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142ace2afc
fpc/compiler/psub.pas
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1999-11-09 23:43:08 +00:00

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{
$Id$
Copyright (c) 1998 by Florian Klaempfl, Daniel Mantione
Does the parsing of the procedures/functions
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 psub;
interface
uses
cobjects,
symconst,tokens,symtable;
const
pd_global = $1; { directive must be global }
pd_body = $2; { directive needs a body }
pd_implemen = $4; { directive can be used implementation section }
pd_interface = $8; { directive can be used interface section }
pd_object = $10; { directive can be used object declaration }
pd_procvar = $20; { directive can be used procvar declaration }
pd_notobject = $40;{ directive can not be used object declaration }
procedure compile_proc_body(const proc_names:Tstringcontainer;
make_global,parent_has_class:boolean);
procedure parse_proc_head(options:tproctypeoption);
procedure parse_proc_dec;
function is_proc_directive(tok:ttoken):boolean;
procedure parse_var_proc_directives(var sym : psym);
procedure parse_object_proc_directives(var sym : pprocsym);
procedure read_proc;
implementation
uses
globtype,systems,
strings,globals,verbose,files,
scanner,aasm,tree,types,
import,gendef,
{$ifdef newcg}
cgbase,
{$else newcg}
hcodegen,
{$endif newcg}
temp_gen,pass_1,cpubase,cpuasm
{$ifndef NOPASS2}
,pass_2
{$endif}
{$ifdef GDB}
,gdb
{$endif GDB}
{$ifdef newcg}
{$ifndef NOOPT}
,aopt
{$endif}
{$else}
{$ifdef i386}
,tgeni386
,cgai386
{$ifndef NOOPT}
,aopt386
{$endif}
{$endif}
{$ifdef m68k}
,tgen68k,cga68k
{$endif}
{$endif newcg}
{ parser specific stuff }
,pbase,ptype,pdecl,pexpr,pstatmnt
{$ifdef newcg}
,tgcpu,convtree,cgobj,tgeni386 { for the new code generator tgeni386 is only a dummy }
{$endif newcg}
;
var
realname:string; { contains the real name of a procedure as it's typed }
procedure parse_proc_head(options:tproctypeoption);
var sp:stringid;
pd:Pprocdef;
paramoffset:longint;
sym:Psym;
hs:string;
st : psymtable;
overloaded_level:word;
procstartfilepos : tfileposinfo;
begin
{ Save the position where this procedure really starts and set col to 1 which
looks nicer }
procstartfilepos:=tokenpos;
{ procstartfilepos.column:=1; I do not agree here !!
lets keep excat position PM }
if (options=potype_operator) then
begin
sp:=overloaded_names[optoken];
realname:=sp;
end
else
begin
sp:=pattern;
realname:=orgpattern;
consume(_ID);
end;
{ method ? }
if not(parse_only) and try_to_consume(_POINT) then
begin
tokenpos:=procstartfilepos;
getsym(sp,true);
sym:=srsym;
{ load proc name }
sp:=pattern;
realname:=orgpattern;
procstartfilepos:=tokenpos;
{ qualifier is class name ? }
if (sym^.typ<>typesym) or
(ptypesym(sym)^.definition^.deftype<>objectdef) then
begin
Message(parser_e_class_id_expected);
aktprocsym:=nil;
consume(_ID);
end
else
begin
{ used to allow private syms to be seen }
aktobjectdef:=pobjectdef(ptypesym(sym)^.definition);
procinfo^._class:=pobjectdef(ptypesym(sym)^.definition);
aktprocsym:=pprocsym(procinfo^._class^.symtable^.search(sp));
consume(_ID);
{The procedure has been found. So it is
a global one. Set the flags to mark this.}
procinfo^.flags:=procinfo^.flags or pi_is_global;
aktobjectdef:=nil;
{ we solve this below }
if not(assigned(aktprocsym)) then
Message(parser_e_methode_id_expected);
end;
end
else
begin
{ check for constructor/destructor which is not allowed here }
if (not parse_only) and
(options in [potype_constructor,potype_destructor]) then
Message(parser_e_constructors_always_objects);
tokenpos:=procstartfilepos;
aktprocsym:=pprocsym(symtablestack^.search(sp));
if not(parse_only) then
begin
{The procedure we prepare for is in the implementation
part of the unit we compile. It is also possible that we
are compiling a program, which is also some kind of
implementaion part.
We need to find out if the procedure is global. If it is
global, it is in the global symtable.}
if not assigned(aktprocsym) and
(symtablestack^.symtabletype=staticsymtable) then
begin
{Search the procedure in the global symtable.}
aktprocsym:=Pprocsym(search_a_symtable(sp,globalsymtable));
if assigned(aktprocsym) then
begin
{Check if it is a procedure.}
if aktprocsym^.typ<>procsym then
DuplicateSym(aktprocsym);
{The procedure has been found. So it is
a global one. Set the flags to mark this.}
procinfo^.flags:=procinfo^.flags or pi_is_global;
end;
end;
end;
end;
{ Create the mangledname }
{$ifndef UseNiceNames}
if assigned(procinfo^._class) then
begin
if (pos('_$$_',procprefix)=0) then
hs:=procprefix+'_$$_'+procinfo^._class^.objname^+'_$$_'+sp
else
hs:=procprefix+'_$'+sp;
end
else
begin
if lexlevel=normal_function_level then
hs:=procprefix+'_'+sp
else
hs:=procprefix+'_$'+sp;
end;
{$else UseNiceNames}
if assigned(procinfo^._class) then
begin
if (pos('_5Class_',procprefix)=0) then
hs:=procprefix+'_5Class_'+procinfo^._class^.name^+'_'+tostr(length(sp))+sp
else
hs:=procprefix+'_'+tostr(length(sp))+sp;
end
else
begin
if lexlevel=normal_function_level then
hs:=procprefix+'_'+tostr(length(sp))+sp
else
hs:=lowercase(procprefix)+'_'+tostr(length(sp))+sp;
end;
{$endif UseNiceNames}
if assigned(aktprocsym) then
begin
{ Check if overloading is enabled }
if not(m_fpc in aktmodeswitches) then
begin
if aktprocsym^.typ<>procsym then
begin
DuplicateSym(aktprocsym);
{ try to recover by creating a new aktprocsym }
tokenpos:=procstartfilepos;
aktprocsym:=new(pprocsym,init(sp));
end
else
begin
if not(aktprocsym^.definition^.forwarddef) then
Message(parser_e_procedure_overloading_is_off);
end;
end
else
begin
{ Check if the overloaded sym is realy a procsym }
if aktprocsym^.typ<>procsym then
begin
Message1(parser_e_overloaded_no_procedure,aktprocsym^.name);
{ try to recover by creating a new aktprocsym }
tokenpos:=procstartfilepos;
aktprocsym:=new(pprocsym,init(sp));
end;
end;
end
else
begin
{ create a new procsym and set the real filepos }
tokenpos:=procstartfilepos;
aktprocsym:=new(pprocsym,init(sp));
{ for operator we have only one definition for each overloaded
operation }
if (options=potype_operator) then
begin
{ the only problem is that nextoverloaded might not be in a unit
known for the unit itself }
if assigned(overloaded_operators[optoken]) then
aktprocsym^.definition:=overloaded_operators[optoken]^.definition;
end;
symtablestack^.insert(aktprocsym);
end;
st:=symtablestack;
pd:=new(pprocdef,init);
pd^.symtablelevel:=symtablestack^.symtablelevel;
if assigned(procinfo^._class) then
pd^._class := procinfo^._class;
{ set the options from the caller (podestructor or poconstructor) }
pd^.proctypeoption:=options;
{ calculate the offset of the parameters }
paramoffset:=8;
{ calculate frame pointer offset }
if lexlevel>normal_function_level then
begin
procinfo^.framepointer_offset:=paramoffset;
inc(paramoffset,target_os.size_of_pointer);
{ this is needed to get correct framepointer push for local
forward functions !! }
pd^.parast^.symtablelevel:=lexlevel;
end;
if assigned (procinfo^._Class) and
not(procinfo^._Class^.is_class) and
(pd^.proctypeoption in [potype_constructor,potype_destructor]) then
inc(paramoffset,target_os.size_of_pointer);
{ self pointer offset }
{ self isn't pushed in nested procedure of methods }
if assigned(procinfo^._class) and (lexlevel=normal_function_level) then
begin
procinfo^.selfpointer_offset:=paramoffset;
if assigned(aktprocsym^.definition) and
not(po_containsself in aktprocsym^.definition^.procoptions) then
inc(paramoffset,target_os.size_of_pointer);
end;
{ destructor flag ? }
if assigned (procinfo^._Class) and
procinfo^._class^.is_class and
(pd^.proctypeoption=potype_destructor) then
inc(paramoffset,target_os.size_of_pointer);
procinfo^.call_offset:=paramoffset;
pd^.parast^.datasize:=0;
pd^.nextoverloaded:=aktprocsym^.definition;
aktprocsym^.definition:=pd;
{ this is probably obsolete now PM }
aktprocsym^.definition^.fileinfo:=procstartfilepos;
aktprocsym^.definition^.setmangledname(hs);
aktprocsym^.definition^.procsym:=aktprocsym;
if not parse_only then
begin
overloaded_level:=0;
{ we need another procprefix !!! }
{ count, but only those in the same unit !!}
while assigned(pd) and
(pd^.owner^.symtabletype in [globalsymtable,staticsymtable]) do
begin
{ only count already implemented functions }
if not(pd^.forwarddef) then
inc(overloaded_level);
pd:=pd^.nextoverloaded;
end;
if overloaded_level>0 then
procprefix:=hs+'$'+tostr(overloaded_level)+'$'
else
procprefix:=hs+'$';
end;
{ this must also be inserted in the right symtable !! PM }
{ otherwise we get subbtle problems with
definitions of args defs in staticsymtable for
implementation of a global method }
if token=_LKLAMMER then
parameter_dec(aktprocsym^.definition);
{ so we only restore the symtable now }
symtablestack:=st;
if (options=potype_operator) then
overloaded_operators[optoken]:=aktprocsym;
end;
procedure parse_proc_dec;
var
hs : string;
isclassmethod : boolean;
begin
inc(lexlevel);
{ read class method }
if token=_CLASS then
begin
consume(_CLASS);
isclassmethod:=true;
end
else
isclassmethod:=false;
case token of
_FUNCTION : begin
consume(_FUNCTION);
parse_proc_head(potype_none);
if token<>_COLON then
begin
if not(aktprocsym^.definition^.forwarddef) or
(m_repeat_forward in aktmodeswitches) then
begin
consume(_COLON);
consume_all_until(_SEMICOLON);
end;
end
else
begin
consume(_COLON);
inc(testcurobject);
aktprocsym^.definition^.retdef:=single_type(hs,false);
aktprocsym^.definition^.test_if_fpu_result;
dec(testcurobject);
end;
end;
_PROCEDURE : begin
consume(_PROCEDURE);
parse_proc_head(potype_none);
aktprocsym^.definition^.retdef:=voiddef;
end;
_CONSTRUCTOR : begin
consume(_CONSTRUCTOR);
parse_proc_head(potype_constructor);
if assigned(procinfo^._class) and
procinfo^._class^.is_class then
begin
{ CLASS constructors return the created instance }
aktprocsym^.definition^.retdef:=procinfo^._class;
end
else
begin
{ OBJECT constructors return a boolean }
{$IfDef GDB}
{ GDB doesn't like unnamed types !}
aktprocsym^.definition^.retdef:=globaldef('boolean');
{$else GDB}
aktprocsym^.definition^.retdef:=new(porddef,init(bool8bit,0,1));
{$Endif GDB}
end;
end;
_DESTRUCTOR : begin
consume(_DESTRUCTOR);
parse_proc_head(potype_destructor);
aktprocsym^.definition^.retdef:=voiddef;
end;
_OPERATOR : begin
if lexlevel>normal_function_level then
Message(parser_e_no_local_operator);
consume(_OPERATOR);
if not(token in [_PLUS..last_overloaded]) then
Message(parser_e_overload_operator_failed);
optoken:=token;
consume(Token);
procinfo^.flags:=procinfo^.flags or pi_operator;
parse_proc_head(potype_operator);
if token<>_ID then
begin
opsym:=nil;
if not(m_result in aktmodeswitches) then
consume(_ID);
end
else
begin
opsym:=new(pvarsym,init(pattern,voiddef));
consume(_ID);
end;
if not try_to_consume(_COLON) then
begin
consume(_COLON);
aktprocsym^.definition^.retdef:=generrordef;
consume_all_until(_SEMICOLON);
end
else
begin
aktprocsym^.definition^.retdef:=
single_type(hs,false);
aktprocsym^.definition^.test_if_fpu_result;
if (optoken in [_EQUAL,_GT,_LT,_GTE,_LTE]) and
((aktprocsym^.definition^.retdef^.deftype<>
orddef) or (porddef(aktprocsym^.definition^.
retdef)^.typ<>bool8bit)) then
Message(parser_e_comparative_operator_return_boolean);
if assigned(opsym) then
opsym^.definition:=aktprocsym^.definition^.retdef;
{ We need to add the retrun type in the mangledname
to allow overloading with just different results !! (PM) }
aktprocsym^.definition^.setmangledname(
aktprocsym^.definition^.mangledname+'$$'+hs);
end;
end;
end;
if isclassmethod and
assigned(aktprocsym) then
{$ifdef INCLUDEOK}
include(aktprocsym^.definition^.procoptions,po_classmethod);
{$else}
aktprocsym^.definition^.procoptions:=aktprocsym^.definition^.procoptions+[po_classmethod];
{$endif}
consume(_SEMICOLON);
dec(lexlevel);
end;
{****************************************************************************
Procedure directive handlers
****************************************************************************}
{$ifdef tp}
{$F+}
{$endif}
procedure pd_far(const procnames:Tstringcontainer);
begin
Message(parser_w_proc_far_ignored);
end;
procedure pd_near(const procnames:Tstringcontainer);
begin
Message(parser_w_proc_near_ignored);
end;
procedure pd_export(const procnames:Tstringcontainer);
begin
if assigned(procinfo^._class) then
Message(parser_e_methods_dont_be_export);
if lexlevel<>normal_function_level then
Message(parser_e_dont_nest_export);
{ only os/2 needs this }
if target_info.target=target_i386_os2 then
begin
procnames.insert(realname);
procinfo^.exported:=true;
if cs_link_deffile in aktglobalswitches then
deffile.AddExport(aktprocsym^.definition^.mangledname);
end;
end;
procedure pd_inline(const procnames:Tstringcontainer);
begin
if not(cs_support_inline in aktmoduleswitches) then
Message(parser_e_proc_inline_not_supported);
end;
procedure pd_forward(const procnames:Tstringcontainer);
begin
aktprocsym^.definition^.forwarddef:=true;
end;
procedure pd_stdcall(const procnames:Tstringcontainer);
begin
end;
procedure pd_safecall(const procnames:Tstringcontainer);
begin
end;
procedure pd_alias(const procnames:Tstringcontainer);
begin
consume(_COLON);
procnames.insert(get_stringconst);
end;
procedure pd_asmname(const procnames:Tstringcontainer);
begin
aktprocsym^.definition^.setmangledname(target_os.Cprefix+pattern);
if token=_CCHAR then
consume(_CCHAR)
else
consume(_CSTRING);
{ we don't need anything else }
aktprocsym^.definition^.forwarddef:=false;
end;
procedure pd_intern(const procnames:Tstringcontainer);
begin
consume(_COLON);
aktprocsym^.definition^.extnumber:=get_intconst;
end;
procedure pd_system(const procnames:Tstringcontainer);
begin
aktprocsym^.definition^.setmangledname(realname);
end;
procedure pd_abstract(const procnames:Tstringcontainer);
begin
if (po_virtualmethod in aktprocsym^.definition^.procoptions) then
{$ifdef INCLUDEOK}
include(aktprocsym^.definition^.procoptions,po_abstractmethod)
{$else}
aktprocsym^.definition^.procoptions:=aktprocsym^.definition^.procoptions+[po_abstractmethod]
{$endif}
else
Message(parser_e_only_virtual_methods_abstract);
{ the method is defined }
aktprocsym^.definition^.forwarddef:=false;
end;
procedure pd_virtual(const procnames:Tstringcontainer);
begin
if (aktprocsym^.definition^.proctypeoption=potype_constructor) and
not(aktprocsym^.definition^._class^.is_class) then
Message(parser_e_constructor_cannot_be_not_virtual);
end;
procedure pd_static(const procnames:Tstringcontainer);
begin
if (cs_static_keyword in aktmoduleswitches) then
begin
{$ifdef INCLUDEOK}
include(aktprocsym^.symoptions,sp_static);
include(aktprocsym^.definition^.procoptions,po_staticmethod);
{$else}
aktprocsym^.symoptions:=aktprocsym^.symoptions+[sp_static];
aktprocsym^.definition^.procoptions:=aktprocsym^.definition^.procoptions+[po_staticmethod];
{$endif}
end;
end;
procedure pd_override(const procnames:Tstringcontainer);
begin
if not(aktprocsym^.definition^._class^.is_class) then
Message(parser_e_no_object_override);
end;
procedure pd_message(const procnames:Tstringcontainer);
var
pt : ptree;
begin
{ check parameter type }
if not(po_containsself in aktprocsym^.definition^.procoptions) and
((aktprocsym^.definition^.para^.count<>1) or
(pparaitem(aktprocsym^.definition^.para^.first)^.paratyp<>vs_var)) then
Message(parser_e_ill_msg_param);
pt:=comp_expr(true);
do_firstpass(pt);
if pt^.treetype=stringconstn then
begin
{$ifdef INCLUDEOK}
include(aktprocsym^.definition^.procoptions,po_msgstr);
{$else}
aktprocsym^.definition^.procoptions:=aktprocsym^.definition^.procoptions+[po_msgstr];
{$endif}
aktprocsym^.definition^.messageinf.str:=strnew(pt^.value_str);
end
else
if is_constintnode(pt) then
begin
{$ifdef INCLUDEOK}
include(aktprocsym^.definition^.procoptions,po_msgint);
{$else}
aktprocsym^.definition^.procoptions:=aktprocsym^.definition^.procoptions+[po_msgint];
{$endif}
aktprocsym^.definition^.messageinf.i:=pt^.value;
end
else
Message(parser_e_ill_msg_expr);
disposetree(pt);
end;
procedure pd_cdecl(const procnames:Tstringcontainer);
begin
if aktprocsym^.definition^.deftype<>procvardef then
aktprocsym^.definition^.setmangledname(target_os.Cprefix+realname);
end;
procedure pd_register(const procnames:Tstringcontainer);
begin
Message(parser_w_proc_register_ignored);
end;
procedure pd_syscall(const procnames:Tstringcontainer);
begin
aktprocsym^.definition^.forwarddef:=false;
aktprocsym^.definition^.extnumber:=get_intconst;
end;
procedure pd_external(const procnames:Tstringcontainer);
{
If import_dll=nil the procedure is assumed to be in another
object file. In that object file it should have the name to
which import_name is pointing to. Otherwise, the procedure is
assumed to be in the DLL to which import_dll is pointing to. In
that case either import_nr<>0 or import_name<>nil is true, so
the procedure is either imported by number or by name. (DM)
}
var
import_dll,
import_name : string;
import_nr : word;
begin
aktprocsym^.definition^.forwarddef:=false;
{ If the procedure should be imported from a DLL, a constant string follows.
This isn't really correct, an contant string expression follows
so we check if an semicolon follows, else a string constant have to
follow (FK) }
import_nr:=0;
import_name:='';
if not(token=_SEMICOLON) and not(idtoken=_NAME) then
begin
import_dll:=get_stringconst;
if (idtoken=_NAME) then
begin
consume(_NAME);
import_name:=get_stringconst;
end;
if (idtoken=_INDEX) then
begin
{After the word index follows the index number in the DLL.}
consume(_INDEX);
import_nr:=get_intconst;
end;
if (import_nr=0) and (import_name='') then
{if (aktprocsym^.definition^.options and pocdecl)<>0 then
import_name:=aktprocsym^.definition^.mangledname
else
Message(parser_w_empty_import_name);}
{ this should work both for win32 and Linux !! PM }
import_name:=realname;
if not(current_module^.uses_imports) then
begin
current_module^.uses_imports:=true;
importlib^.preparelib(current_module^.modulename^);
end;
if not(m_repeat_forward in aktmodeswitches) then
begin
{ we can only have one overloaded here ! }
if assigned(aktprocsym^.definition^.nextoverloaded) then
importlib^.importprocedure(aktprocsym^.definition^.nextoverloaded^.mangledname,
import_dll,import_nr,import_name)
else
importlib^.importprocedure(aktprocsym^.mangledname,import_dll,import_nr,import_name);
end
else
importlib^.importprocedure(aktprocsym^.mangledname,import_dll,import_nr,import_name);
end
else
begin
if (idtoken=_NAME) then
begin
consume(_NAME);
import_name:=get_stringconst;
aktprocsym^.definition^.setmangledname(import_name);
end
else
begin
{ external shouldn't override the cdecl/system name }
if not (pocall_clearstack in aktprocsym^.definition^.proccalloptions) then
aktprocsym^.definition^.setmangledname(aktprocsym^.name);
end;
end;
end;
{$ifdef TP}
{$F-}
{$endif}
const
namelength=15;
type
pd_handler=procedure(const procnames:Tstringcontainer);
proc_dir_rec=record
idtok : ttoken;
pd_flags : longint;
handler : pd_handler;
pocall : tproccalloptions;
pooption : tprocoptions;
mutexclpocall : tproccalloptions;
mutexclpotype : tproctypeoptions;
mutexclpo : tprocoptions;
end;
const
{Should contain the number of procedure directives we support.}
num_proc_directives=29;
proc_direcdata:array[1..num_proc_directives] of proc_dir_rec=
(
(
idtok:_ABSTRACT;
pd_flags : pd_interface+pd_object;
handler : {$ifndef TP}@{$endif}pd_abstract;
pocall : [];
pooption : [po_abstractmethod];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [potype_constructor,potype_destructor];
mutexclpo : [po_exports,po_interrupt,po_external]
),(
idtok:_ALIAS;
pd_flags : pd_implemen+pd_body;
handler : {$ifndef TP}@{$endif}pd_alias;
pocall : [];
pooption : [];
mutexclpocall : [pocall_inline];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_ASMNAME;
pd_flags : pd_interface+pd_implemen;
handler : {$ifndef TP}@{$endif}pd_asmname;
pocall : [pocall_cdecl,pocall_clearstack];
pooption : [po_external];
mutexclpocall : [pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_ASSEMBLER;
pd_flags : pd_implemen+pd_body;
handler : nil;
pocall : [];
pooption : [po_assembler];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_CDECL;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : {$ifndef TP}@{$endif}pd_cdecl;
pocall : [pocall_cdecl,pocall_clearstack];
pooption : [po_savestdregs];
mutexclpocall : [pocall_internproc,pocall_leftright,pocall_inline];
mutexclpotype : [];
mutexclpo : [po_assembler,po_external]
),(
idtok:_DYNAMIC;
pd_flags : pd_interface+pd_object;
handler : {$ifndef TP}@{$endif}pd_virtual;
pocall : [];
pooption : [po_virtualmethod];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : [po_exports,po_interrupt,po_external]
),(
idtok:_EXPORT;
pd_flags : pd_body+pd_global+pd_interface+pd_implemen{??};
handler : {$ifndef TP}@{$endif}pd_export;
pocall : [];
pooption : [po_exports];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : [po_external,po_interrupt]
),(
idtok:_EXTERNAL;
pd_flags : pd_implemen+pd_interface;
handler : {$ifndef TP}@{$endif}pd_external;
pocall : [];
pooption : [po_external];
mutexclpocall : [pocall_internproc,pocall_inline,pocall_palmossyscall];
mutexclpotype : [];
mutexclpo : [po_exports,po_interrupt,po_assembler]
),(
idtok:_FAR;
pd_flags : pd_implemen+pd_body+pd_interface+pd_procvar;
handler : {$ifndef TP}@{$endif}pd_far;
pocall : [];
pooption : [];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : []
),(
idtok:_FORWARD;
pd_flags : pd_implemen;
handler : {$ifndef TP}@{$endif}pd_forward;
pocall : [];
pooption : [];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_INLINE;
pd_flags : pd_implemen+pd_body;
handler : {$ifndef TP}@{$endif}pd_inline;
pocall : [pocall_inline];
pooption : [];
mutexclpocall : [pocall_internproc];
mutexclpotype : [potype_constructor,potype_destructor];
mutexclpo : [po_exports,po_external,po_interrupt]
),(
idtok:_INTERNCONST;
pd_flags : pd_implemen+pd_body;
handler : {$ifndef TP}@{$endif}pd_intern;
pocall : [pocall_internconst];
pooption : [];
mutexclpocall : [];
mutexclpotype : [potype_operator];
mutexclpo : []
),(
idtok:_INTERNPROC;
pd_flags : pd_implemen;
handler : {$ifndef TP}@{$endif}pd_intern;
pocall : [pocall_internproc];
pooption : [];
mutexclpocall : [pocall_inline,pocall_clearstack,pocall_leftright,pocall_cdecl];
mutexclpotype : [potype_constructor,potype_destructor,potype_operator];
mutexclpo : [po_exports,po_external,po_interrupt,po_assembler,po_iocheck]
),(
idtok:_INTERRUPT;
pd_flags : pd_implemen+pd_body;
handler : nil;
pocall : [];
pooption : [po_interrupt];
mutexclpocall : [pocall_internproc,pocall_cdecl,pocall_clearstack,pocall_leftright,pocall_inline];
mutexclpotype : [potype_constructor,potype_destructor,potype_operator];
mutexclpo : [po_external]
),(
idtok:_IOCHECK;
pd_flags : pd_implemen+pd_body;
handler : nil;
pocall : [];
pooption : [po_iocheck];
mutexclpocall : [pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_MESSAGE;
pd_flags : pd_interface+pd_object;
handler : {$ifndef TP}@{$endif}pd_message;
pocall : [];
pooption : []; { can be po_msgstr or po_msgint }
mutexclpocall : [pocall_inline,pocall_internproc];
mutexclpotype : [potype_constructor,potype_destructor,potype_operator];
mutexclpo : [po_interrupt,po_external]
),(
idtok:_NEAR;
pd_flags : pd_implemen+pd_body+pd_procvar;
handler : {$ifndef TP}@{$endif}pd_near;
pocall : [];
pooption : [];
mutexclpocall : [pocall_internproc];
mutexclpotype : [];
mutexclpo : []
),(
idtok:_OVERRIDE;
pd_flags : pd_interface+pd_object;
handler : {$ifndef TP}@{$endif}pd_override;
pocall : [];
pooption : [po_overridingmethod,po_virtualmethod];
mutexclpocall : [pocall_inline,pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_exports,po_external,po_interrupt]
),(
idtok:_PASCAL;
pd_flags : pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : [pocall_leftright];
pooption : [];
mutexclpocall : [pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_POPSTACK;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : [pocall_clearstack];
pooption : [];
mutexclpocall : [pocall_inline,pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_assembler,po_external]
),(
idtok:_PUBLIC;
pd_flags : pd_implemen+pd_body+pd_global+pd_notobject;
handler : nil;
pocall : [];
pooption : [];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_REGISTER;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : {$ifndef TP}@{$endif}pd_register;
pocall : [pocall_register];
pooption : [];
mutexclpocall : [pocall_leftright,pocall_cdecl,pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_SAFECALL;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : {$ifndef TP}@{$endif}pd_safecall;
pocall : [pocall_safecall];
pooption : [po_savestdregs];
mutexclpocall : [pocall_leftright,pocall_cdecl,pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_SAVEREGISTERS;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : [];
pooption : [po_saveregisters];
mutexclpocall : [pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_STATIC;
pd_flags : pd_interface+pd_object;
handler : {$ifndef TP}@{$endif}pd_static;
pocall : [];
pooption : [po_staticmethod];
mutexclpocall : [pocall_inline,pocall_internproc];
mutexclpotype : [potype_constructor,potype_destructor];
mutexclpo : [po_external,po_interrupt,po_exports]
),(
idtok:_STDCALL;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : {$ifndef TP}@{$endif}pd_stdcall;
pocall : [pocall_stdcall];
pooption : [po_savestdregs];
mutexclpocall : [pocall_leftright,pocall_cdecl,pocall_inline,pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_SYSCALL;
pd_flags : pd_interface;
handler : {$ifndef TP}@{$endif}pd_syscall;
pocall : [pocall_palmossyscall];
pooption : [];
mutexclpocall : [pocall_cdecl,pocall_inline,pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external,po_assembler,po_interrupt,po_exports]
),(
idtok:_SYSTEM;
pd_flags : pd_implemen;
handler : {$ifndef TP}@{$endif}pd_system;
pocall : [pocall_clearstack];
pooption : [];
mutexclpocall : [pocall_leftright,pocall_inline,pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external,po_assembler,po_interrupt]
),(
idtok:_VIRTUAL;
pd_flags : pd_interface+pd_object;
handler : {$ifndef TP}@{$endif}pd_virtual;
pocall : [];
pooption : [po_virtualmethod];
mutexclpocall : [pocall_inline,pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external,po_interrupt,po_exports]
)
);
function is_proc_directive(tok:ttoken):boolean;
var
i : longint;
begin
is_proc_directive:=false;
for i:=1 to num_proc_directives do
if proc_direcdata[i].idtok=idtoken then
begin
is_proc_directive:=true;
exit;
end;
end;
function parse_proc_direc(const proc_names:Tstringcontainer;var pdflags:word):boolean;
{
Parse the procedure directive, returns true if a correct directive is found
}
var
p : longint;
found : boolean;
name : string;
begin
parse_proc_direc:=false;
name:=pattern;
found:=false;
for p:=1 to num_proc_directives do
if proc_direcdata[p].idtok=idtoken then
begin
found:=true;
break;
end;
{ Check if the procedure directive is known }
if not found then
begin
{ parsing a procvar type the name can be any
next variable !! }
if (pdflags and (pd_procvar or pd_object))=0 then
Message1(parser_w_unknown_proc_directive_ignored,name);
exit;
end;
{ static needs a special treatment }
if (idtoken=_STATIC) and not (cs_static_keyword in aktmoduleswitches) then
exit;
{ Conflicts between directives ? }
if (aktprocsym^.definition^.proctypeoption in proc_direcdata[p].mutexclpotype) or
((aktprocsym^.definition^.proccalloptions*proc_direcdata[p].mutexclpocall)<>[]) or
((aktprocsym^.definition^.procoptions*proc_direcdata[p].mutexclpo)<>[]) then
begin
Message1(parser_e_proc_dir_conflict,name);
exit;
end;
{ Check if the directive is only for objects }
if ((proc_direcdata[p].pd_flags and pd_object)<>0) and
not assigned(aktprocsym^.definition^._class) then
begin
exit;
end;
{ check if method and directive not for object public }
if ((proc_direcdata[p].pd_flags and pd_notobject)<>0) and
assigned(aktprocsym^.definition^._class) then
begin
exit;
end;
{ consume directive, and turn flag on }
consume(token);
parse_proc_direc:=true;
{ Check the pd_flags if the directive should be allowed }
if ((pdflags and pd_interface)<>0) and
((proc_direcdata[p].pd_flags and pd_interface)=0) then
begin
Message1(parser_e_proc_dir_not_allowed_in_interface,name);
exit;
end;
if ((pdflags and pd_implemen)<>0) and
((proc_direcdata[p].pd_flags and pd_implemen)=0) then
begin
Message1(parser_e_proc_dir_not_allowed_in_implementation,name);
exit;
end;
if ((pdflags and pd_procvar)<>0) and
((proc_direcdata[p].pd_flags and pd_procvar)=0) then
begin
Message1(parser_e_proc_dir_not_allowed_in_procvar,name);
exit;
end;
{ Return the new pd_flags }
if (proc_direcdata[p].pd_flags and pd_body)=0 then
pdflags:=pdflags and (not pd_body);
if (proc_direcdata[p].pd_flags and pd_global)<>0 then
pdflags:=pdflags or pd_global;
{ Add the correct flag }
aktprocsym^.definition^.proccalloptions:=aktprocsym^.definition^.proccalloptions+proc_direcdata[p].pocall;
aktprocsym^.definition^.procoptions:=aktprocsym^.definition^.procoptions+proc_direcdata[p].pooption;
{ Adjust positions of args for cdecl or stdcall }
if (aktprocsym^.definition^.deftype=procdef) and
(([pocall_cdecl,pocall_stdcall]*aktprocsym^.definition^.proccalloptions)<>[]) then
aktprocsym^.definition^.parast^.set_alignment(target_os.size_of_longint);
{ Call the handler }
if pointer({$ifndef FPC}@{$endif}proc_direcdata[p].handler)<>nil then
proc_direcdata[p].handler(proc_names);
end;
{***************************************************************************}
function check_identical(var p : pprocdef) : boolean;
{
Search for idendical definitions,
if there is a forward, then kill this.
Returns the result of the forward check.
Removed from unter_dec to keep the source readable
}
var
hd,pd : Pprocdef;
storeparast : psymtable;
ad,fd : psym;
s : string;
begin
check_identical:=false;
p:=nil;
pd:=aktprocsym^.definition;
if assigned(pd) then
begin
{ Is there an overload/forward ? }
if assigned(pd^.nextoverloaded) then
begin
{ walk the procdef list }
while (assigned(pd)) and (assigned(pd^.nextoverloaded)) do
begin
if not(m_repeat_forward in aktmodeswitches) or
(equal_paras(aktprocsym^.definition^.para,pd^.nextoverloaded^.para,false) and
{ for operators equal_paras is not enough !! }
((aktprocsym^.definition^.proctypeoption<>potype_operator) or (optoken<>_ASSIGNMENT) or
is_equal(pd^.nextoverloaded^.retdef,aktprocsym^.definition^.retdef))) then
begin
if pd^.nextoverloaded^.forwarddef then
{ remove the forward definition but don't delete it, }
{ the symtable is the owner !! }
begin
hd:=pd^.nextoverloaded;
{ Check if the procedure type and return type are correct }
if (hd^.proctypeoption<>aktprocsym^.definition^.proctypeoption) or
(not(is_equal(hd^.retdef,aktprocsym^.definition^.retdef)) and
(m_repeat_forward in aktmodeswitches)) then
begin
Message1(parser_e_header_dont_match_forward,aktprocsym^.demangledName);
exit;
end;
{ Check calling convention, no check for internconst,internproc which
are only defined in interface or implementation }
if (hd^.proccalloptions-[pocall_internconst,pocall_internproc]<>
aktprocsym^.definition^.proccalloptions-[pocall_internconst,pocall_internproc]) then
begin
{ only trigger an error, becuase it doesn't hurt }
Message(parser_e_call_convention_dont_match_forward);
end;
{ manglednames are equal? }
hd^.count:=false;
if (m_repeat_forward in aktmodeswitches) or
aktprocsym^.definition^.haspara then
begin
if (hd^.mangledname<>aktprocsym^.definition^.mangledname) then
begin
{ When overloading is not possible then we issue an error }
{ This is not true, tp7/delphi don't give an error when a renamed
type is used in the other declaration (PFV)
if not(m_repeat_forward in aktmodeswitches) then
begin
Message1(parser_e_header_dont_match_forward,aktprocsym^.demangledName);
exit;
end; }
if not(po_external in aktprocsym^.definition^.procoptions) then
Message2(parser_n_interface_name_diff_implementation_name,hd^.mangledname,
aktprocsym^.definition^.mangledname);
{ reset the mangledname of the interface part to be sure }
{ this is wrong because the mangled name might have been used already !! }
if hd^.is_used then
renameasmsymbol(hd^.mangledname,aktprocsym^.definition^.mangledname);
hd^.setmangledname(aktprocsym^.definition^.mangledname);
{ so we need to keep the name of interface !!
No!!!! The procedure directives can change the mangledname.
I fixed this by first calling check_identical and then doing
the proc directives, but this is not a good solution.(DM)}
{ this is also wrong (PM)
aktprocsym^.definition^.setmangledname(hd^.mangledname);}
end
else
begin
{ If mangled names are equal, therefore }
{ they have the same number of parameters }
{ Therefore we can check the name of these }
{ parameters... }
if hd^.forwarddef and aktprocsym^.definition^.forwarddef then
begin
Message1(parser_e_function_already_declared_public_forward,aktprocsym^.demangledName);
Check_identical:=true;
{ Remove other forward from the list to reduce errors }
pd^.nextoverloaded:=pd^.nextoverloaded^.nextoverloaded;
exit;
end;
ad:=psym(hd^.parast^.symindex^.first);
fd:=psym(aktprocsym^.definition^.parast^.symindex^.first);
if assigned(ad) and assigned(fd) then
begin
while assigned(ad) and assigned(fd) do
begin
s:=ad^.name;
if s<>fd^.name then
begin
Message3(parser_e_header_different_var_names,
aktprocsym^.name,s,fd^.name);
break;
end;
{ it is impossible to have a nil pointer }
{ for only one parameter - since they }
{ have the same number of parameters. }
{ Left = next parameter. }
ad:=psym(ad^.left);
fd:=psym(fd^.left);
end;
end;
end;
end;
{ also the call_offset }
hd^.parast^.address_fixup:=aktprocsym^.definition^.parast^.address_fixup;
hd^.count:=true;
{ remove pd^.nextoverloaded from the list }
{ and add aktprocsym^.definition }
pd^.nextoverloaded:=pd^.nextoverloaded^.nextoverloaded;
hd^.nextoverloaded:=aktprocsym^.definition^.nextoverloaded;
{ Alert! All fields of aktprocsym^.definition that are modified
by the procdir handlers must be copied here!.}
hd^.forwarddef:=false;
hd^.proccalloptions:=hd^.proccalloptions + aktprocsym^.definition^.proccalloptions;
hd^.procoptions:=hd^.procoptions + aktprocsym^.definition^.procoptions;
if aktprocsym^.definition^.extnumber=-1 then
aktprocsym^.definition^.extnumber:=hd^.extnumber
else
if hd^.extnumber=-1 then
hd^.extnumber:=aktprocsym^.definition^.extnumber;
{ switch parast for warning in implementation PM }
if (m_repeat_forward in aktmodeswitches) or
aktprocsym^.definition^.haspara then
begin
storeparast:=hd^.parast;
hd^.parast:=aktprocsym^.definition^.parast;
aktprocsym^.definition^.parast:=storeparast;
end;
if pd=aktprocsym^.definition then
p:=nil
else
p:=pd;
aktprocsym^.definition:=hd;
check_identical:=true;
end
else
{ abstract methods aren't forward defined, but this }
{ needs another error message }
if not(po_abstractmethod in pd^.nextoverloaded^.procoptions) then
Message(parser_e_overloaded_have_same_parameters)
else
Message(parser_e_abstract_no_definition);
break;
end;
pd:=pd^.nextoverloaded;
end;
end
else
begin
{ there is no overloaded, so its always identical with itself }
check_identical:=true;
end;
end;
{ insert opsym only in the right symtable }
if ((procinfo^.flags and pi_operator)<>0) and assigned(opsym)
and not parse_only then
begin
if ret_in_param(aktprocsym^.definition^.retdef) then
begin
pprocdef(aktprocsym^.definition)^.parast^.insert(opsym);
{ this increases the data size }
{ correct this to get the right ret $value }
dec(pprocdef(aktprocsym^.definition)^.parast^.datasize,opsym^.getpushsize);
{ this allows to read the funcretoffset }
opsym^.address:=-4;
opsym^.varspez:=vs_var;
end
else
pprocdef(aktprocsym^.definition)^.localst^.insert(opsym);
end;
end;
procedure compile_proc_body(const proc_names:Tstringcontainer;
make_global,parent_has_class:boolean);
{
Compile the body of a procedure
}
var
oldexitlabel,oldexit2label : pasmlabel;
oldfaillabel,oldquickexitlabel:Pasmlabel;
_class,hp:Pobjectdef;
{ switches can change inside the procedure }
entryswitches, exitswitches : tlocalswitches;
{ code for the subroutine as tree }
{$ifdef newcg}
code:pnode;
{$else newcg}
code:ptree;
{$endif newcg}
{ size of the local strackframe }
stackframe:longint;
{ true when no stackframe is required }
nostackframe:boolean;
{ number of bytes which have to be cleared by RET }
parasize:longint;
{ filepositions }
entrypos,
savepos,
exitpos : tfileposinfo;
begin
{ calculate the lexical level }
inc(lexlevel);
if lexlevel>32 then
Message(parser_e_too_much_lexlevel);
{ static is also important for local procedures !! }
if (po_staticmethod in aktprocsym^.definition^.procoptions) then
allow_only_static:=true
else if (lexlevel=normal_function_level) then
allow_only_static:=false;
{ save old labels }
oldexitlabel:=aktexitlabel;
oldexit2label:=aktexit2label;
oldquickexitlabel:=quickexitlabel;
oldfaillabel:=faillabel;
{ get new labels }
getlabel(aktexitlabel);
getlabel(aktexit2label);
{ exit for fail in constructors }
if (aktprocsym^.definition^.proctypeoption=potype_constructor) then
begin
getlabel(faillabel);
getlabel(quickexitlabel);
end;
{ reset break and continue labels }
block_type:=bt_general;
aktbreaklabel:=nil;
aktcontinuelabel:=nil;
{ insert symtables for the class, by only if it is no nested function }
if assigned(procinfo^._class) and not(parent_has_class) then
begin
{ insert them in the reverse order ! }
hp:=nil;
repeat
_class:=procinfo^._class;
while _class^.childof<>hp do
_class:=_class^.childof;
hp:=_class;
_class^.symtable^.next:=symtablestack;
symtablestack:=_class^.symtable;
until hp=procinfo^._class;
end;
{ insert parasymtable in symtablestack}
{ only if lexlevel > 1 !!! global symtable should be right after staticsymtazble
for checking of same names used in interface and implementation !! }
if lexlevel>=normal_function_level then
begin
aktprocsym^.definition^.parast^.next:=symtablestack;
symtablestack:=aktprocsym^.definition^.parast;
symtablestack^.symtablelevel:=lexlevel;
end;
{ insert localsymtable in symtablestack}
aktprocsym^.definition^.localst^.next:=symtablestack;
symtablestack:=aktprocsym^.definition^.localst;
symtablestack^.symtablelevel:=lexlevel;
{ constant symbols are inserted in this symboltable }
constsymtable:=symtablestack;
{ reset the temporary memory }
cleartempgen;
{$ifdef newcg}
tg.usedinproc:=[];
{$else newcg}
{ no registers are used }
usedinproc:=0;
{$endif newcg}
{ save entry info }
entrypos:=aktfilepos;
entryswitches:=aktlocalswitches;
{$ifdef newcg}
{ parse the code ... }
if (po_assembler in aktprocsym^.definition^.procoptions) then
code:=convtree2node(assembler_block)
else
code:=convtree2node(block(current_module^.islibrary));
{$else newcg}
{ parse the code ... }
if (po_assembler in aktprocsym^.definition^.procoptions) then
code:=assembler_block
else
code:=block(current_module^.islibrary);
{$endif newcg}
{ get a better entry point }
if assigned(code) then
entrypos:=code^.fileinfo;
{ save exit info }
exitswitches:=aktlocalswitches;
exitpos:=last_endtoken_filepos;
{ save current filepos }
savepos:=aktfilepos;
{When we are called to compile the body of a unit, aktprocsym should
point to the unit initialization. If the unit has no initialization,
aktprocsym=nil. But in that case code=nil. hus we should check for
code=nil, when we use aktprocsym.}
{ set the framepointer to esp for assembler functions }
{ but only if the are no local variables }
{ already done in assembler_block }
{$ifdef newcg}
tg.setfirsttemp(procinfo^.firsttemp);
{$else newcg}
setfirsttemp(procinfo^.firsttemp);
{$endif newcg}
{ ... and generate assembler }
{ but set the right switches for entry !! }
aktlocalswitches:=entryswitches;
{$ifndef NOPASS2}
{$ifdef newcg}
tg.setfirsttemp(procinfo^.firsttemp);
{$else newcg}
if assigned(code) then
generatecode(code);
{$endif newcg}
{ set switches to status at end of procedure }
aktlocalswitches:=exitswitches;
if assigned(code) then
begin
aktprocsym^.definition^.code:=code;
{ the procedure is now defined }
aktprocsym^.definition^.forwarddef:=false;
{$ifdef newcg}
aktprocsym^.definition^.usedregisters:=tg.usedinproc;
{$else newcg}
aktprocsym^.definition^.usedregisters:=usedinproc;
{$endif newcg}
end;
{$ifdef newcg}
stackframe:=tg.gettempsize;
{$else newcg}
stackframe:=gettempsize;
{$endif newcg}
{ first generate entry code with the correct position and switches }
aktfilepos:=entrypos;
aktlocalswitches:=entryswitches;
{$ifdef newcg}
if assigned(code) then
cg^.g_entrycode(procinfo^.aktentrycode,proc_names,make_global,stackframe,parasize,nostackframe,false);
{$else newcg}
if assigned(code) then
genentrycode(procinfo^.aktentrycode,proc_names,make_global,stackframe,parasize,nostackframe,false);
{$endif newcg}
{ now generate exit code with the correct position and switches }
aktfilepos:=exitpos;
aktlocalswitches:=exitswitches;
if assigned(code) then
begin
{$ifdef newcg}
cg^.g_exitcode(procinfo^.aktexitcode,parasize,nostackframe,false);
{$else newcg}
genexitcode(procinfo^.aktexitcode,parasize,nostackframe,false);
{$endif newcg}
procinfo^.aktproccode^.insertlist(procinfo^.aktentrycode);
procinfo^.aktproccode^.concatlist(procinfo^.aktexitcode);
{$ifdef i386}
{$ifndef NoOpt}
if (cs_optimize in aktglobalswitches) and
{ do not optimize pure assembler procedures }
((procinfo^.flags and pi_is_assembler)=0) then
Optimize(procinfo^.aktproccode);
{$endif NoOpt}
{$endif}
{ save local data (casetable) also in the same file }
if assigned(procinfo^.aktlocaldata) and
(not procinfo^.aktlocaldata^.empty) then
begin
procinfo^.aktproccode^.concat(new(pai_section,init(sec_data)));
procinfo^.aktproccode^.concatlist(procinfo^.aktlocaldata);
end;
{ now we can insert a cut }
if (cs_create_smart in aktmoduleswitches) then
codesegment^.concat(new(pai_cut,init));
{ add the procedure to the codesegment }
codesegment^.concatlist(procinfo^.aktproccode);
end;
{$else}
if assigned(code) then
firstpass(code);
{$endif NOPASS2}
{ ... remove symbol tables, for the browser leave the static table }
{ if (cs_browser in aktmoduleswitches) and (symtablestack^.symtabletype=staticsymtable) then
symtablestack^.next:=symtablestack^.next^.next
else }
if lexlevel>=normal_function_level then
symtablestack:=symtablestack^.next^.next
else
symtablestack:=symtablestack^.next;
{ ... check for unused symbols }
{ but only if there is no asm block }
if assigned(code) then
begin
if (Errorcount=0) then
begin
aktprocsym^.definition^.localst^.check_forwards;
aktprocsym^.definition^.localst^.checklabels;
end;
if (procinfo^.flags and pi_uses_asm)=0 then
begin
{ not for unit init, becuase the var can be used in finalize,
it will be done in proc_unit }
if not(aktprocsym^.definition^.proctypeoption in [potype_unitinit,potype_unitfinalize]) then
aktprocsym^.definition^.localst^.allsymbolsused;
aktprocsym^.definition^.parast^.allsymbolsused;
end;
end;
{ the local symtables can be deleted, but the parast }
{ doesn't, (checking definitons when calling a }
{ function }
{ not for a inline procedure !! (PM) }
{ at lexlevel = 1 localst is the staticsymtable itself }
{ so no dispose here !! }
if assigned(code) and
not(cs_browser in aktmoduleswitches) and
not(pocall_inline in aktprocsym^.definition^.proccalloptions) then
begin
if lexlevel>=normal_function_level then
dispose(aktprocsym^.definition^.localst,done);
aktprocsym^.definition^.localst:=nil;
end;
{ only now we can remove the temps }
resettempgen;
{ remove code tree, if not inline procedure }
if assigned(code) and not(pocall_inline in aktprocsym^.definition^.proccalloptions) then
{$ifdef newcg}
dispose(code,done);
{$else newcg}
disposetree(code);
{$endif newcg}
{ remove class member symbol tables }
while symtablestack^.symtabletype=objectsymtable do
symtablestack:=symtablestack^.next;
{ restore filepos, the switches are already set }
aktfilepos:=savepos;
{ free labels }
freelabel(aktexitlabel);
freelabel(aktexit2label);
if (aktprocsym^.definition^.proctypeoption=potype_constructor) then
begin
freelabel(faillabel);
freelabel(quickexitlabel);
end;
{ restore labels }
aktexitlabel:=oldexitlabel;
aktexit2label:=oldexit2label;
quickexitlabel:=oldquickexitlabel;
faillabel:=oldfaillabel;
{ reset to normal non static function }
if (lexlevel=normal_function_level) then
allow_only_static:=false;
{ previous lexlevel }
dec(lexlevel);
end;
procedure parse_proc_directives(Anames:Pstringcontainer;var pdflags:word);
{
Parse the procedure directives. It does not matter if procedure directives
are written using ;procdir; or ['procdir'] syntax.
}
var
res : boolean;
begin
while token in [_ID,_LECKKLAMMER] do
begin
if try_to_consume(_LECKKLAMMER) then
begin
repeat
parse_proc_direc(Anames^,pdflags);
until not try_to_consume(_COMMA);
consume(_RECKKLAMMER);
{ we always expect at least '[];' }
res:=true;
end
else
res:=parse_proc_direc(Anames^,pdflags);
{ A procedure directive normally followed by a semicolon, but in
a const section we should stop when _EQUAL is found }
if res then
begin
if (block_type=bt_const) and
(token=_EQUAL) then
break;
consume(_SEMICOLON);
end
else
break;
end;
end;
procedure parse_var_proc_directives(var sym : psym);
var
anames : pstringcontainer;
pdflags : word;
oldsym : pprocsym;
pd : pabstractprocdef;
begin
oldsym:=aktprocsym;
anames:=new(pstringcontainer,init);
pdflags:=pd_procvar;
{ we create a temporary aktprocsym to read the directives }
aktprocsym:=new(pprocsym,init(sym^.name));
case sym^.typ of
varsym :
pd:=pabstractprocdef(pvarsym(sym)^.definition);
typedconstsym :
pd:=pabstractprocdef(ptypedconstsym(sym)^.definition);
typesym :
pd:=pabstractprocdef(ptypesym(sym)^.definition);
else
internalerror(994932432);
end;
if pd^.deftype<>procvardef then
internalerror(994932433);
pabstractprocdef(aktprocsym^.definition):=pd;
{ names should never be used anyway }
inc(lexlevel);
parse_proc_directives(anames,pdflags);
dec(lexlevel);
aktprocsym^.definition:=nil;
dispose(aktprocsym,done);
dispose(anames,done);
aktprocsym:=oldsym;
end;
procedure parse_object_proc_directives(var sym : pprocsym);
var
anames : pstringcontainer;
pdflags : word;
begin
pdflags:=pd_object;
anames:=new(pstringcontainer,init);
inc(lexlevel);
parse_proc_directives(anames,pdflags);
dec(lexlevel);
dispose(anames,done);
if (po_containsself in aktprocsym^.definition^.procoptions) and
(([po_msgstr,po_msgint]*aktprocsym^.definition^.procoptions)=[]) then
Message(parser_e_self_in_non_message_handler);
end;
procedure checkvaluepara(p:pnamedindexobject);{$ifndef FPC}far;{$endif}
var
vs : pvarsym;
s : string;
begin
with pvarsym(p)^ do
begin
if copy(name,1,3)='val' then
begin
s:=Copy(name,4,255);
if not(po_assembler in aktprocsym^.definition^.procoptions) then
begin
vs:=new(Pvarsym,init(s,definition));
vs^.fileinfo:=fileinfo;
vs^.varspez:=varspez;
aktprocsym^.definition^.localst^.insert(vs);
vs^.islocalcopy:=true;
vs^.varstate:=vs_used;
localvarsym:=vs;
end
else
begin
aktprocsym^.definition^.parast^.rename(name,s);
end;
end;
end;
end;
procedure read_proc;
{
Parses the procedure directives, then parses the procedure body, then
generates the code for it
}
var
oldprefix : string;
oldprocsym : Pprocsym;
oldprocinfo : pprocinfo;
oldconstsymtable : Psymtable;
oldfilepos : tfileposinfo;
names : Pstringcontainer;
pdflags : word;
prevdef,stdef : pprocdef;
begin
{ save old state }
oldprocsym:=aktprocsym;
oldprefix:=procprefix;
oldconstsymtable:=constsymtable;
oldprocinfo:=procinfo;
{ create a new procedure }
new(names,init);
codegen_newprocedure;
with procinfo^ do
begin
parent:=oldprocinfo;
{ clear flags }
flags:=0;
{ standard frame pointer }
framepointer:=frame_pointer;
funcret_is_valid:=false;
{ is this a nested function of a method ? }
if assigned(oldprocinfo) then
_class:=oldprocinfo^._class;
end;
parse_proc_dec;
{ set the default function options }
if parse_only then
begin
aktprocsym^.definition^.forwarddef:=true;
{ set also the interface flag, for better error message when the
implementation doesn't much this header }
aktprocsym^.definition^.interfacedef:=true;
pdflags:=pd_interface;
end
else
begin
pdflags:=pd_body;
if current_module^.in_implementation then
pdflags:=pdflags or pd_implemen;
if (not current_module^.is_unit) or (cs_create_smart in aktmoduleswitches) then
pdflags:=pdflags or pd_global;
procinfo^.exported:=false;
aktprocsym^.definition^.forwarddef:=false;
end;
{ parse the directives that may follow }
inc(lexlevel);
parse_proc_directives(names,pdflags);
dec(lexlevel);
{ set aktfilepos to the beginning of the function declaration }
oldfilepos:=aktfilepos;
aktfilepos:=aktprocsym^.definition^.fileinfo;
{ search for forward declarations }
if not check_identical(prevdef) then
begin
{ A method must be forward defined (in the object declaration) }
if assigned(procinfo^._class) and (not assigned(oldprocinfo^._class)) then
Message(parser_e_header_dont_match_any_member);
{ Give a better error if there is a forward def in the interface and only
a single implementation }
if (not aktprocsym^.definition^.forwarddef) and
assigned(aktprocsym^.definition^.nextoverloaded) and
aktprocsym^.definition^.nextoverloaded^.forwarddef and
aktprocsym^.definition^.nextoverloaded^.interfacedef and
not(assigned(aktprocsym^.definition^.nextoverloaded^.nextoverloaded)) then
Message1(parser_e_header_dont_match_forward,aktprocsym^.demangledName)
else
begin
{ check the global flag }
if (procinfo^.flags and pi_is_global)<>0 then
Message(parser_e_overloaded_must_be_all_global);
end
end;
{ set return type here, becuase the aktprocsym^.definition can be
changed by check_identical (PFV) }
procinfo^.retdef:=aktprocsym^.definition^.retdef;
{ pointer to the return value ? }
if ret_in_param(procinfo^.retdef) then
begin
procinfo^.retoffset:=procinfo^.call_offset;
inc(procinfo^.call_offset,target_os.size_of_pointer);
end;
{ allows to access the parameters of main functions in nested functions }
aktprocsym^.definition^.parast^.address_fixup:=procinfo^.call_offset;
{ when it is a value para and it needs a local copy then rename
the parameter and insert a copy in the localst. This is not done
for assembler procedures }
if (not parse_only) and (not aktprocsym^.definition^.forwarddef) then
aktprocsym^.definition^.parast^.foreach({$ifndef TP}@{$endif}checkvaluepara);
{ restore file pos }
aktfilepos:=oldfilepos;
{ compile procedure when a body is needed }
if (pdflags and pd_body)<>0 then
begin
Message1(parser_p_procedure_start,aktprocsym^.demangledname);
names^.insert(aktprocsym^.definition^.mangledname);
{ set _FAIL as keyword if constructor }
if (aktprocsym^.definition^.proctypeoption=potype_constructor) then
tokeninfo^[_FAIL].keyword:=m_all;
if assigned(aktprocsym^.definition^._class) then
tokeninfo^[_SELF].keyword:=m_all;
compile_proc_body(names^,((pdflags and pd_global)<>0),assigned(oldprocinfo^._class));
{ reset _FAIL as normal }
if (aktprocsym^.definition^.proctypeoption=potype_constructor) then
tokeninfo^[_FAIL].keyword:=m_none;
if assigned(aktprocsym^.definition^._class) and (lexlevel=main_program_level) then
tokeninfo^[_SELF].keyword:=m_none;
consume(_SEMICOLON);
end;
{ close }
dispose(names,done);
codegen_doneprocedure;
{ Restore old state }
constsymtable:=oldconstsymtable;
{ from now on all refernece to mangledname means
that the function is already used }
aktprocsym^.definition^.count:=true;
{ restore the interface order to maintain CRC values PM }
if assigned(prevdef) and assigned(aktprocsym^.definition^.nextoverloaded) then
begin
stdef:=aktprocsym^.definition;
aktprocsym^.definition:=stdef^.nextoverloaded;
stdef^.nextoverloaded:=prevdef^.nextoverloaded;
prevdef^.nextoverloaded:=stdef;
end;
aktprocsym:=oldprocsym;
procprefix:=oldprefix;
procinfo:=oldprocinfo;
opsym:=nil;
end;
end.
{
$Log$
Revision 1.33 1999-11-09 23:43:08 pierre
* better browser info
Revision 1.32 1999/11/09 23:06:45 peter
* esi_offset -> selfpointer_offset to be newcg compatible
* hcogegen -> cgbase fixes for newcg
Revision 1.31 1999/11/06 14:34:23 peter
* truncated log to 20 revs
Revision 1.30 1999/10/26 12:30:44 peter
* const parameter is now checked
* better and generic check if a node can be used for assigning
* export fixes
* procvar equal works now (it never had worked at least from 0.99.8)
* defcoll changed to linkedlist with pparaitem so it can easily be
walked both directions
Revision 1.29 1999/10/22 10:39:35 peter
* split type reading from pdecl to ptype unit
* parameter_dec routine is now used for procedure and procvars
Revision 1.28 1999/10/13 10:37:36 peter
* moved mangledname creation of normal proc so it also handles a wrong
method proc
Revision 1.27 1999/10/12 21:20:46 florian
* new codegenerator compiles again
Revision 1.26 1999/10/03 19:38:39 peter
* fixed forward decl check for tp7/delphi
Revision 1.25 1999/10/01 10:05:44 peter
+ procedure directive support in const declarations, fixes bug 232
Revision 1.24 1999/10/01 08:02:47 peter
* forward type declaration rewritten
Revision 1.23 1999/09/27 23:44:56 peter
* procinfo is now a pointer
* support for result setting in sub procedure
Revision 1.22 1999/09/20 16:39:00 peter
* cs_create_smart instead of cs_smartlink
* -CX is create smartlink
* -CD is create dynamic, but does nothing atm.
Revision 1.21 1999/09/15 20:35:42 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 1.20 1999/09/10 18:48:09 florian
* some bug fixes (e.g. must_be_valid and procinfo^.funcret_is_valid)
* most things for stored properties fixed
Revision 1.19 1999/09/07 14:59:40 pierre
* bugfix for 237 and 244
Revision 1.18 1999/09/02 18:47:45 daniel
* Could not compile with TP, some arrays moved to heap
* NOAG386BIN default for TP
* AG386* files were not compatible with TP, fixed.
Revision 1.17 1999/08/30 10:17:57 peter
* fixed crash in psub
* ansistringcompare fixed
* support for #$0b8
Revision 1.16 1999/08/27 10:41:46 pierre
* pi_is_global was missing for global methods
+ code to restore overloaded list order
(necessary to get same CRC values after interface and after
implementation)
Revision 1.15 1999/08/19 13:02:11 pierre
+ label faillabel added for _FAIL support
Revision 1.14 1999/08/10 16:24:44 pierre
* linking to C code with cdecl;external; was broken
Revision 1.13 1999/08/10 12:37:44 pierre
+ procsym field of tprocdef set
Revision 1.12 1999/08/05 16:53:06 peter
* V_Fatal=1, all other V_ are also increased
* Check for local procedure when assigning procvar
* fixed comment parsing because directives
* oldtp mode directives better supported
* added some messages to errore.msg
Revision 1.11 1999/08/04 13:03:01 jonas
* all tokens now start with an underscore
* PowerPC compiles!!
}
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