paweld/fpc
1
0
Fork 0
mirror of https://gitlab.com/freepascal.org/fpc/source.git synced 2025-04-12 19:29:28 +02:00
Code Issues Packages Projects Releases Wiki Activity
54dee95053
fpc/compiler/pdecobj.pas
florian 9a1c731bfb + basic dispinterface parsing stuff 
git-svn-id: trunk@1445 -
2005-10-17 20:28:50 +00:00

789 lines
31 KiB
ObjectPascal
Raw Blame History

{
Copyright (c) 1998-2002 by Florian Klaempfl
Does object types for Free Pascal
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 pdecobj;
{$i fpcdefs.inc}
interface
uses
globtype,symtype,symdef;
{ parses a object declaration }
function object_dec(const n : stringid;fd : tobjectdef) : tdef;
implementation
uses
cutils,cclasses,
globals,verbose,systems,tokens,
symconst,symbase,symsym,
node,nld,nmem,ncon,ncnv,ncal,
scanner,
pbase,pexpr,pdecsub,pdecvar,ptype
;
const
{ Please leave this here, this module should NOT use
these variables.
Declaring it as string here results in an error when compiling (PFV) }
current_procinfo = 'error';
function object_dec(const n : stringid;fd : tobjectdef) : tdef;
{ this function parses an object or class declaration }
var
there_is_a_destructor : boolean;
classtype : tobjectdeftype;
childof : tobjectdef;
aktclass : tobjectdef;
function constructor_head:tprocdef;
var
pd : tprocdef;
begin
consume(_CONSTRUCTOR);
{ must be at same level as in implementation }
parse_proc_head(aktclass,potype_constructor,pd);
if not assigned(pd) then
begin
consume(_SEMICOLON);
exit;
end;
if (cs_constructor_name in aktglobalswitches) and
(pd.procsym.name<>'INIT') then
Message(parser_e_constructorname_must_be_init);
consume(_SEMICOLON);
include(aktclass.objectoptions,oo_has_constructor);
{ Set return type, class constructors return the
created instance, object constructors return boolean }
if is_class(pd._class) then
pd.rettype.setdef(pd._class)
else
pd.rettype:=booltype;
constructor_head:=pd;
end;
procedure property_dec;
var
p : tpropertysym;
begin
{ check for a class }
if not((is_class_or_interface(aktclass)) or
(not(m_tp7 in aktmodeswitches) and (is_object(aktclass)))) then
Message(parser_e_syntax_error);
consume(_PROPERTY);
p:=read_property_dec(aktclass);
consume(_SEMICOLON);
if try_to_consume(_DEFAULT) then
begin
if oo_has_default_property in aktclass.objectoptions then
message(parser_e_only_one_default_property);
include(aktclass.objectoptions,oo_has_default_property);
include(p.propoptions,ppo_defaultproperty);
if not(ppo_hasparameters in p.propoptions) then
message(parser_e_property_need_paras);
consume(_SEMICOLON);
end;
{ hint directives, these can be separated by semicolons here,
that needs to be handled here with a loop (PFV) }
while try_consume_hintdirective(p.symoptions) do
Consume(_SEMICOLON);
end;
function destructor_head:tprocdef;
var
pd : tprocdef;
begin
consume(_DESTRUCTOR);
parse_proc_head(aktclass,potype_destructor,pd);
if not assigned(pd) then
begin
consume(_SEMICOLON);
exit;
end;
if (cs_constructor_name in aktglobalswitches) and
(pd.procsym.name<>'DONE') then
Message(parser_e_destructorname_must_be_done);
if not(pd.maxparacount=0) and
(m_fpc in aktmodeswitches) then
Message(parser_e_no_paras_for_destructor);
consume(_SEMICOLON);
include(aktclass.objectoptions,oo_has_destructor);
{ no return value }
pd.rettype:=voidtype;
destructor_head:=pd;
end;
var
pcrd : tclassrefdef;
tt : ttype;
old_object_option : tsymoptions;
oldparse_only : boolean;
storetypecanbeforward : boolean;
procedure setclassattributes;
begin
{ publishable }
if classtype in [odt_interfacecom,odt_class] then
begin
aktclass.objecttype:=classtype;
if (cs_generate_rtti in aktlocalswitches) or
(assigned(aktclass.childof) and
(oo_can_have_published in aktclass.childof.objectoptions)) then
begin
include(aktclass.objectoptions,oo_can_have_published);
{ in "publishable" classes the default access type is published }
current_object_option:=[sp_published];
end;
end;
end;
procedure setclassparent;
begin
if assigned(fd) then
aktclass:=fd
else
aktclass:=tobjectdef.create(classtype,n,nil);
{ is the current class tobject? }
{ so you could define your own tobject }
if (cs_compilesystem in aktmoduleswitches) and (classtype=odt_class) and (upper(n)='TOBJECT') then
class_tobject:=aktclass
else if (cs_compilesystem in aktmoduleswitches) and (classtype=odt_interfacecom) and (upper(n)='IUNKNOWN') then
interface_iunknown:=aktclass
else
begin
case classtype of
odt_class:
childof:=class_tobject;
odt_interfacecom:
childof:=interface_iunknown;
end;
if (oo_is_forward in childof.objectoptions) then
Message1(parser_e_forward_declaration_must_be_resolved,childof.objrealname^);
aktclass.set_parent(childof);
end;
end;
procedure setinterfacemethodoptions;
var
i: longint;
defs: TIndexArray;
pd: tdef;
begin
include(aktclass.objectoptions,oo_has_virtual);
defs:=aktclass.symtable.defindex;
for i:=1 to defs.count do
begin
pd:=tdef(defs.search(i));
if pd.deftype=procdef then
begin
tprocdef(pd).extnumber:=aktclass.lastvtableindex;
inc(aktclass.lastvtableindex);
include(tprocdef(pd).procoptions,po_virtualmethod);
tprocdef(pd).forwarddef:=false;
end;
end;
end;
function readobjecttype : boolean;
begin
readobjecttype:=true;
{ distinguish classes and objects }
case token of
_OBJECT:
begin
classtype:=odt_object;
consume(_OBJECT)
end;
_CPPCLASS:
begin
classtype:=odt_cppclass;
consume(_CPPCLASS);
end;
_DISPINTERFACE:
begin
{ need extra check here since interface is a keyword
in all pascal modes }
if not(m_class in aktmodeswitches) then
Message(parser_f_need_objfpc_or_delphi_mode);
classtype:=odt_dispinterface;
consume(_DISPINTERFACE);
{ no forward declaration }
if not(assigned(fd)) and (token=_SEMICOLON) then
begin
{ also anonym objects aren't allow (o : object a : longint; end;) }
if n='' then
Message(parser_f_no_anonym_objects);
aktclass:=tobjectdef.create(classtype,n,nil);
include(aktclass.objectoptions,oo_is_forward);
object_dec:=aktclass;
typecanbeforward:=storetypecanbeforward;
readobjecttype:=false;
exit;
end;
end;
_INTERFACE:
begin
{ need extra check here since interface is a keyword
in all pascal modes }
if not(m_class in aktmodeswitches) then
Message(parser_f_need_objfpc_or_delphi_mode);
if aktinterfacetype=it_interfacecom then
classtype:=odt_interfacecom
else {it_interfacecorba}
classtype:=odt_interfacecorba;
consume(_INTERFACE);
{ forward declaration }
if not(assigned(fd)) and (token=_SEMICOLON) then
begin
{ also anonym objects aren't allow (o : object a : longint; end;) }
if n='' then
Message(parser_f_no_anonym_objects);
aktclass:=tobjectdef.create(classtype,n,nil);
if (cs_compilesystem in aktmoduleswitches) and
(classtype=odt_interfacecom) and (upper(n)='IUNKNOWN') then
interface_iunknown:=aktclass;
include(aktclass.objectoptions,oo_is_forward);
object_dec:=aktclass;
typecanbeforward:=storetypecanbeforward;
readobjecttype:=false;
exit;
end;
end;
_CLASS:
begin
classtype:=odt_class;
consume(_CLASS);
if not(assigned(fd)) and
(token=_OF) and
{ Delphi only allows class of in type blocks.
Note that when parsing the type of a variable declaration
the blocktype is bt_type so the check for typecanbeforward
is also necessary (PFV) }
(((block_type=bt_type) and typecanbeforward) or
not(m_delphi in aktmodeswitches)) then
begin
{ a hack, but it's easy to handle }
{ class reference type }
consume(_OF);
single_type(tt,typecanbeforward);
{ accept hp1, if is a forward def or a class }
if (tt.def.deftype=forwarddef) or
is_class(tt.def) then
begin
pcrd:=tclassrefdef.create(tt);
object_dec:=pcrd;
end
else
begin
object_dec:=generrortype.def;
Message1(type_e_class_type_expected,generrortype.def.typename);
end;
typecanbeforward:=storetypecanbeforward;
readobjecttype:=false;
exit;
end
{ forward class }
else if not(assigned(fd)) and (token=_SEMICOLON) then
begin
{ also anonym objects aren't allow (o : object a : longint; end;) }
if n='' then
Message(parser_f_no_anonym_objects);
aktclass:=tobjectdef.create(odt_class,n,nil);
if (cs_compilesystem in aktmoduleswitches) and (upper(n)='TOBJECT') then
class_tobject:=aktclass;
aktclass.objecttype:=odt_class;
include(aktclass.objectoptions,oo_is_forward);
{ all classes must have a vmt !! at offset zero }
if not(oo_has_vmt in aktclass.objectoptions) then
aktclass.insertvmt;
object_dec:=aktclass;
typecanbeforward:=storetypecanbeforward;
readobjecttype:=false;
exit;
end;
end;
else
begin
classtype:=odt_class; { this is error but try to recover }
consume(_OBJECT);
end;
end;
end;
procedure handleimplementedinterface(implintf : tobjectdef);
begin
if not is_interface(implintf) then
begin
Message1(type_e_interface_type_expected,implintf.typename);
exit;
end;
if aktclass.implementedinterfaces.searchintf(implintf)<>-1 then
Message1(sym_e_duplicate_id,implintf.name)
else
begin
{ allocate and prepare the GUID only if the class
implements some interfaces.
}
if aktclass.implementedinterfaces.count = 0 then
aktclass.prepareguid;
aktclass.implementedinterfaces.addintf(implintf);
end;
end;
procedure readimplementedinterfaces;
var
tt : ttype;
begin
while try_to_consume(_COMMA) do
begin
id_type(tt,false);
if (tt.def.deftype<>objectdef) then
begin
Message1(type_e_interface_type_expected,tt.def.typename);
continue;
end;
handleimplementedinterface(tobjectdef(tt.def));
end;
end;
procedure readinterfaceiid;
var
p : tnode;
valid : boolean;
begin
p:=comp_expr(true);
if p.nodetype=stringconstn then
begin
stringdispose(aktclass.iidstr);
aktclass.iidstr:=stringdup(strpas(tstringconstnode(p).value_str)); { or upper? }
p.free;
valid:=string2guid(aktclass.iidstr^,aktclass.iidguid^);
if (classtype=odt_interfacecom) and not assigned(aktclass.iidguid) and not valid then
Message(parser_e_improper_guid_syntax);
end
else
begin
p.free;
Message(parser_e_illegal_expression);
end;
end;
procedure readparentclasses;
var
hp : tobjectdef;
begin
hp:=nil;
{ reads the parent class }
if try_to_consume(_LKLAMMER) then
begin
id_type(tt,false);
childof:=tobjectdef(tt.def);
if (not assigned(childof)) or
(childof.deftype<>objectdef) then
begin
if assigned(childof) then
Message1(type_e_class_type_expected,childof.typename);
childof:=nil;
aktclass:=tobjectdef.create(classtype,n,nil);
end
else
begin
{ a mix of class, interfaces, objects and cppclasses
isn't allowed }
case classtype of
odt_class:
if not(is_class(childof)) then
begin
if is_interface(childof) then
begin
{ we insert the interface after the child
is set, see below
}
hp:=childof;
childof:=class_tobject;
end
else
Message(parser_e_mix_of_classes_and_objects);
end;
odt_interfacecorba,
odt_interfacecom:
if not(is_interface(childof)) then
Message(parser_e_mix_of_classes_and_objects);
odt_cppclass:
if not(is_cppclass(childof)) then
Message(parser_e_mix_of_classes_and_objects);
odt_object:
if not(is_object(childof)) then
Message(parser_e_mix_of_classes_and_objects);
odt_dispinterface:
Message(parser_e_dispinterface_cant_have_parent);
end;
{ the forward of the child must be resolved to get
correct field addresses }
if assigned(fd) then
begin
if (oo_is_forward in childof.objectoptions) then
Message1(parser_e_forward_declaration_must_be_resolved,childof.objrealname^);
aktclass:=fd;
{ we must inherit several options !!
this was missing !!
all is now done in set_parent
including symtable datasize setting PM }
fd.set_parent(childof);
end
else
aktclass:=tobjectdef.create(classtype,n,childof);
if aktclass.objecttype=odt_class then
begin
if assigned(hp) then
handleimplementedinterface(hp);
readimplementedinterfaces;
end;
end;
consume(_RKLAMMER);
end
{ if no parent class, then a class get tobject as parent }
else if classtype in [odt_class,odt_interfacecom] then
setclassparent
else
aktclass:=tobjectdef.create(classtype,n,nil);
{ read GUID }
if (classtype in [odt_interfacecom,odt_interfacecorba,odt_dispinterface]) and
try_to_consume(_LECKKLAMMER) then
begin
readinterfaceiid;
consume(_RECKKLAMMER);
end
else if (classtype=odt_dispinterface) then
message(parser_e_dispinterface_needs_a_guid);
end;
procedure chkcpp(pd:tprocdef);
begin
if is_cppclass(pd._class) then
begin
pd.proccalloption:=pocall_cppdecl;
pd.setmangledname(target_info.Cprefix+pd.cplusplusmangledname);
end;
end;
var
pd : tprocdef;
dummysymoptions : tsymoptions;
begin
old_object_option:=current_object_option;
{ forward is resolved }
if assigned(fd) then
exclude(fd.objectoptions,oo_is_forward);
{ objects and class types can't be declared local }
if not(symtablestack.symtabletype in [globalsymtable,staticsymtable]) then
Message(parser_e_no_local_objects);
storetypecanbeforward:=typecanbeforward;
{ for tp7 don't allow forward types }
if (m_tp7 in aktmodeswitches) then
typecanbeforward:=false;
if not(readobjecttype) then
exit;
{ also anonym objects aren't allow (o : object a : longint; end;) }
if n='' then
Message(parser_f_no_anonym_objects);
{ read list of parent classes }
readparentclasses;
{ default access is public }
there_is_a_destructor:=false;
current_object_option:=[sp_public];
{ set class flags and inherits published }
setclassattributes;
aktobjectdef:=aktclass;
aktclass.symtable.next:=symtablestack;
symtablestack:=aktclass.symtable;
testcurobject:=1;
curobjectname:=Upper(n);
{ short class declaration ? }
if (classtype<>odt_class) or (token<>_SEMICOLON) then
begin
{ Parse componenten }
repeat
case token of
_ID :
begin
case idtoken of
_PRIVATE :
begin
if is_interface(aktclass) then
Message(parser_e_no_access_specifier_in_interfaces);
consume(_PRIVATE);
current_object_option:=[sp_private];
include(aktclass.objectoptions,oo_has_private);
end;
_PROTECTED :
begin
if is_interface(aktclass) then
Message(parser_e_no_access_specifier_in_interfaces);
consume(_PROTECTED);
current_object_option:=[sp_protected];
include(aktclass.objectoptions,oo_has_protected);
end;
_PUBLIC :
begin
if is_interface(aktclass) then
Message(parser_e_no_access_specifier_in_interfaces);
consume(_PUBLIC);
current_object_option:=[sp_public];
end;
_PUBLISHED :
begin
{ we've to check for a pushlished section in non- }
{ publishable classes later, if a real declaration }
{ this is the way, delphi does it }
if is_interface(aktclass) then
Message(parser_e_no_access_specifier_in_interfaces);
consume(_PUBLISHED);
current_object_option:=[sp_published];
end;
_STRICT :
begin
if is_interface(aktclass) then
Message(parser_e_no_access_specifier_in_interfaces);
consume(_STRICT);
if token=_ID then
begin
case idtoken of
_PRIVATE:
begin
consume(_PRIVATE);
current_object_option:=[sp_strictprivate];
include(aktclass.objectoptions,oo_has_strictprivate);
end;
_PROTECTED:
begin
consume(_PROTECTED);
current_object_option:=[sp_strictprotected];
include(aktclass.objectoptions,oo_has_strictprotected);
end;
else
message(parser_e_protected_or_private_expected);
end;
end
else
message(parser_e_protected_or_private_expected);
end;
else
begin
if is_interface(aktclass) then
Message(parser_e_no_vars_in_interfaces);
if (sp_published in current_object_option) and
not(oo_can_have_published in aktclass.objectoptions) then
Message(parser_e_cant_have_published);
read_var_decs([vd_object]);
end;
end;
end;
_PROPERTY :
begin
property_dec;
end;
_PROCEDURE,
_FUNCTION,
_CLASS :
begin
if (sp_published in current_object_option) and
not(oo_can_have_published in aktclass.objectoptions) then
Message(parser_e_cant_have_published);
oldparse_only:=parse_only;
parse_only:=true;
pd:=parse_proc_dec(aktclass);
{ this is for error recovery as well as forward }
{ interface mappings, i.e. mapping to a method }
{ which isn't declared yet }
if assigned(pd) then
begin
parse_object_proc_directives(pd);
{ all Macintosh Object Pascal methods are virtual. }
{ this can't be a class method, because macpas mode }
{ has no m_class }
if (m_mac in aktmodeswitches) then
include(pd.procoptions,po_virtualmethod);
handle_calling_convention(pd);
{ add definition to procsym }
proc_add_definition(pd);
{ add procdef options to objectdef options }
if (po_msgint in pd.procoptions) then
include(aktclass.objectoptions,oo_has_msgint);
if (po_msgstr in pd.procoptions) then
include(aktclass.objectoptions,oo_has_msgstr);
if (po_virtualmethod in pd.procoptions) then
include(aktclass.objectoptions,oo_has_virtual);
chkcpp(pd);
end;
{ Support hint directives }
dummysymoptions:=[];
while try_consume_hintdirective(dummysymoptions) do
Consume(_SEMICOLON);
if assigned(pd) then
pd.symoptions:=pd.symoptions+dummysymoptions;
parse_only:=oldparse_only;
end;
_CONSTRUCTOR :
begin
if (sp_published in current_object_option) and
not(oo_can_have_published in aktclass.objectoptions) then
Message(parser_e_cant_have_published);
if not(sp_public in current_object_option) and
not(sp_published in current_object_option) then
Message(parser_w_constructor_should_be_public);
if is_interface(aktclass) then
Message(parser_e_no_con_des_in_interfaces);
oldparse_only:=parse_only;
parse_only:=true;
pd:=constructor_head;
parse_object_proc_directives(pd);
handle_calling_convention(pd);
{ add definition to procsym }
proc_add_definition(pd);
{ add procdef options to objectdef options }
if (po_virtualmethod in pd.procoptions) then
include(aktclass.objectoptions,oo_has_virtual);
chkcpp(pd);
{ Support hint directives }
dummysymoptions:=[];
while try_consume_hintdirective(dummysymoptions) do
Consume(_SEMICOLON);
if assigned(pd) then
pd.symoptions:=pd.symoptions+dummysymoptions;
parse_only:=oldparse_only;
end;
_DESTRUCTOR :
begin
if (sp_published in current_object_option) and
not(oo_can_have_published in aktclass.objectoptions) then
Message(parser_e_cant_have_published);
if there_is_a_destructor then
Message(parser_n_only_one_destructor);
if is_interface(aktclass) then
Message(parser_e_no_con_des_in_interfaces);
if not(sp_public in current_object_option) then
Message(parser_w_destructor_should_be_public);
there_is_a_destructor:=true;
oldparse_only:=parse_only;
parse_only:=true;
pd:=destructor_head;
parse_object_proc_directives(pd);
handle_calling_convention(pd);
{ add definition to procsym }
proc_add_definition(pd);
{ add procdef options to objectdef options }
if (po_virtualmethod in pd.procoptions) then
include(aktclass.objectoptions,oo_has_virtual);
chkcpp(pd);
{ Support hint directives }
dummysymoptions:=[];
while try_consume_hintdirective(dummysymoptions) do
Consume(_SEMICOLON);
if assigned(pd) then
pd.symoptions:=pd.symoptions+dummysymoptions;
parse_only:=oldparse_only;
end;
_END :
begin
consume(_END);
break;
end;
else
consume(_ID); { Give a ident expected message, like tp7 }
end;
until false;
end;
{ generate vmt space if needed }
if not(oo_has_vmt in aktclass.objectoptions) and
(([oo_has_virtual,oo_has_constructor,oo_has_destructor]*aktclass.objectoptions<>[]) or
(classtype in [odt_class])
) then
aktclass.insertvmt;
if is_interface(aktclass) then
setinterfacemethodoptions;
{ reset }
testcurobject:=0;
curobjectname:='';
typecanbeforward:=storetypecanbeforward;
{ restore old state }
symtablestack:=symtablestack.next;
aktobjectdef:=nil;
current_object_option:=old_object_option;
object_dec:=aktclass;
end;
end.
Reference in New Issue View Git Blame Copy Permalink