CurrAsmList:=TAsmList(arg);
hp:=initialize_data_node(cloadnode.create(tsym(p),tsym(p).owner));
firstpass(hp);
secondpass(hp);
hp.free;
current_asmdata.CurrAsmList:=OldAsmList;
end;
end;
procedure finalize_sym(asmlist:TAsmList;sym:tsym);
var
hp : tnode;
OldAsmList : TAsmList;
begin
include(current_procinfo.flags,pi_needs_implicit_finally);
OldAsmList:=current_asmdata.CurrAsmList;
current_asmdata.CurrAsmList:=asmlist;
hp:=cloadnode.create(sym,sym.owner);
if (sym.typ=staticvarsym) and (vo_force_finalize in tstaticvarsym(sym).varoptions) then
include(hp.flags,nf_isinternal_ignoreconst);
hp:=finalize_data_node(hp);
firstpass(hp);
secondpass(hp);
hp.free;
current_asmdata.CurrAsmList:=OldAsmList;
end;
{ generates the code for finalisation of local variables }
procedure finalize_local_vars(p:TObject;arg:pointer);
begin
if (tsym(p).typ=localvarsym) and
(tlocalvarsym(p).refs>0) and
not(vo_is_external in tlocalvarsym(p).varoptions) and
not(vo_is_funcret in tlocalvarsym(p).varoptions) and
is_managed_type(tlocalvarsym(p).vardef) then
finalize_sym(TAsmList(arg),tsym(p));
end;
{ generates the code for finalization of static symtable and
all local (static) typed consts }
procedure finalize_static_data(p:TObject;arg:pointer);
var
i : longint;
pd : tprocdef;
begin
case tsym(p).typ of
staticvarsym :
begin
{ local (procedure or unit) variables only need finalization
if they are used
}
if ((tstaticvarsym(p).refs>0) or
{ global (unit) variables always need finalization, since
they may also be used in another unit
}
(tstaticvarsym(p).owner.symtabletype=globalsymtable)) and
(
(tstaticvarsym(p).varspez<>vs_const) or
(vo_force_finalize in tstaticvarsym(p).varoptions)
) and
not(vo_is_funcret in tstaticvarsym(p).varoptions) and
not(vo_is_external in tstaticvarsym(p).varoptions) and
is_managed_type(tstaticvarsym(p).vardef) then
finalize_sym(TAsmList(arg),tsym(p));
end;
procsym :
begin
for i:=0 to tprocsym(p).ProcdefList.Count-1 do
begin
pd:=tprocdef(tprocsym(p).ProcdefList[i]);
if assigned(pd.localst) and
(pd.procsym=tprocsym(p)) and
(pd.localst.symtabletype<>staticsymtable) then
pd.localst.SymList.ForEachCall(@finalize_static_data,arg);
end;
end;
end;
end;
{ generates the code for incrementing the reference count of parameters and
initialize out parameters }
procedure init_paras(p:TObject;arg:pointer);
var
href : treference;
hsym : tparavarsym;
eldef : tdef;
tmpreg : tregister;
list : TAsmList;
needs_inittable,
do_trashing : boolean;
begin
list:=TAsmList(arg);
if (tsym(p).typ=paravarsym) then
begin
needs_inittable:=is_managed_type(tparavarsym(p).vardef);
do_trashing:=
(localvartrashing <> -1) and
(not assigned(tparavarsym(p).defaultconstsym)) and
not needs_inittable;
case tparavarsym(p).varspez of
vs_value :
if needs_inittable then
begin
{ variants are already handled by the call to fpc_variant_copy_overwrite if
they are passed by reference }
if not((tparavarsym(p).vardef.typ=variantdef) and
paramanager.push_addr_param(tparavarsym(p).varspez,tparavarsym(p).vardef,current_procinfo.procdef.proccalloption)) then
begin
location_get_data_ref(list,tparavarsym(p).initialloc,href,is_open_array(tparavarsym(p).vardef),sizeof(pint));
if is_open_array(tparavarsym(p).vardef) then
begin
{ open arrays do not contain correct element count in their rtti,
the actual count must be passed separately. }
hsym:=tparavarsym(tsym(p).owner.Find('high'+tsym(p).name));
eldef:=tarraydef(tparavarsym(p).vardef).elementdef;
if not assigned(hsym) then
internalerror(201003031);
cg.g_array_rtti_helper(list,eldef,href,hsym.initialloc,'FPC_ADDREF_ARRAY');
end
else
cg.g_incrrefcount(list,tparavarsym(p).vardef,href);
end;
end;
vs_out :
begin
if needs_inittable or
do_trashing then
begin
tmpreg:=cg.getaddressregister(list);
cg.a_load_loc_reg(list,OS_ADDR,tparavarsym(p).initialloc,tmpreg);
{ we have no idea about the alignment at the callee side,
and the user also cannot specify "unaligned" here, so
assume worst case }
reference_reset_base(href,tmpreg,0,1);
if do_trashing and
{ needs separate implementation to trash open arrays }
{ since their size is only known at run time }
not is_special_array(tparavarsym(p).vardef) then
{ may be an open string, even if is_open_string() returns }
{ false (for some helpers in the system unit) }
if not is_shortstring(tparavarsym(p).vardef) then
trash_reference(list,href,tparavarsym(p).vardef.size)
else
trash_reference(list,href,2);
if needs_inittable then
begin
if is_open_array(tparavarsym(p).vardef) then
begin
hsym:=tparavarsym(tsym(p).owner.Find('high'+tsym(p).name));
eldef:=tarraydef(tparavarsym(p).vardef).elementdef;
if not assigned(hsym) then
internalerror(201103033);
cg.g_array_rtti_helper(list,eldef,href,hsym.initialloc,'FPC_INITIALIZE_ARRAY');
end
else
cg.g_initialize(list,tparavarsym(p).vardef,href);
end;
end;
end;
else if do_trashing and
([vo_is_funcret,vo_is_hidden_para] * tparavarsym(p).varoptions = [vo_is_funcret,vo_is_hidden_para]) then
begin
tmpreg:=cg.getaddressregister(list);
cg.a_load_loc_reg(list,OS_ADDR,tparavarsym(p).initialloc,tmpreg);
{ should always have standard alignment. If a function is assigned
to a non-aligned variable, the optimisation to pass this variable
directly as hidden function result must/cannot be performed
(see tcallnode.funcret_can_be_reused)
}
reference_reset_base(href,tmpreg,0,
used_align(tparavarsym(p).vardef.alignment,current_settings.alignment.localalignmin,current_settings.alignment.localalignmax));
{ may be an open string, even if is_open_string() returns }
{ false (for some helpers in the system unit) }
if not is_shortstring(tparavarsym(p).vardef) then
trash_reference(list,href,tparavarsym(p).vardef.size)
else
{ an open string has at least size 2 }
trash_reference(list,href,2);
end
end;
end;
end;
{ generates the code for decrementing the reference count of parameters }
procedure final_paras(p:TObject;arg:pointer);
var
list : TAsmList;
href : treference;
hsym : tparavarsym;
eldef : tdef;
begin
if not(tsym(p).typ=paravarsym) then
exit;
list:=TAsmList(arg);
if is_managed_type(tparavarsym(p).vardef) then
begin
if (tparavarsym(p).varspez=vs_value) then
begin
include(current_procinfo.flags,pi_needs_implicit_finally);
location_get_data_ref(list,tparavarsym(p).localloc,href,is_open_array(tparavarsym(p).vardef),sizeof(pint));
if is_open_array(tparavarsym(p).vardef) then
begin
hsym:=tparavarsym(tsym(p).owner.Find('high'+tsym(p).name));
eldef:=tarraydef(tparavarsym(p).vardef).elementdef;
if not assigned(hsym) then
internalerror(201003032);
cg.g_array_rtti_helper(list,eldef,href,hsym.initialloc,'FPC_DECREF_ARRAY');
end
else
cg.g_decrrefcount(list,tparavarsym(p).vardef,href);
end;
end;
{ open arrays can contain elements requiring init/final code, so the else has been removed here }
if (tparavarsym(p).varspez=vs_value) and
(is_open_array(tparavarsym(p).vardef) or
is_array_of_const(tparavarsym(p).vardef)) then
begin
{ cdecl functions don't have a high pointer so it is not possible to generate
a local copy }
if not(current_procinfo.procdef.proccalloption in cdecl_pocalls) then
cg.g_releasevaluepara_openarray(list,tparavarsym(p).localloc);
end;
end;
{ Initialize temp ansi/widestrings,interfaces }
procedure inittempvariables(list:TAsmList);
var
hp : ptemprecord;
href : treference;
begin
hp:=tg.templist;
while assigned(hp) do
begin
if assigned(hp^.def) and
is_managed_type(hp^.def) then
begin
reference_reset_base(href,current_procinfo.framepointer,hp^.pos,sizeof(pint));
cg.g_initialize(list,hp^.def,href);
end;
hp:=hp^.next;
end;
end;
procedure finalizetempvariables(list:TAsmList);
var
hp : ptemprecord;
href : treference;
begin
hp:=tg.templist;
while assigned(hp) do
begin
if assigned(hp^.def) and
is_managed_type(hp^.def) then
begin
include(current_procinfo.flags,pi_needs_implicit_finally);
reference_reset_base(href,current_procinfo.framepointer,hp^.pos,sizeof(pint));
cg.g_finalize(list,hp^.def,href);
end;
hp:=hp^.next;
end;
end;
procedure gen_alloc_regloc(list:TAsmList;var loc: tlocation);
begin
case loc.loc of
LOC_CREGISTER:
begin
{$ifndef cpu64bitalu}
if loc.size in [OS_64,OS_S64] then
begin
loc.register64.reglo:=cg.getintregister(list,OS_32);
loc.register64.reghi:=cg.getintregister(list,OS_32);
end
else
{$endif cpu64bitalu}
loc.register:=cg.getintregister(list,loc.size);
end;
LOC_CFPUREGISTER:
begin
loc.register:=cg.getfpuregister(list,loc.size);
end;
LOC_CMMREGISTER:
begin
loc.register:=cg.getmmregister(list,loc.size);
end;
end;
end;
procedure gen_alloc_regvar(list:TAsmList;sym: tabstractnormalvarsym; allocreg: boolean);
begin
if allocreg then
gen_alloc_regloc(list,sym.initialloc);
if (pi_has_label in current_procinfo.flags) then
begin
{ Allocate register already, to prevent first allocation to be
inside a loop }
{$ifndef cpu64bitalu}
if sym.initialloc.size in [OS_64,OS_S64] then
begin
cg.a_reg_sync(list,sym.initialloc.register64.reglo);
cg.a_reg_sync(list,sym.initialloc.register64.reghi);
end
else
{$endif not cpu64bitalu}
cg.a_reg_sync(list,sym.initialloc.register);
end;
sym.localloc:=sym.initialloc;
end;
procedure gen_load_cgpara_loc(list: TAsmList; vardef: tdef; const para: TCGPara; var destloc: tlocation; reusepara: boolean);
procedure unget_para(const paraloc:TCGParaLocation);
begin
case paraloc.loc of
LOC_REGISTER :
begin
if getsupreg(paraloc.register)<first_int_imreg then
cg.ungetcpuregister(list,paraloc.register);
end;
LOC_MMREGISTER :
begin
if getsupreg(paraloc.register)<first_mm_imreg then
cg.ungetcpuregister(list,paraloc.register);
end;
LOC_FPUREGISTER :
begin
if getsupreg(paraloc.register)<first_fpu_imreg then
cg.ungetcpuregister(list,paraloc.register);
end;
end;
end;
var
paraloc : pcgparalocation;
href : treference;
sizeleft : aint;
{$if defined(sparc) or defined(arm)}
tempref : treference;
{$endif sparc}
{$ifndef cpu64bitalu}
reg64: tregister64;
{$endif not cpu64bitalu}
begin
paraloc:=para.location;
if not assigned(paraloc) then
internalerror(200408203);
{ skip e.g. empty records }
if (paraloc^.loc = LOC_VOID) then
exit;
case destloc.loc of
LOC_REFERENCE :
begin
{ If the parameter location is reused we don't need to copy
anything }
if not reusepara then
begin
href:=destloc.reference;
sizeleft:=para.intsize;
while assigned(paraloc) do
begin
if (paraloc^.size=OS_NO) then
begin
{ Can only be a reference that contains the rest
of the parameter }
if (paraloc^.loc<>LOC_REFERENCE) or
assigned(paraloc^.next) then
internalerror(2005013010);
cg.a_load_cgparaloc_ref(list,paraloc^,href,sizeleft,destloc.reference.alignment);
inc(href.offset,sizeleft);
sizeleft:=0;
end
else
begin
cg.a_load_cgparaloc_ref(list,paraloc^,href,tcgsize2size[paraloc^.size],destloc.reference.alignment);
inc(href.offset,TCGSize2Size[paraloc^.size]);
dec(sizeleft,TCGSize2Size[paraloc^.size]);
end;
unget_para(paraloc^);
paraloc:=paraloc^.next;
end;
end;
end;
LOC_REGISTER,
LOC_CREGISTER :
begin
{$ifndef cpu64bitalu}
if (para.size in [OS_64,OS_S64,OS_F64]) and
(is_64bit(vardef) or
{ in case of fpu emulation, or abi's that pass fpu values
via integer registers }
(vardef.typ=floatdef)) then
begin
case paraloc^.loc of
LOC_REGISTER:
begin
if not assigned(paraloc^.next) then
internalerror(200410104);
if (target_info.endian=ENDIAN_BIG) then
begin
{ paraloc^ -> high
paraloc^.next -> low }
unget_para(paraloc^);
gen_alloc_regloc(list,destloc);
{ reg->reg, alignment is irrelevant }
cg.a_load_cgparaloc_anyreg(list,OS_32,paraloc^,destloc.register64.reghi,4);
unget_para(paraloc^.next^);
cg.a_load_cgparaloc_anyreg(list,OS_32,paraloc^.next^,destloc.register64.reglo,4);
end
else
begin
{ paraloc^ -> low
paraloc^.next -> high }
unget_para(paraloc^);
gen_alloc_regloc(list,destloc);
cg.a_load_cgparaloc_anyreg(list,OS_32,paraloc^,destloc.register64.reglo,4);
unget_para(paraloc^.next^);
cg.a_load_cgparaloc_anyreg(list,OS_32,paraloc^.next^,destloc.register64.reghi,4);
end;
end;
LOC_REFERENCE:
begin
gen_alloc_regloc(list,destloc);
reference_reset_base(href,paraloc^.reference.index,paraloc^.reference.offset,para.alignment);
cg64.a_load64_ref_reg(list,href,destloc.register64);
unget_para(paraloc^);
end;
else
internalerror(2005101501);
end
end
else
{$endif not cpu64bitalu}
begin
if assigned(paraloc^.next) then
internalerror(200410105);
unget_para(paraloc^);
gen_alloc_regloc(list,destloc);
cg.a_load_cgparaloc_anyreg(list,destloc.size,paraloc^,destloc.register,sizeof(aint));
end;
end;
LOC_FPUREGISTER,
LOC_CFPUREGISTER :
begin
{$if defined(sparc) or defined(arm)}
{ Arm and Sparc passes floats in int registers, when loading to fpu register
we need a temp }
sizeleft := TCGSize2Size[destloc.size];
tg.GetTemp(list,sizeleft,sizeleft,tt_normal,tempref);
href:=tempref;
while assigned(paraloc) do
begin
unget_para(paraloc^);
cg.a_load_cgparaloc_ref(list,paraloc^,href,sizeleft,destloc.reference.alignment);
inc(href.offset,TCGSize2Size[paraloc^.size]);
dec(sizeleft,TCGSize2Size[paraloc^.size]);
paraloc:=paraloc^.next;
end;
gen_alloc_regloc(list,destloc);
cg.a_loadfpu_ref_reg(list,destloc.size,destloc.size,tempref,destloc.register);
tg.UnGetTemp(list,tempref);
{$else sparc}
unget_para(paraloc^);
gen_alloc_regloc(list,destloc);
{ from register to register -> alignment is irrelevant }
cg.a_load_cgparaloc_anyreg(list,destloc.size,paraloc^,destloc.register,0);
if assigned(paraloc^.next) then
internalerror(200410109);
{$endif sparc}
end;
LOC_MMREGISTER,
LOC_CMMREGISTER :
begin
{$ifndef cpu64bitalu}
{ ARM vfp floats are passed in integer registers }
if (para.size=OS_F64) and
(paraloc^.size in [OS_32,OS_S32]) and
use_vectorfpu(vardef) then
begin
{ we need 2x32bit reg }
if not assigned(paraloc^.next) or
assigned(paraloc^.next^.next) then
internalerror(2009112421);
unget_para(paraloc^);
unget_para(paraloc^.next^);
gen_alloc_regloc(list,destloc);
if (target_info.endian=endian_big) then
{ paraloc^ -> high
paraloc^.next -> low }
reg64:=joinreg64(paraloc^.next^.register,paraloc^.register)
else
reg64:=joinreg64(paraloc^.register,paraloc^.next^.register);
cg64.a_loadmm_intreg64_reg(list,OS_F64,reg64,destloc.register);
end
else
{$endif not cpu64bitalu}
begin
unget_para(paraloc^);
gen_alloc_regloc(list,destloc);
{ from register to register -> alignment is irrelevant }
cg.a_load_cgparaloc_anyreg(list,destloc.size,paraloc^,destloc.register,0);
{ data could come in two memory locations, for now
we simply ignore the sanity check (FK)
if assigned(paraloc^.next) then
internalerror(200410108);
}
end;
end;
else
internalerror(2010052903);
end;
end;
procedure gen_load_para_value(list:TAsmList);
procedure get_para(const paraloc:TCGParaLocation);
begin
case paraloc.loc of
LOC_REGISTER :
begin
if getsupreg(paraloc.register)<first_int_imreg then
cg.getcpuregister(list,paraloc.register);
end;
LOC_MMREGISTER :
begin
if getsupreg(paraloc.register)<first_mm_imreg then
cg.getcpuregister(list,paraloc.register);
end;
LOC_FPUREGISTER :
begin
if getsupreg(paraloc.register)<first_fpu_imreg then
cg.getcpuregister(list,paraloc.register);
end;
end;
end;
var
i : longint;
currpara : tparavarsym;
paraloc : pcgparalocation;
begin
if (po_assembler in current_procinfo.procdef.procoptions) then
exit;
{ Allocate registers used by parameters }
for i:=0 to current_procinfo.procdef.paras.count-1 do
begin
currpara:=tparavarsym(current_procinfo.procdef.paras[i]);
paraloc:=currpara.paraloc[calleeside].location;
while assigned(paraloc) do
begin
if paraloc^.loc in [LOC_REGISTER,LOC_FPUREGISTER,LOC_MMREGISTER] then
get_para(paraloc^);
paraloc:=paraloc^.next;
end;
end;
{ Copy parameters to local references/registers }
for i:=0 to current_procinfo.procdef.paras.count-1 do
begin
currpara:=tparavarsym(current_procinfo.procdef.paras[i]);
gen_load_cgpara_loc(list,currpara.vardef,currpara.paraloc[calleeside],currpara.initialloc,paramanager.param_use_paraloc(currpara.paraloc[calleeside]));
{ gen_load_cgpara_loc() already allocated the initialloc
-> don't allocate again }
if currpara.initialloc.loc in [LOC_CREGISTER,LOC_CFPUREGISTER,LOC_CMMREGISTER] then
gen_alloc_regvar(list,currpara,false);
end;
{ generate copies of call by value parameters, must be done before
the initialization and body is parsed because the refcounts are
incremented using the local copies }
current_procinfo.procdef.parast.SymList.ForEachCall(@copyvalueparas,list);
{$ifdef powerpc}
{ unget the register that contains the stack pointer before the procedure entry, }
{ which is used to access the parameters in their original callee-side location }
if (tppcprocinfo(current_procinfo).needs_frame_pointer) then
cg.a_reg_dealloc(list,NR_R12);
{$endif powerpc}
{$ifdef powerpc64}
{ unget the register that contains the stack pointer before the procedure entry, }
{ which is used to access the parameters in their original callee-side location }
if (tppcprocinfo(current_procinfo).needs_frame_pointer) then
cg.a_reg_dealloc(list, NR_OLD_STACK_POINTER_REG);
{$endif powerpc64}
if not(po_assembler in current_procinfo.procdef.procoptions) then
begin
{ has to be done here rather than in gen_initialize_code, because
the initialisation code is generated a) later and b) with
rad_backwards, so the register allocator would generate
information as if this code comes before loading the parameters
from their original registers to their local location }
if (localvartrashing <> -1) then
current_procinfo.procdef.localst.SymList.ForEachCall(@trash_variable,list);
{ initialize refcounted paras, and trash others. Needed here
instead of in gen_initialize_code, because when a reference is
intialised or trashed while the pointer to that reference is kept
in a regvar, we add a register move and that one again has to
come after the parameter loading code as far as the register
allocator is concerned }
current_procinfo.procdef.parast.SymList.ForEachCall(@init_paras,list);
end;
end;
procedure gen_initialize_code(list:TAsmList);
begin
{ initialize local data like ansistrings }
case current_procinfo.procdef.proctypeoption of
potype_unitinit:
begin
{ this is also used for initialization of variables in a
program which does not have a globalsymtable }
if assigned(current_module.globalsymtable) then
TSymtable(current_module.globalsymtable).SymList.ForEachCall(@initialize_data,list);
TSymtable(current_module.localsymtable).SymList.ForEachCall(@initialize_data,list);
TSymtable(current_module.localsymtable).SymList.ForEachCall(@initialize_regvars,list);
end;
{ units have seperate code for initilization and finalization }
potype_unitfinalize: ;
{ program init/final is generated in separate procedure }
potype_proginit:
begin
TSymtable(current_module.localsymtable).SymList.ForEachCall(@initialize_regvars,list);
end;
else
current_procinfo.procdef.localst.SymList.ForEachCall(@initialize_data,list);
end;
{ initialisizes temp. ansi/wide string data }
inittempvariables(list);
{$ifdef OLDREGVARS}
load_regvars(list,nil);
{$endif OLDREGVARS}
end;
procedure gen_finalize_code(list:TAsmList);
begin
{$ifdef OLDREGVARS}
cleanup_regvars(list);
{$endif OLDREGVARS}
{ finalize temporary data }
finalizetempvariables(list);
{ finalize local data like ansistrings}
case current_procinfo.procdef.proctypeoption of
potype_unitfinalize:
begin
{ this is also used for initialization of variables in a
program which does not have a globalsymtable }
if assigned(current_module.globalsymtable) then
TSymtable(current_module.globalsymtable).SymList.ForEachCall(@finalize_static_data,list);
TSymtable(current_module.localsymtable).SymList.ForEachCall(@finalize_static_data,list);
end;
{ units/progs have separate code for initialization and finalization }
potype_unitinit: ;
{ program init/final is generated in separate procedure }
potype_proginit: ;
else
current_procinfo.procdef.localst.SymList.ForEachCall(@finalize_local_vars,list);
end;
{ finalize paras data }
if assigned(current_procinfo.procdef.parast) and
not(po_assembler in current_procinfo.procdef.procoptions) then
current_procinfo.procdef.parast.SymList.ForEachCall(@final_paras,list);
end;
procedure gen_entry_code(list:TAsmList);
begin
{ the actual profile code can clobber some registers,
therefore if the context must be saved, do it before
the actual call to the profile code
}
if (cs_profile in current_settings.moduleswitches) and
not(po_assembler in current_procinfo.procdef.procoptions) then
begin
{ non-win32 can call mcout even in main }
if not (target_info.system in [system_i386_win32,system_i386_wdosx]) or
not (current_procinfo.procdef.proctypeoption=potype_proginit) then
begin
cg.g_profilecode(list);
end;
end;
{ call startup helpers from main program }
if (current_procinfo.procdef.proctypeoption=potype_proginit) then
begin
{ initialize units }
cg.allocallcpuregisters(list);
if not(current_module.islibrary) then
cg.a_call_name(list,'FPC_INITIALIZEUNITS',false)
else
cg.a_call_name(list,'FPC_LIBINITIALIZEUNITS',false);
cg.deallocallcpuregisters(list);
end;
list.concat(Tai_force_line.Create);
{$ifdef OLDREGVARS}
load_regvars(list,nil);
{$endif OLDREGVARS}
end;
procedure gen_exit_code(list:TAsmList);
begin
{ call __EXIT for main program }
if (not DLLsource) and
(current_procinfo.procdef.proctypeoption=potype_proginit) then
cg.a_call_name(list,'FPC_DO_EXIT',false);
end;
{****************************************************************************
Entry/Exit
****************************************************************************}
function has_alias_name(pd:tprocdef;const s:string):boolean;
var
item : TCmdStrListItem;
begin
result:=true;
if pd.mangledname=s then
exit;
item := TCmdStrListItem(pd.aliasnames.first);
while assigned(item) do
begin
if item.str=s then
exit;
item := TCmdStrListItem(item.next);
end;
result:=false;
end;
procedure alloc_proc_symbol(pd: tprocdef);
var
item : TCmdStrListItem;
begin
item := TCmdStrListItem(pd.aliasnames.first);
while assigned(item) do
begin
current_asmdata.DefineAsmSymbol(item.str,AB_GLOBAL,AT_FUNCTION);
item := TCmdStrListItem(item.next);
end;
end;
procedure gen_proc_symbol(list:TAsmList);
var
item,
previtem : TCmdStrListItem;
begin
previtem:=nil;
item := TCmdStrListItem(current_procinfo.procdef.aliasnames.first);
while assigned(item) do
begin
{$ifdef arm}
if current_settings.cputype in cpu_thumb2 then
list.concat(tai_thumb_func.create);
{$endif arm}
{ "double link" all procedure entry symbols via .reference }
{ directives on darwin, because otherwise the linker }
{ sometimes strips the procedure if only on of the symbols }
{ is referenced }
if assigned(previtem) and
(target_info.system in systems_darwin) then
list.concat(tai_directive.create(asd_reference,item.str));
if (cs_profile in current_settings.moduleswitches) or
(po_global in current_procinfo.procdef.procoptions) then
list.concat(Tai_symbol.createname_global(item.str,AT_FUNCTION,0))
else
list.concat(Tai_symbol.createname(item.str,AT_FUNCTION,0));
if assigned(previtem) and
(target_info.system in systems_darwin) then
list.concat(tai_directive.create(asd_reference,previtem.str));
if not(af_stabs_use_function_absolute_addresses in target_asm.flags) then
list.concat(Tai_function_name.create(item.str));
previtem:=item;
item := TCmdStrListItem(item.next);
end;
current_procinfo.procdef.procstarttai:=tai(list.last);
end;
procedure gen_proc_symbol_end(list:TAsmList);
begin
list.concat(Tai_symbol_end.Createname(current_procinfo.procdef.mangledname));
current_procinfo.procdef.procendtai:=tai(list.last);
if (current_module.islibrary) then
if (current_procinfo.procdef.proctypeoption = potype_proginit) then
{ setinitname may generate a new section -> don't add to the
current list, because we assume this remains a text section }
exportlib.setinitname(current_asmdata.AsmLists[al_exports],current_procinfo.procdef.mangledname);
if (current_procinfo.procdef.proctypeoption=potype_proginit) then
begin
if (target_info.system in (systems_darwin+[system_powerpc_macos])) and
not(current_module.islibrary) then
begin
new_section(list,sec_code,'',4);
list.concat(tai_symbol.createname_global(
target_info.cprefix+mainaliasname,AT_FUNCTION,0));
{ keep argc, argv and envp properly on the stack }
cg.a_jmp_name(list,target_info.cprefix+'FPC_SYSTEMMAIN');
end;
end;
end;
procedure gen_proc_entry_code(list:TAsmList);
var
hitemp,
lotemp : longint;
begin
{ generate call frame marker for dwarf call frame info }
current_asmdata.asmcfi.start_frame(list);
{ All temps are know, write offsets used for information }
if (cs_asm_source in current_settings.globalswitches) then
begin
if tg.direction>0 then
begin
lotemp:=current_procinfo.tempstart;
hitemp:=tg.lasttemp;
end
else
begin
lotemp:=tg.lasttemp;
hitemp:=current_procinfo.tempstart;
end;
list.concat(Tai_comment.Create(strpnew('Temps allocated between '+std_regname(current_procinfo.framepointer)+
tostr_with_plus(lotemp)+' and '+std_regname(current_procinfo.framepointer)+tostr_with_plus(hitemp))));
end;
{ generate target specific proc entry code }
hlcg.g_proc_entry(list,current_procinfo.calc_stackframe_size,(po_nostackframe in current_procinfo.procdef.procoptions));
end;
procedure gen_proc_exit_code(list:TAsmList);
var
parasize : longint;
begin
{ c style clearstack does not need to remove parameters from the stack, only the
return value when it was pushed by arguments }
if current_procinfo.procdef.proccalloption in clearstack_pocalls then
begin
parasize:=0;
if paramanager.ret_in_param(current_procinfo.procdef.returndef,current_procinfo.procdef.proccalloption) then
inc(parasize,sizeof(pint));
end
else
begin
parasize:=current_procinfo.para_stack_size;
{ the parent frame pointer para has to be removed by the caller in
case of Delphi-style parent frame pointer passing }
if not paramanager.use_fixed_stack and
(po_delphi_nested_cc in current_procinfo.procdef.procoptions) then
dec(parasize,sizeof(pint));
end;
{ generate target specific proc exit code }
hlcg.g_proc_exit(list,parasize,(po_nostackframe in current_procinfo.procdef.procoptions));
{ release return registers, needed for optimizer }
if not is_void(current_procinfo.procdef.returndef) then
paramanager.freecgpara(list,current_procinfo.procdef.funcretloc[calleeside]);
{ end of frame marker for call frame info }
current_asmdata.asmcfi.end_frame(list);
end;
procedure gen_stack_check_size_para(list:TAsmList);
var
paraloc1 : tcgpara;
begin
paraloc1.init;
paramanager.getintparaloc(pocall_default,1,paraloc1);
cg.a_load_const_cgpara(list,OS_INT,current_procinfo.calc_stackframe_size,paraloc1);
paramanager.freecgpara(list,paraloc1);
paraloc1.done;
end;
procedure gen_stack_check_call(list:TAsmList);
var
paraloc1 : tcgpara;
begin
paraloc1.init;
{ Also alloc the register needed for the parameter }
paramanager.getintparaloc(pocall_default,1,paraloc1);
paramanager.freecgpara(list,paraloc1);
{ Call the helper }
cg.allocallcpuregisters(list);
cg.a_call_name(list,'FPC_STACKCHECK',false);
cg.deallocallcpuregisters(list);
paraloc1.done;
end;
procedure gen_save_used_regs(list:TAsmList);
begin
{ Pure assembler routines need to save the registers themselves }
if (po_assembler in current_procinfo.procdef.procoptions) then
exit;
{ oldfpccall expects all registers to be destroyed }
if current_procinfo.procdef.proccalloption<>pocall_oldfpccall then
cg.g_save_registers(list);
end;
procedure gen_restore_used_regs(list:TAsmList);
begin
{ Pure assembler routines need to save the registers themselves }
if (po_assembler in current_procinfo.procdef.procoptions) then
exit;
{ oldfpccall expects all registers to be destroyed }
if current_procinfo.procdef.proccalloption<>pocall_oldfpccall then
cg.g_restore_registers(list);
end;
{****************************************************************************
External handling
****************************************************************************}
procedure gen_external_stub(list:TAsmList;pd:tprocdef;const externalname:string);
begin
create_hlcodegen;
{ add the procedure to the al_procedures }
maybe_new_object_file(list);
new_section(list,sec_code,lower(pd.mangledname),current_settings.alignment.procalign);
list.concat(Tai_align.create(current_settings.alignment.procalign));
if (po_global in pd.procoptions) then
list.concat(Tai_symbol.createname_global(pd.mangledname,AT_FUNCTION,0))
else
list.concat(Tai_symbol.createname(pd.mangledname,AT_FUNCTION,0));
cg.g_external_wrapper(list,pd,externalname);
destroy_hlcodegen;
end;
{****************************************************************************
Const Data
****************************************************************************}
procedure insertbssdata(sym : tstaticvarsym);
var
l : asizeint;
varalign : shortint;
storefilepos : tfileposinfo;
list : TAsmList;
sectype : TAsmSectiontype;
begin
storefilepos:=current_filepos;
current_filepos:=sym.fileinfo;
l:=sym.getsize;
varalign:=sym.vardef.alignment;
if (varalign=0) then
varalign:=var_align_size(l)
else
varalign:=var_align(varalign);
if tf_section_threadvars in target_info.flags then
begin
if (vo_is_thread_var in sym.varoptions) then
begin
list:=current_asmdata.asmlists[al_threadvars];
sectype:=sec_threadvar;
end
else
begin
list:=current_asmdata.asmlists[al_globals];
sectype:=sec_bss;
end;
end
else
begin
if (vo_is_thread_var in sym.varoptions) then
begin
inc(l,sizeof(pint));
{ it doesn't help to set a higher alignment, as }
{ the first sizeof(pint) bytes field will offset }
{ everything anyway }
varalign:=sizeof(pint);
end;
list:=current_asmdata.asmlists[al_globals];
sectype:=sec_bss;
end;
maybe_new_object_file(list);
if vo_has_section in sym.varoptions then
new_section(list,sec_user,sym.section,varalign)
else
new_section(list,sectype,lower(sym.mangledname),varalign);
if (sym.owner.symtabletype=globalsymtable) or
create_smartlink or
DLLSource or
(assigned(current_procinfo) and
(po_inline in current_procinfo.procdef.procoptions)) or
(vo_is_public in sym.varoptions) then
list.concat(Tai_datablock.create_global(sym.mangledname,l))
else
list.concat(Tai_datablock.create(sym.mangledname,l));
current_filepos:=storefilepos;
end;
procedure gen_alloc_symtable(list:TAsmList;st:TSymtable);
procedure setlocalloc(vs:tabstractnormalvarsym);
begin
if cs_asm_source in current_settings.globalswitches then
begin
case vs.initialloc.loc of
LOC_REFERENCE :
begin
if not assigned(vs.initialloc.reference.symbol) then
list.concat(Tai_comment.Create(strpnew('Var '+vs.realname+' located at '+
std_regname(vs.initialloc.reference.base)+tostr_with_plus(vs.initialloc.reference.offset))));
end;
end;
end;
vs.localloc:=vs.initialloc;
end;
var
i : longint;
sym : tsym;
vs : tabstractnormalvarsym;
isaddr : boolean;
begin
for i:=0 to st.SymList.Count-1 do
begin
sym:=tsym(st.SymList[i]);
case sym.typ of
staticvarsym :
begin
vs:=tabstractnormalvarsym(sym);
{ The code in loadnode.pass_generatecode will create the
LOC_REFERENCE instead for all none register variables. This is
required because we can't store an asmsymbol in the localloc because
the asmsymbol is invalid after an unit is compiled. This gives
problems when this procedure is inlined in another unit (PFV) }
if vs.is_regvar(false) then
begin
vs.initialloc.loc:=tvarregable2tcgloc[vs.varregable];
vs.initialloc.size:=def_cgsize(vs.vardef);
gen_alloc_regvar(list,vs,true);
setlocalloc(vs);
end;
end;
paravarsym :
begin
vs:=tabstractnormalvarsym(sym);
{ Parameters passed to assembler procedures need to be kept
in the original location }
if (po_assembler in current_procinfo.procdef.procoptions) then
tparavarsym(vs).paraloc[calleeside].get_location(vs.initialloc)
else
begin
isaddr:=paramanager.push_addr_param(vs.varspez,vs.vardef,current_procinfo.procdef.proccalloption);
if isaddr then
vs.initialloc.size:=OS_ADDR
else
vs.initialloc.size:=def_cgsize(vs.vardef);
if vs.is_regvar(isaddr) then
vs.initialloc.loc:=tvarregable2tcgloc[vs.varregable]
else
begin
vs.initialloc.loc:=LOC_REFERENCE;
{ Reuse the parameter location for values to are at a single location on the stack }
if paramanager.param_use_paraloc(tparavarsym(sym).paraloc[calleeside]) then
begin
reference_reset_base(vs.initialloc.reference,tparavarsym(sym).paraloc[calleeside].location^.reference.index,
tparavarsym(sym).paraloc[calleeside].location^.reference.offset,tparavarsym(sym).paraloc[calleeside].alignment);
end
else
begin
if isaddr then
tg.GetLocal(list,sizeof(pint),voidpointertype,vs.initialloc.reference)
else
tg.GetLocal(list,vs.getsize,tparavarsym(sym).paraloc[calleeside].alignment,vs.vardef,vs.initialloc.reference);
end;
end;
end;
setlocalloc(vs);
end;
localvarsym :
begin
vs:=tabstractnormalvarsym(sym);
vs.initialloc.size:=def_cgsize(vs.vardef);
if (m_delphi in current_settings.modeswitches) and
(po_assembler in current_procinfo.procdef.procoptions) and
(vo_is_funcret in vs.varoptions) and
(vs.refs=0) then
begin
{ not referenced, so don't allocate. Use dummy to }
{ avoid ie's later on because of LOC_INVALID }
vs.initialloc.loc:=LOC_REGISTER;
vs.initialloc.size:=OS_INT;
vs.initialloc.register:=NR_FUNCTION_RESULT_REG;
end
else if vs.is_regvar(false) then
begin
vs.initialloc.loc:=tvarregable2tcgloc[vs.varregable];
gen_alloc_regvar(list,vs,true);
end
else
begin
vs.initialloc.loc:=LOC_REFERENCE;
tg.GetLocal(list,vs.getsize,vs.vardef,vs.initialloc.reference);
end;
setlocalloc(vs);
end;
end;
end;
end;
procedure add_regvars(var rv: tusedregvars; const location: tlocation);
begin
case location.loc of
LOC_CREGISTER:
{$ifndef cpu64bitalu}
if location.size in [OS_64,OS_S64] then
begin
rv.intregvars.addnodup(getsupreg(location.register64.reglo));
rv.intregvars.addnodup(getsupreg(location.register64.reghi));
end
else
{$endif not cpu64bitalu}
rv.intregvars.addnodup(getsupreg(location.register));
LOC_CFPUREGISTER:
rv.fpuregvars.addnodup(getsupreg(location.register));
LOC_CMMREGISTER:
rv.mmregvars.addnodup(getsupreg(location.register));
end;
end;
function do_get_used_regvars(var n: tnode; arg: pointer): foreachnoderesult;
var
rv: pusedregvars absolute arg;
begin
case (n.nodetype) of
temprefn:
{ We only have to synchronise a tempnode before a loop if it is }
{ not created inside the loop, and only synchronise after the }
{ loop if it's not destroyed inside the loop. If it's created }
{ before the loop and not yet destroyed, then before the loop }
{ is secondpassed tempinfo^.valid will be true, and we get the }
{ correct registers. If it's not destroyed inside the loop, }
{ then after the loop has been secondpassed tempinfo^.valid }
{ be true and we also get the right registers. In other cases, }
{ tempinfo^.valid will be false and so we do not add }
{ unnecessary registers. This way, we don't have to look at }
{ tempcreate and tempdestroy nodes to get this info (JM) }
if (ti_valid in ttemprefnode(n).tempinfo^.flags) then
add_regvars(rv^,ttemprefnode(n).tempinfo^.location);
loadn:
if (tloadnode(n).symtableentry.typ in [staticvarsym,localvarsym,paravarsym]) then
add_regvars(rv^,tabstractnormalvarsym(tloadnode(n).symtableentry).localloc);
vecn:
{ range checks sometimes need the high parameter }
if (cs_check_range in current_settings.localswitches) and
(is_open_array(tvecnode(n).left.resultdef) or
is_array_of_const(tvecnode(n).left.resultdef)) and
not(current_procinfo.procdef.proccalloption in cdecl_pocalls) then
add_regvars(rv^,tabstractnormalvarsym(get_high_value_sym(tparavarsym(tloadnode(tvecnode(n).left).symtableentry))).localloc)
end;
result := fen_true;
end;
procedure get_used_regvars(n: tnode; var rv: tusedregvars);
begin
foreachnodestatic(n,@do_get_used_regvars,@rv);
end;
(*
See comments at declaration of pusedregvarscommon
function do_get_used_regvars_common(var n: tnode; arg: pointer): foreachnoderesult;
var
rv: pusedregvarscommon absolute arg;
begin
if (n.nodetype = loadn) and
(tloadnode(n).symtableentry.typ in [staticvarsym,localvarsym,paravarsym]) then
with tabstractnormalvarsym(tloadnode(n).symtableentry).localloc do
case loc of
LOC_CREGISTER:
{ if not yet encountered in this node tree }
if (rv^.myregvars.intregvars.addnodup(getsupreg(register))) and
{ but nevertheless already encountered somewhere }
not(rv^.allregvars.intregvars.addnodup(getsupreg(register))) then
{ then it's a regvar used in two or more node trees }
rv^.commonregvars.intregvars.addnodup(getsupreg(register));
LOC_CFPUREGISTER:
if (rv^.myregvars.intregvars.addnodup(getsupreg(register))) and
not(rv^.allregvars.intregvars.addnodup(getsupreg(register))) then
rv^.commonregvars.intregvars.addnodup(getsupreg(register));
LOC_CMMREGISTER:
if (rv^.myregvars.intregvars.addnodup(getsupreg(register))) and
not(rv^.allregvars.intregvars.addnodup(getsupreg(register))) then
rv^.commonregvars.intregvars.addnodup(getsupreg(register));
end;
result := fen_true;
end;
procedure get_used_regvars_common(n: tnode; var rv: tusedregvarscommon);
begin
rv.myregvars.intregvars.clear;
rv.myregvars.fpuregvars.clear;
rv.myregvars.mmregvars.clear;
foreachnodestatic(n,@do_get_used_regvars_common,@rv);
end;
*)
procedure gen_sync_regvars(list:TAsmList; var rv: tusedregvars);
var
count: longint;
begin
for count := 1 to rv.intregvars.length do
cg.a_reg_sync(list,newreg(R_INTREGISTER,rv.intregvars.readidx(count-1),R_SUBWHOLE));
for count := 1 to rv.fpuregvars.length do
cg.a_reg_sync(list,newreg(R_FPUREGISTER,rv.fpuregvars.readidx(count-1),R_SUBWHOLE));
for count := 1 to rv.mmregvars.length do
cg.a_reg_sync(list,newreg(R_MMREGISTER,rv.mmregvars.readidx(count-1),R_SUBWHOLE));
end;
{*****************************************************************************
SSA support
*****************************************************************************}
type
preplaceregrec = ^treplaceregrec;
treplaceregrec = record
old, new: tregister;
{$ifndef cpu64bitalu}
oldhi, newhi: tregister;
{$endif not cpu64bitalu}
ressym: tsym;
end;
function doreplace(var n: tnode; para: pointer): foreachnoderesult;
var
rr: preplaceregrec absolute para;
begin
result := fen_false;
if (nf_is_funcret in n.flags) and (fc_exit in flowcontrol) then
exit;
case n.nodetype of
loadn:
begin
if (tabstractvarsym(tloadnode(n).symtableentry).varoptions * [vo_is_dll_var, vo_is_thread_var] = []) and
not assigned(tloadnode(n).left) and
((tloadnode(n).symtableentry <> rr^.ressym) or
not(fc_exit in flowcontrol)
) and
(tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.loc in [LOC_CREGISTER,LOC_CFPUREGISTER,LOC_CMMXREGISTER,LOC_CMMREGISTER]) and
(tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.register = rr^.old) then
begin
{$ifndef cpu64bitalu}
{ it's possible a 64 bit location was shifted and/xor typecasted }
{ in a 32 bit value, so only 1 register was left in the location }
if (tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.size in [OS_64,OS_S64]) then
if (tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.register64.reghi = rr^.oldhi) then
tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.register64.reghi := rr^.newhi
else
exit;
{$endif not cpu64bitalu}
tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.register := rr^.new;
result := fen_norecurse_true;
end;
end;
temprefn:
begin
if (ti_valid in ttemprefnode(n).tempinfo^.flags) and
(ttemprefnode(n).tempinfo^.location.loc in [LOC_CREGISTER,LOC_CFPUREGISTER,LOC_CMMXREGISTER,LOC_CMMREGISTER]) and
(ttemprefnode(n).tempinfo^.location.register = rr^.old) then
begin
{$ifndef cpu64bitalu}
{ it's possible a 64 bit location was shifted and/xor typecasted }
{ in a 32 bit value, so only 1 register was left in the location }
if (ttemprefnode(n).tempinfo^.location.size in [OS_64,OS_S64]) then
if (ttemprefnode(n).tempinfo^.location.register64.reghi = rr^.oldhi) then
ttemprefnode(n).tempinfo^.location.register64.reghi := rr^.newhi
else
exit;
{$endif not cpu64bitalu}
ttemprefnode(n).tempinfo^.location.register := rr^.new;
result := fen_norecurse_true;
end;
end;
{ 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;
end;
end;
procedure maybechangeloadnodereg(list: TAsmList; var n: tnode; reload: boolean);
var
rr: treplaceregrec;
begin
if not (n.location.loc in [LOC_CREGISTER,LOC_CFPUREGISTER,LOC_CMMXREGISTER,LOC_CMMREGISTER]) or
([fc_inflowcontrol,fc_gotolabel,fc_lefthandled] * flowcontrol <> []) then
exit;
rr.old := n.location.register;
rr.ressym := nil;
{$ifndef cpu64bitalu}
rr.oldhi := NR_NO;
{$endif not cpu64bitalu}
case n.location.loc of
LOC_CREGISTER:
begin
{$ifndef cpu64bitalu}
if (n.location.size in [OS_64,OS_S64]) then
begin
rr.oldhi := n.location.register64.reghi;
rr.new := cg.getintregister(current_asmdata.CurrAsmList,OS_INT);
rr.newhi := cg.getintregister(current_asmdata.CurrAsmList,OS_INT);
end
else
{$endif not cpu64bitalu}
rr.new := cg.getintregister(current_asmdata.CurrAsmList,n.location.size);
end;
LOC_CFPUREGISTER:
rr.new := cg.getfpuregister(current_asmdata.CurrAsmList,n.location.size);
{$ifdef SUPPORT_MMX}
LOC_CMMXREGISTER:
rr.new := tcgx86(cg).getmmxregister(current_asmdata.CurrAsmList);
{$endif SUPPORT_MMX}
LOC_CMMREGISTER:
rr.new := cg.getmmregister(current_asmdata.CurrAsmList,n.location.size);
else
exit;
end;
if not is_void(current_procinfo.procdef.returndef) and
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 not foreachnodestatic(n,@doreplace,@rr) then
exit;
if reload then
case n.location.loc of
LOC_CREGISTER:
begin
{$ifndef cpu64bitalu}
if (n.location.size in [OS_64,OS_S64]) then
cg64.a_load64_reg_reg(list,n.location.register64,joinreg64(rr.new,rr.newhi))
else
{$endif not cpu64bitalu}
cg.a_load_reg_reg(list,n.location.size,n.location.size,n.location.register,rr.new);
end;
LOC_CFPUREGISTER:
cg.a_loadfpu_reg_reg(list,n.location.size,n.location.size,n.location.register,rr.new);
{$ifdef SUPPORT_MMX}
LOC_CMMXREGISTER:
cg.a_loadmm_reg_reg(list,OS_M64,OS_M64,n.location.register,rr.new,nil);
{$endif SUPPORT_MMX}
LOC_CMMREGISTER:
cg.a_loadmm_reg_reg(list,n.location.size,n.location.size,n.location.register,rr.new,nil);
else
internalerror(2006090920);
end;
{ now that we've change the loadn/temp, also change the node result location }
{$ifndef cpu64bitalu}
if (n.location.size in [OS_64,OS_S64]) then
begin
n.location.register64.reglo := rr.new;
n.location.register64.reghi := rr.newhi;
end
else
{$endif not cpu64bitalu}
n.location.register := rr.new;
end;
procedure gen_free_symtable(list:TAsmList;st:TSymtable);
var
i : longint;
sym : tsym;
begin
for i:=0 to st.SymList.Count-1 do
begin
sym:=tsym(st.SymList[i]);
if (sym.typ in [staticvarsym,localvarsym,paravarsym]) then
begin
with tabstractnormalvarsym(sym) do
begin
{ Note: We need to keep the data available in memory
for the sub procedures that can access local data
in the parent procedures }
case localloc.loc of
LOC_CREGISTER :
if (pi_has_label in current_procinfo.flags) then
{$ifndef cpu64bitalu}
if def_cgsize(vardef) in [OS_64,OS_S64] then
begin
cg.a_reg_sync(list,localloc.register64.reglo);
cg.a_reg_sync(list,localloc.register64.reghi);
end
else
{$endif not cpu64bitalu}
cg.a_reg_sync(list,localloc.register);
LOC_CFPUREGISTER,
LOC_CMMREGISTER:
if (pi_has_label in current_procinfo.flags) then
cg.a_reg_sync(list,localloc.register);
LOC_REFERENCE :
begin
if typ in [localvarsym,paravarsym] then
tg.Ungetlocal(list,localloc.reference);
end;
end;
end;
end;
end;
end;
procedure gen_intf_wrapper(list:TAsmList;_class:tobjectdef);
var
i,j : longint;
tmps : string;
pd : TProcdef;
ImplIntf : TImplementedInterface;
begin
for i:=0 to _class.ImplementedInterfaces.count-1 do
begin
ImplIntf:=TImplementedInterface(_class.ImplementedInterfaces[i]);
if (ImplIntf=ImplIntf.VtblImplIntf) and
assigned(ImplIntf.ProcDefs) then
begin
maybe_new_object_file(list);
for j:=0 to ImplIntf.ProcDefs.Count-1 do
begin
pd:=TProcdef(ImplIntf.ProcDefs[j]);
tmps:=make_mangledname('WRPR',_class.owner,_class.objname^+'_$_'+
ImplIntf.IntfDef.objname^+'_$_'+tostr(j)+'_$_'+pd.mangledname);
{ create wrapper code }
new_section(list,sec_code,tmps,0);
hlcg.init_register_allocators;
cg.g_intf_wrapper(list,pd,tmps,ImplIntf.ioffset);
hlcg.done_register_allocators;
end;
end;
end;
end;
procedure gen_intf_wrappers(list:TAsmList;st:TSymtable;nested:boolean);
var
i : longint;
def : tdef;
begin
if not nested then
create_hlcodegen;
for i:=0 to st.DefList.Count-1 do
begin
def:=tdef(st.DefList[i]);
{ if def can contain nested types then handle it symtable }
if def.typ in [objectdef,recorddef] then
gen_intf_wrappers(list,tabstractrecorddef(def).symtable,true);
if is_class(def) then
gen_intf_wrapper(list,tobjectdef(def));
end;
if not nested then
destroy_hlcodegen;
end;
procedure gen_load_vmt_register(list:TAsmList;objdef:tobjectdef;selfloc:tlocation;var vmtreg:tregister);
var
href : treference;
begin
if is_object(objdef) then
begin
case selfloc.loc of
LOC_CREFERENCE,
LOC_REFERENCE:
begin
reference_reset_base(href,cg.getaddressregister(list),objdef.vmt_offset,sizeof(pint));
cg.a_loadaddr_ref_reg(list,selfloc.reference,href.base);
end;
else
internalerror(200305056);
end;
end
else
{ This is also valid for Objective-C classes: vmt_offset is 0 there,
and the first "field" of an Objective-C class instance is a pointer
to its "meta-class". }
begin
case selfloc.loc of
LOC_REGISTER:
begin
{$ifdef cpu_uses_separate_address_registers}
if getregtype(left.location.register)<>R_ADDRESSREGISTER then
begin
reference_reset_base(href,cg.getaddressregister(list),objdef.vmt_offset,sizeof(pint));
cg.a_load_reg_reg(list,OS_ADDR,OS_ADDR,selfloc.register,href.base);
end
else
{$endif cpu_uses_separate_address_registers}
reference_reset_base(href,selfloc.register,objdef.vmt_offset,sizeof(pint));
end;
LOC_CREGISTER,
LOC_CREFERENCE,
LOC_REFERENCE:
begin
reference_reset_base(href,cg.getaddressregister(list),objdef.vmt_offset,sizeof(pint));
cg.a_load_loc_reg(list,OS_ADDR,selfloc,href.base);
end;
else
internalerror(200305057);
end;
end;
vmtreg:=cg.getaddressregister(list);
cg.g_maybe_testself(list,href.base);
cg.a_load_ref_reg(list,OS_ADDR,OS_ADDR,href,vmtreg);
{ test validity of VMT }
if not(is_interface(objdef)) and
not(is_cppclass(objdef)) and
not(is_objc_class_or_protocol(objdef)) then
cg.g_maybe_testvmt(list,vmtreg,objdef);
end;
function getprocalign : shortint;
begin
{ gprof uses 16 byte granularity }
if (cs_profile in current_settings.moduleswitches) then
result:=16
else
result:=current_settings.alignment.procalign;
end;
procedure gen_fpc_dummy(list : TAsmList);
begin
{$ifdef i386}
{ fix me! }
list.concat(Taicpu.Op_const_reg(A_MOV,S_L,1,NR_EAX));
list.concat(Taicpu.Op_const(A_RET,S_W,12));
{$endif i386}
end;
procedure InsertInterruptTable;
procedure WriteVector(const name: string);
{$IFDEF arm}
var
ai: taicpu;
{$ENDIF arm}
begin
{$IFDEF arm}
if current_settings.cputype in [cpu_armv7m, cpu_cortexm3] then
current_asmdata.asmlists[al_globals].concat(tai_const.Createname(name,0))
else
begin
ai:=taicpu.op_sym(A_B,current_asmdata.RefAsmSymbol(name));
ai.is_jmp:=true;
current_asmdata.asmlists[al_globals].concat(ai);
end;
{$ENDIF arm}
end;
function GetInterruptTableLength: longint;
begin
{$if defined(ARM)}
result:=interruptvectors[current_settings.controllertype];
{$else}
result:=0;
{$endif}
end;
var
hp: tused_unit;
sym: tsym;
i, i2: longint;
interruptTable: array of tprocdef;
pd: tprocdef;
begin
SetLength(interruptTable, GetInterruptTableLength);
FillChar(interruptTable[0], length(interruptTable)*sizeof(pointer), 0);
hp:=tused_unit(usedunits.first);
while assigned(hp) do
begin
for i := 0 to hp.u.symlist.Count-1 do
begin
sym:=tsym(hp.u.symlist[i]);
if not assigned(sym) then
continue;
if sym.typ = procsym then
begin
for i2 := 0 to tprocsym(sym).ProcdefList.Count-1 do
begin
pd:=tprocdef(tprocsym(sym).ProcdefList[i2]);
if pd.interruptvector >= 0 then
begin
if pd.interruptvector > high(interruptTable) then
Internalerror(2011030602);
if interruptTable[pd.interruptvector] <> nil then
internalerror(2011030601);
interruptTable[pd.interruptvector]:=pd;
break;
end;
end;
end;
end;
hp:=tused_unit(hp.next);
end;
new_section(current_asmdata.asmlists[al_globals],sec_init,'VECTORS',sizeof(pint));
current_asmdata.asmlists[al_globals].concat(Tai_symbol.Createname_global('VECTORS',AT_DATA,0));
{$IFDEF arm}
if current_settings.cputype in [cpu_armv7m, cpu_cortexm3] then
current_asmdata.asmlists[al_globals].concat(tai_const.Createname('_stack_top',0)); { ARMv7-M processors have the initial stack value at address 0 }
{$ENDIF arm}
for i:=0 to high(interruptTable) do
begin
if interruptTable[i]<>nil then
writeVector(interruptTable[i].mangledname)
else
writeVector('DefaultHandler'); { Default handler name }
end;
end;
end.
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