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fb605f11b0
fpc/compiler/pdecsub.pas
carl 87aa88e9b7 + generic FPC_CHECKPOINTER 
+ first parameter offset in stack now portable
* rename some constants
+ move some cpu stuff to other units
- remove unused constents
* fix stacksize for some targets
* fix generic size problems which depend now on EXTEND_SIZE constant
2002-04-20 21:32:23 +00:00

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{
$Id$
Copyright (c) 1998-2001 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 pdecsub;
{$i defines.inc}
interface
uses
tokens,symconst,symtype,symdef,symsym;
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 }
pd_notobjintf= $80; { directive can not be used interface declaration }
function is_proc_directive(tok:ttoken):boolean;
procedure parameter_dec(aktprocdef:tabstractprocdef);
procedure parse_proc_directives(var pdflags:word);
procedure handle_calling_convention(sym:tprocsym;def:tabstractprocdef);
procedure parse_proc_head(options:tproctypeoption);
procedure parse_proc_dec;
procedure parse_var_proc_directives(var sym : tsym);
procedure parse_object_proc_directives(var sym : tprocsym);
function proc_add_definition(aprocsym:tprocsym;var aprocdef : tprocdef) : boolean;
implementation
uses
{$ifdef delphi}
sysutils,
{$else delphi}
strings,
{$endif delphi}
{ common }
cutils,cclasses,
{ global }
globtype,globals,verbose,
systems,cpubase,
{ aasm }
aasm,
{ symtable }
symbase,symtable,types,
{ pass 1 }
node,htypechk,
nmat,nadd,ncal,nset,ncnv,ninl,ncon,nld,nflw,
{ parser }
fmodule,scanner,
pbase,pexpr,ptype,pdecl,
{ linking }
import,gendef,
{ codegen }
cpuinfo,cgbase
;
procedure resetvaluepara(p:tnamedindexitem);
begin
if tsym(p).typ=varsym then
with tvarsym(p) do
if copy(name,1,3)='val' then
aktprocdef.parast.symsearch.rename(name,copy(name,4,length(name)));
end;
procedure parameter_dec(aktprocdef:tabstractprocdef);
{
handle_procvar needs the same changes
}
var
is_procvar : boolean;
sc : tidstringlist;
s : string;
hpos,
storetokenpos : tfileposinfo;
htype,
tt : ttype;
hvs,
vs : tvarsym;
srsym : tsym;
hs1 : string;
varspez : Tvarspez;
inserthigh : boolean;
tdefaultvalue : tconstsym;
defaultrequired : boolean;
old_object_option : tsymoptions;
begin
{ reset }
defaultrequired:=false;
{ parsing a proc or procvar ? }
is_procvar:=(aktprocdef.deftype=procvardef);
consume(_LKLAMMER);
{ Delphi/Kylix supports nonsense like }
{ procedure p(); }
if try_to_consume(_RKLAMMER) and
not(m_tp7 in aktmodeswitches) then
exit;
{ the variables are always public }
old_object_option:=current_object_option;
current_object_option:=[sp_public];
inc(testcurobject);
repeat
if try_to_consume(_VAR) then
varspez:=vs_var
else
if try_to_consume(_CONST) then
varspez:=vs_const
else
if (idtoken=_OUT) and (m_out in aktmodeswitches) then
begin
consume(_OUT);
varspez:=vs_out
end
else
varspez:=vs_value;
inserthigh:=false;
tdefaultvalue:=nil;
tt.reset;
{ self is only allowed in procvars and class methods }
if (idtoken=_SELF) and
(is_procvar or
(assigned(procinfo^._class) and is_class(procinfo^._class))) then
begin
if varspez <> vs_value then
CGMessage(parser_e_self_call_by_value);
if not is_procvar then
begin
htype.setdef(procinfo^._class);
vs:=tvarsym.create('@',htype);
vs.varspez:=vs_var;
{ insert the sym in the parasymtable }
tprocdef(aktprocdef).parast.insert(vs);
inc(procinfo^.selfpointer_offset,vs.address);
end
else
vs:=nil;
{ must also be included for procvars to allow the proc2procvar }
{ type conversions (po_containsself is in po_comp) (JM) }
include(aktprocdef.procoptions,po_containsself);
consume(idtoken);
consume(_COLON);
single_type(tt,hs1,false);
{ this must be call-by-value, but we generate already an }
{ an error above if that's not the case (JM) }
aktprocdef.concatpara(tt,vs,varspez,nil);
{ check the types for procedures only }
if not is_procvar then
CheckTypes(tt.def,procinfo^._class);
end
else
begin
{ read identifiers }
sc:=consume_idlist;
{$ifdef fixLeaksOnError}
strContStack.push(sc);
{$endif fixLeaksOnError}
{ read type declaration, force reading for value and const paras }
if (token=_COLON) or (varspez=vs_value) then
begin
consume(_COLON);
{ check for an open array }
if token=_ARRAY then
begin
consume(_ARRAY);
consume(_OF);
{ define range and type of range }
tt.setdef(tarraydef.create(0,-1,s32bittype));
{ array of const ? }
if (token=_CONST) and (m_objpas in aktmodeswitches) then
begin
consume(_CONST);
srsym:=searchsymonlyin(systemunit,'TVARREC');
if not assigned(srsym) then
InternalError(1234124);
tarraydef(tt.def).elementtype:=ttypesym(srsym).restype;
tarraydef(tt.def).IsArrayOfConst:=true;
end
else
begin
{ define field type }
single_type(tarraydef(tt.def).elementtype,hs1,false);
end;
inserthigh:=true;
end
else
begin
{ open string ? }
if (varspez=vs_var) and
(
(
((token=_STRING) or (idtoken=_SHORTSTRING)) and
(cs_openstring in aktmoduleswitches) and
not(cs_ansistrings in aktlocalswitches)
) or
(idtoken=_OPENSTRING)) then
begin
consume(token);
tt:=openshortstringtype;
hs1:='openstring';
inserthigh:=true;
end
else
begin
{ everything else }
single_type(tt,hs1,false);
end;
{ default parameter }
if (m_default_para in aktmodeswitches) then
begin
if try_to_consume(_EQUAL) then
begin
s:=sc.get(hpos);
if not sc.empty then
Comment(V_Error,'default value only allowed for one parameter');
sc.add(s,hpos);
{ prefix 'def' to the parameter name }
tdefaultvalue:=ReadConstant('$def'+Upper(s),hpos);
if assigned(tdefaultvalue) then
tprocdef(aktprocdef).parast.insert(tdefaultvalue);
defaultrequired:=true;
end
else
begin
if defaultrequired then
Comment(V_Error,'default parameter required');
end;
end;
end;
end
else
begin
{$ifndef UseNiceNames}
hs1:='$$$';
{$else UseNiceNames}
hs1:='var';
{$endif UseNiceNames}
tt:=cformaltype;
end;
storetokenpos:=akttokenpos;
while not sc.empty do
begin
s:=sc.get(akttokenpos);
{ For proc vars we only need the definitions }
if not is_procvar then
begin
vs:=tvarsym.create(s,tt);
vs.varspez:=varspez;
{ we have to add this to avoid var param to be in registers !!!}
{ I don't understand the comment above, }
{ but I suppose the comment is wrong and }
{ it means that the address of var parameters can be placed }
{ in a register (FK) }
if (varspez in [vs_var,vs_const,vs_out]) and push_addr_param(tt.def) then
include(vs.varoptions,vo_regable);
{ insert the sym in the parasymtable }
tprocdef(aktprocdef).parast.insert(vs);
{ do we need a local copy? Then rename the varsym, do this after the
insert so the dup id checking is done correctly }
if (varspez=vs_value) and
push_addr_param(tt.def) and
not(is_open_array(tt.def) or is_array_of_const(tt.def)) then
tprocdef(aktprocdef).parast.rename(vs.name,'val'+vs.name);
{ also need to push a high value? }
if inserthigh then
begin
hvs:=tvarsym.create('$high'+Upper(s),s32bittype);
hvs.varspez:=vs_const;
tprocdef(aktprocdef).parast.insert(hvs);
end;
end
else
vs:=nil;
aktprocdef.concatpara(tt,vs,varspez,tdefaultvalue);
end;
{$ifdef fixLeaksOnError}
if PStringContainer(strContStack.pop) <> sc then
writeln('problem with strContStack in pdecl (1)');
{$endif fixLeaksOnError}
sc.free;
akttokenpos:=storetokenpos;
end;
{ set the new mangled name }
until not try_to_consume(_SEMICOLON);
dec(testcurobject);
current_object_option:=old_object_option;
consume(_RKLAMMER);
end;
procedure parse_proc_head(options:tproctypeoption);
var
orgsp,sp:stringid;
paramoffset:longint;
sym:tsym;
doinsert : boolean;
st : tsymtable;
srsymtable : tsymtable;
pdl : pprocdeflist;
storepos,procstartfilepos : tfileposinfo;
i: longint;
begin
{ Save the position where this procedure really starts }
procstartfilepos:=akttokenpos;
aktprocdef:=nil;
if (options=potype_operator) then
begin
sp:=overloaded_names[optoken];
orgsp:=sp;
end
else
begin
sp:=pattern;
orgsp:=orgpattern;
consume(_ID);
end;
{ examine interface map: function/procedure iname.functionname=locfuncname }
if parse_only and
assigned(procinfo^._class) and
assigned(procinfo^._class.implementedinterfaces) and
(procinfo^._class.implementedinterfaces.count>0) and
try_to_consume(_POINT) then
begin
storepos:=akttokenpos;
akttokenpos:=procstartfilepos;
{ get interface syms}
searchsym(sp,sym,srsymtable);
if not assigned(sym) then
begin
identifier_not_found(orgsp);
sym:=generrorsym;
end;
akttokenpos:=storepos;
{ load proc name }
if sym.typ=typesym then
i:=procinfo^._class.implementedinterfaces.searchintf(ttypesym(sym).restype.def);
{ qualifier is interface name? }
if (sym.typ<>typesym) or (ttypesym(sym).restype.def.deftype<>objectdef) or
(i=-1) then
begin
Message(parser_e_interface_id_expected);
aktprocsym:=nil;
end
else
begin
aktprocsym:=tprocsym(procinfo^._class.implementedinterfaces.interfaces(i).symtable.search(sp));
{ the method can be declared after the mapping FK
if not(assigned(aktprocsym)) then
Message(parser_e_methode_id_expected);
}
end;
consume(_ID);
consume(_EQUAL);
if (token=_ID) { and assigned(aktprocsym) } then
procinfo^._class.implementedinterfaces.addmappings(i,sp,pattern);
consume(_ID);
exit;
end;
{ method ? }
if not(parse_only) and
(lexlevel=normal_function_level) and
try_to_consume(_POINT) then
begin
{ search for object name }
storepos:=akttokenpos;
akttokenpos:=procstartfilepos;
searchsym(sp,sym,srsymtable);
if not assigned(sym) then
begin
identifier_not_found(orgsp);
sym:=generrorsym;
end;
akttokenpos:=storepos;
{ consume proc name }
sp:=pattern;
orgsp:=orgpattern;
procstartfilepos:=akttokenpos;
consume(_ID);
{ qualifier is class name ? }
if (sym.typ<>typesym) or
(ttypesym(sym).restype.def.deftype<>objectdef) then
begin
Message(parser_e_class_id_expected);
aktprocsym:=nil;
aktprocdef:=nil;
end
else
begin
{ used to allow private syms to be seen }
aktobjectdef:=tobjectdef(ttypesym(sym).restype.def);
procinfo^._class:=tobjectdef(ttypesym(sym).restype.def);
aktprocsym:=tprocsym(procinfo^._class.symtable.search(sp));
{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);
akttokenpos:=procstartfilepos;
aktprocsym:=tprocsym(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) and
assigned(symtablestack.next) and
(symtablestack.next.unitid=0) then
begin
{Search the procedure in the global symtable.}
aktprocsym:=tprocsym(symtablestack.next.search(sp));
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;
doinsert:=true;
if assigned(aktprocsym) then
begin
{ Check if overloaded is a procsym }
if aktprocsym.typ<>procsym then
begin
{ when the other symbol is a unit symbol then hide the unit
symbol. Only in tp mode because it's bad programming }
if (m_duplicate_names in aktmodeswitches) and
(aktprocsym.typ=unitsym) then
begin
aktprocsym.owner.rename(aktprocsym.name,'hidden'+aktprocsym.name);
end
else
begin
{ we use a different error message for tp7 so it looks more compatible }
if (m_fpc in aktmodeswitches) then
Message1(parser_e_overloaded_no_procedure,aktprocsym.realname)
else
DuplicateSym(aktprocsym);
{ don't reinsert as that will generated another error }
doinsert:=false;
end;
{ generate a new aktprocsym }
aktprocsym:=nil;
end;
end;
{ test again if assigned, it can be reset to recover }
if not assigned(aktprocsym) then
begin
{ create a new procsym and set the real filepos }
akttokenpos:=procstartfilepos;
{ for operator we have only one procsym for each overloaded
operation }
if (options=potype_operator) then
begin
{ is the current overload sym already in the current unit }
if assigned(overloaded_operators[optoken]) and
(overloaded_operators[optoken].owner=symtablestack) then
aktprocsym:=overloaded_operators[optoken]
else
begin
{ create the procsym with saving the original case }
aktprocsym:=tprocsym.create('$'+sp);
{ add already known overloaded defs }
if assigned(overloaded_operators[optoken]) then
begin
pdl:=overloaded_operators[optoken].defs;
while assigned(pdl) do
begin
aktprocsym.addprocdef(pdl^.def);
pdl:=pdl^.next;
end;
end;
end;
end
else
aktprocsym:=tprocsym.create(orgsp);
if doinsert then
symtablestack.insert(aktprocsym);
end;
st:=symtablestack;
aktprocdef:=tprocdef.create;
aktprocdef.symtablelevel:=symtablestack.symtablelevel;
if assigned(procinfo^._class) then
aktprocdef._class := procinfo^._class;
{ set the options from the caller (podestructor or poconstructor) }
aktprocdef.proctypeoption:=options;
{ calculate the offset of the parameters }
paramoffset:=target_info.first_parm_offset;
{ calculate frame pointer offset }
if lexlevel>normal_function_level then
begin
procinfo^.framepointer_offset:=paramoffset;
inc(paramoffset,pointer_size);
{ this is needed to get correct framepointer push for local
forward functions !! }
aktprocdef.parast.symtablelevel:=lexlevel;
end;
if assigned (procinfo^._Class) and
is_object(procinfo^._Class) and
(aktprocdef.proctypeoption in [potype_constructor,potype_destructor]) then
inc(paramoffset,pointer_size);
{ 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(aktprocdef) and
not(po_containsself in aktprocdef.procoptions) then
inc(paramoffset,pointer_size);
end;
{ con/-destructor flag ? }
if assigned (procinfo^._Class) and
is_class(procinfo^._class) and
(aktprocdef.proctypeoption in [potype_destructor,potype_constructor]) then
inc(paramoffset,pointer_size);
procinfo^.para_offset:=paramoffset;
aktprocdef.parast.datasize:=0;
{ add procsym to the procdef }
aktprocdef.procsym:=aktprocsym;
{ save file position }
aktprocdef.fileinfo:=procstartfilepos;
{ 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(aktprocdef);
{ 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 assigned(aktprocsym) and
not(is_interface(aktprocdef._class)) and
not(aktprocdef.forwarddef) or
(m_repeat_forward in aktmodeswitches) then
begin
consume(_COLON);
consume_all_until(_SEMICOLON);
end;
end
else
begin
consume(_COLON);
inc(testcurobject);
single_type(aktprocdef.rettype,hs,false);
aktprocdef.test_if_fpu_result;
dec(testcurobject);
end;
end;
_PROCEDURE : begin
consume(_PROCEDURE);
parse_proc_head(potype_none);
if assigned(aktprocsym) then
aktprocdef.rettype:=voidtype;
end;
_CONSTRUCTOR : begin
consume(_CONSTRUCTOR);
parse_proc_head(potype_constructor);
if assigned(procinfo^._class) and
is_class(procinfo^._class) then
begin
{ CLASS constructors return the created instance }
aktprocdef.rettype.setdef(procinfo^._class);
end
else
begin
{ OBJECT constructors return a boolean }
aktprocdef.rettype:=booltype;
end;
end;
_DESTRUCTOR : begin
consume(_DESTRUCTOR);
parse_proc_head(potype_destructor);
aktprocdef.rettype:=voidtype;
end;
_OPERATOR : begin
if lexlevel>normal_function_level then
Message(parser_e_no_local_operator);
consume(_OPERATOR);
if (token in [first_overloaded..last_overloaded]) then
begin
procinfo^.flags:=procinfo^.flags or pi_operator;
optoken:=token;
end
else
begin
Message(parser_e_overload_operator_failed);
{ Use the dummy NOTOKEN that is also declared
for the overloaded_operator[] }
optoken:=NOTOKEN;
end;
consume(Token);
parse_proc_head(potype_operator);
if token<>_ID then
begin
otsym:=nil;
if not(m_result in aktmodeswitches) then
consume(_ID);
end
else
begin
otsym:=tvarsym.create(pattern,voidtype);
consume(_ID);
end;
if not try_to_consume(_COLON) then
begin
consume(_COLON);
aktprocdef.rettype:=generrortype;
consume_all_until(_SEMICOLON);
end
else
begin
single_type(aktprocdef.rettype,hs,false);
aktprocdef.test_if_fpu_result;
if (optoken in [_EQUAL,_GT,_LT,_GTE,_LTE]) and
((aktprocdef.rettype.def.deftype<>
orddef) or (torddef(aktprocdef.
rettype.def).typ<>bool8bit)) then
Message(parser_e_comparative_operator_return_boolean);
if assigned(otsym) then
otsym.vartype.def:=aktprocdef.rettype.def;
if (optoken=_ASSIGNMENT) and
is_equal(aktprocdef.rettype.def,
tvarsym(aktprocdef.parast.symindex.first).vartype.def) then
message(parser_e_no_such_assignment)
else if not isoperatoracceptable(aktprocdef,optoken) then
Message(parser_e_overload_impossible);
end;
end;
end;
if isclassmethod and
assigned(aktprocsym) then
include(aktprocdef.procoptions,po_classmethod);
{ support procedure proc;stdcall export; in Delphi mode only }
if not((m_delphi in aktmodeswitches) and
is_proc_directive(token)) then
consume(_SEMICOLON);
dec(lexlevel);
end;
{****************************************************************************
Procedure directive handlers
****************************************************************************}
procedure pd_far;
begin
Message(parser_w_proc_far_ignored);
end;
procedure pd_near;
begin
Message(parser_w_proc_near_ignored);
end;
procedure pd_export;
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
aktprocdef.aliasnames.insert(aktprocsym.realname);
procinfo^.exported:=true;
if cs_link_deffile in aktglobalswitches then
deffile.AddExport(aktprocdef.mangledname);
end;
end;
procedure pd_forward;
begin
aktprocdef.forwarddef:=true;
end;
procedure pd_alias;
begin
consume(_COLON);
aktprocdef.aliasnames.insert(get_stringconst);
end;
procedure pd_asmname;
begin
aktprocdef.setmangledname(target_info.Cprefix+pattern);
aktprocdef.has_mangledname:=true;
if token=_CCHAR then
consume(_CCHAR)
else
consume(_CSTRING);
{ we don't need anything else }
aktprocdef.forwarddef:=false;
end;
procedure pd_intern;
begin
consume(_COLON);
aktprocdef.extnumber:=get_intconst;
end;
procedure pd_interrupt;
begin
if lexlevel<>normal_function_level then
Message(parser_e_dont_nest_interrupt);
end;
procedure pd_abstract;
begin
if (po_virtualmethod in aktprocdef.procoptions) then
include(aktprocdef.procoptions,po_abstractmethod)
else
Message(parser_e_only_virtual_methods_abstract);
{ the method is defined }
aktprocdef.forwarddef:=false;
end;
procedure pd_virtual;
{$ifdef WITHDMT}
var
pt : tnode;
{$endif WITHDMT}
begin
if (aktprocdef.proctypeoption=potype_constructor) and
is_object(aktprocdef._class) then
Message(parser_e_constructor_cannot_be_not_virtual);
{$ifdef WITHDMT}
if is_object(aktprocdef._class) and
(token<>_SEMICOLON) then
begin
{ any type of parameter is allowed here! }
pt:=comp_expr(true);
if is_constintnode(pt) then
begin
include(aktprocdef.procoptions,po_msgint);
aktprocdef.messageinf.i:=pt^.value;
end
else
Message(parser_e_ill_msg_expr);
disposetree(pt);
end;
{$endif WITHDMT}
end;
procedure pd_static;
begin
if (cs_static_keyword in aktmoduleswitches) then
begin
include(aktprocsym.symoptions,sp_static);
include(aktprocdef.procoptions,po_staticmethod);
end;
end;
procedure pd_override;
begin
if not(is_class_or_interface(aktprocdef._class)) then
Message(parser_e_no_object_override);
end;
procedure pd_overload;
begin
include(aktprocsym.symoptions,sp_has_overloaded);
end;
procedure pd_message;
var
pt : tnode;
begin
{ check parameter type }
if not(po_containsself in aktprocdef.procoptions) and
((aktprocdef.minparacount<>1) or
(aktprocdef.maxparacount<>1) or
(TParaItem(aktprocdef.Para.first).paratyp<>vs_var)) then
Message(parser_e_ill_msg_param);
pt:=comp_expr(true);
if pt.nodetype=stringconstn then
begin
include(aktprocdef.procoptions,po_msgstr);
aktprocdef.messageinf.str:=strnew(tstringconstnode(pt).value_str);
end
else
if is_constintnode(pt) then
begin
include(aktprocdef.procoptions,po_msgint);
aktprocdef.messageinf.i:=tordconstnode(pt).value;
end
else
Message(parser_e_ill_msg_expr);
pt.free;
end;
procedure pd_reintroduce;
begin
Message1(parser_w_proc_directive_ignored,'REINTRODUCE');
end;
procedure pd_syscall;
begin
aktprocdef.forwarddef:=false;
aktprocdef.extnumber:=get_intconst;
end;
procedure pd_external;
{
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
aktprocdef.forwarddef:=false;
{ forbid local external procedures }
if lexlevel>normal_function_level then
Message(parser_e_no_local_external);
{ 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;
{ default is to used the realname of the procedure }
if (import_nr=0) and (import_name='') then
import_name:=aktprocsym.realname;
{ create importlib if not already done }
if not(current_module.uses_imports) then
begin
current_module.uses_imports:=true;
importlib.preparelib(current_module.modulename^);
end;
{$ifdef notused}
if not(m_repeat_forward in aktmodeswitches) and
{ if the procedure is declared with the overload option }
{ it requires a full declaration in the implementation part }
not(sp_has_overloaded in aktprocsym.symoptions) then
begin
{ we can only have one overloaded here ! }
if assigned(aktprocdef.defs.next) then
importlib.importprocedure(aktprocdef.defs.next.mangledname,
import_dll,import_nr,import_name)
else
importlib.importprocedure(aktprocdef.mangledname,import_dll,import_nr,import_name);
end
else
{$endif notused}
importlib.importprocedure(aktprocdef.mangledname,import_dll,import_nr,import_name);
end
else
begin
if (idtoken=_NAME) then
begin
consume(_NAME);
import_name:=get_stringconst;
aktprocdef.setmangledname(import_name);
aktprocdef.has_mangledname:=true;
end;
end;
end;
type
pd_handler=procedure;
proc_dir_rec=record
idtok : ttoken;
pd_flags : longint;
handler : pd_handler;
pocall : tproccalloption;
pooption : tprocoptions;
mutexclpocall : tproccalloptions;
mutexclpotype : tproctypeoptions;
mutexclpo : tprocoptions;
end;
const
{Should contain the number of procedure directives we support.}
num_proc_directives=36;
proc_direcdata:array[1..num_proc_directives] of proc_dir_rec=
(
(
idtok:_ABSTRACT;
pd_flags : pd_interface+pd_object+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_abstract;
pocall : pocall_none;
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+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_alias;
pocall : pocall_none;
pooption : [];
mutexclpocall : [pocall_inline];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_ASMNAME;
pd_flags : pd_interface+pd_implemen+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_asmname;
pocall : pocall_cdecl;
pooption : [po_external];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_ASSEMBLER;
pd_flags : pd_implemen+pd_body+pd_notobjintf;
handler : nil;
pocall : pocall_none;
pooption : [po_assembler];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_CDECL;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : pocall_cdecl;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_assembler,po_external]
),(
idtok:_DYNAMIC;
pd_flags : pd_interface+pd_object+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_virtual;
pocall : pocall_none;
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{??}+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_export;
pocall : pocall_none;
pooption : [po_exports];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : [po_external,po_interrupt]
),(
idtok:_EXTERNAL;
pd_flags : pd_implemen+pd_interface+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_external;
pocall : pocall_none;
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+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_far;
pocall : pocall_none;
pooption : [];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : []
),(
idtok:_FAR16;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : pocall_far16;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_external,po_leftright]
),(
idtok:_FORWARD;
pd_flags : pd_implemen+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_forward;
pocall : pocall_none;
pooption : [];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_FPCCALL;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : pocall_fpccall;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_leftright]
),(
idtok:_INLINE;
pd_flags : pd_implemen+pd_body+pd_notobjintf;
handler : nil;
pocall : pocall_inline;
pooption : [];
mutexclpocall : [];
mutexclpotype : [potype_constructor,potype_destructor];
mutexclpo : [po_exports,po_external,po_interrupt]
),(
idtok:_INTERNCONST;
pd_flags : pd_implemen+pd_body+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_intern;
pocall : pocall_internconst;
pooption : [];
mutexclpocall : [];
mutexclpotype : [potype_operator];
mutexclpo : []
),(
idtok:_INTERNPROC;
pd_flags : pd_implemen+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_intern;
pocall : pocall_internproc;
pooption : [];
mutexclpocall : [];
mutexclpotype : [potype_constructor,potype_destructor,potype_operator];
mutexclpo : [po_exports,po_external,po_interrupt,po_assembler,po_iocheck,po_leftright]
),(
idtok:_INTERRUPT;
pd_flags : pd_implemen+pd_body+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_interrupt;
pocall : pocall_none;
pooption : [po_interrupt];
mutexclpocall : [pocall_internproc,pocall_cdecl,pocall_cppdecl,
pocall_inline,pocall_pascal,pocall_system,pocall_far16,pocall_fpccall];
mutexclpotype : [potype_constructor,potype_destructor,potype_operator];
mutexclpo : [po_external,po_leftright,po_clearstack]
),(
idtok:_IOCHECK;
pd_flags : pd_implemen+pd_body+pd_notobjintf;
handler : nil;
pocall : pocall_none;
pooption : [po_iocheck];
mutexclpocall : [pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_MESSAGE;
pd_flags : pd_interface+pd_object+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_message;
pocall : pocall_none;
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+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_near;
pocall : pocall_none;
pooption : [];
mutexclpocall : [pocall_internproc];
mutexclpotype : [];
mutexclpo : []
),(
idtok:_OVERLOAD;
pd_flags : pd_implemen+pd_interface+pd_body;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_overload;
pocall : pocall_none;
pooption : [po_overload];
mutexclpocall : [pocall_internproc];
mutexclpotype : [];
mutexclpo : []
),(
idtok:_OVERRIDE;
pd_flags : pd_interface+pd_object+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_override;
pocall : pocall_none;
pooption : [po_overridingmethod,po_virtualmethod];
mutexclpocall : [pocall_inline,pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_exports,po_external,po_interrupt]
),(
idtok:_PASCAL;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : pocall_pascal;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_POPSTACK;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : pocall_none;
pooption : [po_clearstack];
mutexclpocall : [pocall_inline,pocall_internproc,pocall_stdcall];
mutexclpotype : [];
mutexclpo : [po_assembler,po_external]
),(
idtok:_PUBLIC;
pd_flags : pd_implemen+pd_body+pd_global+pd_notobject+pd_notobjintf;
handler : nil;
pocall : pocall_none;
pooption : [];
mutexclpocall : [pocall_internproc,pocall_inline];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_REGISTER;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : pocall_register;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_REINTRODUCE;
pd_flags : pd_interface+pd_object;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_reintroduce;
pocall : pocall_none;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : []
),(
idtok:_SAFECALL;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : pocall_safecall;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_SAVEREGISTERS;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar+pd_notobjintf;
handler : nil;
pocall : pocall_none;
pooption : [po_saveregisters];
mutexclpocall : [pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_STATIC;
pd_flags : pd_interface+pd_object+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_static;
pocall : pocall_none;
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 : nil;
pocall : pocall_stdcall;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_external]
),(
idtok:_SYSCALL;
pd_flags : pd_interface+pd_implemen+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_syscall;
pocall : pocall_palmossyscall;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_external,po_assembler,po_interrupt,po_exports]
),(
idtok:_SYSTEM;
pd_flags : pd_implemen+pd_notobjintf;
handler : nil;
pocall : pocall_system;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_external,po_assembler,po_interrupt]
),(
idtok:_VIRTUAL;
pd_flags : pd_interface+pd_object+pd_notobjintf;
handler : {$ifdef FPCPROCVAR}@{$endif}pd_virtual;
pocall : pocall_none;
pooption : [po_virtualmethod];
mutexclpocall : [pocall_inline,pocall_internproc];
mutexclpotype : [];
mutexclpo : [po_external,po_interrupt,po_exports]
),(
idtok:_CPPDECL;
pd_flags : pd_interface+pd_implemen+pd_body+pd_procvar;
handler : nil;
pocall : pocall_cppdecl;
pooption : [po_savestdregs];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_assembler,po_external]
),(
idtok:_VARARGS;
pd_flags : pd_interface+pd_implemen+pd_procvar;
handler : nil;
pocall : pocall_none;
pooption : [po_varargs];
mutexclpocall : [pocall_internproc,pocall_stdcall,pocall_register,
pocall_inline,pocall_far16,pocall_fpccall];
mutexclpotype : [];
mutexclpo : [po_assembler,po_interrupt,po_leftright]
),(
idtok:_COMPILERPROC;
pd_flags : pd_interface+pd_implemen+pd_body+pd_notobjintf;
handler : nil;
pocall : pocall_compilerproc;
pooption : [];
mutexclpocall : [];
mutexclpotype : [];
mutexclpo : [po_interrupt]
)
);
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(var pdflags:word):boolean;
{
Parse the procedure directive, returns true if a correct directive is found
}
var
p : longint;
found : boolean;
name : stringid;
begin
parse_proc_direc:=false;
name:=tokeninfo^[idtoken].str;
found:=false;
{ Hint directive? Then exit immediatly }
if (m_hintdirective in aktmodeswitches) then
begin
case idtoken of
_LIBRARY,
_PLATFORM,
_DEPRECATED :
exit;
end;
end;
{ retrieve data for directive if found }
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 (aktprocdef.proctypeoption in proc_direcdata[p].mutexclpotype) or
(aktprocdef.proccalloption in proc_direcdata[p].mutexclpocall) or
((aktprocdef.procoptions*proc_direcdata[p].mutexclpo)<>[]) then
begin
Message1(parser_e_proc_dir_conflict,name);
exit;
end;
{ set calling convention }
if proc_direcdata[p].pocall<>pocall_none then
begin
if aktprocdef.proccalloption<>pocall_none then
begin
Message2(parser_w_proc_overriding_calling,
proccalloptionStr[aktprocdef.proccalloption],
proccalloptionStr[proc_direcdata[p].pocall]);
end;
aktprocdef.proccalloption:=proc_direcdata[p].pocall;
end;
if aktprocdef.deftype=procdef then
begin
{ Check if the directive is only for objects }
if ((proc_direcdata[p].pd_flags and pd_object)<>0) and
not assigned(aktprocdef._class) then
exit;
{ check if method and directive not for object public }
if ((proc_direcdata[p].pd_flags and pd_notobject)<>0) and
assigned(aktprocdef._class) then
exit;
{ check if method and directive not for interface }
if ((proc_direcdata[p].pd_flags and pd_notobjintf)<>0) and
is_interface(aktprocdef._class) then
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 }
aktprocdef.procoptions:=aktprocdef.procoptions+proc_direcdata[p].pooption;
{ Call the handler }
if pointer({$ifndef FPCPROCVAR}@{$endif}proc_direcdata[p].handler)<>nil then
proc_direcdata[p].handler{$ifdef FPCPROCVAR}(){$endif};
end;
procedure handle_calling_convention(sym:tprocsym;def:tabstractprocdef);
var
st,parast : tsymtable;
lastps,ps : tsym;
begin
{ set the default calling convention }
if def.proccalloption=pocall_none then
def.proccalloption:=aktdefproccall;
case def.proccalloption of
pocall_cdecl :
begin
{ use popstack and save std registers }
include(def.procoptions,po_clearstack);
include(def.procoptions,po_savestdregs);
{ set mangledname }
if (def.deftype=procdef) then
begin
if not tprocdef(def).has_mangledname then
tprocdef(def).setmangledname(target_info.Cprefix+sym.realname);
if not assigned(tprocdef(def).parast) then
internalerror(200110234);
{ do not copy on local !! }
tprocdef(def).parast.foreach_static({$ifdef FPCPROCVAR}@{$endif}resetvaluepara);
{ Adjust positions of args for cdecl or stdcall }
tparasymtable(tprocdef(def).parast).set_alignment(std_param_align);
end;
end;
pocall_cppdecl :
begin
if not assigned(sym) then
internalerror(200110231);
{ use popstack and save std registers }
include(def.procoptions,po_clearstack);
include(def.procoptions,po_savestdregs);
{ set mangledname }
if (def.deftype=procdef) then
begin
if not tprocdef(def).has_mangledname then
tprocdef(def).setmangledname(target_info.Cprefix+tprocdef(def).cplusplusmangledname);
if not assigned(tprocdef(def).parast) then
internalerror(200110235);
{ do not copy on local !! }
tprocdef(def).parast.foreach_static({$ifdef FPCPROCVAR}@{$endif}resetvaluepara);
{ Adjust positions of args for cdecl or stdcall }
tparasymtable(tprocdef(def).parast).set_alignment(std_param_align);
end;
end;
pocall_stdcall :
begin
include(def.procoptions,po_savestdregs);
if (def.deftype=procdef) and
assigned(tprocdef(def).parast) then
begin
{ Adjust positions of args for cdecl or stdcall }
tparasymtable(tprocdef(def).parast).set_alignment(std_param_align);
end;
end;
pocall_safecall :
begin
include(def.procoptions,po_savestdregs);
end;
pocall_compilerproc :
begin
if (not assigned(sym)) or
(def.deftype<>procdef) then
internalerror(200110232);
tprocdef(def).setmangledname(lower(sym.name));
end;
pocall_pascal :
begin
include(def.procoptions,po_leftright);
st:=tparasymtable.create;
if def.deftype=procdef then
begin
parast:=tprocdef(def).parast;
lastps:=nil;
while assigned(parast.symindex.first) and (lastps<>tsym(parast.symindex.first)) do
begin
ps:=tsym(parast.symindex.first);
while assigned(ps.indexnext) and (tsym(ps.indexnext)<>lastps) do
ps:=tsym(ps.indexnext);
ps.owner:=st;
{ recalculate the corrected offset }
{ the really_insert_in_data procedure
for parasymtable should only calculateoffset PM }
tstoredsym(ps).insert_in_data;
{ reset the owner correctly }
ps.owner:=parast;
lastps:=ps;
end;
end;
end;
pocall_register :
begin
Message1(parser_w_proc_directive_ignored,'REGISTER');
end;
pocall_far16 :
begin
{ Temporary stub, must be rewritten to support OS/2 far16 }
Message1(parser_w_proc_directive_ignored,'FAR16');
end;
pocall_system :
begin
include(def.procoptions,po_clearstack);
if (not assigned(sym)) or
(def.deftype<>procdef) then
internalerror(200110233);
if not tprocdef(def).has_mangledname then
tprocdef(def).setmangledname(sym.realname);
end;
pocall_palmossyscall :
begin
{ use popstack and save std registers }
include(def.procoptions,po_clearstack);
include(def.procoptions,po_savestdregs);
if (def.deftype=procdef) then
begin
if not assigned(tprocdef(def).parast) then
internalerror(200110236);
{ do not copy on local !! }
tprocdef(def).parast.foreach_static({$ifdef FPCPROCVAR}@{$endif}resetvaluepara);
{ Adjust positions of args for cdecl or stdcall }
tparasymtable(tprocdef(def).parast).set_alignment(std_param_align);
end;
end;
pocall_inline :
begin
if not(cs_support_inline in aktmoduleswitches) then
begin
Message(parser_e_proc_inline_not_supported);
def.proccalloption:=pocall_fpccall;
end;
end;
end;
{ add mangledname to external list }
if (def.deftype=procdef) and
(po_external in def.procoptions) and
target_info.DllScanSupported then
current_module.externals.insert(tExternalsItem.create(tprocdef(def).mangledname));
end;
procedure parse_proc_directives(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(pdflags);
until not try_to_consume(_COMMA);
consume(_RECKKLAMMER);
{ we always expect at least '[];' }
res:=true;
end
else
begin
res:=parse_proc_direc(pdflags);
end;
{ 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;
{ support procedure proc;stdcall export; in Delphi mode only }
if not((m_delphi in aktmodeswitches) and
is_proc_directive(token)) then
consume(_SEMICOLON);
end
else
break;
end;
handle_calling_convention(aktprocsym,aktprocdef);
end;
procedure parse_var_proc_directives(var sym : tsym);
var
pdflags : word;
oldsym : tprocsym;
olddef : tprocdef;
pd : tabstractprocdef;
begin
oldsym:=aktprocsym;
olddef:=aktprocdef;
pdflags:=pd_procvar;
{ we create a temporary aktprocsym to read the directives }
aktprocsym:=tprocsym.create(sym.name);
case sym.typ of
varsym :
pd:=tabstractprocdef(tvarsym(sym).vartype.def);
typedconstsym :
pd:=tabstractprocdef(ttypedconstsym(sym).typedconsttype.def);
typesym :
pd:=tabstractprocdef(ttypesym(sym).restype.def);
else
internalerror(994932432);
end;
if pd.deftype<>procvardef then
internalerror(994932433);
tabstractprocdef(aktprocdef):=pd;
{ names should never be used anyway }
inc(lexlevel);
parse_proc_directives(pdflags);
dec(lexlevel);
aktprocsym.free;
aktprocsym:=oldsym;
aktprocdef:=olddef;
end;
procedure parse_object_proc_directives(var sym : tprocsym);
var
pdflags : word;
begin
pdflags:=pd_object;
inc(lexlevel);
parse_proc_directives(pdflags);
dec(lexlevel);
if (po_containsself in aktprocdef.procoptions) and
(([po_msgstr,po_msgint]*aktprocdef.procoptions)=[]) then
Message(parser_e_self_in_non_message_handler);
end;
function proc_add_definition(aprocsym:tprocsym;var aprocdef : tprocdef) : boolean;
{
Add definition aprocdef to the overloaded definitions of aprocsym. If a
forwarddef is found and reused it returns true
}
var
hd : tprocdef;
pdl : pprocdeflist;
ad,fd : tsym;
forwardfound : boolean;
begin
forwardfound:=false;
{ check overloaded functions if the same function already exists }
pdl:=aprocsym.defs;
while assigned(pdl) do
begin
hd:=pdl^.def;
{ check the parameters, for delphi/tp it is possible to
leave the parameters away in the implementation (forwarddef=false).
But for an overload declared function this is not allowed }
if { check if empty implementation arguments match is allowed }
(
not(m_repeat_forward in aktmodeswitches) and
not(aprocdef.forwarddef) and
(aprocdef.maxparacount=0) and
not(po_overload in hd.procoptions)
) or
{ check arguments }
(
equal_paras(aprocdef.para,hd.para,cp_none) and
{ for operators equal_paras is not enough !! }
((aprocdef.proctypeoption<>potype_operator) or (optoken<>_ASSIGNMENT) or
is_equal(hd.rettype.def,aprocdef.rettype.def))
) then
begin
{ Check if we've found the forwarddef, if found then
we need to update the forward def with the current
implementation settings }
if hd.forwarddef then
begin
{ Check if the procedure type and return type are correct }
if (hd.proctypeoption<>aprocdef.proctypeoption) or
(not(is_equal(hd.rettype.def,aprocdef.rettype.def)) and
(m_repeat_forward in aktmodeswitches)) then
begin
MessagePos1(aprocdef.fileinfo,parser_e_header_dont_match_forward,
aprocdef.fullprocname);
break;
end;
{ Check if both are declared forward }
if hd.forwarddef and aprocdef.forwarddef then
begin
MessagePos1(aprocdef.fileinfo,parser_e_function_already_declared_public_forward,
aprocdef.fullprocname);
end;
{ internconst or internproc only need to be defined once }
if (hd.proccalloption in [pocall_internconst,pocall_internproc]) then
aprocdef.proccalloption:=hd.proccalloption
else
if (aprocdef.proccalloption in [pocall_internconst,pocall_internproc]) then
hd.proccalloption:=aprocdef.proccalloption;
{ Check calling convention }
if (hd.proccalloption<>aprocdef.proccalloption) then
begin
{ For delphi check if the current implementation has no proccalloption, then
take the options from the interface }
if not(m_delphi in aktmodeswitches) or
(aprocdef.proccalloption<>pocall_none) then
MessagePos(aprocdef.fileinfo,parser_e_call_convention_dont_match_forward);
{ restore interface settings }
aprocdef.proccalloption:=hd.proccalloption;
aprocdef.has_mangledname:=hd.has_mangledname;
if hd.has_mangledname then
aprocdef.setmangledname(hd.mangledname);
end;
{ Check manglednames }
if (m_repeat_forward in aktmodeswitches) or
aprocdef.haspara then
begin
{ If mangled names are equal then they have the same amount of arguments }
{ We can check the names of the arguments }
{ both symtables are in the same order from left to right }
ad:=tsym(hd.parast.symindex.first);
fd:=tsym(aprocdef.parast.symindex.first);
repeat
{ skip default parameter constsyms }
while assigned(ad) and (ad.typ<>varsym) do
ad:=tsym(ad.indexnext);
while assigned(fd) and (fd.typ<>varsym) do
fd:=tsym(fd.indexnext);
{ stop when one of the two lists is at the end }
if not assigned(ad) or not assigned(fd) then
break;
if (ad.name<>fd.name) then
begin
MessagePos3(aprocdef.fileinfo,parser_e_header_different_var_names,
aprocsym.name,ad.name,fd.name);
break;
end;
ad:=tsym(ad.indexnext);
fd:=tsym(fd.indexnext);
until false;
if assigned(ad) or assigned(fd) then
internalerror(200204178);
end;
{ Everything is checked, now we can update the forward declaration
with the new data from the implementation }
hd.forwarddef:=aprocdef.forwarddef;
hd.hasforward:=true;
hd.parast.address_fixup:=aprocdef.parast.address_fixup;
hd.procoptions:=hd.procoptions+aprocdef.procoptions;
if hd.extnumber=65535 then
hd.extnumber:=aprocdef.extnumber;
while not aprocdef.aliasnames.empty do
hd.aliasnames.insert(aprocdef.aliasnames.getfirst);
{ update mangledname if the implementation has a fixed mangledname set }
if aprocdef.has_mangledname then
begin
{ rename also asmsymbol first, because the name can already be used }
renameasmsymbol(hd.mangledname,aprocdef.mangledname);
{ update the mangledname }
hd.has_mangledname:=true;
hd.setmangledname(aprocdef.mangledname);
end;
{ for compilerproc defines we need to rename and update the
symbolname to lowercase }
if (aprocdef.proccalloption=pocall_compilerproc) then
begin
{ rename to lowercase so users can't access it }
aprocsym.owner.rename(aprocsym.name,lower(aprocsym.name));
{ also update the realname that is stored in the ppu }
stringdispose(aprocsym._realname);
aprocsym._realname:=stringdup('$'+aprocsym.name);
{ the mangeled name is already changed by the pd_compilerproc }
{ handler. It must be done immediately because if we have a }
{ call to a compilerproc before it's implementation is }
{ encountered, it must already use the new mangled name (JM) }
end;
{ return the forwarddef }
aprocdef:=hd;
forwardfound:=true;
end
else
begin
{ abstract methods aren't forward defined, but this }
{ needs another error message }
if (po_abstractmethod in hd.procoptions) then
MessagePos(aprocdef.fileinfo,parser_e_abstract_no_definition)
else
MessagePos(aprocdef.fileinfo,parser_e_overloaded_have_same_parameters);
end;
{ we found one proc with the same arguments, there are no others
so we can stop }
break;
end;
{ check for allowing overload directive }
if not(m_fpc in aktmodeswitches) then
begin
{ overload directive turns on overloading }
if ((po_overload in aprocdef.procoptions) or
(po_overload in hd.procoptions)) then
begin
{ check if all procs have overloading, but not if the proc was
already declared forward, then the check is already done }
if not(hd.hasforward or
(aprocdef.forwarddef<>hd.forwarddef) or
((po_overload in aprocdef.procoptions) and
(po_overload in hd.procoptions))) then
begin
MessagePos1(aprocdef.fileinfo,parser_e_no_overload_for_all_procs,aprocsym.realname);
break;
end;
end
else
begin
if not(hd.forwarddef) then
begin
MessagePos(aprocdef.fileinfo,parser_e_procedure_overloading_is_off);
break;
end;
end;
end; { equal arguments }
{ try next overloaded }
pdl:=pdl^.next;
end;
{ if we didn't reuse a forwarddef then we add the procdef to the overloaded
list }
if not forwardfound then
begin
aprocsym.addprocdef(aprocdef);
{ add overloadnumber for unique naming, the overloadcount is
counted per module and 0 for the first procedure }
aprocdef.overloadnumber:=aprocsym.overloadcount;
inc(aprocsym.overloadcount);
end;
{ insert otsym only in the right symtable }
if ((procinfo^.flags and pi_operator)<>0) and
assigned(otsym) and
not parse_only then
begin
if ret_in_param(aprocdef.rettype.def) then
begin
aprocdef.parast.insert(otsym);
{ this increases the data size }
{ correct this to get the right ret $value }
dec(aprocdef.parast.datasize,
align(otsym.getpushsize,aktprocdef.parast.dataalignment));
{ this allows to read the funcretoffset }
otsym.address:=-4;
otsym.varspez:=vs_var;
end
else
aprocdef.localst.insert(otsym);
end;
proc_add_definition:=forwardfound;
end;
end.
{
$Log$
Revision 1.52 2002-04-20 21:32:24 carl
+ generic FPC_CHECKPOINTER
+ first parameter offset in stack now portable
* rename some constants
+ move some cpu stuff to other units
- remove unused constents
* fix stacksize for some targets
* fix generic size problems which depend now on EXTEND_SIZE constant
Revision 1.51 2002/04/20 15:27:05 carl
- remove ifdef i386 define
Revision 1.50 2002/04/19 15:46:02 peter
* mangledname rewrite, tprocdef.mangledname is now created dynamicly
in most cases and not written to the ppu
* add mangeledname_prefix() routine to generate the prefix of
manglednames depending on the current procedure, object and module
* removed static procprefix since the mangledname is now build only
on demand from tprocdef.mangledname
Revision 1.49 2002/04/15 19:00:33 carl
+ target_info.size_of_pointer -> pointer_Size
Revision 1.48 2002/03/29 13:29:32 peter
* fixed memory corruption created by previous fix
Revision 1.47 2002/03/29 11:23:24 michael
+ Patch from Pavel Ozerski
Revision 1.46 2002/01/24 18:25:49 peter
* implicit result variable generation for assembler routines
* removed m_tp modeswitch, use m_tp7 or not(m_fpc) instead
Revision 1.45 2002/01/09 07:38:03 michael
+ Patch from peter for library imports
Revision 1.44 2002/01/06 21:54:07 peter
* fixed external <dll> name <c-name> manglednames
Revision 1.43 2001/12/31 16:59:42 peter
* protected/private symbols parsing fixed
Revision 1.42 2001/12/06 17:57:36 florian
+ parasym to tparaitem added
Revision 1.41 2001/11/02 22:58:03 peter
* procsym definition rewrite
Revision 1.40 2001/10/25 21:22:37 peter
* calling convention rewrite
Revision 1.39 2001/10/23 21:49:42 peter
* $calling directive and -Cc commandline patch added
from Pavel Ozerski
Revision 1.38 2001/10/01 13:38:44 jonas
* allow self parameter for normal procedures again (because Kylix allows
it too) ("merged")
Revision 1.37 2001/09/10 10:26:26 jonas
* fixed web bug 1593
* writing of procvar headers is more complete (mention var/const/out for
paras, add "of object" if applicable)
+ error if declaring explicit self para as var/const
* fixed mangled name of procedures which contain an explicit self para
* parsing para's should be slightly faster because mangled name of
procedure is only updated once instead of after parsing each para
(all merged from fixes)
Revision 1.36 2001/08/26 13:36:45 florian
* some cg reorganisation
* some PPC updates
Revision 1.35 2001/08/23 14:28:36 jonas
+ tempcreate/ref/delete nodes (allows the use of temps in the
resulttype and first pass)
* made handling of read(ln)/write(ln) processor independent
* moved processor independent handling for str and reset/rewrite-typed
from firstpass to resulttype pass
* changed names of helpers in text.inc to be generic for use as
compilerprocs + added "iocheck" directive for most of them
* reading of ordinals is done by procedures instead of functions
because otherwise FPC_IOCHECK overwrote the result before it could
be stored elsewhere (range checking still works)
* compilerprocs can now be used in the system unit before they are
implemented
* added note to errore.msg that booleans can't be read using read/readln
Revision 1.34 2001/08/22 21:16:21 florian
* some interfaces related problems regarding
mapping of interface implementions fixed
Revision 1.33 2001/08/19 21:11:20 florian
* some bugs fix:
- overload; with external procedures fixed
- better selection of routine to do an overloaded
type case
- ... some more
Revision 1.32 2001/08/19 11:22:23 peter
* palmos support from v10 merged
Revision 1.31 2001/08/05 13:18:50 peter
* turn pocall_inline off when inline is not supported
Revision 1.30 2001/08/01 15:07:29 jonas
+ "compilerproc" directive support, which turns both the public and mangled
name to lowercase(declaration_name). This prevents a normal user from
accessing the routine, but they can still be easily looked up within
the compiler. This is used for helper procedures and should facilitate
the writing of more processor independent code in the code generator
itself (mostly written by Peter)
+ new "createintern" constructor for tcal nodes to create a call to
helper exported using the "compilerproc" directive
+ support for high(dynamic_array) using the the above new things
+ definition of 'HASCOMPILERPROC' symbol (to be able to check in the
compiler and rtl whether the "compilerproc" directive is supported)
Revision 1.29 2001/07/09 21:11:14 peter
* fixed overload checking for delphi. Empty parameters are only
allowed in implementation and not when the forward declaration
contains overload directive
Revision 1.28 2001/07/01 20:16:16 peter
* alignmentinfo record added
* -Oa argument supports more alignment settings that can be specified
per type: PROC,LOOP,VARMIN,VARMAX,CONSTMIN,CONSTMAX,RECORDMIN
RECORDMAX,LOCALMIN,LOCALMAX. It is possible to set the mimimum
required alignment and the maximum usefull alignment. The final
alignment will be choosen per variable size dependent on these
settings
Revision 1.27 2001/06/04 18:12:26 peter
* fixed crash with procvar directive parsing. Be carefull as the procvar
directive parsing uses aktprocdef that is a tprocdef, but
for procvar the type is tprocvardef. So some fields are not available
Revision 1.26 2001/06/04 11:53:13 peter
+ varargs directive
Revision 1.25 2001/06/03 21:57:36 peter
+ hint directive parsing support
Revision 1.24 2001/05/08 21:06:31 florian
* some more support for widechars commited especially
regarding type casting and constants
Revision 1.23 2001/05/08 14:32:58 jonas
* fixed bug for overloaded operators with a return type that has a size
which isn't a multiple of the target_os.stackalignment (main branch
patch from Peter)
Revision 1.22 2001/05/04 15:52:03 florian
* some Delphi incompatibilities fixed:
- out, dispose and new can be used as idenfiers now
- const p = apointerype(nil); is supported now
+ support for const p = apointertype(pointer(1234)); added
Revision 1.21 2001/04/18 22:01:57 peter
* registration of targets and assemblers
Revision 1.20 2001/04/13 20:05:16 peter
* better check for globalsymtable
Revision 1.19 2001/04/13 18:03:16 peter
* give error with local external procedure
Revision 1.18 2001/04/13 01:22:11 peter
* symtable change to classes
* range check generation and errors fixed, make cycle DEBUG=1 works
* memory leaks fixed
Revision 1.17 2001/04/04 22:43:52 peter
* remove unnecessary calls to firstpass
Revision 1.16 2001/04/02 21:20:33 peter
* resulttype rewrite
Revision 1.15 2001/03/24 12:18:11 florian
* procedure p(); is now allowed in all modes except TP
Revision 1.14 2001/03/22 22:35:42 florian
+ support for type a = (a=1); in Delphi mode added
+ procedure p(); in Delphi mode supported
+ on isn't keyword anymore, it can be used as
id etc. now
Revision 1.13 2001/03/11 22:58:50 peter
* getsym redesign, removed the globals srsym,srsymtable
Revision 1.12 2001/03/06 18:28:02 peter
* patch from Pavel with a new and much faster DLL Scanner for
automatic importing so $linklib works for DLLs. Thanks Pavel!
Revision 1.11 2001/01/08 21:40:26 peter
* fixed crash with unsupported token overloading
Revision 1.10 2000/12/25 00:07:27 peter
+ new tlinkedlist class (merge of old tstringqueue,tcontainer and
tlinkedlist objects)
Revision 1.9 2000/11/29 00:30:35 florian
* unused units removed from uses clause
* some changes for widestrings
Revision 1.8 2000/11/26 23:45:34 florian
* pascal modifier in interfaces of units works now
Revision 1.7 2000/11/06 20:30:55 peter
* more fixes to get make cycle working
Revision 1.6 2000/11/04 14:25:20 florian
+ merged Attila's changes for interfaces, not tested yet
Revision 1.5 2000/11/01 23:04:37 peter
* tprocdef.fullprocname added for better casesensitve writing of
procedures
Revision 1.4 2000/10/31 22:02:49 peter
* symtable splitted, no real code changes
Revision 1.3 2000/10/21 18:16:11 florian
* a lot of changes:
- basic dyn. array support
- basic C++ support
- some work for interfaces done
....
Revision 1.2 2000/10/15 07:47:51 peter
* unit names and procedure names are stored mixed case
Revision 1.1 2000/10/14 10:14:51 peter
* moehrendorf oct 2000 rewrite
}
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