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e7aca136a1
fpc/compiler/cg386flw.pas
michael e7aca136a1 + Initial import
2000-07-13 06:29:38 +00:00

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{
$Id$
Copyright (c) 1998-2000 by Florian Klaempfl
Generate i386 assembler for nodes that influence the flow
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.
****************************************************************************
}
{$ifdef FPC}
{$goto on}
{$endif FPC}
unit cg386flw;
interface
uses
tree;
procedure second_while_repeatn(var p : ptree);
procedure secondifn(var p : ptree);
procedure secondfor(var p : ptree);
procedure secondexitn(var p : ptree);
procedure secondbreakn(var p : ptree);
procedure secondcontinuen(var p : ptree);
procedure secondgoto(var p : ptree);
procedure secondlabel(var p : ptree);
procedure secondraise(var p : ptree);
procedure secondtryexcept(var p : ptree);
procedure secondtryfinally(var p : ptree);
procedure secondon(var p : ptree);
procedure secondfail(var p : ptree);
type
tenumflowcontrol = (fc_exit,fc_break,fc_continue);
tflowcontrol = set of tenumflowcontrol;
var
flowcontrol : tflowcontrol;
implementation
uses
cobjects,verbose,globtype,globals,systems,
symconst,symtable,aasm,types,
hcodegen,temp_gen,pass_2,
cpubase,cpuasm,
cgai386,tgeni386,tcflw;
{*****************************************************************************
Second_While_RepeatN
*****************************************************************************}
procedure second_while_repeatn(var p : ptree);
var
lcont,lbreak,lloop,
oldclabel,oldblabel : pasmlabel;
otlabel,oflabel : pasmlabel;
begin
getlabel(lloop);
getlabel(lcont);
getlabel(lbreak);
{ arrange continue and breaklabels: }
oldclabel:=aktcontinuelabel;
oldblabel:=aktbreaklabel;
{ handling code at the end as it is much more efficient, and makes
while equal to repeat loop, only the end true/false is swapped (PFV) }
if p^.treetype=whilen then
emitjmp(C_None,lcont);
emitlab(lloop);
aktcontinuelabel:=lcont;
aktbreaklabel:=lbreak;
cleartempgen;
if assigned(p^.right) then
secondpass(p^.right);
emitlab(lcont);
otlabel:=truelabel;
oflabel:=falselabel;
if p^.treetype=whilen then
begin
truelabel:=lloop;
falselabel:=lbreak;
end
{ repeatn }
else
begin
truelabel:=lbreak;
falselabel:=lloop;
end;
cleartempgen;
secondpass(p^.left);
maketojumpbool(p^.left);
emitlab(lbreak);
truelabel:=otlabel;
falselabel:=oflabel;
aktcontinuelabel:=oldclabel;
aktbreaklabel:=oldblabel;
{ a break/continue in a while/repeat block can't be seen outside }
flowcontrol:=flowcontrol-[fc_break,fc_continue];
end;
{*****************************************************************************
SecondIfN
*****************************************************************************}
procedure secondifn(var p : ptree);
var
hl,otlabel,oflabel : pasmlabel;
begin
otlabel:=truelabel;
oflabel:=falselabel;
getlabel(truelabel);
getlabel(falselabel);
cleartempgen;
secondpass(p^.left);
maketojumpbool(p^.left);
if assigned(p^.right) then
begin
emitlab(truelabel);
cleartempgen;
secondpass(p^.right);
end;
if assigned(p^.t1) then
begin
if assigned(p^.right) then
begin
getlabel(hl);
{ do go back to if line !! }
aktfilepos:=exprasmlist^.getlasttaifilepos^;
emitjmp(C_None,hl);
end;
emitlab(falselabel);
cleartempgen;
secondpass(p^.t1);
if assigned(p^.right) then
emitlab(hl);
end
else
begin
emitlab(falselabel);
end;
if not(assigned(p^.right)) then
begin
emitlab(truelabel);
end;
truelabel:=otlabel;
falselabel:=oflabel;
end;
{*****************************************************************************
SecondFor
*****************************************************************************}
procedure secondfor(var p : ptree);
var
l3,oldclabel,oldblabel : pasmlabel;
omitfirstcomp,temptovalue : boolean;
hs : byte;
temp1 : treference;
hop : tasmop;
hcond : tasmcond;
cmpreg,cmp32 : tregister;
opsize : topsize;
count_var_is_signed : boolean;
begin
oldclabel:=aktcontinuelabel;
oldblabel:=aktbreaklabel;
getlabel(aktcontinuelabel);
getlabel(aktbreaklabel);
getlabel(l3);
{ could we spare the first comparison ? }
omitfirstcomp:=false;
if p^.right^.treetype=ordconstn then
if p^.left^.right^.treetype=ordconstn then
omitfirstcomp:=(p^.backward and (p^.left^.right^.value>=p^.right^.value))
or (not(p^.backward) and (p^.left^.right^.value<=p^.right^.value));
{ only calculate reference }
cleartempgen;
secondpass(p^.t2);
hs:=p^.t2^.resulttype^.size;
if p^.t2^.location.loc <> LOC_CREGISTER then
cmp32:=getregister32;
case hs of
1 : begin
opsize:=S_B;
if p^.t2^.location.loc <> LOC_CREGISTER then
cmpreg:=reg32toreg8(cmp32);
end;
2 : begin
opsize:=S_W;
if p^.t2^.location.loc <> LOC_CREGISTER then
cmpreg:=reg32toreg16(cmp32);
end;
4 : begin
opsize:=S_L;
if p^.t2^.location.loc <> LOC_CREGISTER then
cmpreg:=cmp32;
end;
end;
{ first set the to value
because the count var can be in the expression !! }
cleartempgen;
secondpass(p^.right);
{ calculate pointer value and check if changeable and if so }
{ load into temporary variable }
if p^.right^.treetype<>ordconstn then
begin
temp1.symbol:=nil;
gettempofsizereference(hs,temp1);
temptovalue:=true;
if (p^.right^.location.loc=LOC_REGISTER) or
(p^.right^.location.loc=LOC_CREGISTER) then
begin
emit_reg_ref(A_MOV,opsize,p^.right^.location.register,
newreference(temp1));
end
else
concatcopy(p^.right^.location.reference,temp1,hs,false,false);
end
else
temptovalue:=false;
{ produce start assignment }
cleartempgen;
secondpass(p^.left);
count_var_is_signed:=is_signed(porddef(p^.t2^.resulttype));
if temptovalue then
begin
if p^.t2^.location.loc=LOC_CREGISTER then
begin
emit_ref_reg(A_CMP,opsize,newreference(temp1),
p^.t2^.location.register);
end
else
begin
emit_ref_reg(A_MOV,opsize,newreference(p^.t2^.location.reference),
cmpreg);
emit_ref_reg(A_CMP,opsize,newreference(temp1),
cmpreg);
{ temp register not necessary anymore currently (JM) }
ungetregister32(cmp32);
end;
end
else
begin
if not(omitfirstcomp) then
begin
if p^.t2^.location.loc=LOC_CREGISTER then
emit_const_reg(A_CMP,opsize,p^.right^.value,
p^.t2^.location.register)
else
emit_const_ref(A_CMP,opsize,p^.right^.value,
newreference(p^.t2^.location.reference));
end;
end;
if p^.backward then
if count_var_is_signed then
hcond:=C_L
else
hcond:=C_B
else
if count_var_is_signed then
hcond:=C_G
else
hcond:=C_A;
if not(omitfirstcomp) or temptovalue then
emitjmp(hcond,aktbreaklabel);
{ align loop target }
if not(cs_littlesize in aktglobalswitches) then
exprasmlist^.concat(new(pai_align,init_op(4,$90)));
emitlab(l3);
{ help register must not be in instruction block }
cleartempgen;
if assigned(p^.t1) then
secondpass(p^.t1);
emitlab(aktcontinuelabel);
{ makes no problems there }
cleartempgen;
if (p^.t2^.location.loc <> LOC_CREGISTER) then
begin
{ demand help register again }
cmp32:=getregister32;
case hs of
1 : cmpreg:=reg32toreg8(cmp32);
2 : cmpreg:=reg32toreg16(cmp32);
4 : cmpreg:=cmp32;
end;
end;
{ produce comparison and the corresponding }
{ jump }
if temptovalue then
begin
if p^.t2^.location.loc=LOC_CREGISTER then
begin
emit_ref_reg(A_CMP,opsize,newreference(temp1),
p^.t2^.location.register);
end
else
begin
emit_ref_reg(A_MOV,opsize,newreference(p^.t2^.location.reference),
cmpreg);
emit_ref_reg(A_CMP,opsize,newreference(temp1),
cmpreg);
end;
end
else
begin
if p^.t2^.location.loc=LOC_CREGISTER then
emit_const_reg(A_CMP,opsize,p^.right^.value,
p^.t2^.location.register)
else
emit_const_ref(A_CMP,opsize,p^.right^.value,
newreference(p^.t2^.location.reference));
end;
if p^.backward then
if count_var_is_signed then
hcond:=C_LE
else
hcond:=C_BE
else
if count_var_is_signed then
hcond:=C_GE
else
hcond:=C_AE;
emitjmp(hcond,aktbreaklabel);
{ according to count direction DEC or INC... }
{ must be after the test because of 0to 255 for bytes !! }
if p^.backward then
hop:=A_DEC
else
hop:=A_INC;
if p^.t2^.location.loc=LOC_CREGISTER then
emit_reg(hop,opsize,p^.t2^.location.register)
else
emit_ref(hop,opsize,newreference(p^.t2^.location.reference));
emitjmp(C_None,l3);
if (p^.t2^.location.loc <> LOC_CREGISTER) then
ungetregister32(cmp32);
if temptovalue then
ungetiftemp(temp1);
{ this is the break label: }
emitlab(aktbreaklabel);
aktcontinuelabel:=oldclabel;
aktbreaklabel:=oldblabel;
{ a break/continue in a for block can't be seen outside }
flowcontrol:=flowcontrol-[fc_break,fc_continue];
end;
{*****************************************************************************
SecondExitN
*****************************************************************************}
procedure secondexitn(var p : ptree);
var
is_mem : boolean;
{op : tasmop;
s : topsize;}
otlabel,oflabel : pasmlabel;
r : preference;
label
do_jmp;
begin
include(flowcontrol,fc_exit);
if assigned(p^.left) then
if p^.left^.treetype=assignn then
begin
{ just do a normal assignment followed by exit }
secondpass(p^.left);
emitjmp(C_None,aktexitlabel);
end
else
begin
otlabel:=truelabel;
oflabel:=falselabel;
getlabel(truelabel);
getlabel(falselabel);
secondpass(p^.left);
case p^.left^.location.loc of
LOC_FPU : goto do_jmp;
LOC_MEM,
LOC_REFERENCE : is_mem:=true;
LOC_CREGISTER,
LOC_REGISTER : is_mem:=false;
LOC_FLAGS : begin
emit_flag2reg(p^.left^.location.resflags,R_AL);
goto do_jmp;
end;
LOC_JUMP : begin
emitlab(truelabel);
emit_const_reg(A_MOV,S_B,1,R_AL);
emitjmp(C_None,aktexit2label);
emitlab(falselabel);
emit_reg_reg(A_XOR,S_B,R_AL,R_AL);
goto do_jmp;
end;
else
internalerror(2001);
end;
case procinfo^.returntype.def^.deftype of
pointerdef,
procvardef : begin
if is_mem then
emit_ref_reg(A_MOV,S_L,
newreference(p^.left^.location.reference),R_EAX)
else
emit_reg_reg(A_MOV,S_L,
p^.left^.location.register,R_EAX);
end;
floatdef : begin
if pfloatdef(procinfo^.returntype.def)^.typ=f32bit then
begin
if is_mem then
emit_ref_reg(A_MOV,S_L,
newreference(p^.left^.location.reference),R_EAX)
else
emit_reg_reg(A_MOV,S_L,p^.left^.location.register,R_EAX);
end
else
if is_mem then
floatload(pfloatdef(procinfo^.returntype.def)^.typ,p^.left^.location.reference);
end;
{ orddef,
enumdef : }
else
{ it can be anything shorter than 4 bytes PM
this caused form bug 711 }
begin
case procinfo^.returntype.def^.size of
{ it can be a qword/int64 too ... }
8 : if is_mem then
begin
emit_ref_reg(A_MOV,S_L,
newreference(p^.left^.location.reference),R_EAX);
r:=newreference(p^.left^.location.reference);
inc(r^.offset,4);
emit_ref_reg(A_MOV,S_L,r,R_EDX);
end
else
begin
emit_reg_reg(A_MOV,S_L,p^.left^.location.registerlow,R_EAX);
emit_reg_reg(A_MOV,S_L,p^.left^.location.registerhigh,R_EDX);
end;
{ if its 3 bytes only we can still
copy one of garbage ! PM }
4,3 : if is_mem then
emit_ref_reg(A_MOV,S_L,
newreference(p^.left^.location.reference),R_EAX)
else
emit_reg_reg(A_MOV,S_L,p^.left^.location.register,R_EAX);
2 : if is_mem then
emit_ref_reg(A_MOV,S_W,
newreference(p^.left^.location.reference),R_AX)
else
emit_reg_reg(A_MOV,S_W,makereg16(p^.left^.location.register),R_AX);
1 : if is_mem then
emit_ref_reg(A_MOV,S_B,
newreference(p^.left^.location.reference),R_AL)
else
emit_reg_reg(A_MOV,S_B,makereg8(p^.left^.location.register),R_AL);
else internalerror(605001);
end;
end;
end;
do_jmp:
truelabel:=otlabel;
falselabel:=oflabel;
emitjmp(C_None,aktexit2label);
end
else
begin
emitjmp(C_None,aktexitlabel);
end;
end;
{*****************************************************************************
SecondBreakN
*****************************************************************************}
procedure secondbreakn(var p : ptree);
begin
include(flowcontrol,fc_break);
if aktbreaklabel<>nil then
emitjmp(C_None,aktbreaklabel)
else
CGMessage(cg_e_break_not_allowed);
end;
{*****************************************************************************
SecondContinueN
*****************************************************************************}
procedure secondcontinuen(var p : ptree);
begin
include(flowcontrol,fc_continue);
if aktcontinuelabel<>nil then
emitjmp(C_None,aktcontinuelabel)
else
CGMessage(cg_e_continue_not_allowed);
end;
{*****************************************************************************
SecondGoto
*****************************************************************************}
procedure secondgoto(var p : ptree);
begin
emitjmp(C_None,p^.labelnr);
{ the assigned avoids only crashes if the label isn't defined }
if assigned(p^.labsym) and
assigned(p^.labsym^.code) and
(aktexceptblock<>ptree(p^.labsym^.code)^.exceptionblock) then
CGMessage(cg_e_goto_inout_of_exception_block);
end;
{*****************************************************************************
SecondLabel
*****************************************************************************}
procedure secondlabel(var p : ptree);
begin
emitlab(p^.labelnr);
cleartempgen;
secondpass(p^.left);
end;
{*****************************************************************************
SecondRaise
*****************************************************************************}
procedure secondraise(var p : ptree);
var
a : pasmlabel;
begin
if assigned(p^.left) then
begin
{ multiple parameters? }
if assigned(p^.right) then
begin
{ push frame }
if assigned(p^.frametree) then
begin
secondpass(p^.frametree);
if codegenerror then
exit;
emit_push_loc(p^.frametree^.location);
end
else
emit_const(A_PUSH,S_L,0);
{ push address }
secondpass(p^.right);
if codegenerror then
exit;
emit_push_loc(p^.right^.location);
end
else
begin
getlabel(a);
emitlab(a);
emit_const(A_PUSH,S_L,0);
emit_sym(A_PUSH,S_L,a);
end;
{ push object }
secondpass(p^.left);
if codegenerror then
exit;
emit_push_loc(p^.left^.location);
emitcall('FPC_RAISEEXCEPTION');
end
else
begin
emitcall('FPC_POPADDRSTACK');
emitcall('FPC_RERAISE');
end;
end;
{*****************************************************************************
SecondTryExcept
*****************************************************************************}
var
endexceptlabel : pasmlabel;
{ does the necessary things to clean up the object stack }
{ in the except block }
procedure cleanupobjectstack;
begin
emitcall('FPC_POPOBJECTSTACK');
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_PUSH,S_L,R_EAX);
emitcall('FPC_DESTROYEXCEPTION');
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
maybe_loadesi;
end;
{ pops one element from the exception address stack }
{ and removes the flag }
procedure cleanupaddrstack;
begin
emitcall('FPC_POPADDRSTACK');
{ allocate eax }
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_POP,S_L,R_EAX);
{ deallocate eax }
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
end;
procedure secondtryexcept(var p : ptree);
var
exceptlabel,doexceptlabel,oldendexceptlabel,
lastonlabel,
exitexceptlabel,
continueexceptlabel,
breakexceptlabel,
exittrylabel,
continuetrylabel,
breaktrylabel,
doobjectdestroy,
doobjectdestroyandreraise,
oldaktexitlabel,
oldaktexit2label,
oldaktcontinuelabel,
oldaktbreaklabel : pasmlabel;
oldexceptblock : ptree;
oldflowcontrol,tryflowcontrol,
exceptflowcontrol : tflowcontrol;
begin
oldflowcontrol:=flowcontrol;
flowcontrol:=[];
{ this can be called recursivly }
oldendexceptlabel:=endexceptlabel;
{ we modify EAX }
usedinproc:=usedinproc or ($80 shr byte(R_EAX));
{ save the old labels for control flow statements }
oldaktexitlabel:=aktexitlabel;
oldaktexit2label:=aktexit2label;
if assigned(aktbreaklabel) then
begin
oldaktcontinuelabel:=aktcontinuelabel;
oldaktbreaklabel:=aktbreaklabel;
end;
{ get new labels for the control flow statements }
getlabel(exittrylabel);
getlabel(exitexceptlabel);
if assigned(aktbreaklabel) then
begin
getlabel(breaktrylabel);
getlabel(continuetrylabel);
getlabel(breakexceptlabel);
getlabel(continueexceptlabel);
end;
getlabel(exceptlabel);
getlabel(doexceptlabel);
getlabel(endexceptlabel);
getlabel(lastonlabel);
push_int (1); { push type of exceptionframe }
emitcall('FPC_PUSHEXCEPTADDR');
{ allocate eax }
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_PUSH,S_L,R_EAX);
emitcall('FPC_SETJMP');
emit_reg(A_PUSH,S_L,R_EAX);
emit_reg_reg(A_TEST,S_L,R_EAX,R_EAX);
{ deallocate eax }
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emitjmp(C_NE,exceptlabel);
{ try block }
{ set control flow labels for the try block }
aktexitlabel:=exittrylabel;
aktexit2label:=exittrylabel;
if assigned(oldaktbreaklabel) then
begin
aktcontinuelabel:=continuetrylabel;
aktbreaklabel:=breaktrylabel;
end;
oldexceptblock:=aktexceptblock;
aktexceptblock:=p^.left;
flowcontrol:=[];
secondpass(p^.left);
tryflowcontrol:=flowcontrol;
aktexceptblock:=oldexceptblock;
if codegenerror then
exit;
emitlab(exceptlabel);
emitcall('FPC_POPADDRSTACK');
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_POP,S_L,R_EAX);
emit_reg_reg(A_TEST,S_L,R_EAX,R_EAX);
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emitjmp(C_E,endexceptlabel);
emitlab(doexceptlabel);
{ set control flow labels for the except block }
{ and the on statements }
aktexitlabel:=exitexceptlabel;
aktexit2label:=exitexceptlabel;
if assigned(oldaktbreaklabel) then
begin
aktcontinuelabel:=continueexceptlabel;
aktbreaklabel:=breakexceptlabel;
end;
flowcontrol:=[];
{ on statements }
if assigned(p^.right) then
begin
oldexceptblock:=aktexceptblock;
aktexceptblock:=p^.right;
secondpass(p^.right);
aktexceptblock:=oldexceptblock;
end;
emitlab(lastonlabel);
{ default handling except handling }
if assigned(p^.t1) then
begin
{ FPC_CATCHES must be called with
'default handler' flag (=-1)
}
push_int (-1);
emitcall('FPC_CATCHES');
maybe_loadesi;
{ the destruction of the exception object must be also }
{ guarded by an exception frame }
getlabel(doobjectdestroy);
getlabel(doobjectdestroyandreraise);
exprasmlist^.concat(new(paicpu,op_const(A_PUSH,S_L,1)));
emitcall('FPC_PUSHEXCEPTADDR');
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
exprasmlist^.concat(new(paicpu,
op_reg(A_PUSH,S_L,R_EAX)));
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emitcall('FPC_SETJMP');
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
exprasmlist^.concat(new(paicpu,
op_reg(A_PUSH,S_L,R_EAX)));
exprasmlist^.concat(new(paicpu,
op_reg_reg(A_TEST,S_L,R_EAX,R_EAX)));
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emitjmp(C_NE,doobjectdestroyandreraise);
oldexceptblock:=aktexceptblock;
aktexceptblock:=p^.t1;
{ here we don't have to reset flowcontrol }
{ the default and on flowcontrols are handled equal }
secondpass(p^.t1);
exceptflowcontrol:=flowcontrol;
aktexceptblock:=oldexceptblock;
emitlab(doobjectdestroyandreraise);
emitcall('FPC_POPADDRSTACK');
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
exprasmlist^.concat(new(paicpu,
op_reg(A_POP,S_L,R_EAX)));
exprasmlist^.concat(new(paicpu,
op_reg_reg(A_TEST,S_L,R_EAX,R_EAX)));
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emitjmp(C_E,doobjectdestroy);
emitcall('FPC_POPSECONDOBJECTSTACK');
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_PUSH,S_L,R_EAX);
emitcall('FPC_DESTROYEXCEPTION');
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
{ we don't need to restore esi here because reraise never }
{ returns }
emitcall('FPC_RERAISE');
emitlab(doobjectdestroy);
cleanupobjectstack;
emitjmp(C_None,endexceptlabel);
end
else
begin
emitcall('FPC_RERAISE');
exceptflowcontrol:=flowcontrol;
end;
if fc_exit in exceptflowcontrol then
begin
{ do some magic for exit in the try block }
emitlab(exitexceptlabel);
{ we must also destroy the address frame which guards }
{ exception object }
cleanupaddrstack;
cleanupobjectstack;
emitjmp(C_None,oldaktexitlabel);
end;
if fc_break in exceptflowcontrol then
begin
emitlab(breakexceptlabel);
{ we must also destroy the address frame which guards }
{ exception object }
cleanupaddrstack;
cleanupobjectstack;
emitjmp(C_None,oldaktbreaklabel);
end;
if fc_continue in exceptflowcontrol then
begin
emitlab(continueexceptlabel);
{ we must also destroy the address frame which guards }
{ exception object }
cleanupaddrstack;
cleanupobjectstack;
emitjmp(C_None,oldaktcontinuelabel);
end;
if fc_exit in tryflowcontrol then
begin
{ do some magic for exit in the try block }
emitlab(exittrylabel);
cleanupaddrstack;
emitjmp(C_None,oldaktexitlabel);
end;
if fc_break in tryflowcontrol then
begin
emitlab(breaktrylabel);
cleanupaddrstack;
emitjmp(C_None,oldaktbreaklabel);
end;
if fc_continue in tryflowcontrol then
begin
emitlab(continuetrylabel);
cleanupaddrstack;
emitjmp(C_None,oldaktcontinuelabel);
end;
emitlab(endexceptlabel);
endexceptlabel:=oldendexceptlabel;
{ restore the control flow labels }
aktexitlabel:=oldaktexitlabel;
aktexit2label:=oldaktexit2label;
if assigned(oldaktbreaklabel) then
begin
aktcontinuelabel:=oldaktcontinuelabel;
aktbreaklabel:=oldaktbreaklabel;
end;
{ return all used control flow statements }
flowcontrol:=oldflowcontrol+exceptflowcontrol+
tryflowcontrol;
end;
procedure secondon(var p : ptree);
var
nextonlabel,
exitonlabel,
continueonlabel,
breakonlabel,
oldaktexitlabel,
oldaktexit2label,
oldaktcontinuelabel,
doobjectdestroyandreraise,
doobjectdestroy,
oldaktbreaklabel : pasmlabel;
ref : treference;
oldexceptblock : ptree;
oldflowcontrol : tflowcontrol;
begin
oldflowcontrol:=flowcontrol;
flowcontrol:=[];
getlabel(nextonlabel);
{ push the vmt }
emit_sym(A_PUSH,S_L,
newasmsymbol(p^.excepttype^.vmt_mangledname));
emitcall('FPC_CATCHES');
{ allocate eax }
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg_reg(A_TEST,S_L,R_EAX,R_EAX);
emitjmp(C_E,nextonlabel);
ref.symbol:=nil;
gettempofsizereference(4,ref);
{ what a hack ! }
if assigned(p^.exceptsymtable) then
pvarsym(p^.exceptsymtable^.symindex^.first)^.address:=ref.offset;
emit_reg_ref(A_MOV,S_L,
R_EAX,newreference(ref));
{ deallocate eax }
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
{ in the case that another exception is risen }
{ we've to destroy the old one }
getlabel(doobjectdestroyandreraise);
exprasmlist^.concat(new(paicpu,op_const(A_PUSH,S_L,1)));
emitcall('FPC_PUSHEXCEPTADDR');
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
exprasmlist^.concat(new(paicpu,
op_reg(A_PUSH,S_L,R_EAX)));
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emitcall('FPC_SETJMP');
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
exprasmlist^.concat(new(paicpu,
op_reg(A_PUSH,S_L,R_EAX)));
exprasmlist^.concat(new(paicpu,
op_reg_reg(A_TEST,S_L,R_EAX,R_EAX)));
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emitjmp(C_NE,doobjectdestroyandreraise);
if assigned(p^.right) then
begin
oldaktexitlabel:=aktexitlabel;
oldaktexit2label:=aktexit2label;
getlabel(exitonlabel);
aktexitlabel:=exitonlabel;
aktexit2label:=exitonlabel;
if assigned(aktbreaklabel) then
begin
oldaktcontinuelabel:=aktcontinuelabel;
oldaktbreaklabel:=aktbreaklabel;
getlabel(breakonlabel);
getlabel(continueonlabel);
aktcontinuelabel:=continueonlabel;
aktbreaklabel:=breakonlabel;
end;
{ esi is destroyed by FPC_CATCHES }
maybe_loadesi;
oldexceptblock:=aktexceptblock;
aktexceptblock:=p^.right;
secondpass(p^.right);
aktexceptblock:=oldexceptblock;
end;
getlabel(doobjectdestroy);
emitlab(doobjectdestroyandreraise);
emitcall('FPC_POPADDRSTACK');
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
exprasmlist^.concat(new(paicpu,
op_reg(A_POP,S_L,R_EAX)));
exprasmlist^.concat(new(paicpu,
op_reg_reg(A_TEST,S_L,R_EAX,R_EAX)));
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emitjmp(C_E,doobjectdestroy);
emitcall('FPC_POPSECONDOBJECTSTACK');
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_PUSH,S_L,R_EAX);
emitcall('FPC_DESTROYEXCEPTION');
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
{ we don't need to restore esi here because reraise never }
{ returns }
emitcall('FPC_RERAISE');
emitlab(doobjectdestroy);
cleanupobjectstack;
{ clear some stuff }
ungetiftemp(ref);
emitjmp(C_None,endexceptlabel);
if assigned(p^.right) then
begin
{ special handling for control flow instructions }
if fc_exit in flowcontrol then
begin
{ the address and object pop does secondtryexcept }
emitlab(exitonlabel);
emitjmp(C_None,oldaktexitlabel);
end;
if fc_break in flowcontrol then
begin
{ the address and object pop does secondtryexcept }
emitlab(breakonlabel);
emitjmp(C_None,oldaktbreaklabel);
end;
if fc_continue in flowcontrol then
begin
{ the address and object pop does secondtryexcept }
emitlab(continueonlabel);
emitjmp(C_None,oldaktcontinuelabel);
end;
aktexitlabel:=oldaktexitlabel;
aktexit2label:=oldaktexit2label;
if assigned(oldaktbreaklabel) then
begin
aktcontinuelabel:=oldaktcontinuelabel;
aktbreaklabel:=oldaktbreaklabel;
end;
end;
emitlab(nextonlabel);
flowcontrol:=oldflowcontrol+flowcontrol;
{ next on node }
if assigned(p^.left) then
begin
cleartempgen;
secondpass(p^.left);
end;
end;
{*****************************************************************************
SecondTryFinally
*****************************************************************************}
procedure secondtryfinally(var p : ptree);
var
reraiselabel,
finallylabel,
endfinallylabel,
exitfinallylabel,
continuefinallylabel,
breakfinallylabel,
oldaktexitlabel,
oldaktexit2label,
oldaktcontinuelabel,
oldaktbreaklabel : pasmlabel;
oldexceptblock : ptree;
oldflowcontrol,tryflowcontrol : tflowcontrol;
decconst : longint;
begin
{ check if child nodes do a break/continue/exit }
oldflowcontrol:=flowcontrol;
flowcontrol:=[];
{ we modify EAX }
usedinproc:=usedinproc or ($80 shr byte(R_EAX));
getlabel(finallylabel);
getlabel(endfinallylabel);
getlabel(reraiselabel);
{ the finally block must catch break, continue and exit }
{ statements }
oldaktexitlabel:=aktexitlabel;
oldaktexit2label:=aktexit2label;
getlabel(exitfinallylabel);
aktexitlabel:=exitfinallylabel;
aktexit2label:=exitfinallylabel;
if assigned(aktbreaklabel) then
begin
oldaktcontinuelabel:=aktcontinuelabel;
oldaktbreaklabel:=aktbreaklabel;
getlabel(breakfinallylabel);
getlabel(continuefinallylabel);
aktcontinuelabel:=continuefinallylabel;
aktbreaklabel:=breakfinallylabel;
end;
push_int(1); { Type of stack-frame must be pushed}
emitcall('FPC_PUSHEXCEPTADDR');
{ allocate eax }
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_PUSH,S_L,R_EAX);
emitcall('FPC_SETJMP');
emit_reg(A_PUSH,S_L,R_EAX);
emit_reg_reg(A_TEST,S_L,R_EAX,R_EAX);
{ deallocate eax }
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emitjmp(C_NE,finallylabel);
{ try code }
if assigned(p^.left) then
begin
oldexceptblock:=aktexceptblock;
aktexceptblock:=p^.left;
secondpass(p^.left);
tryflowcontrol:=flowcontrol;
if codegenerror then
exit;
aktexceptblock:=oldexceptblock;
end;
emitlab(finallylabel);
emitcall('FPC_POPADDRSTACK');
{ finally code }
oldexceptblock:=aktexceptblock;
aktexceptblock:=p^.right;
flowcontrol:=[];
secondpass(p^.right);
if flowcontrol<>[] then
CGMessage(cg_e_control_flow_outside_finally);
aktexceptblock:=oldexceptblock;
if codegenerror then
exit;
{ allocate eax }
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_POP,S_L,R_EAX);
emit_reg_reg(A_TEST,S_L,R_EAX,R_EAX);
emitjmp(C_E,endfinallylabel);
emit_reg(A_DEC,S_L,R_EAX);
emitjmp(C_Z,reraiselabel);
if fc_exit in tryflowcontrol then
begin
emit_reg(A_DEC,S_L,R_EAX);
emitjmp(C_Z,oldaktexitlabel);
decconst:=1;
end
else
decconst:=2;
if fc_break in tryflowcontrol then
begin
emit_const_reg(A_SUB,S_L,decconst,R_EAX);
emitjmp(C_Z,oldaktbreaklabel);
decconst:=1;
end
else
inc(decconst);
if fc_continue in tryflowcontrol then
begin
emit_const_reg(A_SUB,S_L,decconst,R_EAX);
emitjmp(C_Z,oldaktcontinuelabel);
end;
{ deallocate eax }
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emitlab(reraiselabel);
emitcall('FPC_RERAISE');
{ do some magic for exit,break,continue in the try block }
if fc_exit in tryflowcontrol then
begin
emitlab(exitfinallylabel);
{ allocate eax }
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_POP,S_L,R_EAX);
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_const(A_PUSH,S_L,2);
emitjmp(C_NONE,finallylabel);
end;
if fc_break in tryflowcontrol then
begin
emitlab(breakfinallylabel);
{ allocate eax }
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_POP,S_L,R_EAX);
{ deallocate eax }
exprasmlist^.concat(new(pairegalloc,dealloc(R_EAX)));
emit_const(A_PUSH,S_L,3);
emitjmp(C_NONE,finallylabel);
end;
if fc_continue in tryflowcontrol then
begin
emitlab(continuefinallylabel);
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_reg(A_POP,S_L,R_EAX);
exprasmlist^.concat(new(pairegalloc,alloc(R_EAX)));
emit_const(A_PUSH,S_L,4);
emitjmp(C_NONE,finallylabel);
end;
emitlab(endfinallylabel);
aktexitlabel:=oldaktexitlabel;
aktexit2label:=oldaktexit2label;
if assigned(aktbreaklabel) then
begin
aktcontinuelabel:=oldaktcontinuelabel;
aktbreaklabel:=oldaktbreaklabel;
end;
flowcontrol:=oldflowcontrol+tryflowcontrol;
end;
{*****************************************************************************
SecondFail
*****************************************************************************}
procedure secondfail(var p : ptree);
begin
emitjmp(C_None,faillabel);
end;
end.
{
$Log$
Revision 1.1 2000-07-13 06:29:45 michael
+ Initial import
Revision 1.75 2000/07/06 20:43:44 florian
* the on statement has to clear the temp. gen before calling secondpass for
the next on statement
Revision 1.74 2000/05/09 19:05:56 florian
* fixed a problem when returning int64/qword from a function in -Or: in some
cases a wrong result was returned
Revision 1.73 2000/04/24 11:11:50 peter
* backtraces for exceptions are now only generated from the place of the
exception
* frame is also pushed for exceptions
* raise statement enhanced with [,<frame>]
Revision 1.72 2000/04/22 15:29:26 jonas
* cleaner register (de)allocation in secondfor (for optimizer)
Revision 1.71 2000/04/16 08:08:44 jonas
* release register used in for-loop before end label (for better
optimizations)
Revision 1.70 2000/02/29 23:58:19 pierre
Use $GOTO ON
Revision 1.69 2000/02/10 23:44:42 florian
* big update for exception handling code generation: possible mem holes
fixed, break/continue/exit should work always now as expected
Revision 1.68 2000/02/09 13:22:47 peter
* log truncated
Revision 1.67 2000/01/21 12:17:42 jonas
* regallocation fixes
Revision 1.66 2000/01/07 01:14:20 peter
* updated copyright to 2000
Revision 1.65 1999/12/22 23:30:06 peter
* nested try blocks work again
Revision 1.64 1999/12/22 01:01:46 peter
- removed freelabel()
* added undefined label detection in internal assembler, this prevents
a lot of ld crashes and wrong .o files
* .o files aren't written anymore if errors have occured
* inlining of assembler labels is now correct
Revision 1.63 1999/12/19 17:02:45 peter
* support exit,break,continue in try...except
* support break,continue in try...finally
Revision 1.62 1999/12/17 11:20:06 florian
* made the goto checking for excpetions more fool proof against errors
Revision 1.61 1999/12/14 09:58:41 florian
+ compiler checks now if a goto leaves an exception block
Revision 1.60 1999/12/01 12:36:23 peter
* fixed selfpointer after destroyexception
Revision 1.59 1999/11/30 10:40:42 peter
+ ttype, tsymlist
Revision 1.58 1999/11/28 23:15:23 pierre
* fix for form bug 721
Revision 1.57 1999/11/15 21:49:09 peter
* push address also for raise at
Revision 1.56 1999/11/06 14:34:17 peter
* truncated log to 20 revs
Revision 1.55 1999/10/30 17:35:26 peter
* fpc_freemem fpc_getmem new callings updated
Revision 1.54 1999/10/21 16:41:37 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 1.53 1999/10/05 22:01:52 pierre
* bug exit('test') + fail for classes
Revision 1.52 1999/09/27 23:44:46 peter
* procinfo is now a pointer
* support for result setting in sub procedure
Revision 1.51 1999/09/26 13:26:05 florian
* exception patch of Romio nevertheless the excpetion handling
needs some corections regarding register saving
* gettempansistring is again a procedure
Revision 1.50 1999/09/20 16:35:43 peter
* restored old alignment, saves 40k on ppc386
Revision 1.49 1999/09/15 20:35:37 florian
* small fix to operator overloading when in MMX mode
+ the compiler uses now fldz and fld1 if possible
+ some fixes to floating point registers
+ some math. functions (arctan, ln, sin, cos, sqrt, sqr, pi) are now inlined
* .... ???
Revision 1.48 1999/09/07 07:56:37 peter
* reload esi in except block to allow virtual methods
Revision 1.47 1999/08/25 11:59:42 jonas
* changed pai386, paippc and paiapha (same for tai*) to paicpu (taicpu)
}
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