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|
{
Copyright (c) 1998-2002 by Florian Klaempfl
Generate assembler for call nodes
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 ncgcal;
{$i fpcdefs.inc}
interface
uses
cpubase,
globtype,
parabase,cgbase,cgutils,
symdef,node,ncal;
type
tcgcallparanode = class(tcallparanode)
protected
procedure push_addr_para;
procedure push_value_para;virtual;
procedure push_formal_para;virtual;
procedure push_copyout_para;virtual;abstract;
public
tempcgpara : tcgpara;
constructor create(expr,next : tnode);override;
destructor destroy;override;
procedure secondcallparan;override;
end;
{ tcgcallnode }
tcgcallnode = class(tcallnode)
private
procedure handle_return_value;
procedure release_unused_return_value;
procedure copy_back_paras;
procedure release_para_temps;
procedure reorder_parameters;
procedure freeparas;
protected
retloc: tcgpara;
paralocs: array of pcgpara;
framepointer_paraloc : tcgpara;
{# This routine is used to push the current frame pointer
on the stack. This is used in nested routines where the
value of the frame pointer is always pushed as an extra
parameter.
The default handling is the standard handling used on
most stack based machines, where the frame pointer is
the first invisible parameter.
}
procedure pop_parasize(pop_size:longint);virtual;
procedure extra_interrupt_code;virtual;
procedure extra_pre_call_code;virtual;
procedure extra_call_code;virtual;
procedure extra_post_call_code;virtual;
procedure do_syscall;virtual;abstract;
{ The function result is returned in a tcgpara. This tcgpara has to
be translated into a tlocation so the rest of the code generator
can work with it. This routine decides what the most appropriate
tlocation is and sets self.location based on that. }
procedure set_result_location(realresdef: tstoreddef);virtual;
{ if an unused return value is in another location than a
LOC_REFERENCE, this method will be called to perform the necessary
cleanups. By default it does not do anything }
procedure do_release_unused_return_value;virtual;
{ Override the following three methods to support calls to address in
'ref' without loading it into register (only x86 targets probably).
If can_call_ref returns true, it should do required simplification
on ref. }
function can_call_ref(var ref: treference):boolean;virtual;
procedure extra_call_ref_code(var ref: treference);virtual;
function do_call_ref(ref: treference): tcgpara;virtual;
{ store all the parameters in the temporary paralocs in their final
location, and create the paralocs array that will be passed to
hlcg.a_call_* }
procedure pushparas;virtual;
{ loads the code pointer of a complex procvar (one with a self/
parentfp/... and a procedure address) into a register and returns it }
function load_complex_procvar_codeptr: tregister; virtual;
{ loads the procvar code pointer into a register }
function load_procvar_codeptr: tregister;
public
procedure pass_generate_code;override;
destructor destroy;override;
end;
implementation
uses
systems,
cutils,verbose,globals,
cpuinfo,
symconst,symtable,symtype,symsym,defutil,paramgr,
pass_2,
aasmbase,aasmtai,aasmdata,
nbas,nmem,nld,ncnv,nutils,
ncgutil,
cgobj,tgobj,hlcgobj,
procinfo,
wpobase;
{*****************************************************************************
TCGCALLPARANODE
*****************************************************************************}
constructor tcgcallparanode.create(expr,next : tnode);
begin
inherited create(expr,next);
tempcgpara.init;
end;
destructor tcgcallparanode.destroy;
begin
tempcgpara.done;
inherited destroy;
end;
procedure tcgcallparanode.push_addr_para;
begin
if not(left.location.loc in [LOC_CREFERENCE,LOC_REFERENCE]) then
internalerror(200304235);
hlcg.a_loadaddr_ref_cgpara(current_asmdata.CurrAsmList,left.resultdef,left.location.reference,tempcgpara);
end;
procedure tcgcallnode.reorder_parameters;
var
hpcurr,hpprev,hpnext,hpreversestart : tcgcallparanode;
begin
{ All parameters are now in temporary locations. If we move them to
their regular locations in the same order, then we get the
following pattern for register parameters:
mov para1, tempreg1
mov para2, tempreg2
mov para3, tempreg3
mov tempreg1, parareg1
mov tempreg2, parareg2
mov tempreg3, parareg3
The result is that all tempregs conflict with all pararegs.
A better solution is to use:
mov para1, tempreg1
mov para2, tempreg2
mov para3, tempreg3
mov tempreg3, parareg3
mov tempreg2, parareg2
mov tempreg1, parareg1
This way, tempreg2 can be the same as parareg1 etc.
To achieve this, we invert the order of all LOC_XREGISTER
paras (JM).
}
hpcurr:=tcgcallparanode(left);
{ assume all LOC_REFERENCE parameters come first
(see tcallnode.order_parameters)
}
hpreversestart:=nil;
while assigned(hpcurr) do
begin
if not(hpcurr.parasym.paraloc[callerside].location^.loc in [LOC_REFERENCE,LOC_CREFERENCE]) then
hpreversestart:=hpcurr;
hpcurr:=tcgcallparanode(hpcurr.right);
end;
{ since all register tempparalocs have basically a complexity of 1,
(unless there are large stack offsets that require a temp register on
some architectures, but that's minor), we don't have to care about
the internal relative order of different register type parameters
}
hpprev:=nil;
hpcurr:=tcgcallparanode(left);
while (hpcurr<>hpreversestart) do
begin
hpnext:=tcgcallparanode(hpcurr.right);
if not(hpcurr.parasym.paraloc[callerside].location^.loc in [LOC_REFERENCE,LOC_CREFERENCE]) then
begin
{ remove hpcurr from chain }
if assigned(hpprev) then
hpprev.right:=hpnext
else
left:=hpnext;
{ insert right after hpreversestart, so every element will
be inserted right before the previously moved one ->
reverse order; hpreversestart itself is the last register
parameter }
hpcurr.right:=hpreversestart.right;
hpreversestart.right:=hpcurr;
end
else
hpprev:=hpcurr;
hpcurr:=hpnext;
end;
end;
procedure tcgcallparanode.push_value_para;
begin
{ we've nothing to push when the size of the parameter is 0
-- except in case of the self parameter of an emptry record on e.g.
the JVM target }
if (left.resultdef.size=0) and
not(vo_is_self in parasym.varoptions) then
exit;
{ Move flags and jump in register to make it less complex }
if left.location.loc in [LOC_FLAGS,LOC_JUMP,LOC_SUBSETREG,LOC_CSUBSETREG,LOC_SUBSETREF,LOC_CSUBSETREF] then
hlcg.location_force_reg(current_asmdata.CurrAsmList,left.location,left.resultdef,left.resultdef,false);
{ load the parameter's tlocation into its cgpara }
hlcg.gen_load_loc_cgpara(current_asmdata.CurrAsmList,left.resultdef,left.location,tempcgpara)
end;
procedure tcgcallparanode.push_formal_para;
begin
{ allow passing of a constant to a const formaldef }
if (parasym.varspez=vs_const) and
(left.location.loc in [LOC_CONSTANT,LOC_REGISTER]) then
hlcg.location_force_mem(current_asmdata.CurrAsmList,left.location,left.resultdef);
push_addr_para;
end;
procedure tcgcallparanode.secondcallparan;
var
href : treference;
otlabel,
oflabel : tasmlabel;
begin
if not(assigned(parasym)) then
internalerror(200304242);
{ Skip nothingn nodes which are used after disabling
a parameter }
if (left.nodetype<>nothingn) then
begin
otlabel:=current_procinfo.CurrTrueLabel;
oflabel:=current_procinfo.CurrFalseLabel;
current_asmdata.getjumplabel(current_procinfo.CurrTrueLabel);
current_asmdata.getjumplabel(current_procinfo.CurrFalseLabel);
if assigned(fparainit) then
secondpass(fparainit);
secondpass(left);
hlcg.maybe_change_load_node_reg(current_asmdata.CurrAsmList,left,true);
{ release memory for refcnt out parameters }
if (parasym.varspez=vs_out) and
is_managed_type(left.resultdef) and
not(target_info.system in systems_garbage_collected_managed_types) then
begin
hlcg.location_get_data_ref(current_asmdata.CurrAsmList,left.resultdef,left.location,href,false,sizeof(pint));
if is_open_array(resultdef) then
begin
{ if elementdef is not managed, omit fpc_decref_array
because it won't do anything anyway }
if is_managed_type(tarraydef(resultdef).elementdef) then
begin
if third=nil then
InternalError(201103063);
secondpass(third);
hlcg.g_array_rtti_helper(current_asmdata.CurrAsmList,tarraydef(resultdef).elementdef,
href,third.location,'fpc_finalize_array');
end;
end
else
hlcg.g_finalize(current_asmdata.CurrAsmList,left.resultdef,href)
end;
paramanager.createtempparaloc(current_asmdata.CurrAsmList,aktcallnode.procdefinition.proccalloption,parasym,not followed_by_stack_tainting_call_cached,tempcgpara);
{ handle varargs first, because parasym is not valid }
if (cpf_varargs_para in callparaflags) then
begin
if paramanager.push_addr_param(vs_value,left.resultdef,
aktcallnode.procdefinition.proccalloption) then
push_addr_para
else
push_value_para;
end
{ hidden parameters }
else if (vo_is_hidden_para in parasym.varoptions) then
begin
{ don't push a node that already generated a pointer type
by address for implicit hidden parameters }
if (vo_is_funcret in parasym.varoptions) or
{ pass "this" in C++ classes explicitly as pointer
because push_addr_param might not be true for them }
(is_cppclass(parasym.vardef) and (vo_is_self in parasym.varoptions)) or
(
(
not(left.resultdef.typ in [pointerdef,classrefdef]) or
(
{ allow pointerdefs (as self) to be passed as addr
param if the method is part of a type helper which
extends a pointer type }
(vo_is_self in parasym.varoptions) and
(aktcallnode.procdefinition.owner.symtabletype=objectsymtable) and
(is_objectpascal_helper(tdef(aktcallnode.procdefinition.owner.defowner))) and
(tobjectdef(aktcallnode.procdefinition.owner.defowner).extendeddef.typ=pointerdef)
)
) and
paramanager.push_addr_param(parasym.varspez,parasym.vardef,
aktcallnode.procdefinition.proccalloption)) then
push_addr_para
else
push_value_para;
end
{ formal def }
else if (parasym.vardef.typ=formaldef) then
push_formal_para
{ Normal parameter }
else if paramanager.push_copyout_param(parasym.varspez,parasym.vardef,
aktcallnode.procdefinition.proccalloption) then
push_copyout_para
else
begin
{ don't push a node that already generated a pointer type
by address for implicit hidden parameters }
if (not(
(vo_is_hidden_para in parasym.varoptions) and
(left.resultdef.typ in [pointerdef,classrefdef])
) and
paramanager.push_addr_param(parasym.varspez,parasym.vardef,
aktcallnode.procdefinition.proccalloption)) and
{ dyn. arrays passed to an array of const must be passed by value, see tests/webtbs/tw4219.pp }
not(
is_array_of_const(parasym.vardef) and
is_dynamic_array(left.resultdef)
) then
begin
{ Passing a var parameter to a var parameter, we can
just push the address transparently }
if (left.nodetype=loadn) and
(tloadnode(left).is_addr_param_load) then
begin
if (left.location.reference.index<>NR_NO) or
(left.location.reference.offset<>0) then
internalerror(200410107);
hlcg.a_load_reg_cgpara(current_asmdata.CurrAsmList,voidpointertype,left.location.reference.base,tempcgpara)
end
else
begin
{ Force to be in memory }
if not(left.location.loc in [LOC_CREFERENCE,LOC_REFERENCE]) then
hlcg.location_force_mem(current_asmdata.CurrAsmList,left.location,left.resultdef);
push_addr_para;
end;
end
else
push_value_para;
end;
current_procinfo.CurrTrueLabel:=otlabel;
current_procinfo.CurrFalseLabel:=oflabel;
{ update return location in callnode when this is the function
result }
if assigned(parasym) and
(
{ for type helper/record constructor check that it is self parameter }
(
(vo_is_self in parasym.varoptions) and
(aktcallnode.procdefinition.proctypeoption=potype_constructor) and
(parasym.vardef.typ<>objectdef)
) or
(vo_is_funcret in parasym.varoptions)
) then
location_copy(aktcallnode.location,left.location);
end;
{ next parameter }
if assigned(right) then
tcallparanode(right).secondcallparan;
end;
{*****************************************************************************
TCGCALLNODE
*****************************************************************************}
{$if first_mm_imreg = 0}
{$WARN 4044 OFF} { Comparison might be always false ... }
{$endif}
procedure tcgcallnode.extra_interrupt_code;
begin
end;
procedure tcgcallnode.extra_pre_call_code;
begin
end;
procedure tcgcallnode.extra_call_code;
begin
end;
procedure tcgcallnode.extra_post_call_code;
begin
end;
function tcgcallnode.can_call_ref(var ref: treference): boolean;
begin
result:=false;
end;
procedure tcgcallnode.extra_call_ref_code(var ref: treference);
begin
{ no action by default }
end;
function tcgcallnode.do_call_ref(ref: treference): tcgpara;
begin
InternalError(2014012901);
{ silence warning }
result.init;
end;
procedure tcgcallnode.set_result_location(realresdef: tstoreddef);
begin
if realresdef.is_intregable or
realresdef.is_fpuregable or
{ avoid temporarily storing pointer-sized entities that can't be
regvars, such as reference-counted pointers, to memory --
no exception can occur right now (except in case of existing
memory corruption), and we'd store them to a regular temp
anyway and that is not safer than keeping them in a register }
((realresdef.size=sizeof(aint)) and
(retloc.location^.loc=LOC_REGISTER) and
not assigned(retloc.location^.next)) then
location_allocate_register(current_asmdata.CurrAsmList,location,realresdef,false)
else
begin
location_reset_ref(location,LOC_REFERENCE,def_cgsize(realresdef),0);
tg.gethltemp(current_asmdata.CurrAsmList,realresdef,retloc.intsize,tt_normal,location.reference);
end;
end;
procedure tcgcallnode.do_release_unused_return_value;
begin
case location.loc of
LOC_REFERENCE :
begin
if is_managed_type(resultdef) then
hlcg.g_finalize(current_asmdata.CurrAsmList,resultdef,location.reference);
tg.ungetiftemp(current_asmdata.CurrAsmList,location.reference);
end;
end;
end;
procedure tcgcallnode.pop_parasize(pop_size:longint);
begin
end;
procedure tcgcallnode.handle_return_value;
var
realresdef: tstoreddef;
begin
{ Check that the return location is set when the result is passed in
a parameter }
if paramanager.ret_in_param(resultdef,procdefinition) then
begin
{ self.location is set near the end of secondcallparan so it
refers to the implicit result parameter }
if location.loc<>LOC_REFERENCE then
internalerror(200304241);
exit;
end;
if not assigned(typedef) then
realresdef:=tstoreddef(resultdef)
else
realresdef:=tstoreddef(typedef);
{ get a tlocation that can hold the return value that's currently in
the return value's tcgpara }
set_result_location(realresdef);
{ Do not move the physical register to a virtual one in case
the return value is not used, because if the virtual one is
then mapped to the same register as the physical one, we will
end up with two deallocs of this register (one inserted here,
one inserted by the register allocator), which unbalances the
register allocation information. The return register(s) will
be freed by location_free() in release_unused_return_value
(mantis #13536). }
if (cnf_return_value_used in callnodeflags) or
assigned(funcretnode) then
hlcg.gen_load_cgpara_loc(current_asmdata.CurrAsmList,realresdef,retloc,location,false);
{ copy value to the final location if this was already provided to the
callnode. This must be done after the call node, because the location can
also be used as parameter and may not be finalized yet }
if assigned(funcretnode) then
begin
funcretnode.pass_generate_code;
{ Decrease refcount for refcounted types, this can be skipped when
we have used a temp, because then it is already done from tempcreatenode.
Also no finalize is needed, because there is no risk of exceptions from the
function since this is code is only executed after the function call has returned }
if is_managed_type(funcretnode.resultdef) and
(funcretnode.nodetype<>temprefn) then
hlcg.g_finalize(current_asmdata.CurrAsmList,funcretnode.resultdef,funcretnode.location.reference);
case location.loc of
LOC_REGISTER :
begin
{$ifndef cpu64bitalu}
if location.size in [OS_64,OS_S64] then
cg64.a_load64_reg_loc(current_asmdata.CurrAsmList,location.register64,funcretnode.location)
else
{$endif}
hlcg.a_load_reg_loc(current_asmdata.CurrAsmList,resultdef,resultdef,location.register,funcretnode.location);
location_free(current_asmdata.CurrAsmList,location);
end;
LOC_REFERENCE:
begin
case funcretnode.location.loc of
LOC_REGISTER:
hlcg.a_load_ref_reg(current_asmdata.CurrAsmList,resultdef,resultdef,location.reference,funcretnode.location.register);
LOC_REFERENCE:
hlcg.g_concatcopy(current_asmdata.CurrAsmList,resultdef,location.reference,funcretnode.location.reference);
else
internalerror(200802121);
end;
location_freetemp(current_asmdata.CurrAsmList,location);
end;
else
internalerror(200709085);
end;
location := funcretnode.location;
end;
end;
procedure tcgcallnode.release_unused_return_value;
begin
{ When the result is not used we need to finalize the result and
can release the temp. This need to be after the callcleanupblock
tree is generated, because that converts the temp from persistent to normal }
if not(cnf_return_value_used in callnodeflags) then
begin
do_release_unused_return_value;
if (retloc.intsize<>0) then
paramanager.freecgpara(current_asmdata.CurrAsmList,retloc);
location_reset(location,LOC_VOID,OS_NO);
end;
end;
procedure tcgcallnode.copy_back_paras;
var
ppn : tcallparanode;
begin
ppn:=tcallparanode(left);
while assigned(ppn) do
begin
if assigned(ppn.paracopyback) then
secondpass(ppn.paracopyback);
ppn:=tcallparanode(ppn.right);
end;
end;
procedure tcgcallnode.release_para_temps;
var
hp,
hp2 : tnode;
ppn : tcallparanode;
begin
{ Release temps from parameters }
ppn:=tcallparanode(left);
while assigned(ppn) do
begin
if assigned(ppn.left) then
begin
{ don't release the funcret temp }
if not(assigned(ppn.parasym)) or
not(vo_is_funcret in ppn.parasym.varoptions) then
location_freetemp(current_asmdata.CurrAsmList,ppn.left.location);
{ process also all nodes of an array of const }
hp:=ppn.left;
while (hp.nodetype=typeconvn) do
hp:=ttypeconvnode(hp).left;
if (hp.nodetype=arrayconstructorn) and
assigned(tarrayconstructornode(hp).left) then
begin
while assigned(hp) do
begin
hp2:=tarrayconstructornode(hp).left;
{ ignore typeconvs and addrn inserted by arrayconstructn for
passing a shortstring }
if (hp2.nodetype=typeconvn) and
(tunarynode(hp2).left.nodetype=addrn) then
hp2:=tunarynode(tunarynode(hp2).left).left
else if hp2.nodetype=addrn then
hp2:=tunarynode(hp2).left;
location_freetemp(current_asmdata.CurrAsmList,hp2.location);
hp:=tarrayconstructornode(hp).right;
end;
end;
end;
ppn:=tcallparanode(ppn.right);
end;
setlength(paralocs,0);
end;
procedure tcgcallnode.pushparas;
var
ppn : tcgcallparanode;
callerparaloc,
tmpparaloc : pcgparalocation;
sizeleft: aint;
htempref,
href : treference;
calleralignment,
tmpalignment, i: longint;
skipiffinalloc: boolean;
begin
{ copy all resources to the allocated registers }
ppn:=tcgcallparanode(left);
while assigned(ppn) do
begin
if (ppn.left.nodetype<>nothingn) then
begin
{ better check for the real location of the parameter here, when stack passed parameters
are saved temporary in registers, checking for the tmpparaloc.loc is wrong
}
paramanager.freecgpara(current_asmdata.CurrAsmList,ppn.tempcgpara);
tmpparaloc:=ppn.tempcgpara.location;
sizeleft:=ppn.tempcgpara.intsize;
calleralignment:=ppn.parasym.paraloc[callerside].alignment;
tmpalignment:=ppn.tempcgpara.alignment;
if (tmpalignment=0) or
(calleralignment=0) then
internalerror(2009020701);
callerparaloc:=ppn.parasym.paraloc[callerside].location;
skipiffinalloc:=
not paramanager.use_fixed_stack or
not(ppn.followed_by_stack_tainting_call_cached);
while assigned(callerparaloc) do
begin
{ Every paraloc must have a matching tmpparaloc }
if not assigned(tmpparaloc) then
internalerror(200408224);
if callerparaloc^.size<>tmpparaloc^.size then
internalerror(200408225);
case callerparaloc^.loc of
LOC_REGISTER:
begin
if tmpparaloc^.loc<>LOC_REGISTER then
internalerror(200408221);
if getsupreg(callerparaloc^.register)<first_int_imreg then
cg.getcpuregister(current_asmdata.CurrAsmList,callerparaloc^.register);
cg.a_load_reg_reg(current_asmdata.CurrAsmList,tmpparaloc^.size,tmpparaloc^.size,
tmpparaloc^.register,callerparaloc^.register);
end;
LOC_FPUREGISTER:
begin
if tmpparaloc^.loc<>LOC_FPUREGISTER then
internalerror(200408222);
if getsupreg(callerparaloc^.register)<first_fpu_imreg then
cg.getcpuregister(current_asmdata.CurrAsmList,callerparaloc^.register);
cg.a_loadfpu_reg_reg(current_asmdata.CurrAsmList,tmpparaloc^.size,ppn.tempcgpara.size,tmpparaloc^.register,callerparaloc^.register);
end;
LOC_MMREGISTER:
begin
if tmpparaloc^.loc<>LOC_MMREGISTER then
internalerror(200408223);
if getsupreg(callerparaloc^.register)<first_mm_imreg then
cg.getcpuregister(current_asmdata.CurrAsmList,callerparaloc^.register);
cg.a_loadmm_reg_reg(current_asmdata.CurrAsmList,tmpparaloc^.size,tmpparaloc^.size,
tmpparaloc^.register,callerparaloc^.register,mms_movescalar);
end;
LOC_REFERENCE:
begin
if not(skipiffinalloc and
paramanager.is_stack_paraloc(callerparaloc)) then
begin
{ Can't have a data copied to the stack, every location
must contain a valid size field }
if (tmpparaloc^.size=OS_NO) and
((tmpparaloc^.loc<>LOC_REFERENCE) or
assigned(tmpparaloc^.next)) then
internalerror(200501281);
reference_reset_base(href,callerparaloc^.reference.index,callerparaloc^.reference.offset,calleralignment);
{ copy parameters in case they were moved to a temp. location because we've a fixed stack }
case tmpparaloc^.loc of
LOC_REFERENCE:
begin
reference_reset_base(htempref,tmpparaloc^.reference.index,tmpparaloc^.reference.offset,tmpalignment);
{ use concatcopy, because it can also be a float which fails when
load_ref_ref is used }
if (ppn.tempcgpara.size <> OS_NO) then
cg.g_concatcopy(current_asmdata.CurrAsmList,htempref,href,tcgsize2size[tmpparaloc^.size])
else
cg.g_concatcopy(current_asmdata.CurrAsmList,htempref,href,sizeleft)
end;
LOC_REGISTER:
cg.a_load_reg_ref(current_asmdata.CurrAsmList,tmpparaloc^.size,tmpparaloc^.size,tmpparaloc^.register,href);
LOC_FPUREGISTER:
cg.a_loadfpu_reg_ref(current_asmdata.CurrAsmList,tmpparaloc^.size,tmpparaloc^.size,tmpparaloc^.register,href);
LOC_MMREGISTER:
cg.a_loadmm_reg_ref(current_asmdata.CurrAsmList,tmpparaloc^.size,tmpparaloc^.size,tmpparaloc^.register,href,mms_movescalar);
else
internalerror(200402081);
end;
end;
end;
end;
dec(sizeleft,tcgsize2size[tmpparaloc^.size]);
callerparaloc:=callerparaloc^.next;
tmpparaloc:=tmpparaloc^.next;
end;
end;
ppn:=tcgcallparanode(ppn.right);
end;
setlength(paralocs,procdefinition.paras.count);
for i:=0 to procdefinition.paras.count-1 do
paralocs[i]:=@tparavarsym(procdefinition.paras[i]).paraloc[callerside];
end;
function tcgcallnode.load_complex_procvar_codeptr: tregister;
var
srcreg: tregister;
codeprocdef: tabstractprocdef;
begin
{ this is safe even on i8086, because procvardef code pointers are
always far there (so the current state of far calls vs the state
of far calls where the procvardef was defined does not matter,
even though the procvardef constructor called by getcopyas looks at
it) }
codeprocdef:=tabstractprocdef(procdefinition.getcopyas(procvardef,pc_address_only));
result:=hlcg.getaddressregister(current_asmdata.CurrAsmList,codeprocdef);
{ in case we have a method pointer on a big endian target in registers,
the method address is stored in registerhi (it's the first field
in the tmethod record) }
if (right.location.loc in [LOC_REGISTER,LOC_CREGISTER]) then
begin
if not(right.location.size in [OS_PAIR,OS_SPAIR]) then
internalerror(2014081401);
if (target_info.endian=endian_big) then
srcreg:=right.location.registerhi
else
srcreg:=right.location.register;
hlcg.a_load_reg_reg(current_asmdata.CurrAsmList,codeprocdef,codeprocdef,srcreg,result)
end
else
begin
hlcg.location_force_mem(current_asmdata.CurrAsmList,right.location,procdefinition);
hlcg.g_ptrtypecast_ref(current_asmdata.CurrAsmList,getpointerdef(procdefinition),getpointerdef(codeprocdef),right.location.reference);
hlcg.a_load_ref_reg(current_asmdata.CurrAsmList,codeprocdef,codeprocdef,right.location.reference,result);
end;
end;
function tcgcallnode.load_procvar_codeptr: tregister;
begin
if not(procdefinition.is_addressonly) then
result:=load_complex_procvar_codeptr
else
begin
result:=hlcg.getaddressregister(current_asmdata.CurrAsmList,procdefinition);
hlcg.a_load_loc_reg(current_asmdata.CurrAsmList,procdefinition,procdefinition,right.location,result);
end;
end;
procedure tcgcallnode.freeparas;
var
ppn : tcgcallparanode;
begin
{ free the resources allocated for the parameters }
ppn:=tcgcallparanode(left);
while assigned(ppn) do
begin
if (ppn.left.nodetype<>nothingn) then
begin
if (ppn.parasym.paraloc[callerside].location^.loc <> LOC_REFERENCE) then
paramanager.freecgpara(current_asmdata.CurrAsmList,ppn.parasym.paraloc[callerside]);
end;
ppn:=tcgcallparanode(ppn.right);
end;
end;
procedure tcgcallnode.pass_generate_code;
var
name_to_call: TSymStr;
regs_to_save_int,
regs_to_save_address,
regs_to_save_fpu,
regs_to_save_mm : Tcpuregisterset;
href : treference;
pop_size : longint;
vmtoffset : aint;
pvreg,
vmtreg : tregister;
oldaktcallnode : tcallnode;
retlocitem: pcgparalocation;
pd : tprocdef;
proc_addr_size: TCgSize;
proc_addr_voidptrdef: tdef;
callref: boolean;
{$ifdef vtentry}
sym : tasmsymbol;
{$endif vtentry}
{$ifdef SUPPORT_SAFECALL}
cgpara : tcgpara;
{$endif}
begin
if not assigned(procdefinition) or
not(procdefinition.has_paraloc_info in [callerside,callbothsides]) then
internalerror(200305264);
extra_pre_call_code;
if assigned(callinitblock) then
secondpass(tnode(callinitblock));
regs_to_save_int:=paramanager.get_volatile_registers_int(procdefinition.proccalloption);
regs_to_save_address:=paramanager.get_volatile_registers_address(procdefinition.proccalloption);
regs_to_save_fpu:=paramanager.get_volatile_registers_fpu(procdefinition.proccalloption);
regs_to_save_mm:=paramanager.get_volatile_registers_mm(procdefinition.proccalloption);
proc_addr_voidptrdef:=procdefinition.address_type;
proc_addr_size:=def_cgsize(proc_addr_voidptrdef);
{ Include Function result registers }
if (not is_void(resultdef)) then
begin
{ The forced returntype may have a different size than the one
declared for the procdef }
retloc:=hlcg.get_call_result_cgpara(procdefinition,typedef);
retlocitem:=retloc.location;
while assigned(retlocitem) do
begin
case retlocitem^.loc of
LOC_REGISTER:
case getregtype(retlocitem^.register) of
R_INTREGISTER:
include(regs_to_save_int,getsupreg(retlocitem^.register));
R_ADDRESSREGISTER:
include(regs_to_save_address,getsupreg(retlocitem^.register));
R_TEMPREGISTER:
;
else
internalerror(2014020102);
end;
LOC_FPUREGISTER:
include(regs_to_save_fpu,getsupreg(retlocitem^.register));
LOC_MMREGISTER:
include(regs_to_save_mm,getsupreg(retlocitem^.register));
LOC_REFERENCE,
LOC_VOID:
;
else
internalerror(2004110213);
end;
retlocitem:=retlocitem^.next;
end;
end;
{ Process parameters, register parameters will be loaded
in imaginary registers. The actual load to the correct
register is done just before the call }
oldaktcallnode:=aktcallnode;
aktcallnode:=self;
if assigned(left) then
tcallparanode(left).secondcallparan;
aktcallnode:=oldaktcallnode;
{ procedure variable or normal function call ? }
if (right=nil) then
begin
{ register call for WPO (must be done before wpo test below,
otherwise optimised called methods are no longer registered)
}
if (po_virtualmethod in procdefinition.procoptions) and
not is_objectpascal_helper(tprocdef(procdefinition).struct) and
assigned(methodpointer) and
(methodpointer.nodetype<>typen) and
(not assigned(current_procinfo) or
wpoinfomanager.symbol_live(current_procinfo.procdef.mangledname)) then
tobjectdef(tprocdef(procdefinition).struct).register_vmt_call(tprocdef(procdefinition).extnumber);
{$ifdef vtentry}
if not is_interface(tprocdef(procdefinition)._class) then
begin
inc(current_asmdata.NextVTEntryNr);
current_asmdata.CurrAsmList.Concat(tai_symbol.CreateName('VTREF'+tostr(current_asmdata.NextVTEntryNr)+'_'+tprocdef(procdefinition).struct.vmt_mangledname+'$$'+tostr(vmtoffset div sizeof(pint)),AT_FUNCTION,0));
end;
{$endif vtentry}
{$ifdef symansistr}
name_to_call:=fforcedprocname;
{$else symansistr}
name_to_call:='';
if assigned(fforcedprocname) then
name_to_call:=fforcedprocname^;
{$endif symansistr}
{ When methodpointer is typen we don't need (and can't) load
a pointer. We can directly call the correct procdef (PFV) }
if (name_to_call='') and
(po_virtualmethod in procdefinition.procoptions) and
not is_objectpascal_helper(tprocdef(procdefinition).struct) and
assigned(methodpointer) and
(methodpointer.nodetype<>typen) and
not wpoinfomanager.can_be_devirtualized(methodpointer.resultdef,procdefinition,name_to_call) then
begin
{ virtual methods require an index }
if tprocdef(procdefinition).extnumber=$ffff then
internalerror(200304021);
secondpass(methodpointer);
{ Load VMT from self }
if methodpointer.resultdef.typ=objectdef then
gen_load_vmt_register(current_asmdata.CurrAsmList,tobjectdef(methodpointer.resultdef),methodpointer.location,vmtreg)
else
begin
{ Load VMT value in register }
{ todo: fix vmt type for high level cg }
hlcg.location_force_reg(current_asmdata.CurrAsmList,methodpointer.location,proc_addr_voidptrdef,proc_addr_voidptrdef,false);
vmtreg:=methodpointer.location.register;
{ test validity of VMT }
if not(is_interface(tprocdef(procdefinition).struct)) and
not(is_cppclass(tprocdef(procdefinition).struct)) then
cg.g_maybe_testvmt(current_asmdata.CurrAsmList,vmtreg,tobjectdef(tprocdef(procdefinition).struct));
end;
{ Call through VMT, generate a VTREF symbol to notify the linker }
vmtoffset:=tobjectdef(tprocdef(procdefinition).struct).vmtmethodoffset(tprocdef(procdefinition).extnumber);
{ register call for WPO }
if (not assigned(current_procinfo) or
wpoinfomanager.symbol_live(current_procinfo.procdef.mangledname)) then
tobjectdef(tprocdef(procdefinition).struct).register_vmt_call(tprocdef(procdefinition).extnumber);
reference_reset_base(href,vmtreg,vmtoffset,proc_addr_voidptrdef.alignment);
pvreg:=NR_NO;
callref:=can_call_ref(href);
if not callref then
begin
pvreg:=cg.getintregister(current_asmdata.CurrAsmList,proc_addr_size);
cg.a_load_ref_reg(current_asmdata.CurrAsmList,proc_addr_size,proc_addr_size,href,pvreg);
end;
{ Load parameters that are in temporary registers in the
correct parameter register }
if assigned(left) then
begin
reorder_parameters;
pushparas;
{ free the resources allocated for the parameters }
freeparas;
end;
if callref then
extra_call_ref_code(href);
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_INTREGISTER,regs_to_save_int);
if cg.uses_registers(R_ADDRESSREGISTER) then
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_ADDRESSREGISTER,regs_to_save_address);
if cg.uses_registers(R_FPUREGISTER) then
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_FPUREGISTER,regs_to_save_fpu);
if cg.uses_registers(R_MMREGISTER) then
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_MMREGISTER,regs_to_save_mm);
{ call method }
extra_call_code;
retloc.resetiftemp;
if callref then
retloc:=do_call_ref(href)
else
retloc:=hlcg.a_call_reg(current_asmdata.CurrAsmList,tabstractprocdef(procdefinition),pvreg,paralocs);
extra_post_call_code;
end
else
begin
{ Load parameters that are in temporary registers in the
correct parameter register }
if assigned(left) then
begin
reorder_parameters;
pushparas;
{ free the resources allocated for the parameters }
freeparas;
end;
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_INTREGISTER,regs_to_save_int);
if cg.uses_registers(R_ADDRESSREGISTER) then
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_ADDRESSREGISTER,regs_to_save_address);
if cg.uses_registers(R_FPUREGISTER) then
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_FPUREGISTER,regs_to_save_fpu);
if cg.uses_registers(R_MMREGISTER) then
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_MMREGISTER,regs_to_save_mm);
if procdefinition.proccalloption=pocall_syscall then
do_syscall
else
begin
{ Calling interrupt from the same code requires some
extra code }
if (po_interrupt in procdefinition.procoptions) then
extra_interrupt_code;
extra_call_code;
retloc.resetiftemp;
if (name_to_call='') then
name_to_call:=tprocdef(procdefinition).mangledname;
if cnf_inherited in callnodeflags then
retloc:=hlcg.a_call_name_inherited(current_asmdata.CurrAsmList,tprocdef(procdefinition),name_to_call,paralocs)
else
retloc:=hlcg.a_call_name(current_asmdata.CurrAsmList,tprocdef(procdefinition),name_to_call,paralocs,typedef,po_weakexternal in procdefinition.procoptions);
extra_post_call_code;
end;
end;
end
else
{ now procedure variable case }
begin
secondpass(right);
{ can we directly call the procvar in a memory location? }
callref:=false;
if right.location.loc in [LOC_REFERENCE,LOC_CREFERENCE] then
begin
href:=right.location.reference;
callref:=can_call_ref(href);
end;
if not callref then
pvreg:=load_procvar_codeptr
else
pvreg:=NR_INVALID;
location_freetemp(current_asmdata.CurrAsmList,right.location);
{ Load parameters that are in temporary registers in the
correct parameter register }
if assigned(left) then
begin
pushparas;
{ free the resources allocated for the parameters }
freeparas;
end;
if callref then
extra_call_ref_code(href);
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_INTREGISTER,regs_to_save_int);
if cg.uses_registers(R_ADDRESSREGISTER) then
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_ADDRESSREGISTER,regs_to_save_address);
if cg.uses_registers(R_FPUREGISTER) then
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_FPUREGISTER,regs_to_save_fpu);
if cg.uses_registers(R_MMREGISTER) then
cg.alloccpuregisters(current_asmdata.CurrAsmList,R_MMREGISTER,regs_to_save_mm);
{ Calling interrupt from the same code requires some
extra code }
if (po_interrupt in procdefinition.procoptions) then
extra_interrupt_code;
extra_call_code;
retloc.resetiftemp;
if callref then
retloc:=do_call_ref(href)
else
retloc:=hlcg.a_call_reg(current_asmdata.CurrAsmList,procdefinition,pvreg,paralocs);
extra_post_call_code;
end;
{ Need to remove the parameters from the stack? }
if (procdefinition.proccalloption in clearstack_pocalls) then
begin
pop_size:=pushedparasize;
{ for Cdecl functions we don't need to pop the funcret when it
was pushed by para. Except for safecall functions with
safecall-exceptions enabled. In that case the funcret is always
returned as a para which is considered a normal para on the
c-side, so the funcret has to be pop'ed normally. }
if not ((procdefinition.proccalloption=pocall_safecall) and
(tf_safecall_exceptions in target_info.flags)) and
paramanager.ret_in_param(procdefinition.returndef,procdefinition) then
dec(pop_size,sizeof(pint));
{ Remove parameters/alignment from the stack }
pop_parasize(pop_size);
end
{ frame pointer parameter is popped by the caller when it's passed the
Delphi way }
else if (po_delphi_nested_cc in procdefinition.procoptions) and
not paramanager.use_fixed_stack then
pop_parasize(sizeof(pint));
{ Release registers, but not the registers that contain the
function result }
if (not is_void(resultdef)) then
begin
retlocitem:=retloc.location;
while assigned(retlocitem) do
begin
case retlocitem^.loc of
LOC_REGISTER:
case getregtype(retlocitem^.register) of
R_INTREGISTER:
exclude(regs_to_save_int,getsupreg(retlocitem^.register));
R_ADDRESSREGISTER:
exclude(regs_to_save_address,getsupreg(retlocitem^.register));
R_TEMPREGISTER:
;
else
internalerror(2014020103);
end;
LOC_FPUREGISTER:
exclude(regs_to_save_fpu,getsupreg(retlocitem^.register));
LOC_MMREGISTER:
exclude(regs_to_save_mm,getsupreg(retlocitem^.register));
LOC_REFERENCE,
LOC_VOID:
;
else
internalerror(2004110214);
end;
retlocitem:=retlocitem^.next;
end;
end;
if cg.uses_registers(R_MMREGISTER) then
cg.dealloccpuregisters(current_asmdata.CurrAsmList,R_MMREGISTER,regs_to_save_mm);
if cg.uses_registers(R_FPUREGISTER) then
cg.dealloccpuregisters(current_asmdata.CurrAsmList,R_FPUREGISTER,regs_to_save_fpu);
if cg.uses_registers(R_ADDRESSREGISTER) then
cg.dealloccpuregisters(current_asmdata.CurrAsmList,R_ADDRESSREGISTER,regs_to_save_address);
cg.dealloccpuregisters(current_asmdata.CurrAsmList,R_INTREGISTER,regs_to_save_int);
{$ifdef SUPPORT_SAFECALL}
if (procdefinition.proccalloption=pocall_safecall) and
(tf_safecall_exceptions in target_info.flags) then
begin
pd:=search_system_proc('fpc_safecallcheck');
cgpara.init;
paramanager.getintparaloc(pd,1,cgpara);
cg.a_load_reg_cgpara(current_asmdata.CurrAsmList,OS_INT,NR_FUNCTION_RESULT_REG,cgpara);
paramanager.freecgpara(current_asmdata.CurrAsmList,cgpara);
cg.g_call(current_asmdata.CurrAsmList,'FPC_SAFECALLCHECK');
cgpara.done;
end;
{$endif}
{ handle function results }
if (not is_void(resultdef)) then
handle_return_value
else
location_reset(location,LOC_VOID,OS_NO);
{ convert persistent temps for parameters and function result to normal temps }
if assigned(callcleanupblock) then
secondpass(tnode(callcleanupblock));
{ copy back copy-out parameters if any }
copy_back_paras;
{ release temps and finalize unused return values, must be
after the callcleanupblock because that converts temps
from persistent to normal }
release_unused_return_value;
{ release temps of paras }
release_para_temps;
{ perhaps i/o check ? }
if (cs_check_io in current_settings.localswitches) and
(po_iocheck in procdefinition.procoptions) and
not(po_iocheck in current_procinfo.procdef.procoptions) and
{ no IO check for methods and procedure variables }
(right=nil) and
not(po_virtualmethod in procdefinition.procoptions) then
begin
hlcg.g_call_system_proc(current_asmdata.CurrAsmList,'fpc_iocheck',[],nil).resetiftemp;
end;
end;
destructor tcgcallnode.destroy;
begin
retloc.resetiftemp;
inherited destroy;
end;
begin
ccallparanode:=tcgcallparanode;
ccallnode:=tcgcallnode;
end.
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