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9746f4c2d6
fpc/compiler/cgobj.pas
florian 9746f4c2d6 * some cg reorganisation 
* some PPC updates
2001-08-26 13:35:06 +00:00

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{
$Id$
Copyright (c) 1998-2000 by Florian Klaempfl
Member of the Free Pascal development team
This unit implements the basic code generator object
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 cgobj;
interface
uses
cclasses,aasm,cpuasm,cpubase,cpuinfo,
cgconst,cgbase,
tainst,
symtable,symconst,symbase,symtype,symsym;
type
talignment = (AM_NATURAL,AM_NONE,AM_2BYTE,AM_4BYTE,AM_8BYTE);
pcg = ^tcg;
tcg = object
scratch_register_array_pointer : aword;
unusedscratchregisters : tregisterset;
alignment : talignment;
{************************************************}
{ basic routines }
constructor init;
destructor done;virtual;
procedure a_label(list : taasmoutput;l : tasmlabel);virtual;
{ allocates register r by inserting a pai_realloc record }
procedure a_reg_alloc(list : taasmoutput;r : tregister);
{ deallocates register r by inserting a pa_regdealloc record}
procedure a_reg_dealloc(list : taasmoutput;r : tregister);
{ returns a register for use as scratch register }
function get_scratch_reg(list : taasmoutput) : tregister;
{ releases a scratch register }
procedure free_scratch_reg(list : taasmoutput;r : tregister);
{************************************************}
{ code generation for subroutine entry/exit code }
{ initilizes data of type t }
{ if is_already_ref is true then the routines assumes }
{ that r points to the data to initialize }
procedure g_initialize(list : taasmoutput;t : tdef;const ref : treference;is_already_ref : boolean);
{ finalizes data of type t }
{ if is_already_ref is true then the routines assumes }
{ that r points to the data to finalizes }
procedure g_finalize(list : taasmoutput;t : tdef;const ref : treference;is_already_ref : boolean);
{ helper routines }
procedure g_initialize_data(list : taasmoutput;p : tsym);
procedure g_incr_data(list : taasmoutput;p : tsym);
procedure g_finalize_data(list : taasmoutput;p : tindexarray);
procedure g_copyvalueparas(list : taasmoutput;p : tindexarray);
procedure g_finalizetempansistrings(list : taasmoutput);
procedure g_entrycode(list : taasmoutput;
const proc_names : tstringlist;make_global : boolean;
stackframe : longint;var parasize : longint;
var nostackframe : boolean;inlined : boolean);
procedure g_exitcode(list : taasmoutput;parasize : longint;
nostackframe,inlined : boolean);
{ string helper routines }
procedure g_decrstrref(list : taasmoutput;const ref : treference;t : tdef);
procedure g_removetemps(list : taasmoutput;p : tlinkedlist);
{ passing parameters, per default the parameter is pushed }
{ nr gives the number of the parameter (enumerated from }
{ left to right), this allows to move the parameter to }
{ register, if the cpu supports register calling }
{ conventions }
procedure a_param_reg(list : taasmoutput;size : tcgsize;r : tregister;nr : longint);virtual;
procedure a_param_const(list : taasmoutput;size : tcgsize;a : aword;nr : longint);virtual;
procedure a_param_ref(list : taasmoutput;size : tcgsize;const r : treference;nr : longint);virtual;
procedure a_paramaddr_ref(list : taasmoutput;const r : treference;nr : longint);virtual;
{**********************************}
{ these methods must be overriden: }
{ Remarks:
* If a method specifies a size you have only to take care
of that number of bits, i.e. load_const_reg with OP_8 must
only load the lower 8 bit of the specified register
the rest of the register can be undefined
if necessary the compiler will call a method
to zero or sign extend the register
* The a_load_XX_XX with OP_64 needn't to be
implemented for 32 bit
processors, the code generator takes care of that
* the addr size is for work with the natural pointer
size
* the procedures without fpu/mm are only for integer usage
* normally the first location is the source and the
second the destination
}
procedure a_call_name(list : taasmoutput;const s : string;
offset : longint);virtual;
{ move instructions }
procedure a_load_const_reg(list : taasmoutput;size : tcgsize;a : aword;register : tregister);virtual;
procedure a_load_const_ref(list : taasmoutput;size : tcgsize;a : aword;const ref : treference);virtual;
procedure a_load_reg_ref(list : taasmoutput;size : tcgsize;register : tregister;const ref : treference);virtual;
procedure a_load_ref_reg(list : taasmoutput;size : tcgsize;const ref : treference;register : tregister);virtual;
procedure a_load_reg_reg(list : taasmoutput;size : tcgsize;reg1,reg2 : tregister);virtual;
{ comparison operations }
procedure a_cmp_reg_const_label(list : taasmoutput;size : tcgsize;cmp_op : topcmp;a : aword;reg : tregister;
l : tasmlabel);virtual;
procedure a_cmp_reg_reg_label(list : taasmoutput;size : tcgsize;cmp_op : topcmp;reg1,reg2 : tregister;l : tasmlabel);
procedure a_cmp_reg_ref_label(list : taasmoutput;size : tcgsize;cmp_op : topcmp;reg : tregister;l : tasmlabel);
procedure a_cmp_ref_const_label(list : taasmoutput;size : tcgsize;cmp_op : topcmp;a : aword;reg : tregister;
l : tasmlabel);
procedure a_jmp_cond(list : taasmoutput;cond : TOpCmp;l: tasmlabel);
procedure a_loadaddress_ref_reg(list : taasmoutput;const ref : treference;r : tregister);virtual;
procedure g_stackframe_entry(list : taasmoutput;localsize : longint);virtual;
{ restores the frame pointer at procedure exit, for the }
{ i386 it generates a simple leave }
procedure g_restore_frame_pointer(list : taasmoutput);virtual;
{ some processors like the PPC doesn't allow to change the stack in }
{ a procedure, so we need to maintain an extra stack for the }
{ result values of setjmp in exception code }
{ this two procedures are for pushing an exception value, }
{ they can use the scratch registers }
procedure g_push_exception_value_reg(list : taasmoutput;reg : tregister);virtual;
procedure g_push_exception_value_const(list : taasmoutput;reg : tregister);virtual;
{ that procedure pops a exception value }
procedure g_pop_exception_value_reg(list : taasmoutput;reg : tregister);virtual;
procedure g_return_from_proc(list : taasmoutput;parasize : aword);virtual;
{********************************************************}
{ these methods can be overriden for extra functionality }
{ the following methods do nothing: }
procedure g_interrupt_stackframe_entry(list : taasmoutput);virtual;
procedure g_interrupt_stackframe_exit(list : taasmoutput);virtual;
procedure g_profilecode(list : taasmoutput);virtual;
procedure g_stackcheck(list : taasmoutput;stackframesize : longint);virtual;
procedure g_maybe_loadself(list : taasmoutput);virtual;
{ copies len bytes from the source to destination, if }
{ loadref is true, it assumes that it first must load }
{ the source address from the memory location where }
{ source points to }
procedure g_concatcopy(list : taasmoutput;const source,dest : treference;len : aword;loadref : boolean);virtual;
{ uses the addr of ref as param, was emitpushreferenceaddr }
procedure a_param_ref_addr(list : taasmoutput;r : treference;nr : longint);virtual;
end;
var
cg : pcg; { this is the main code generator class }
implementation
uses
strings,globals,globtype,options,gdb,systems,
ppu,verbose,types,temp_gen,tgcpu;
{*****************************************************************************
basic functionallity
******************************************************************************}
constructor tcg.init;
var
i : longint;
begin
scratch_register_array_pointer:=1;
for i:=1 to max_scratch_regs do
include(unusedscratchregisters,scratch_regs[i]);
end;
destructor tcg.done;
begin
end;
procedure tcg.a_reg_alloc(list : taasmoutput;r : tregister);
begin
list.concat(tairegalloc.alloc(r));
end;
procedure tcg.a_reg_dealloc(list : taasmoutput;r : tregister);
begin
list.concat(tairegalloc.dealloc(r));
end;
procedure tcg.a_label(list : taasmoutput;l : tasmlabel);
begin
list.concat(tai_label.create(l));
end;
function tcg.get_scratch_reg(list : taasmoutput) : tregister;
var
r : tregister;
i : longint;
begin
if unusedscratchregisters=[] then
internalerror(68996);
for i:=scratch_register_array_pointer to
(scratch_register_array_pointer+max_scratch_regs) do
if scratch_regs[(i mod max_scratch_regs)+1] in unusedscratchregisters then
begin
r:=scratch_regs[(i mod max_scratch_regs)+1];
break;
end;
exclude(unusedscratchregisters,r);
inc(scratch_register_array_pointer);
if scratch_register_array_pointer>max_scratch_regs then
scratch_register_array_pointer:=1;
a_reg_alloc(list,r);
get_scratch_reg:=r;
end;
procedure tcg.free_scratch_reg(list : taasmoutput;r : tregister);
begin
include(unusedscratchregisters,r);
a_reg_dealloc(list,r);
end;
{*****************************************************************************
this methods must be overridden for extra functionality
******************************************************************************}
procedure tcg.g_interrupt_stackframe_entry(list : taasmoutput);
begin
end;
procedure tcg.g_interrupt_stackframe_exit(list : taasmoutput);
begin
end;
procedure tcg.g_profilecode(list : taasmoutput);
begin
end;
{*****************************************************************************
for better code generation these methods should be overridden
******************************************************************************}
procedure tcg.a_param_const(list : taasmoutput;size : tcgsize;a : aword;nr : longint);
var
hr : tregister;
begin
hr:=get_scratch_reg(list);
a_load_const_reg(list,size,a,hr);
a_param_reg(list,size,hr,nr);
free_scratch_reg(list,hr);
end;
procedure tcg.a_param_ref(list : taasmoutput;size : tcgsize;const r : treference;nr : longint);
var
hr : tregister;
begin
hr:=get_scratch_reg(list);
a_load_ref_reg(list,size,r,hr);
a_param_reg(list,size,hr,nr);
free_scratch_reg(list,hr);
end;
procedure tcg.a_param_ref_addr(list : taasmoutput;r : treference;nr : longint);
var
hr : tregister;
begin
hr:=get_scratch_reg(list);
a_loadaddress_ref_reg(list,r,hr);
a_param_reg(list,OS_ADDR,hr,nr);
free_scratch_reg(list,hr);
end;
procedure tcg.g_stackcheck(list : taasmoutput;stackframesize : longint);
begin
a_param_const(list,OS_32,stackframesize,1);
a_call_name(list,'FPC_STACKCHECK',0);
end;
procedure tcg.a_load_const_ref(list : taasmoutput;size : tcgsize;a : aword;const ref : treference);
var
hr : tregister;
begin
hr:=get_scratch_reg(list);
a_load_const_reg(list,size,a,hr);
a_load_reg_ref(list,size,hr,ref);
free_scratch_reg(list,hr);
end;
procedure tcg.g_concatcopy(list : taasmoutput;const source,dest : treference;len : aword;loadref : boolean);
begin
abstract;
end;
{*****************************************************************************
String helper routines
*****************************************************************************}
procedure tcg.g_removetemps(list : taasmoutput;p : tlinkedlist);
var
hp : ptemptodestroy;
pushedregs : tpushed;
begin
hp:=ttemptodestroy(p.first);
if not(assigned(hp)) then
exit;
pushusedregisters(pushedregs,$ff);
while assigned(hp) do
begin
if is_ansistring(hp^.typ) then
begin
g_decrstrref(list,hp.address,hp^.typ);
ungetiftemp(hp^.address);
end;
hp:=ptemptodestroy(hp^.next);
end;
popusedregisters(pushedregs);
end;
procedure tcg.g_decrstrref(list : taasmoutput;const ref : treference;t : tdef);
var
pushedregs : tpushed;
begin
pushusedregisters(pushedregs,$ff);
a_param_ref_addr(list,ref,1);
if is_ansistring(t) then
a_call_name(list,'FPC_ANSISTR_DECR_REF',0)
else if is_widestring(t) then
a_call_name(list,'FPC_WIDESTR_DECR_REF',0)
else internalerror(58993);
popusedregisters(pushedregs);
end;
{*****************************************************************************
Code generation for subroutine entry- and exit code
*****************************************************************************}
{ initilizes data of type t }
{ if is_already_ref is true then the routines assumes }
{ that r points to the data to initialize }
procedure tcg.g_initialize(list : taasmoutput;t : tdef;const ref : treference;is_already_ref : boolean);
var
hr : treference;
begin
if is_ansistring(t) or
is_widestring(t) then
a_load_const_ref(list,OS_8,0,ref)
else
begin
reset_reference(hr);
hr.symbol:=t^.get_inittable_label;
a_param_ref_addr(list,hr,2);
if is_already_ref then
a_param_ref(list,OS_ADDR,ref,1)
else
a_param_ref_addr(list,ref,1);
a_call_name(list,'FPC_INITIALIZE',0);
end;
end;
procedure tcg.g_finalize(list : taasmoutput;t : tdef;const ref : treference;is_already_ref : boolean);
var
r : treference;
begin
if is_ansistring(t) or
is_widestring(t) then
begin
g_decrstrref(list,ref,t);
end
else
begin
reset_reference(r);
r.symbol:=t^.get_inittable_label;
a_param_ref_addr(list,r,2);
if is_already_ref then
a_paramaddr_ref(list,ref,1)
else
a_param_ref_addr(list,ref,1);
a_call_name(list,'FPC_FINALIZE',0);
end;
end;
{ generates the code for initialisation of local data }
procedure tcg.g_initialize_data(list : taasmoutput;p : tsym);
var
hr : treference;
begin
if (tsym(p).typ=varsym) and
assigned(tvarsym(p).vartype.def) and
not((tvarsym(p).vartype.def^.deftype=objectdef) and
tobjectdef(tvarsym(p).vartype.def)^.is_class) and
tvarsym(p).vartype.def.needs_inittable then
begin
procinfo^.flags:=procinfo^.flags or pi_needs_implicit_finally;
reset_reference(hr);
if tsym(p)^.owner^.symtabletype=localsymtable then
begin
hr.base:=procinfo^.framepointer;
hr.offset:=-tvarsym(p)^.address;
end
else
begin
hr.symbol:=newasmsymbol(tvarsym(p)^.mangledname);
end;
g_initialize(list,tvarsym(p)^.vartype.def,hr,false);
end;
end;
{ generates the code for incrementing the reference count of parameters }
procedure tcg.g_incr_data(list : taasmoutput;p : tsym);
var
hr : treference;
begin
if (tsym(p).typ=varsym) and
not((tvarsym(p).vartype.def.deftype=objectdef) and
tobjectdef(tvarsym(p).vartype.def).is_class) and
tvarsym(p).vartype.def.needs_inittable and
((tvarsym(p).varspez=vs_value)) then
begin
procinfo^.flags:=procinfo^.flags or pi_needs_implicit_finally;
reset_reference(hr);
hr.symbol:=tvarsym(p)^.vartype.def^.get_inittable_label;
a_param_ref_addr(list,hr,2);
reset_reference(hr);
hr.base:=procinfo^.framepointer;
hr.offset:=tvarsym(p)^.address+procinfo^.para_offset;
a_param_ref_addr(list,hr,1);
reset_reference(hr);
a_call_name(list,'FPC_ADDREF',0);
end;
end;
{ generates the code for finalisation of local data }
procedure tcg.g_finalize_data(list : taasmoutput;p : tnamedindex);
var
hr : treference;
begin
if (tsym(p).typ=varsym) and
assigned(tvarsym(p).vartype.def) and
not((tvarsym(p).vartype.def.deftype=objectdef) and
tobjectdef(tvarsym(p).vartype.def).is_class) and
tvarsym(p).vartype.def.needs_inittable then
begin
{ not all kind of parameters need to be finalized }
if (tsym(p).owner.symtabletype=parasymtable) and
((tvarsym(p).varspez=vs_var) or
(tvarsym(p).varspez=vs_const) { and
(dont_copy_const_param(tvarsym(p)^.definition)) } ) then
exit;
procinfo^.flags:=procinfo^.flags or pi_needs_implicit_finally;
reset_reference(hr);
case tsym(p).owner^.symtabletype of
localsymtable:
begin
hr.base:=procinfo^.framepointer;
hr.offset:=-tvarsym(p).address;
end;
parasymtable:
begin
hr.base:=procinfo^.framepointer;
hr.offset:=tvarsym(p).address+procinfo^.para_offset;
end;
else
hr.symbol:=newasmsymbol(tvarsym(p).mangledname);
end;
g_finalize(list,tvarsym(p).vartype.def,hr,false);
end;
end;
{ generates the code to make local copies of the value parameters }
procedure tcg.g_copyvalueparas(list : taasmoutput;p : pnamedindexobject);
begin
runerror(255);
end;
var
_list : taasmoutput;
{ wrappers for the methods, because TP doesn't know procedures }
{ of objects }
{$IFNDEF NEWST}
procedure _copyvalueparas(s : pnamedindexobject);{$ifndef FPC}far;{$endif}
begin
cg^.g_copyvalueparas(_list,s);
end;
{$ENDIF NEWST}
procedure tcg.g_finalizetempansistrings(list : taasmoutput);
var
hp : ptemprecord;
hr : treference;
begin
hp:=templist;
while assigned(hp) do
begin
if hp^.temptype in [tt_ansistring,tt_freeansistring] then
begin
procinfo^.flags:=procinfo^.flags or pi_needs_implicit_finally;
reset_reference(hr);
hr.base:=procinfo^.framepointer;
hr.offset:=hp^.pos;
a_param_ref_addr(list,hr,1);
a_call_name(list,'FPC_ANSISTR_DECR_REF',0);
end;
hp:=hp^.next;
end;
end;
procedure _finalize_data(s : pnamedindexobject);{$ifndef FPC}far;{$endif}
begin
cg^.g_finalize_data(_list,s);
end;
procedure _incr_data(s : pnamedindexobject);{$ifndef FPC}far;{$endif}
begin
cg^.g_incr_data(_list,tsym(s));
end;
procedure _initialize_data(s : pnamedindexobject);{$ifndef FPC}far;{$endif}
begin
cg^.g_initialize_data(_list,tsym(s));
end;
{ generates the entry code for a procedure }
procedure tcg.g_entrycode(list : taasmoutput;const proc_names:Tstringcontainer;make_global:boolean;
stackframe:longint;var parasize:longint;var nostackframe:boolean;
inlined : boolean);
var
hs : string;
hp : pused_unit;
initcode : taasmoutput;
{$ifdef GDB}
stab_function_name : Pai_stab_function_name;
{$endif GDB}
hr : treference;
r : tregister;
begin
{ Align }
if (not inlined) then
begin
{ gprof uses 16 byte granularity !! }
if (cs_profile in aktmoduleswitches) then
list^.insert(new(pai_align,init(16)))
else
if not(cs_littlesize in aktglobalswitches) then
list^.insert(new(pai_align,init(4)));
end;
{ save registers on cdecl }
{$IFDEF NEWST}
if (posavestdregs in aktprocdef^.options) then
{$ELSE}
if (po_savestdregs in aktprocsym^.definition^.procoptions) then
{$ENDIF NEWST}
begin
for r:=firstreg to lastreg do
begin
if (r in registers_saved_on_cdecl) then
if (r in (tg.availabletempregsint+
tg.availabletempregsfpu+
tg.availabletempregsmm)) then
begin
if not(r in tg.usedinproc) then
{!!!!!!!!!!!! a_push_reg(list,r) }
end
else
{!!!!!!!! a_push_reg(list,r) };
end;
end;
{ omit stack frame ? }
if not inlined then
if procinfo^.framepointer=stack_pointer then
begin
CGMessage(cg_d_stackframe_omited);
nostackframe:=true;
{$IFDEF NEWST}
if (aktprocdef^.proctype in [potype_unitinit,potype_proginit,potype_unitfinalize]) then
parasize:=0
else
parasize:=aktprocdef^.localst^.paramdatasize+procinfo^.para_offset-pointersize;
{$ELSE}
if (aktprocsym^.definition^.proctypeoption in [potype_unitinit,potype_proginit,potype_unitfinalize]) then
parasize:=0
else
parasize:=aktprocsym^.definition^.parast^.datasize+procinfo^.para_offset-pointersize;
{$ENDIF NEWST}
end
else
begin
{$IFDEF NEWST}
if (aktprocdef^.proctype in [potype_unitinit,potype_proginit,potype_unitfinalize]) then
parasize:=0
else
parasize:=aktprocdef^.localst^.paramdatasize+procinfo^.para_offset-pointersize*2;
{$ELSE}
if (aktprocsym^.definition^.proctypeoption in [potype_unitinit,potype_proginit,potype_unitfinalize]) then
parasize:=0
else
parasize:=aktprocsym^.definition^.parast^.datasize+procinfo^.para_offset-pointersize*2;
{$ENDIF}
nostackframe:=false;
{$IFDEF NEWST}
if (pointerrupt in aktprocdef^.options) then
g_interrupt_stackframe_entry(list);
{$ELSE}
if (po_interrupt in aktprocsym^.definition^.procoptions) then
g_interrupt_stackframe_entry(list);
{$ENDIF NEWST}
g_stackframe_entry(list,stackframe);
if (cs_check_stack in aktlocalswitches) and
(tf_supports_stack_checking in target_info.flags) then
g_stackcheck(@initcode,stackframe);
end;
if cs_profile in aktmoduleswitches then
g_profilecode(@initcode);
{$IFDEF NEWST}
if (not inlined) and (aktprocdef^.proctype in [potype_unitinit]) then
{$ELSE}
if (not inlined) and (aktprocsym^.definition^.proctypeoption in [potype_unitinit]) then
{$ENDIF NEWST}
begin
{ needs the target a console flags ? }
if tf_needs_isconsole in target_info.flags then
begin
hr.symbol:=newasmsymbol('U_'+target_info.system_unit+'_ISCONSOLE');
if apptype=at_cui then
a_load_const_ref(list,OS_8,1,hr)
else
a_load_const_ref(list,OS_8,0,hr);
dispose(hr.symbol,done);
end;
hp:=pused_unit(usedunits.first);
while assigned(hp) do
begin
{ call the unit init code and make it external }
if (hp^.u^.flags and uf_init)<>0 then
a_call_name(list,
'INIT$$'+hp^.u^.modulename^,0);
hp:=Pused_unit(hp^.next);
end;
end;
{$ifdef dummy}
{ a constructor needs a help procedure }
if (aktprocsym^.definition^.options and poconstructor)<>0 then
begin
if procinfo^._class^.isclass then
begin
list^.concat(new(paicpu,op_sym(A_CALL,S_NO,newasmsymbol('FPC_NEW_CLASS'))));
list^.concat(new(paicpu,op_cond_sym(A_Jcc,C_Z,S_NO,quickexitlabel)));
end
else
begin
{
list^.insert(new(pai_labeled,init(A_JZ,quickexitlabel)));
list^.insert(new(paicpu,op_csymbol(A_CALL,S_NO,
newcsymbol('FPC_HELP_CONSTRUCTOR',0))));
list^.insert(new(paicpu,op_const_reg(A_MOV,S_L,procinfo^._class^.vmt_offset,R_EDI)));
concat_external('FPC_HELP_CONSTRUCTOR',EXT_NEAR);
}
end;
end;
{$endif dummy}
{$ifdef GDB}
if (cs_debuginfo in aktmoduleswitches) then
list^.insert(new(pai_force_line,init));
{$endif GDB}
{$IFDEF NEWST}
{ initialize return value }
if assigned(procinfo^.retdef) and
is_ansistring(procinfo^.retdef) or
is_widestring(procinfo^.retdef) then
begin
reset_reference(hr);
hr.offset:=procinfo^.return_offset;
hr.base:=procinfo^.framepointer;
a_load_const_ref(list,OS_32,0,hr);
end;
{$ELSE}
{ initialize return value }
if assigned(procinfo^.returntype.def) and
is_ansistring(procinfo^.returntype.def) or
is_widestring(procinfo^.returntype.def) then
begin
reset_reference(hr);
hr.offset:=procinfo^.return_offset;
hr.base:=procinfo^.framepointer;
a_load_const_ref(list,OS_32,0,hr);
end;
{$ENDIF}
_list:=list;
{ generate copies of call by value parameters }
{$IFDEF NEWST}
if (poassembler in aktprocdef^.options) then
aktprocdef^.parameters^.foreach(@_copyvalueparas);
{$ELSE}
if (po_assembler in aktprocsym^.definition^.procoptions) then
aktprocsym^.definition^.parast^.foreach({$ifdef FPC}@{$endif FPC}_copyvalueparas);
{$ENDIF NEWST}
{$IFDEF NEWST}
{ initialisizes local data }
aktprocdef^.localst^.foreach({$ifdef FPC}@{$endif FPC}_initialize_local);
{$ELSE}
{ initialisizes local data }
aktprocsym^.definition^.localst^.foreach({$ifdef FPC}@{$endif FPC}_initialize_data);
{ add a reference to all call by value/const parameters }
aktprocsym^.definition^.parast^.foreach({$ifdef FPC}@{$endif FPC}_incr_data);
{$ENDIF NEWST}
{$IFDEF NEWST}
if (cs_profile in aktmoduleswitches) or
(typeof(aktprocdef^.owner^)=typeof(Tglobalsymtable)) or
(typeof(aktprocdef^.owner^)=typeof(Timplsymtable)) or
(assigned(procinfo^._class) and
(typeof(procinfo^._class^.owner^)=typeof(Tglobalsymtable)) or
(typeof(procinfo^._class^.owner^)=typeof(Timplsymtable))) then
make_global:=true;
{$ELSE}
if (cs_profile in aktmoduleswitches) or
(aktprocsym^.definition^.owner^.symtabletype=globalsymtable) or
(assigned(procinfo^._class) and (procinfo^._class^.owner^.symtabletype=globalsymtable)) then
make_global:=true;
{$ENDIF NEWST}
if not inlined then
begin
hs:=proc_names.get;
{$ifdef GDB}
if (cs_debuginfo in aktmoduleswitches) and target_os.use_function_relative_addresses then
stab_function_name := new(pai_stab_function_name,init(strpnew(hs)));
{$endif GDB}
{ insert the names for the procedure }
while hs<>'' do
begin
if make_global then
exprasmlist^.insert(new(pai_symbol,initname_global(hs,0)))
else
exprasmlist^.insert(new(pai_symbol,initname(hs,0)));
{$ifdef GDB}
if (cs_debuginfo in aktmoduleswitches) then
begin
if target_os.use_function_relative_addresses then
list^.insert(new(pai_stab_function_name,init(strpnew(hs))));
end;
{$endif GDB}
hs:=proc_names.get;
end;
end;
{$ifdef GDB}
if (not inlined) and (cs_debuginfo in aktmoduleswitches) then
begin
if target_os.use_function_relative_addresses then
list^.insert(stab_function_name);
if make_global or ((procinfo^.flags and pi_is_global) <> 0) then
aktprocsym^.is_global := True;
list^.insert(new(pai_stabs,init(aktprocsym^.stabstring)));
aktprocsym^.isstabwritten:=true;
end;
{$endif GDB}
end;
procedure tcg.g_exitcode(list : taasmoutput;parasize:longint;nostackframe,inlined:boolean);
var
{$ifdef GDB}
mangled_length : longint;
p : pchar;
{$endif GDB}
nofinal,noreraiselabel : tasmlabel;
hr : treference;
r : tregister;
begin
if aktexitlabel^.is_used then
list^.insert(new(pai_label,init(aktexitlabel)));
{ call the destructor help procedure }
{$IFDEF NEWST}
if (aktprocdef^.proctype=potype_destructor) then
{$ELSE}
if (aktprocsym^.definition^.proctypeoption=potype_destructor) then
{$ENDIF}
begin
{$IFDEF NEWST}
if oo_is_class in procinfo^._class^.options then
{$ELSE NEWST}
if procinfo^._class^.is_class then
{$ENDIF}
a_call_name(list,'FPC_DISPOSE_CLASS',0)
else
begin
if procinfo^._class^.needs_inittable then
begin
getlabel(nofinal);
{!!!!!!!!!!
reset_reference(hr);
hr.base:=R_EBP;
hr.offset:=8;
a_cmp_reg_const_label(list,OS_ADDR,OZ_EQ,
}
reset_reference(hr);
hr.symbol:=procinfo^._class^.get_inittable_label;
a_paramaddr_ref(list,hr,2);
a_param_reg(list,OS_ADDR,self_pointer,1);
a_call_name(list,'FPC_FINALIZE',0);
a_label(list,nofinal);
end;
{ vmt_offset_reg can be a scratch register, }
{ but it must be always the same }
a_reg_alloc(list,vmt_offset_reg);
a_load_const_reg(list,OS_32,procinfo^._class^.vmt_offset,vmt_offset_reg);
a_call_name(list,'FPC_HELP_DESTRUCTOR',0);
a_reg_dealloc(list,vmt_offset_reg);
end;
end;
{ finalize temporary data }
g_finalizetempansistrings(list);
_list:=list;
{ finalize local data }
{$IFDEF NEWST}
aktprocdef^.localst^.foreach({$ifndef TP}@{$endif}_finalize_data);
{$ELSE}
aktprocsym^.definition^.localst^.foreach({$ifndef TP}@{$endif}_finalize_data);
{$ENDIF}
{$IFNDEF NEWST}
{ finalize paras data }
if assigned(aktprocsym^.definition^.parast) then
aktprocsym^.definition^.parast^.foreach({$ifndef TP}@{$endif}_finalize_data);
{$ENDIF NEWST}
{ do we need to handle exceptions because of ansi/widestrings ? }
if (procinfo^.flags and pi_needs_implicit_finally)<>0 then
begin
getlabel(noreraiselabel);
a_call_name(list,'FPC_POPADDRSTACK',0);
a_reg_alloc(list,accumulator);
g_pop_exception_value_reg(list,accumulator);
a_cmp_reg_const_label(list,OS_32,OC_EQ,0,accumulator,noreraiselabel);
a_reg_dealloc(list,accumulator);
{$IFDEF NEWST}
{ must be the return value finalized before reraising the exception? }
if (procinfo^.retdef<>tdef(voiddef)) and
(procinfo^.retdef^.needs_inittable) and
((typeof(procinfo^.retdef^)<>typeof(Tobjectdef)) or
not(oo_is_class in pobjectdef(procinfo^.retdef)^.options)) then
begin
reset_reference(hr);
hr.offset:=procinfo^.return_offset;
hr.base:=procinfo^.framepointer;
g_finalize(list,procinfo^.retdef,hr,not (dp_ret_in_acc in procinfo^.retdef^.properties));
end;
{$ELSE}
{ must be the return value finalized before reraising the exception? }
if (procinfo^.returntype.def<>tdef(voiddef)) and
(procinfo^.returntype.def^.needs_inittable) and
((procinfo^.returntype.def^.deftype<>objectdef) or
not(pobjectdef(procinfo^.returntype.def)^.is_class)) then
begin
reset_reference(hr);
hr.offset:=procinfo^.return_offset;
hr.base:=procinfo^.framepointer;
g_finalize(list,procinfo^.returntype.def,hr,ret_in_param(procinfo^.returntype.def));
end;
{$ENDIF}
a_call_name(list,'FPC_RERAISE',0);
a_label(list,noreraiselabel);
end;
{ call __EXIT for main program }
{$IFDEF NEWST}
if (not DLLsource) and (not inlined) and (aktprocdef^.proctype=potype_proginit) then
a_call_name(list,'FPC_DO_EXIT',0);
{$ELSE}
if (not DLLsource) and (not inlined) and (aktprocsym^.definition^.proctypeoption=potype_proginit) then
a_call_name(list,'FPC_DO_EXIT',0);
{$ENDIF NEWST}
{ handle return value }
{$IFDEF NEWST}
if not(poassembler in aktprocdef^.options) then
if (aktprocdef^.proctype<>potype_constructor) then
{$ELSE}
if not(po_assembler in aktprocsym^.definition^.procoptions) then
if (aktprocsym^.definition^.proctypeoption<>potype_constructor) then
{$ENDIF NEWST}
{ handle_return_value(inlined) }
else
begin
{ return self in EAX }
a_label(list,quickexitlabel);
a_reg_alloc(list,accumulator);
a_load_reg_reg(list,OS_ADDR,self_pointer,accumulator);
a_reg_dealloc(list,self_pointer);
a_label(list,quickexitlabel);
{ we can't clear the zero flag because the Alpha }
{ for example doesn't have flags, we have to compare }
{ the accu. in the caller }
end;
{ stabs uses the label also ! }
if aktexit2label^.is_used or
((cs_debuginfo in aktmoduleswitches) and not inlined) then
a_label(list,aktexit2label);
{$ifdef dummy}
{ should we restore edi ? }
{ for all i386 gcc implementations }
{!!!!!!!!!!! I don't know how to handle register saving yet }
if (po_savestdregs in aktprocsym^.definition^.procoptions) then
begin
if (aktprocsym^.definition^.usedregisters and ($80 shr byte(R_EBX)))<>0 then
exprasmlist^.concat(new(paicpu,op_reg(A_POP,S_L,R_EBX)));
exprasmlist^.concat(new(paicpu,op_reg(A_POP,S_L,R_ESI)));
exprasmlist^.concat(new(paicpu,op_reg(A_POP,S_L,R_EDI)));
{ here we could reset R_EBX
but that is risky because it only works
if genexitcode is called after genentrycode
so lets skip this for the moment PM
aktprocsym^.definition^.usedregisters:=
aktprocsym^.definition^.usedregisters or not ($80 shr byte(R_EBX));
}
end;
{$endif dummy}
if not(nostackframe) and not inlined then
g_restore_frame_pointer(list);
{ at last, the return is generated }
if not inlined then
{$IFDEF NEWST}
if pointerrupt in aktprocdef^.options then
{$ELSE}
if po_interrupt in aktprocsym^.definition^.procoptions then
{$ENDIF NEWST}
g_interrupt_stackframe_exit(list)
else
g_return_from_proc(list,parasize);
{$IFDEF NEWST}
list^.concat(new(pai_symbol_end,initname(aktprocdef^.mangledname)));
{$ELSE NEWST}
list^.concat(new(pai_symbol_end,initname(aktprocsym^.definition^.mangledname)));
{$ENDIF NEWST}
{$ifdef GDB}
if (cs_debuginfo in aktmoduleswitches) and not inlined then
begin
aktprocsym^.concatstabto(list);
if assigned(procinfo^._class) then
if (not assigned(procinfo^.parent) or
not assigned(procinfo^.parent^._class)) then
list^.concat(new(pai_stabs,init(strpnew(
'"$t:v'+procinfo^._class^.numberstring+'",'+
tostr(N_PSYM)+',0,0,'+tostr(procinfo^.selfpointer_offset)))));
{!!!!!!!!!!!!
else
list^.concat(new(pai_stabs,init(strpnew(
'"$t:r'+procinfo^._class^.numberstring+'",'+
tostr(N_RSYM)+',0,0,'+tostr(GDB_i386index[R_ESI])))));
}
if (tdef(aktprocsym^.definition^.rettype.def) <> tdef(voiddef)) then
begin
if ret_in_param(aktprocsym^.definition^.rettype.def) then
list^.concat(new(pai_stabs,init(strpnew(
'"'+aktprocsym^.name+':X*'+aktprocsym^.definition^.rettype.def^.numberstring+'",'+
tostr(N_PSYM)+',0,0,'+tostr(procinfo^.return_offset)))))
else
list^.concat(new(pai_stabs,init(strpnew(
'"'+aktprocsym^.name+':X'+aktprocsym^.definition^.rettype.def^.numberstring+'",'+
tostr(N_PSYM)+',0,0,'+tostr(procinfo^.return_offset)))));
if (m_result in aktmodeswitches) then
if ret_in_param(aktprocsym^.definition^.rettype.def) then
list^.concat(new(pai_stabs,init(strpnew(
'"RESULT:X*'+aktprocsym^.definition^.rettype.def^.numberstring+'",'+
tostr(N_PSYM)+',0,0,'+tostr(procinfo^.return_offset)))))
else
list^.concat(new(pai_stabs,init(strpnew(
'"RESULT:X'+aktprocsym^.definition^.rettype.def^.numberstring+'",'+
tostr(N_PSYM)+',0,0,'+tostr(procinfo^.return_offset)))));
end;
mangled_length:=length(aktprocsym^.definition^.mangledname);
getmem(p,mangled_length+50);
strpcopy(p,'192,0,0,');
strpcopy(strend(p),aktprocsym^.definition^.mangledname);
list^.concat(new(pai_stabn,init(strnew(p))));
{list^.concat(new(pai_stabn,init(strpnew('192,0,0,'
+aktprocsym^.definition^.mangledname))));
p[0]:='2';p[1]:='2';p[2]:='4';
strpcopy(strend(p),'_end');}
freemem(p,mangled_length+50);
list^.concat(new(pai_stabn,init(
strpnew('224,0,0,'+aktexit2label^.name))));
{ strpnew('224,0,0,'
+aktprocsym^.definition^.mangledname+'_end'))));}
end;
{$endif GDB}
end;
{*****************************************************************************
some abstract definitions
****************************************************************************}
procedure tcg.a_call_name(list : taasmoutput;const s : string;
offset : longint);
begin
abstract;
end;
procedure tcg.g_stackframe_entry(list : taasmoutput;localsize : longint);
begin
abstract;
end;
procedure tcg.g_maybe_loadself(list : taasmoutput);
begin
abstract;
end;
procedure tcg.g_restore_frame_pointer(list : taasmoutput);
begin
abstract;
end;
procedure g_return_from_proc(list : taasmoutput;parasize : aword);
begin
abstract;
end;
procedure tcg.a_loadaddress_ref_reg(list : taasmoutput;const ref : treference;r : tregister);
begin
abstract;
end;
procedure tcg.g_push_exception_value_reg(list : taasmoutput;reg : tregister);
begin
abstract;
end;
procedure tcg.g_push_exception_value_const(list : taasmoutput;reg : tregister);
begin
abstract;
end;
procedure tcg.g_pop_exception_value_reg(list : taasmoutput;reg : tregister);
begin
abstract;
end;
procedure tcg.a_load_const_reg(list : taasmoutput;size : tcgsize;a : aword;register : tregister);
begin
abstract;
end;
procedure tcg.a_load_reg_ref(list : taasmoutput;size : tcgsize;register : tregister;const ref : treference);
begin
abstract;
end;
procedure tcg.a_load_ref_reg(list : taasmoutput;size : tcgsize;const ref : treference;register : tregister);
begin
abstract;
end;
procedure tcg.a_load_reg_reg(list : taasmoutput;size : tcgsize;reg1,reg2 : tregister);
begin
abstract;
end;
procedure tcg.a_cmp_reg_const_label(list : taasmoutput;size : tcgsize;cmp_op : topcmp;a : aword;reg : tregister;
l : tasmlabel);
begin
abstract;
end;
procedure tcg.a_cmp_reg_reg_label(list : taasmoutput;size : tcgsize;cmp_op : topcmp;reg1,reg2 : tregister;l : tasmlabel);
begin
abstract;
end;
procedure tcg.a_cmp_reg_ref_label(list : taasmoutput;size : tcgsize;cmp_op : topcmp;reg : tregister;l : tasmlabel);
begin
abstract;
end;
procedure tcg.a_cmp_ref_const_label(list : taasmoutput;size : tcgsize;cmp_op : topcmp;a : aword;reg : tregister;
l : tasmlabel);
begin
abstract;
end;
procedure tcg.a_jmp_cond(list : taasmoutput;cond : TOpCmp;l: tasmlabel);
begin
abstract;
end;
procedure tcg.g_return_from_proc(list : taasmoutput;parasize : aword);
begin
abstract;
end;
procedure tcg.a_param_reg(list : taasmoutput;size : tcgsize;r : tregister;nr : longint);
begin
abstract;
end;
procedure tcg.a_paramaddr_ref(list : taasmoutput;const r : treference;nr : longint);
begin
abstract;
end;
end.
{
$Log$
Revision 1.1 2001-08-26 13:36:37 florian
* some cg reorganisation
* some PPC updates
Revision 1.1 2000/07/13 06:30:07 michael
+ Initial import
Revision 1.38 2000/04/29 09:01:06 jonas
* nmem compiles again (at least for powerpc)
Revision 1.37 2000/04/22 14:25:03 jonas
* aasm.pas: pai_align instead of pai_align_abstract if cpu <> i386
+ systems.pas: info for macos/ppc
* new/cgobj.pas: compiles again without newst define
* new/powerpc/cgcpu: generate different entry/exit code depending on
whether target_os is MacOs or Linux
Revision 1.36 2000/03/11 21:11:24 daniel
* Ported hcgdata to new symtable.
* Alignment code changed as suggested by Peter
+ Usage of my is operator replacement, is_object
Revision 1.35 2000/03/01 15:36:13 florian
* some new stuff for the new cg
Revision 1.34 2000/02/20 20:49:46 florian
* newcg is compiling
* fixed the dup id problem reported by Paul Y.
Revision 1.33 2000/01/07 01:14:53 peter
* updated copyright to 2000
Revision 1.32 1999/12/01 12:42:33 peter
* fixed bug 698
* removed some notes about unused vars
Revision 1.31 1999/11/05 13:15:00 florian
* some fixes to get the new cg compiling again
Revision 1.30 1999/11/05 07:05:56 jonas
+ a_jmp_cond()
Revision 1.29 1999/10/21 16:41:41 florian
* problems with readln fixed: esi wasn't restored correctly when
reading ordinal fields of objects futher the register allocation
didn't take care of the extra register when reading ordinal values
* enumerations can now be used in constant indexes of properties
Revision 1.28 1999/10/12 21:20:46 florian
* new codegenerator compiles again
Revision 1.27 1999/09/29 11:46:20 florian
* fixed bug 292 from bugs directory
Revision 1.26 1999/09/14 11:16:09 florian
* only small updates to work with the current compiler
Revision 1.25 1999/09/03 13:09:09 jonas
* fixed typo regarding scratchregs pointer
Revision 1.24 1999/08/26 14:51:54 jonas
* changed get_scratch_reg so it actually uses the
scratch_reg_array_pointer
Revision 1.23 1999/08/25 12:00:11 jonas
* changed pai386, paippc and paiapha (same for tai*) to paicpu (taicpu)
Revision 1.22 1999/08/18 17:05:55 florian
+ implemented initilizing of data for the new code generator
so it should compile now simple programs
Revision 1.21 1999/08/07 14:21:08 florian
* some small problems fixed
Revision 1.20 1999/08/06 18:05:52 florian
* implemented some stuff for assignments
Revision 1.19 1999/08/06 17:00:54 florian
+ definition of concatcopy
Revision 1.18 1999/08/06 16:37:45 jonas
* completed bugfix done by Florian o I wouldn't get conflicts :)
Revision 1.17 1999/08/06 16:27:26 florian
* for Jonas: else he will get conflicts
Revision 1.16 1999/08/06 16:04:05 michael
+ introduced tainstruction
Revision 1.15 1999/08/06 15:53:50 florian
* made the alpha version compilable
Revision 1.14 1999/08/06 14:15:51 florian
* made the alpha version compilable
Revision 1.13 1999/08/06 13:26:50 florian
* more changes ...
Revision 1.12 1999/08/05 17:10:56 florian
* some more additions, especially procedure
exit code generation
Revision 1.11 1999/08/05 14:58:11 florian
* some fixes for the floating point registers
* more things for the new code generator
Revision 1.10 1999/08/04 00:23:52 florian
* renamed i386asm and i386base to cpuasm and cpubase
Revision 1.9 1999/08/02 23:13:21 florian
* more changes to compile for the Alpha
Revision 1.8 1999/08/02 17:14:07 florian
+ changed the temp. generator to an object
Revision 1.7 1999/08/01 23:05:55 florian
* changes to compile with FPC
Revision 1.6 1999/08/01 18:22:33 florian
* made it again compilable
Revision 1.5 1999/01/23 23:29:46 florian
* first running version of the new code generator
* when compiling exceptions under Linux fixed
Revision 1.4 1999/01/13 22:52:36 florian
+ YES, finally the new code generator is compilable, but it doesn't run yet :(
Revision 1.3 1998/12/26 15:20:30 florian
+ more changes for the new version
Revision 1.2 1998/12/15 22:18:55 florian
* some code added
Revision 1.1 1998/12/15 16:32:58 florian
+ first version, derived from old routines
}
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