/usr/share/fpcsrc/2.6.2/compiler/symtable.pas is in fpc-source-2.6.2 2.6.2-8.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright (c) 1998-2002 by Florian Klaempfl, Pierre Muller
This unit handles the symbol tables
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 symtable;
{$i fpcdefs.inc}
interface
uses
{ common }
cutils,cclasses,
{ global }
cpuinfo,globtype,tokens,
{ symtable }
symconst,symbase,symtype,symdef,symsym,
{ ppu }
ppu,
{ assembler }
aasmtai,aasmdata
;
{****************************************************************************
Symtable types
****************************************************************************}
type
tstoredsymtable = class(TSymtable)
private
b_needs_init_final : boolean;
procedure _needs_init_final(sym:TObject;arg:pointer);
procedure check_forward(sym:TObject;arg:pointer);
procedure labeldefined(sym:TObject;arg:pointer);
procedure varsymbolused(sym:TObject;arg:pointer);
procedure TestPrivate(sym:TObject;arg:pointer);
procedure objectprivatesymbolused(sym:TObject;arg:pointer);
procedure loaddefs(ppufile:tcompilerppufile);
procedure loadsyms(ppufile:tcompilerppufile);
procedure writedefs(ppufile:tcompilerppufile);
procedure writesyms(ppufile:tcompilerppufile);
public
procedure insert(sym:TSymEntry;checkdup:boolean=true);override;
procedure delete(sym:TSymEntry);override;
{ load/write }
procedure ppuload(ppufile:tcompilerppufile);virtual;
procedure ppuwrite(ppufile:tcompilerppufile);virtual;
procedure buildderef;virtual;
procedure buildderefimpl;virtual;
procedure deref;virtual;
procedure derefimpl;virtual;
function checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;override;
procedure allsymbolsused;
procedure allprivatesused;
procedure check_forwards;
procedure checklabels;
function needs_init_final : boolean;
procedure testfordefaultproperty(sym:TObject;arg:pointer);
end;
tabstractrecordsymtable = class(tstoredsymtable)
public
usefieldalignment, { alignment to use for fields (PACKRECORDS value), C_alignment is C style }
recordalignment, { alignment desired when inserting this record }
fieldalignment, { alignment current alignment used when fields are inserted }
padalignment : shortint; { size to a multiple of which the symtable has to be rounded up }
constructor create(const n:string;usealign:shortint);
procedure ppuload(ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
procedure alignrecord(fieldoffset:asizeint;varalign:shortint);
procedure addfield(sym:tfieldvarsym;vis:tvisibility);
procedure addalignmentpadding;
procedure insertdef(def:TDefEntry);override;
function is_packed: boolean;
function has_single_field(out sym:tfieldvarsym): boolean;
function get_unit_symtable: tsymtable;
protected
{ size in bytes including padding }
_datasize : asizeint;
{ size in bits of the data in case of bitpacked record. Only important during construction, }
{ no need to save in/restore from ppu file. datasize is always (databitsize+7) div 8. }
databitsize : asizeint;
{ size in bytes of padding }
_paddingsize : word;
procedure setdatasize(val: asizeint);
public
function iscurrentunit: boolean; override;
property datasize : asizeint read _datasize write setdatasize;
property paddingsize: word read _paddingsize write _paddingsize;
end;
trecordsymtable = class(tabstractrecordsymtable)
public
constructor create(const n:string;usealign:shortint);
procedure insertunionst(unionst : trecordsymtable;offset : longint);
end;
tObjectSymtable = class(tabstractrecordsymtable)
public
constructor create(adefowner:tdef;const n:string;usealign:shortint);
function checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;override;
end;
{ tabstractlocalsymtable }
tabstractlocalsymtable = class(tstoredsymtable)
public
procedure ppuwrite(ppufile:tcompilerppufile);override;
function count_locals:longint;
end;
tlocalsymtable = class(tabstractlocalsymtable)
public
constructor create(adefowner:tdef;level:byte);
function checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;override;
end;
{ tparasymtable }
tparasymtable = class(tabstractlocalsymtable)
public
readonly: boolean;
constructor create(adefowner:tdef;level:byte);
function checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;override;
procedure insertdef(def:TDefEntry);override;
end;
tabstractuniTSymtable = class(tstoredsymtable)
public
constructor create(const n : string;id:word);
function iscurrentunit:boolean;override;
end;
tglobalsymtable = class(tabstractuniTSymtable)
public
unittypecount : word;
constructor create(const n : string;id:word);
procedure ppuload(ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
function checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;override;
end;
tstaticsymtable = class(tabstractuniTSymtable)
public
constructor create(const n : string;id:word);
procedure ppuload(ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
function checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;override;
end;
twithsymtable = class(TSymtable)
withrefnode : tobject; { tnode }
constructor create(aowner:tdef;ASymList:TFPHashObjectList;refnode:tobject{tnode});
destructor destroy;override;
procedure clear;override;
procedure insertdef(def:TDefEntry);override;
end;
tstt_excepTSymtable = class(TSymtable)
public
constructor create;
end;
tmacrosymtable = class(tstoredsymtable)
public
constructor create(exported: boolean);
end;
{ tenumsymtable }
tenumsymtable = class(tstoredsymtable)
public
procedure insert(sym: TSymEntry; checkdup: boolean = true); override;
constructor create(adefowner:tdef);
end;
{ tarraysymtable }
tarraysymtable = class(tstoredsymtable)
public
procedure insertdef(def:TDefEntry);override;
constructor create(adefowner:tdef);
end;
var
systemunit : tglobalsymtable; { pointer to the system unit }
{****************************************************************************
Functions
****************************************************************************}
{*** Misc ***}
function FullTypeName(def,otherdef:tdef):string;
function generate_nested_name(symtable:tsymtable;delimiter:string):string;
procedure incompatibletypes(def1,def2:tdef);
procedure hidesym(sym:TSymEntry);
procedure duplicatesym(var hashedid:THashedIDString;dupsym,origsym:TSymEntry);
{*** Search ***}
procedure addsymref(sym:tsym);
function is_owned_by(childdef,ownerdef:tdef):boolean;
function is_visible_for_object(symst:tsymtable;symvisibility:tvisibility;contextobjdef:tabstractrecorddef):boolean;
function is_visible_for_object(pd:tprocdef;contextobjdef:tabstractrecorddef):boolean;
function is_visible_for_object(sym:tsym;contextobjdef:tabstractrecorddef):boolean;
function searchsym(const s : TIDString;out srsym:tsym;out srsymtable:TSymtable):boolean;
function searchsym_type(const s : TIDString;out srsym:tsym;out srsymtable:TSymtable):boolean;
function searchsym_in_module(pm:pointer;const s : TIDString;out srsym:tsym;out srsymtable:TSymtable):boolean;
function searchsym_in_named_module(const unitname, symname: TIDString; out srsym: tsym; out srsymtable: tsymtable): boolean;
function searchsym_in_class(classh,contextclassh:tobjectdef;const s : TIDString;out srsym:tsym;out srsymtable:TSymtable;searchhelper:boolean):boolean;
function searchsym_in_record(recordh:tabstractrecorddef;const s : TIDString;out srsym:tsym;out srsymtable:TSymtable):boolean;
function searchsym_in_class_by_msgint(classh:tobjectdef;msgid:longint;out srdef : tdef;out srsym:tsym;out srsymtable:TSymtable):boolean;
function searchsym_in_class_by_msgstr(classh:tobjectdef;const s:string;out srsym:tsym;out srsymtable:TSymtable):boolean;
{ searches symbols inside of a helper's implementation }
function searchsym_in_helper(classh,contextclassh:tobjectdef;const s: TIDString;out srsym:tsym;out srsymtable:TSymtable;aHasInherited:boolean):boolean;
function search_system_type(const s: TIDString): ttypesym;
function try_search_system_type(const s: TIDString): ttypesym;
function search_named_unit_globaltype(const unitname, typename: TIDString; throwerror: boolean): ttypesym;
function search_struct_member(pd : tabstractrecorddef;const s : string):tsym;
function search_assignment_operator(from_def,to_def:Tdef;explicit:boolean):Tprocdef;
function search_enumerator_operator(from_def,to_def:Tdef):Tprocdef;
{ searches for the helper definition that's currently active for pd }
function search_last_objectpascal_helper(pd,contextclassh : tabstractrecorddef;out odef : tobjectdef):boolean;
{ searches whether the symbol s is available in the currently active }
{ helper for pd }
function search_objectpascal_helper(pd,contextclassh : tabstractrecorddef;const s : string; out srsym: tsym; out srsymtable: tsymtable):boolean;
function search_objc_helper(pd : tobjectdef;const s : string; out srsym: tsym; out srsymtable: tsymtable):boolean;
function search_objc_method(const s : string; out srsym: tsym; out srsymtable: tsymtable):boolean;
{Looks for macro s (must be given in upper case) in the macrosymbolstack, }
{and returns it if found. Returns nil otherwise.}
function search_macro(const s : string):tsym;
{ Additionally to searching for a macro, also checks whether it's still }
{ actually defined (could be disable using "undef") }
function defined_macro(const s : string):boolean;
{*** Object Helpers ***}
function search_default_property(pd : tabstractrecorddef) : tpropertysym;
function find_real_objcclass_definition(pd: tobjectdef; erroronfailure: boolean): tobjectdef;
{*** Macro Helpers ***}
{If called initially, the following procedures manipulate macros in }
{initialmacrotable, otherwise they manipulate system macros local to a module.}
{Name can be given in any case (it will be converted to upper case).}
procedure def_system_macro(const name : string);
procedure set_system_macro(const name, value : string);
procedure set_system_compvar(const name, value : string);
procedure undef_system_macro(const name : string);
{*** symtable stack ***}
{ $ifdef DEBUG
procedure test_symtablestack;
procedure list_symtablestack;
$endif DEBUG}
{$ifdef UNITALIASES}
type
punit_alias = ^tunit_alias;
tunit_alias = object(TNamedIndexItem)
newname : pshortstring;
constructor init(const n:string);
destructor done;virtual;
end;
var
unitaliases : pdictionary;
procedure addunitalias(const n:string);
function getunitalias(const n:string):string;
{$endif UNITALIASES}
{*** Init / Done ***}
procedure IniTSymtable;
procedure DoneSymtable;
const
overloaded_names : array [NOTOKEN..last_overloaded] of string[16] = (
{ NOTOKEN } 'error',
{ _PLUS } 'plus',
{ _MINUS } 'minus',
{ _STAR } 'star',
{ _SLASH } 'slash',
{ _EQ } 'equal',
{ _GT } 'greater',
{ _LT } 'lower',
{ _GTE } 'greater_or_equal',
{ _LTE } 'lower_or_equal',
{ _NE } 'not_equal',
{ _SYMDIF } 'sym_diff',
{ _STARSTAR } 'starstar',
{ _OP_AS } 'as',
{ _OP_IN } 'in',
{ _OP_IS } 'is',
{ _OP_OR } 'or',
{ _OP_AND } 'and',
{ _OP_DIV } 'div',
{ _OP_MOD } 'mod',
{ _OP_NOT } 'not',
{ _OP_SHL } 'shl',
{ _OP_SHR } 'shr',
{ _OP_XOR } 'xor',
{ _ASSIGNMENT } 'assign',
{ _OP_EXPLICIT } 'explicit',
{ _OP_ENUMERATOR } 'enumerator',
{ _OP_INC } 'inc',
{ _OP_DEC } 'dec');
implementation
uses
{ global }
verbose,globals,
{ target }
systems,
{ symtable }
symutil,defcmp,defutil,
{ module }
fmodule,
{ codegen }
procinfo
;
var
dupnr : longint; { unique number for duplicate symbols }
{*****************************************************************************
TStoredSymtable
*****************************************************************************}
procedure tstoredsymtable.insert(sym:TSymEntry;checkdup:boolean=true);
begin
inherited insert(sym,checkdup);
end;
procedure tstoredsymtable.delete(sym:TSymEntry);
begin
inherited delete(sym);
end;
procedure tstoredsymtable.ppuload(ppufile:tcompilerppufile);
begin
{ load the table's flags }
if ppufile.readentry<>ibsymtableoptions then
Message(unit_f_ppu_read_error);
ppufile.getsmallset(tableoptions);
{ load definitions }
loaddefs(ppufile);
{ load symbols }
loadsyms(ppufile);
end;
procedure tstoredsymtable.ppuwrite(ppufile:tcompilerppufile);
begin
{ write the table's flags }
ppufile.putsmallset(tableoptions);
ppufile.writeentry(ibsymtableoptions);
{ write definitions }
writedefs(ppufile);
{ write symbols }
writesyms(ppufile);
end;
procedure tstoredsymtable.loaddefs(ppufile:tcompilerppufile);
var
def : tdef;
b : byte;
begin
{ load start of definition section, which holds the amount of defs }
if ppufile.readentry<>ibstartdefs then
Message(unit_f_ppu_read_error);
{ read definitions }
repeat
b:=ppufile.readentry;
case b of
ibpointerdef : def:=tpointerdef.ppuload(ppufile);
ibarraydef : def:=tarraydef.ppuload(ppufile);
iborddef : def:=torddef.ppuload(ppufile);
ibfloatdef : def:=tfloatdef.ppuload(ppufile);
ibprocdef : def:=tprocdef.ppuload(ppufile);
ibshortstringdef : def:=tstringdef.loadshort(ppufile);
iblongstringdef : def:=tstringdef.loadlong(ppufile);
ibansistringdef : def:=tstringdef.loadansi(ppufile);
ibwidestringdef : def:=tstringdef.loadwide(ppufile);
ibunicodestringdef : def:=tstringdef.loadunicode(ppufile);
ibrecorddef : def:=trecorddef.ppuload(ppufile);
ibobjectdef : def:=tobjectdef.ppuload(ppufile);
ibenumdef : def:=tenumdef.ppuload(ppufile);
ibsetdef : def:=tsetdef.ppuload(ppufile);
ibprocvardef : def:=tprocvardef.ppuload(ppufile);
ibfiledef : def:=tfiledef.ppuload(ppufile);
ibclassrefdef : def:=tclassrefdef.ppuload(ppufile);
ibformaldef : def:=tformaldef.ppuload(ppufile);
ibvariantdef : def:=tvariantdef.ppuload(ppufile);
ibundefineddef : def:=tundefineddef.ppuload(ppufile);
ibenddefs : break;
ibend : Message(unit_f_ppu_read_error);
else
Message1(unit_f_ppu_invalid_entry,tostr(b));
end;
InsertDef(def);
until false;
end;
procedure tstoredsymtable.loadsyms(ppufile:tcompilerppufile);
var
b : byte;
sym : tsym;
begin
{ load start of definition section, which holds the amount of defs }
if ppufile.readentry<>ibstartsyms then
Message(unit_f_ppu_read_error);
{ now read the symbols }
repeat
b:=ppufile.readentry;
case b of
ibtypesym : sym:=ttypesym.ppuload(ppufile);
ibprocsym : sym:=tprocsym.ppuload(ppufile);
ibconstsym : sym:=tconstsym.ppuload(ppufile);
ibstaticvarsym : sym:=tstaticvarsym.ppuload(ppufile);
iblocalvarsym : sym:=tlocalvarsym.ppuload(ppufile);
ibparavarsym : sym:=tparavarsym.ppuload(ppufile);
ibfieldvarsym : sym:=tfieldvarsym.ppuload(ppufile);
ibabsolutevarsym : sym:=tabsolutevarsym.ppuload(ppufile);
ibenumsym : sym:=tenumsym.ppuload(ppufile);
ibpropertysym : sym:=tpropertysym.ppuload(ppufile);
ibunitsym : sym:=tunitsym.ppuload(ppufile);
iblabelsym : sym:=tlabelsym.ppuload(ppufile);
ibsyssym : sym:=tsyssym.ppuload(ppufile);
ibmacrosym : sym:=tmacro.ppuload(ppufile);
ibendsyms : break;
ibend : Message(unit_f_ppu_read_error);
else
Message1(unit_f_ppu_invalid_entry,tostr(b));
end;
Insert(sym,false);
until false;
end;
procedure tstoredsymtable.writedefs(ppufile:tcompilerppufile);
var
i : longint;
def : tstoreddef;
begin
{ each definition get a number, write then the amount of defs to the
ibstartdef entry }
ppufile.putlongint(DefList.count);
ppufile.writeentry(ibstartdefs);
{ now write the definition }
for i:=0 to DefList.Count-1 do
begin
def:=tstoreddef(DefList[i]);
def.ppuwrite(ppufile);
end;
{ write end of definitions }
ppufile.writeentry(ibenddefs);
end;
procedure tstoredsymtable.writesyms(ppufile:tcompilerppufile);
var
i : longint;
sym : Tstoredsym;
begin
{ each definition get a number, write then the amount of syms and the
datasize to the ibsymdef entry }
ppufile.putlongint(SymList.count);
ppufile.writeentry(ibstartsyms);
{ foreach is used to write all symbols }
for i:=0 to SymList.Count-1 do
begin
sym:=tstoredsym(SymList[i]);
sym.ppuwrite(ppufile);
end;
{ end of symbols }
ppufile.writeentry(ibendsyms);
end;
procedure tstoredsymtable.buildderef;
var
i : longint;
def : tstoreddef;
sym : tstoredsym;
begin
{ interface definitions }
for i:=0 to DefList.Count-1 do
begin
def:=tstoreddef(DefList[i]);
def.buildderef;
end;
{ interface symbols }
for i:=0 to SymList.Count-1 do
begin
sym:=tstoredsym(SymList[i]);
sym.buildderef;
end;
end;
procedure tstoredsymtable.buildderefimpl;
var
i : longint;
def : tstoreddef;
begin
{ implementation definitions }
for i:=0 to DefList.Count-1 do
begin
def:=tstoreddef(DefList[i]);
def.buildderefimpl;
end;
end;
procedure tstoredsymtable.deref;
var
i : longint;
def : tstoreddef;
sym : tstoredsym;
begin
{ first deref the interface ttype symbols. This is needs
to be done before the interface defs are derefed, because
the interface defs can contain references to the type symbols
which then already need to contain a resolved typedef field (PFV) }
for i:=0 to SymList.Count-1 do
begin
sym:=tstoredsym(SymList[i]);
if sym.typ=typesym then
sym.deref;
end;
{ interface definitions }
for i:=0 to DefList.Count-1 do
begin
def:=tstoreddef(DefList[i]);
def.deref;
end;
{ interface symbols }
for i:=0 to SymList.Count-1 do
begin
sym:=tstoredsym(SymList[i]);
if sym.typ<>typesym then
sym.deref;
end;
end;
procedure tstoredsymtable.derefimpl;
var
i : longint;
def : tstoreddef;
begin
{ implementation definitions }
for i:=0 to DefList.Count-1 do
begin
def:=tstoreddef(DefList[i]);
def.derefimpl;
end;
end;
function tstoredsymtable.checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;
var
hsym : tsym;
begin
hsym:=tsym(FindWithHash(hashedid));
if assigned(hsym) then
DuplicateSym(hashedid,sym,hsym);
result:=assigned(hsym);
end;
{**************************************
Callbacks
**************************************}
procedure TStoredSymtable.check_forward(sym:TObject;arg:pointer);
begin
if tsym(sym).typ=procsym then
tprocsym(sym).check_forward
{ check also object method table }
{ we needn't to test the def list }
{ because each object has to have a type sym,
only test objects declarations, not type renamings }
else
if (tsym(sym).typ=typesym) and
assigned(ttypesym(sym).typedef) and
(ttypesym(sym).typedef.typesym=ttypesym(sym)) and
(ttypesym(sym).typedef.typ in [objectdef,recorddef]) then
tabstractrecorddef(ttypesym(sym).typedef).check_forwards;
end;
procedure TStoredSymtable.labeldefined(sym:TObject;arg:pointer);
begin
if (tsym(sym).typ=labelsym) and
not(tlabelsym(sym).defined) then
begin
if tlabelsym(sym).used then
Message1(sym_e_label_used_and_not_defined,tlabelsym(sym).realname)
else
Message1(sym_w_label_not_defined,tlabelsym(sym).realname);
end;
end;
procedure TStoredSymtable.varsymbolused(sym:TObject;arg:pointer);
begin
if (tsym(sym).typ in [staticvarsym,localvarsym,paravarsym,fieldvarsym]) and
((tsym(sym).owner.symtabletype in
[parasymtable,localsymtable,ObjectSymtable,recordsymtable,staticsymtable])) then
begin
{ unused symbol should be reported only if no }
{ error is reported }
{ if the symbol is in a register it is used }
{ also don't count the value parameters which have local copies }
{ also don't claim for high param of open parameters (PM) }
if (Errorcount<>0) or
([vo_is_hidden_para,vo_is_funcret] * tabstractvarsym(sym).varoptions = [vo_is_hidden_para]) or
(sp_internal in tsym(sym).symoptions) then
exit;
if (tstoredsym(sym).refs=0) then
begin
if (vo_is_funcret in tabstractvarsym(sym).varoptions) then
begin
{ don't warn about the result of constructors }
if ((tsym(sym).owner.symtabletype<>localsymtable) or
(tprocdef(tsym(sym).owner.defowner).proctypeoption<>potype_constructor)) and
not(cs_opt_nodedfa in current_settings.optimizerswitches) then
MessagePos(tsym(sym).fileinfo,sym_w_function_result_not_set)
end
else if (tsym(sym).owner.symtabletype=parasymtable) then
MessagePos1(tsym(sym).fileinfo,sym_h_para_identifier_not_used,tsym(sym).prettyname)
else if (tsym(sym).owner.symtabletype in [ObjectSymtable,recordsymtable]) then
MessagePos2(tsym(sym).fileinfo,sym_n_private_identifier_not_used,tabstractrecorddef(tsym(sym).owner.defowner).RttiName,tsym(sym).prettyname)
else
MessagePos1(tsym(sym).fileinfo,sym_n_local_identifier_not_used,tsym(sym).prettyname);
end
else if tabstractvarsym(sym).varstate in [vs_written,vs_initialised] then
begin
if (tsym(sym).owner.symtabletype=parasymtable) then
begin
if not(tabstractvarsym(sym).varspez in [vs_var,vs_out,vs_constref]) and
not(vo_is_funcret in tabstractvarsym(sym).varoptions) then
MessagePos1(tsym(sym).fileinfo,sym_h_para_identifier_only_set,tsym(sym).prettyname)
end
else if (tsym(sym).owner.symtabletype in [ObjectSymtable,recordsymtable]) then
MessagePos2(tsym(sym).fileinfo,sym_n_private_identifier_only_set,tabstractrecorddef(tsym(sym).owner.defowner).RttiName,tsym(sym).prettyname)
else if tabstractvarsym(sym).varoptions*[vo_is_funcret,vo_is_public,vo_is_external]=[] then
MessagePos1(tsym(sym).fileinfo,sym_n_local_identifier_only_set,tsym(sym).prettyname);
end
else if (tabstractvarsym(sym).varstate = vs_read_not_warned) and
([vo_is_public,vo_is_external] * tabstractvarsym(sym).varoptions = []) then
MessagePos1(tsym(sym).fileinfo,sym_w_identifier_only_read,tsym(sym).prettyname)
end
else if ((tsym(sym).owner.symtabletype in
[ObjectSymtable,parasymtable,localsymtable,staticsymtable,recordsymtable])) then
begin
if (Errorcount<>0) or
(sp_internal in tsym(sym).symoptions) then
exit;
{ do not claim for inherited private fields !! }
if (tsym(sym).refs=0) and (tsym(sym).owner.symtabletype in [ObjectSymtable,recordsymtable]) then
case tsym(sym).typ of
typesym:
MessagePos2(tsym(sym).fileinfo,sym_n_private_type_not_used,tabstractrecorddef(tsym(sym).owner.defowner).RttiName,tsym(sym).prettyname);
constsym:
MessagePos2(tsym(sym).fileinfo,sym_n_private_const_not_used,tabstractrecorddef(tsym(sym).owner.defowner).RttiName,tsym(sym).prettyname);
propertysym:
MessagePos2(tsym(sym).fileinfo,sym_n_private_property_not_used,tabstractrecorddef(tsym(sym).owner.defowner).RttiName,tsym(sym).prettyname);
else
MessagePos2(tsym(sym).fileinfo,sym_n_private_method_not_used,tabstractrecorddef(tsym(sym).owner.defowner).RttiName,tsym(sym).prettyname);
end
{ units references are problematic }
else
begin
if (tsym(sym).refs=0) and
not(tsym(sym).typ in [enumsym,unitsym]) and
not(is_funcret_sym(tsym(sym))) and
{ don't complain about compiler generated syms for specializations, see also #13405 }
not((tsym(sym).typ=typesym) and (df_specialization in ttypesym(sym).typedef.defoptions) and
(pos('$',ttypesym(sym).Realname)<>0)) and
(
(tsym(sym).typ<>procsym) or
((tsym(sym).owner.symtabletype=staticsymtable) and
not current_module.is_unit)
) and
{ don't complain about alias for hidden _cmd parameter to
obj-c methods }
not((tsym(sym).typ in [localvarsym,paravarsym,absolutevarsym]) and
(vo_is_msgsel in tabstractvarsym(sym).varoptions)) then
MessagePos2(tsym(sym).fileinfo,sym_h_local_symbol_not_used,SymTypeName[tsym(sym).typ],tsym(sym).prettyname);
end;
end;
end;
procedure TStoredSymtable.TestPrivate(sym:TObject;arg:pointer);
begin
if tsym(sym).visibility in [vis_private,vis_strictprivate] then
varsymbolused(sym,arg);
end;
procedure TStoredSymtable.objectprivatesymbolused(sym:TObject;arg:pointer);
begin
{
Don't test simple object aliases PM
}
if (tsym(sym).typ=typesym) and
(ttypesym(sym).typedef.typ in [objectdef,recorddef]) and
(ttypesym(sym).typedef.typesym=tsym(sym)) then
tabstractrecorddef(ttypesym(sym).typedef).symtable.SymList.ForEachCall(@TestPrivate,nil);
end;
procedure tstoredsymtable.testfordefaultproperty(sym:TObject;arg:pointer);
begin
if (tsym(sym).typ=propertysym) and
(ppo_defaultproperty in tpropertysym(sym).propoptions) then
ppointer(arg)^:=sym;
end;
{***********************************************
Process all entries
***********************************************}
{ checks, if all procsyms and methods are defined }
procedure tstoredsymtable.check_forwards;
begin
SymList.ForEachCall(@check_forward,nil);
end;
procedure tstoredsymtable.checklabels;
begin
SymList.ForEachCall(@labeldefined,nil);
end;
procedure tstoredsymtable.allsymbolsused;
begin
SymList.ForEachCall(@varsymbolused,nil);
end;
procedure tstoredsymtable.allprivatesused;
begin
SymList.ForEachCall(@objectprivatesymbolused,nil);
end;
procedure TStoredSymtable._needs_init_final(sym:TObject;arg:pointer);
begin
if b_needs_init_final then
exit;
{ don't check static symbols - they can be present in structures only and
always have a reference to a symbol defined on unit level }
if sp_static in tsym(sym).symoptions then
exit;
case tsym(sym).typ of
fieldvarsym,
staticvarsym,
localvarsym,
paravarsym :
begin
if is_managed_type(tabstractvarsym(sym).vardef) then
b_needs_init_final:=true;
end;
end;
end;
{ returns true, if p contains data which needs init/final code }
function tstoredsymtable.needs_init_final : boolean;
begin
b_needs_init_final:=false;
SymList.ForEachCall(@_needs_init_final,nil);
needs_init_final:=b_needs_init_final;
end;
{****************************************************************************
TAbstractRecordSymtable
****************************************************************************}
constructor tabstractrecordsymtable.create(const n:string;usealign:shortint);
begin
inherited create(n);
moduleid:=current_module.moduleid;
_datasize:=0;
databitsize:=0;
recordalignment:=1;
usefieldalignment:=usealign;
padalignment:=1;
{ recordalign C_alignment means C record packing, that starts
with an alignment of 1 }
case usealign of
C_alignment,
bit_alignment:
fieldalignment:=1;
mac68k_alignment:
fieldalignment:=2;
else
fieldalignment:=usealign;
end;
end;
procedure tabstractrecordsymtable.ppuload(ppufile:tcompilerppufile);
begin
if ppufile.readentry<>ibrecsymtableoptions then
Message(unit_f_ppu_read_error);
recordalignment:=shortint(ppufile.getbyte);
usefieldalignment:=shortint(ppufile.getbyte);
if (usefieldalignment=C_alignment) then
fieldalignment:=shortint(ppufile.getbyte);
inherited ppuload(ppufile);
end;
procedure tabstractrecordsymtable.ppuwrite(ppufile:tcompilerppufile);
var
oldtyp : byte;
begin
oldtyp:=ppufile.entrytyp;
ppufile.entrytyp:=subentryid;
{ in case of classes using C alignment, the alignment of the parent
affects the alignment of fields of the childs }
ppufile.putbyte(byte(recordalignment));
ppufile.putbyte(byte(usefieldalignment));
if (usefieldalignment=C_alignment) then
ppufile.putbyte(byte(fieldalignment));
ppufile.writeentry(ibrecsymtableoptions);
inherited ppuwrite(ppufile);
ppufile.entrytyp:=oldtyp;
end;
function field2recordalignment(fieldoffs, fieldalign: asizeint): asizeint;
begin
{ optimal alignment of the record when declaring a variable of this }
{ type is independent of the packrecords setting }
if (fieldoffs mod fieldalign) = 0 then
result:=fieldalign
else if (fieldalign >= 16) and
((fieldoffs mod 16) = 0) and
((fieldalign mod 16) = 0) then
result:=16
else if (fieldalign >= 8) and
((fieldoffs mod 8) = 0) and
((fieldalign mod 8) = 0) then
result:=8
else if (fieldalign >= 4) and
((fieldoffs mod 4) = 0) and
((fieldalign mod 4) = 0) then
result:=4
else if (fieldalign >= 2) and
((fieldoffs mod 2) = 0) and
((fieldalign mod 2) = 0) then
result:=2
else
result:=1;
end;
procedure tabstractrecordsymtable.alignrecord(fieldoffset:asizeint;varalign:shortint);
var
varalignrecord: shortint;
begin
case usefieldalignment of
C_alignment:
varalignrecord:=used_align(varalign,current_settings.alignment.recordalignmin,current_settings.alignment.maxCrecordalign);
mac68k_alignment:
varalignrecord:=2;
else
varalignrecord:=field2recordalignment(fieldoffset,varalign);
end;
recordalignment:=max(recordalignment,varalignrecord);
end;
procedure tabstractrecordsymtable.addfield(sym:tfieldvarsym;vis:tvisibility);
var
l : asizeint;
varalignfield,
varalign : shortint;
vardef : tdef;
begin
if (sym.owner<>self) then
internalerror(200602031);
if sym.fieldoffset<>-1 then
internalerror(200602032);
{ set visibility for the symbol }
sym.visibility:=vis;
{ this symbol can't be loaded to a register }
sym.varregable:=vr_none;
{ Calculate field offset }
l:=sym.getsize;
vardef:=sym.vardef;
varalign:=vardef.alignment;
case usefieldalignment of
bit_alignment:
begin
{ bitpacking only happens for ordinals, the rest is aligned at }
{ 1 byte (compatible with GPC/GCC) }
if is_ordinal(vardef) then
begin
sym.fieldoffset:=databitsize;
l:=sym.getpackedbitsize;
end
else
begin
databitsize:=_datasize*8;
sym.fieldoffset:=databitsize;
if (l>high(asizeint) div 8) then
Message(sym_e_segment_too_large);
l:=l*8;
end;
if varalign=0 then
varalign:=size_2_align(l);
recordalignment:=max(recordalignment,field2recordalignment(databitsize mod 8,varalign));
{ bit packed records are limited to high(aint) bits }
{ instead of bytes to avoid double precision }
{ arithmetic in offset calculations }
if int64(l)>high(asizeint)-sym.fieldoffset then
begin
Message(sym_e_segment_too_large);
_datasize:=high(asizeint);
databitsize:=high(asizeint);
end
else
begin
databitsize:=sym.fieldoffset+l;
_datasize:=(databitsize+7) div 8;
end;
{ rest is not applicable }
exit;
end;
{ Calc the alignment size for C style records }
C_alignment:
begin
if (varalign>4) and
((varalign mod 4)<>0) and
(vardef.typ=arraydef) then
Message1(sym_w_wrong_C_pack,vardef.typename);
if varalign=0 then
varalign:=l;
if (fieldalignment<current_settings.alignment.maxCrecordalign) then
begin
if (varalign>16) and (fieldalignment<32) then
fieldalignment:=32
else if (varalign>12) and (fieldalignment<16) then
fieldalignment:=16
{ 12 is needed for long double }
else if (varalign>8) and (fieldalignment<12) then
fieldalignment:=12
else if (varalign>4) and (fieldalignment<8) then
fieldalignment:=8
else if (varalign>2) and (fieldalignment<4) then
fieldalignment:=4
else if (varalign>1) and (fieldalignment<2) then
fieldalignment:=2;
end;
fieldalignment:=min(fieldalignment,current_settings.alignment.maxCrecordalign);
end;
mac68k_alignment:
begin
{ mac68k alignment (C description):
* char is aligned to 1 byte
* everything else (except vector) is aligned to 2 bytes
* vector is aligned to 16 bytes
}
if l>1 then
fieldalignment:=2
else
fieldalignment:=1;
varalign:=2;
end;
end;
if varalign=0 then
varalign:=size_2_align(l);
varalignfield:=used_align(varalign,current_settings.alignment.recordalignmin,fieldalignment);
sym.fieldoffset:=align(_datasize,varalignfield);
if l>high(asizeint)-sym.fieldoffset then
begin
Message(sym_e_segment_too_large);
_datasize:=high(aint);
end
else
_datasize:=sym.fieldoffset+l;
{ Calc alignment needed for this record }
alignrecord(sym.fieldoffset,varalign);
end;
procedure tabstractrecordsymtable.addalignmentpadding;
var
padded_datasize: asizeint;
begin
{ make the record size aligned correctly so it can be
used as elements in an array. For C records we
use the fieldalignment, because that is updated with the
used alignment. }
if (padalignment = 1) then
case usefieldalignment of
C_alignment:
padalignment:=fieldalignment;
{ bitpacked }
bit_alignment:
padalignment:=1;
{ mac68k: always round to multiple of 2 }
mac68k_alignment:
padalignment:=2;
{ default/no packrecords specified }
0:
padalignment:=recordalignment
{ specific packrecords setting -> use as upper limit }
else
padalignment:=min(recordalignment,usefieldalignment);
end;
padded_datasize:=align(_datasize,padalignment);
_paddingsize:=padded_datasize-_datasize;
_datasize:=padded_datasize;
end;
procedure tabstractrecordsymtable.insertdef(def:TDefEntry);
begin
{ Enums must also be available outside the record scope,
insert in the owner of this symtable }
if def.typ=enumdef then
defowner.owner.insertdef(def)
else
inherited insertdef(def);
end;
function tabstractrecordsymtable.is_packed: boolean;
begin
result:=usefieldalignment=bit_alignment;
end;
function tabstractrecordsymtable.has_single_field(out sym: tfieldvarsym): boolean;
var
i: longint;
begin
result:=false;
{ If a record contains a union, it does not contain a "single
non-composite field" in the context of certain ABIs requiring
special treatment for such records }
if (defowner.typ=recorddef) and
trecorddef(defowner).isunion then
exit;
{ a record/object can contain other things than fields }
for i:=0 to SymList.Count-1 do
begin
if tsym(symlist[i]).typ=fieldvarsym then
begin
if result then
begin
result:=false;
exit;
end;
result:=true;
sym:=tfieldvarsym(symlist[i])
end;
end;
end;
function tabstractrecordsymtable.get_unit_symtable: tsymtable;
begin
result:=defowner.owner;
while assigned(result) and (result.symtabletype in [ObjectSymtable,recordsymtable]) do
result:=result.defowner.owner;
end;
procedure tabstractrecordsymtable.setdatasize(val: asizeint);
begin
_datasize:=val;
if (usefieldalignment=bit_alignment) then
{ can overflow in non bitpacked records }
databitsize:=val*8;
end;
function tabstractrecordsymtable.iscurrentunit: boolean;
begin
Result := Assigned(current_module) and (current_module.moduleid=moduleid);
end;
{****************************************************************************
TRecordSymtable
****************************************************************************}
constructor trecordsymtable.create(const n:string;usealign:shortint);
begin
inherited create(n,usealign);
symtabletype:=recordsymtable;
end;
{ this procedure is reserved for inserting case variant into
a record symtable }
{ the offset is the location of the start of the variant
and datasize and dataalignment corresponds to
the complete size (see code in pdecl unit) PM }
procedure trecordsymtable.insertunionst(unionst : trecordsymtable;offset : longint);
var
sym : tsym;
def : tdef;
i : integer;
varalignrecord,varalign,
storesize,storealign : aint;
bitsize: aint;
begin
storesize:=_datasize;
storealign:=fieldalignment;
_datasize:=offset;
if (usefieldalignment=bit_alignment) then
databitsize:=offset*8;
{ We move the ownership of the defs and symbols to the new recordsymtable.
The old unionsymtable keeps the references, but doesn't own the
objects anymore }
unionst.DefList.OwnsObjects:=false;
unionst.SymList.OwnsObjects:=false;
{ copy symbols }
for i:=0 to unionst.SymList.Count-1 do
begin
sym:=TSym(unionst.SymList[i]);
if sym.typ<>fieldvarsym then
internalerror(200601272);
if tfieldvarsym(sym).fieldoffset=0 then
include(tfieldvarsym(sym).varoptions,vo_is_first_field);
{ add to this record symtable }
// unionst.SymList.List.List^[i].Data:=nil;
sym.ChangeOwner(self);
varalign:=tfieldvarsym(sym).vardef.alignment;
if varalign=0 then
varalign:=size_2_align(tfieldvarsym(sym).getsize);
{ retrieve size }
if (usefieldalignment=bit_alignment) then
begin
{ bit packed records are limited to high(aint) bits }
{ instead of bytes to avoid double precision }
{ arithmetic in offset calculations }
if is_ordinal(tfieldvarsym(sym).vardef) then
bitsize:=tfieldvarsym(sym).getpackedbitsize
else
begin
bitsize:=tfieldvarsym(sym).getsize;
if (bitsize>high(asizeint) div 8) then
Message(sym_e_segment_too_large);
bitsize:=bitsize*8;
end;
if bitsize>high(asizeint)-databitsize then
begin
Message(sym_e_segment_too_large);
_datasize:=high(aint);
databitsize:=high(aint);
end
else
begin
databitsize:=tfieldvarsym(sym).fieldoffset+offset*8;
_datasize:=(databitsize+7) div 8;
end;
tfieldvarsym(sym).fieldoffset:=databitsize;
varalignrecord:=field2recordalignment(tfieldvarsym(sym).fieldoffset div 8,varalign);
end
else
begin
if tfieldvarsym(sym).getsize>high(asizeint)-_datasize then
begin
Message(sym_e_segment_too_large);
_datasize:=high(aint);
end
else
_datasize:=tfieldvarsym(sym).fieldoffset+offset;
{ update address }
tfieldvarsym(sym).fieldoffset:=_datasize;
varalignrecord:=field2recordalignment(tfieldvarsym(sym).fieldoffset,varalign);
end;
{ update alignment of this record }
if (usefieldalignment<>C_alignment) and
(usefieldalignment<>mac68k_alignment) then
recordalignment:=max(recordalignment,varalignrecord);
end;
{ update alignment for C records }
if (usefieldalignment=C_alignment) and
(usefieldalignment<>mac68k_alignment) then
recordalignment:=max(recordalignment,unionst.recordalignment);
{ Register defs in the new record symtable }
for i:=0 to unionst.DefList.Count-1 do
begin
def:=TDef(unionst.DefList[i]);
def.ChangeOwner(self);
end;
_datasize:=storesize;
fieldalignment:=storealign;
{ If a record contains a union, it does not contain a "single
non-composite field" in the context of certain ABIs requiring
special treatment for such records }
if defowner.typ=recorddef then
trecorddef(defowner).isunion:=true;
end;
{****************************************************************************
TObjectSymtable
****************************************************************************}
constructor tObjectSymtable.create(adefowner:tdef;const n:string;usealign:shortint);
begin
inherited create(n,usealign);
symtabletype:=ObjectSymtable;
defowner:=adefowner;
end;
function tObjectSymtable.checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;
var
hsym : tsym;
begin
result:=false;
if not assigned(defowner) then
internalerror(200602061);
{ procsym and propertysym have special code
to override values in inherited classes. For other
symbols check for duplicates }
if not(sym.typ in [procsym,propertysym]) then
begin
{ but private ids can be reused }
hsym:=search_struct_member(tobjectdef(defowner),hashedid.id);
if assigned(hsym) and
(
(
not(m_delphi in current_settings.modeswitches) and
is_visible_for_object(hsym,tobjectdef(defowner))
) or
(
{ In Delphi, you can repeat members of a parent class. You can't }
{ do this for objects however, and you (obviouly) can't }
{ declare two fields with the same name in a single class }
(m_delphi in current_settings.modeswitches) and
(
is_object(tdef(defowner)) or
(hsym.owner = self)
)
)
) then
begin
DuplicateSym(hashedid,sym,hsym);
result:=true;
end;
end
else
begin
if not(m_duplicate_names in current_settings.modeswitches) then
result:=inherited checkduplicate(hashedid,sym);
end;
end;
{****************************************************************************
TAbstractLocalSymtable
****************************************************************************}
procedure tabstractlocalsymtable.ppuwrite(ppufile:tcompilerppufile);
var
oldtyp : byte;
begin
oldtyp:=ppufile.entrytyp;
ppufile.entrytyp:=subentryid;
inherited ppuwrite(ppufile);
ppufile.entrytyp:=oldtyp;
end;
function tabstractlocalsymtable.count_locals:longint;
var
i : longint;
sym : tsym;
begin
result:=0;
for i:=0 to SymList.Count-1 do
begin
sym:=tsym(SymList[i]);
{ Count only varsyms, but ignore the funcretsym }
if (tsym(sym).typ in [localvarsym,paravarsym]) and
(tsym(sym)<>current_procinfo.procdef.funcretsym) and
(not(vo_is_parentfp in tabstractvarsym(sym).varoptions) or
(tstoredsym(sym).refs>0)) then
inc(result);
end;
end;
{****************************************************************************
TLocalSymtable
****************************************************************************}
constructor tlocalsymtable.create(adefowner:tdef;level:byte);
begin
inherited create('');
defowner:=adefowner;
symtabletype:=localsymtable;
symtablelevel:=level;
end;
function tlocalsymtable.checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;
var
hsym : tsym;
begin
if not assigned(defowner) or
(defowner.typ<>procdef) then
internalerror(200602042);
result:=false;
hsym:=tsym(FindWithHash(hashedid));
if assigned(hsym) then
begin
{ a local and the function can have the same
name in TP and Delphi, but RESULT not }
if (m_duplicate_names in current_settings.modeswitches) and
(hsym.typ in [absolutevarsym,localvarsym]) and
(vo_is_funcret in tabstractvarsym(hsym).varoptions) and
not((m_result in current_settings.modeswitches) and
(vo_is_result in tabstractvarsym(hsym).varoptions)) then
HideSym(hsym)
else
DuplicateSym(hashedid,sym,hsym);
result:=true;
exit;
end;
{ check also parasymtable, this needs to be done here because
of the special situation with the funcret sym that needs to be
hidden for tp and delphi modes }
hsym:=tsym(tabstractprocdef(defowner).parast.FindWithHash(hashedid));
if assigned(hsym) then
begin
{ a local and the function can have the same
name in TP and Delphi, but RESULT not }
if (m_duplicate_names in current_settings.modeswitches) and
(sym.typ in [absolutevarsym,localvarsym]) and
(vo_is_funcret in tabstractvarsym(sym).varoptions) and
not((m_result in current_settings.modeswitches) and
(vo_is_result in tabstractvarsym(sym).varoptions)) then
Hidesym(sym)
else
DuplicateSym(hashedid,sym,hsym);
result:=true;
exit;
end;
{ check ObjectSymtable, skip this for funcret sym because
that will always be positive because it has the same name
as the procsym }
if not is_funcret_sym(sym) and
(defowner.typ=procdef) and
assigned(tprocdef(defowner).struct) and
(tprocdef(defowner).owner.defowner=tprocdef(defowner).struct) and
(
not(m_delphi in current_settings.modeswitches) or
is_object(tprocdef(defowner).struct)
) then
result:=tprocdef(defowner).struct.symtable.checkduplicate(hashedid,sym);
end;
{****************************************************************************
TParaSymtable
****************************************************************************}
constructor tparasymtable.create(adefowner:tdef;level:byte);
begin
inherited create('');
readonly:=false;
defowner:=adefowner;
symtabletype:=parasymtable;
symtablelevel:=level;
end;
function tparasymtable.checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;
begin
result:=inherited checkduplicate(hashedid,sym);
if result then
exit;
if not(m_duplicate_names in current_settings.modeswitches) and
(defowner.typ=procdef) and
assigned(tprocdef(defowner).struct) and
(tprocdef(defowner).owner.defowner=tprocdef(defowner).struct) and
(
not(m_delphi in current_settings.modeswitches) or
is_object(tprocdef(defowner).struct)
) then
result:=tprocdef(defowner).struct.symtable.checkduplicate(hashedid,sym);
end;
procedure tparasymtable.insertdef(def: TDefEntry);
begin
if readonly then
defowner.owner.insertdef(def)
else
inherited insertdef(def);
end;
{****************************************************************************
TAbstractUniTSymtable
****************************************************************************}
constructor tabstractuniTSymtable.create(const n : string;id:word);
begin
inherited create(n);
moduleid:=id;
end;
function tabstractuniTSymtable.iscurrentunit:boolean;
begin
result:=assigned(current_module) and
(
(current_module.globalsymtable=self) or
(current_module.localsymtable=self)
);
end;
{****************************************************************************
TStaticSymtable
****************************************************************************}
constructor tstaticsymtable.create(const n : string;id:word);
begin
inherited create(n,id);
symtabletype:=staticsymtable;
symtablelevel:=main_program_level;
end;
procedure tstaticsymtable.ppuload(ppufile:tcompilerppufile);
begin
inherited ppuload(ppufile);
{ now we can deref the syms and defs }
deref;
end;
procedure tstaticsymtable.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
end;
function tstaticsymtable.checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;
var
hsym : tsym;
begin
result:=false;
hsym:=tsym(FindWithHash(hashedid));
if assigned(hsym) then
begin
{ Delphi (contrary to TP) you can have a symbol with the same name as the
unit, the unit can then not be accessed anymore using
<unit>.<id>, so we can hide the symbol }
if (m_delphi in current_settings.modeswitches) and
(hsym.typ=symconst.unitsym) then
HideSym(hsym)
else
DuplicateSym(hashedid,sym,hsym);
result:=true;
exit;
end;
if (current_module.localsymtable=self) and
assigned(current_module.globalsymtable) then
result:=tglobalsymtable(current_module.globalsymtable).checkduplicate(hashedid,sym);
end;
{****************************************************************************
TGlobalSymtable
****************************************************************************}
constructor tglobalsymtable.create(const n : string;id:word);
begin
inherited create(n,id);
symtabletype:=globalsymtable;
symtablelevel:=main_program_level;
end;
procedure tglobalsymtable.ppuload(ppufile:tcompilerppufile);
begin
inherited ppuload(ppufile);
{ now we can deref the syms and defs }
deref;
end;
procedure tglobalsymtable.ppuwrite(ppufile:tcompilerppufile);
begin
{ write the symtable entries }
inherited ppuwrite(ppufile);
end;
function tglobalsymtable.checkduplicate(var hashedid:THashedIDString;sym:TSymEntry):boolean;
var
hsym : tsym;
begin
result:=false;
hsym:=tsym(FindWithHash(hashedid));
if assigned(hsym) then
begin
{ Delphi (contrary to TP) you can have a symbol with the same name as the
unit, the unit can then not be accessed anymore using
<unit>.<id>, so we can hide the symbol }
if (m_delphi in current_settings.modeswitches) and
(hsym.typ=symconst.unitsym) then
HideSym(hsym)
else
DuplicateSym(hashedid,sym,hsym);
result:=true;
exit;
end;
end;
{****************************************************************************
TWITHSYMTABLE
****************************************************************************}
constructor twithsymtable.create(aowner:tdef;ASymList:TFPHashObjectList;refnode:tobject{tnode});
begin
inherited create('');
symtabletype:=withsymtable;
withrefnode:=refnode;
{ Replace SymList with the passed symlist }
SymList.free;
SymList:=ASymList;
defowner:=aowner;
end;
destructor twithsymtable.destroy;
begin
withrefnode.free;
{ Disable SymList because we don't Own it }
SymList:=nil;
inherited destroy;
end;
procedure twithsymtable.clear;
begin
{ remove no entry from a withsymtable as it is only a pointer to the
recorddef or objectdef symtable }
end;
procedure twithsymtable.insertdef(def:TDefEntry);
begin
{ Definitions can't be registered in the withsymtable
because the withsymtable is removed after the with block.
We can't easily solve it here because the next symtable in the
stack is not known. }
internalerror(200602046);
end;
{****************************************************************************
TSTT_ExceptionSymtable
****************************************************************************}
constructor tstt_excepTSymtable.create;
begin
inherited create('');
symtabletype:=stt_excepTSymtable;
end;
{****************************************************************************
TMacroSymtable
****************************************************************************}
constructor tmacrosymtable.create(exported: boolean);
begin
inherited create('');
if exported then
symtabletype:=exportedmacrosymtable
else
symtabletype:=localmacrosymtable;
symtablelevel:=main_program_level;
end;
{****************************************************************************
TEnumSymtable
****************************************************************************}
procedure tenumsymtable.insert(sym: TSymEntry; checkdup: boolean);
var
value: longint;
def: tenumdef;
begin
// defowner = nil only when we are loading from ppu
if defowner<>nil then
begin
{ First entry? Then we need to set the minval }
value:=tenumsym(sym).value;
def:=tenumdef(defowner);
if SymList.count=0 then
begin
if value>0 then
def.has_jumps:=true;
def.setmin(value);
def.setmax(value);
end
else
begin
{ check for jumps }
if value>def.max+1 then
def.has_jumps:=true;
{ update low and high }
if def.min>value then
def.setmin(value);
if def.max<value then
def.setmax(value);
end;
end;
inherited insert(sym, checkdup);
end;
constructor tenumsymtable.create(adefowner: tdef);
begin
inherited Create('');
symtabletype:=enumsymtable;
defowner:=adefowner;
end;
{****************************************************************************
TArraySymtable
****************************************************************************}
procedure tarraysymtable.insertdef(def: TDefEntry);
begin
{ Enums must also be available outside the record scope,
insert in the owner of this symtable }
if def.typ=enumdef then
defowner.owner.insertdef(def)
else
inherited insertdef(def);
end;
constructor tarraysymtable.create(adefowner: tdef);
begin
inherited Create('');
symtabletype:=arraysymtable;
defowner:=adefowner;
end;
{*****************************************************************************
Helper Routines
*****************************************************************************}
function FullTypeName(def,otherdef:tdef):string;
var
s1,s2 : string;
begin
if def.typ in [objectdef,recorddef] then
s1:=tabstractrecorddef(def).RttiName
else
s1:=def.typename;
{ When the names are the same try to include the unit name }
if assigned(otherdef) and
(def.owner.symtabletype in [globalsymtable,staticsymtable]) then
begin
s2:=otherdef.typename;
if upper(s1)=upper(s2) then
s1:=def.owner.realname^+'.'+s1;
end;
FullTypeName:=s1;
end;
function generate_nested_name(symtable:tsymtable;delimiter:string):string;
begin
result:='';
while assigned(symtable) and (symtable.symtabletype in [ObjectSymtable,recordsymtable]) do
begin
if (result='') then
result:=symtable.name^
else
result:=symtable.name^+delimiter+result;
symtable:=symtable.defowner.owner;
end;
end;
procedure incompatibletypes(def1,def2:tdef);
begin
{ When there is an errordef there is already an error message show }
if (def2.typ=errordef) or
(def1.typ=errordef) then
exit;
CGMessage2(type_e_incompatible_types,FullTypeName(def1,def2),FullTypeName(def2,def1));
end;
procedure hidesym(sym:TSymEntry);
begin
sym.realname:='$hidden'+sym.realname;
tsym(sym).visibility:=vis_hidden;
end;
procedure duplicatesym(var hashedid:THashedIDString;dupsym,origsym:TSymEntry);
var
st : TSymtable;
begin
Message1(sym_e_duplicate_id,tsym(origsym).realname);
{ Write hint where the original symbol was found }
st:=finduniTSymtable(origsym.owner);
with tsym(origsym).fileinfo do
begin
if assigned(st) and
(st.symtabletype=globalsymtable) and
st.iscurrentunit then
Message2(sym_h_duplicate_id_where,current_module.sourcefiles.get_file_name(fileindex),tostr(line))
else if assigned(st.name) then
Message2(sym_h_duplicate_id_where,'unit '+st.name^,tostr(line));
end;
{ Rename duplicate sym to an unreachable name, but it can be
inserted in the symtable without errors }
inc(dupnr);
hashedid.id:='dup'+tostr(dupnr)+hashedid.id;
if assigned(dupsym) then
include(tsym(dupsym).symoptions,sp_implicitrename);
end;
{*****************************************************************************
Search
*****************************************************************************}
procedure addsymref(sym:tsym);
begin
{ symbol uses count }
sym.IncRefCount;
{ unit uses count }
if assigned(current_module) and
(sym.owner.symtabletype=globalsymtable) then
begin
if tglobalsymtable(sym.owner).moduleid>=current_module.unitmapsize then
internalerror(200501152);
inc(current_module.unitmap[tglobalsymtable(sym.owner).moduleid].refs);
end;
end;
function is_owned_by(childdef,ownerdef:tdef):boolean;
begin
result:=childdef=ownerdef;
if not result and assigned(childdef.owner.defowner) then
result:=is_owned_by(tdef(childdef.owner.defowner),ownerdef);
end;
function is_visible_for_object(symst:tsymtable;symvisibility:tvisibility;contextobjdef:tabstractrecorddef):boolean;
var
symownerdef : tabstractrecorddef;
begin
result:=false;
{ Get objdectdef owner of the symtable for the is_related checks }
if not assigned(symst) or
not (symst.symtabletype in [objectsymtable,recordsymtable]) then
internalerror(200810285);
symownerdef:=tabstractrecorddef(symst.defowner);
case symvisibility of
vis_private :
begin
{ private symbols are allowed when we are in the same
module as they are defined }
result:=(
(symownerdef.owner.symtabletype in [globalsymtable,staticsymtable]) and
(symownerdef.owner.iscurrentunit)
) or
( // the case of specialize inside the generic declaration and nested types
(symownerdef.owner.symtabletype in [objectsymtable,recordsymtable]) and
(
assigned(current_structdef) and
(
(current_structdef=symownerdef) or
(current_structdef.owner.iscurrentunit)
)
) or
(
not assigned(current_structdef) and
(symownerdef.owner.iscurrentunit)
)
);
end;
vis_strictprivate :
begin
result:=assigned(current_structdef) and
is_owned_by(current_structdef,symownerdef);
end;
vis_strictprotected :
begin
result:=(
assigned(current_structdef) and
(current_structdef.is_related(symownerdef) or
is_owned_by(current_structdef,symownerdef))
) or
(
{ helpers can access strict protected symbols }
is_objectpascal_helper(contextobjdef) and
tobjectdef(contextobjdef).extendeddef.is_related(symownerdef)
);
end;
vis_protected :
begin
{ protected symbols are visible in the module that defines them and
also visible to related objects. The related object must be defined
in the current module }
result:=(
(
(symownerdef.owner.symtabletype in [globalsymtable,staticsymtable]) and
(symownerdef.owner.iscurrentunit)
) or
(
assigned(contextobjdef) and
(contextobjdef.owner.symtabletype in [globalsymtable,staticsymtable,ObjectSymtable]) and
(contextobjdef.owner.iscurrentunit) and
contextobjdef.is_related(symownerdef)
) or
( // the case of specialize inside the generic declaration and nested types
(symownerdef.owner.symtabletype in [objectsymtable,recordsymtable]) and
(
assigned(current_structdef) and
(
(current_structdef=symownerdef) or
(current_structdef.owner.iscurrentunit)
)
) or
(
not assigned(current_structdef) and
(symownerdef.owner.iscurrentunit)
) or
(
{ helpers can access protected symbols }
is_objectpascal_helper(contextobjdef) and
tobjectdef(contextobjdef).extendeddef.is_related(symownerdef)
)
)
);
end;
vis_public,
vis_published :
result:=true;
end;
end;
function is_visible_for_object(pd:tprocdef;contextobjdef:tabstractrecorddef):boolean;
begin
result:=is_visible_for_object(pd.owner,pd.visibility,contextobjdef);
end;
function is_visible_for_object(sym:tsym;contextobjdef:tabstractrecorddef):boolean;
var
i : longint;
pd : tprocdef;
begin
if sym.typ=procsym then
begin
{ A procsym is visible, when there is at least one of the procdefs visible }
result:=false;
for i:=0 to tprocsym(sym).ProcdefList.Count-1 do
begin
pd:=tprocdef(tprocsym(sym).ProcdefList[i]);
if (pd.owner=sym.owner) and
is_visible_for_object(pd,contextobjdef) then
begin
result:=true;
exit;
end;
end;
end
else
result:=is_visible_for_object(sym.owner,sym.visibility,contextobjdef);
end;
function searchsym(const s : TIDString;out srsym:tsym;out srsymtable:TSymtable):boolean;
var
hashedid : THashedIDString;
contextstructdef : tabstractrecorddef;
stackitem : psymtablestackitem;
begin
result:=false;
hashedid.id:=s;
stackitem:=symtablestack.stack;
while assigned(stackitem) do
begin
srsymtable:=stackitem^.symtable;
if (srsymtable.symtabletype=objectsymtable) then
begin
if searchsym_in_class(tobjectdef(srsymtable.defowner),tobjectdef(srsymtable.defowner),s,srsym,srsymtable,true) then
begin
result:=true;
exit;
end;
end
else
begin
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) then
begin
{ use the class from withsymtable only when it is
defined in this unit }
if (srsymtable.symtabletype=withsymtable) and
assigned(srsymtable.defowner) and
(srsymtable.defowner.typ in [recorddef,objectdef]) and
(srsymtable.defowner.owner.symtabletype in [globalsymtable,staticsymtable]) and
(srsymtable.defowner.owner.iscurrentunit) then
contextstructdef:=tabstractrecorddef(srsymtable.defowner)
else
contextstructdef:=current_structdef;
if not (srsym.owner.symtabletype in [objectsymtable,recordsymtable]) or
is_visible_for_object(srsym,contextstructdef) then
begin
{ we need to know if a procedure references symbols
in the static symtable, because then it can't be
inlined from outside this unit }
if assigned(current_procinfo) and
(srsym.owner.symtabletype=staticsymtable) then
include(current_procinfo.flags,pi_uses_static_symtable);
addsymref(srsym);
result:=true;
exit;
end;
end;
end;
stackitem:=stackitem^.next;
end;
srsym:=nil;
srsymtable:=nil;
end;
function searchsym_type(const s : TIDString;out srsym:tsym;out srsymtable:TSymtable):boolean;
var
hashedid : THashedIDString;
stackitem : psymtablestackitem;
classh : tobjectdef;
begin
result:=false;
hashedid.id:=s;
stackitem:=symtablestack.stack;
while assigned(stackitem) do
begin
{
It is not possible to have type symbols in:
parameters
Exception are classes, objects, records, generic definitions and specializations
that have the parameterized types inserted in the symtable.
}
srsymtable:=stackitem^.symtable;
if (srsymtable.symtabletype=ObjectSymtable) then
begin
classh:=tobjectdef(srsymtable.defowner);
while assigned(classh) do
begin
srsymtable:=classh.symtable;
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) and
not(srsym.typ in [fieldvarsym,paravarsym,propertysym,procsym,labelsym]) and
is_visible_for_object(srsym,current_structdef) then
begin
addsymref(srsym);
result:=true;
exit;
end;
classh:=classh.childof;
end;
end
else
begin
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) and
not(srsym.typ in [fieldvarsym,paravarsym,propertysym,procsym,labelsym]) and
(not (srsym.owner.symtabletype in [objectsymtable,recordsymtable]) or is_visible_for_object(srsym,current_structdef)) then
begin
{ we need to know if a procedure references symbols
in the static symtable, because then it can't be
inlined from outside this unit }
if assigned(current_procinfo) and
(srsym.owner.symtabletype=staticsymtable) then
include(current_procinfo.flags,pi_uses_static_symtable);
addsymref(srsym);
result:=true;
exit;
end;
end;
stackitem:=stackitem^.next;
end;
result:=false;
srsym:=nil;
srsymtable:=nil;
end;
function searchsym_in_module(pm:pointer;const s : TIDString;out srsym:tsym;out srsymtable:TSymtable):boolean;
var
pmod : tmodule;
begin
pmod:=tmodule(pm);
result:=false;
if assigned(pmod.globalsymtable) then
begin
srsym:=tsym(pmod.globalsymtable.Find(s));
if assigned(srsym) then
begin
srsymtable:=pmod.globalsymtable;
addsymref(srsym);
result:=true;
exit;
end;
end;
{ If the module is the current unit we also need
to search the local symtable }
if (pmod=current_module) and
assigned(pmod.localsymtable) then
begin
srsym:=tsym(pmod.localsymtable.Find(s));
if assigned(srsym) then
begin
srsymtable:=pmod.localsymtable;
addsymref(srsym);
result:=true;
exit;
end;
end;
srsym:=nil;
srsymtable:=nil;
end;
function searchsym_in_named_module(const unitname, symname: TIDString; out srsym: tsym; out srsymtable: tsymtable): boolean;
var
stackitem : psymtablestackitem;
begin
result:=false;
stackitem:=symtablestack.stack;
while assigned(stackitem) do
begin
srsymtable:=stackitem^.symtable;
if (srsymtable.symtabletype=globalsymtable) and
(srsymtable.name^=unitname) then
begin
srsym:=tsym(srsymtable.find(symname));
if not assigned(srsym) then
break;
result:=true;
exit;
end;
stackitem:=stackitem^.next;
end;
{ If the module is the current unit we also need
to search the local symtable }
if (current_module.globalsymtable=srsymtable) and
assigned(current_module.localsymtable) then
begin
srsymtable:=current_module.localsymtable;
srsym:=tsym(srsymtable.find(symname));
if assigned(srsym) then
begin
result:=true;
exit;
end;
end;
end;
function find_real_objcclass_definition(pd: tobjectdef; erroronfailure: boolean): tobjectdef;
var
hashedid : THashedIDString;
stackitem : psymtablestackitem;
srsymtable : tsymtable;
srsym : tsym;
begin
{ not a formal definition -> return it }
if not(oo_is_formal in pd.objectoptions) then
begin
result:=pd;
exit;
end;
hashedid.id:=pd.typesym.name;
stackitem:=symtablestack.stack;
while assigned(stackitem) do
begin
srsymtable:=stackitem^.symtable;
{ ObjC classes can't appear in generics or as nested class
definitions }
if not(srsymtable.symtabletype in [recordsymtable,ObjectSymtable,parasymtable]) then
begin
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) and
(srsym.typ=typesym) and
is_objc_class_or_protocol(ttypesym(srsym).typedef) and
not(oo_is_formal in tobjectdef(ttypesym(srsym).typedef).objectoptions) then
begin
{ the external name for the formal and the real definition must match }
if tobjectdef(ttypesym(srsym).typedef).objextname^<>pd.objextname^ then
begin
MessagePos2(pd.typesym.fileinfo,sym_e_external_class_name_mismatch1,pd.objextname^,pd.typename);
MessagePos1(srsym.fileinfo,sym_e_external_class_name_mismatch2,tobjectdef(ttypesym(srsym).typedef).objextname^);
end;
result:=tobjectdef(ttypesym(srsym).typedef);
if assigned(current_procinfo) and
(srsym.owner.symtabletype=staticsymtable) then
include(current_procinfo.flags,pi_uses_static_symtable);
addsymref(srsym);
exit;
end;
end;
stackitem:=stackitem^.next;
end;
{ nothing found: optionally give an error and return the original
(empty) one }
if erroronfailure then
Message1(sym_e_objc_formal_class_not_resolved,pd.objrealname^);
result:=pd;
end;
function searchsym_in_class(classh,contextclassh:tobjectdef;const s : TIDString;out srsym:tsym;out srsymtable:TSymtable;searchhelper:boolean):boolean;
var
hashedid : THashedIDString;
orgclass : tobjectdef;
i : longint;
hlpsrsym : tsym;
hlpsrsymtable : tsymtable;
begin
orgclass:=classh;
{ in case this is a formal objcclass, first find the real definition }
if assigned(classh) then
begin
if (oo_is_formal in classh.objectoptions) then
classh:=find_real_objcclass_definition(classh,true);
{ The contextclassh is used for visibility. The classh must be equal to
or be a parent of contextclassh. E.g. for inherited searches the classh is the
parent or a class helper. }
if not (contextclassh.is_related(classh) or
(assigned(contextclassh.extendeddef) and
(contextclassh.extendeddef.typ=objectdef) and
contextclassh.extendeddef.is_related(classh))) then
internalerror(200811161);
end;
result:=false;
hashedid.id:=s;
{ an Objective-C protocol can inherit from multiple other protocols
-> uses ImplementedInterfaces instead }
if is_objcprotocol(classh) then
begin
srsymtable:=classh.symtable;
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) and
is_visible_for_object(srsym,contextclassh) then
begin
addsymref(srsym);
result:=true;
exit;
end;
for i:=0 to classh.ImplementedInterfaces.count-1 do
begin
if searchsym_in_class(TImplementedInterface(classh.ImplementedInterfaces[i]).intfdef,contextclassh,s,srsym,srsymtable,false) then
begin
result:=true;
exit;
end;
end;
end
else
if is_objectpascal_helper(classh) then
begin
{ helpers have their own obscure search logic... }
result:=searchsym_in_helper(classh,contextclassh,s,srsym,srsymtable,false);
if result then
exit;
end
else
begin
hlpsrsym:=nil;
hlpsrsymtable:=nil;
while assigned(classh) do
begin
{ search for a class helper method first if this is an Object
Pascal class and we haven't yet found a helper symbol }
if is_class(classh) and searchhelper and not assigned(hlpsrsym) then
begin
result:=search_objectpascal_helper(classh,contextclassh,s,srsym,srsymtable);
if result then
{ if the procsym is overloaded we need to use the
"original" symbol; the helper symbol will be found when
searching for overloads }
if (srsym.typ<>procsym) or
not (sp_has_overloaded in tprocsym(srsym).symoptions) then
exit
else
begin
{ remember the found symbol if the class hierarchy
should not contain the a method with that name }
hlpsrsym:=srsym;
hlpsrsymtable:=srsymtable;
end;
end;
srsymtable:=classh.symtable;
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) and
is_visible_for_object(srsym,contextclassh) then
begin
addsymref(srsym);
result:=true;
exit;
end;
classh:=classh.childof;
end;
{ did we find a helper symbol, but no symbol with the same name in
the extended object's hierarchy? }
if assigned(hlpsrsym) then
begin
srsym:=hlpsrsym;
srsymtable:=hlpsrsymtable;
result:=true;
exit;
end;
end;
if is_objcclass(orgclass) then
result:=search_objc_helper(orgclass,s,srsym,srsymtable)
else
begin
srsym:=nil;
srsymtable:=nil;
end;
end;
function searchsym_in_record(recordh:tabstractrecorddef;const s : TIDString;out srsym:tsym;out srsymtable:TSymtable):boolean;
var
hashedid : THashedIDString;
hlpsrsym : tsym;
hlpsrsymtable : tsymtable;
begin
result:=false;
hlpsrsym:=nil;
hlpsrsymtable:=nil;
hashedid.id:=s;
{ search for a record helper method first }
result:=search_objectpascal_helper(recordh,recordh,s,srsym,srsymtable);
if result then
{ if the procsym is overloaded we need to use the
"original" symbol; the helper symbol will be found when
searching for overloads }
if (srsym.typ<>procsym) or
not (sp_has_overloaded in tprocsym(srsym).symoptions) then
exit
else
begin
{ remember the found symbol if we should not find a symbol with
the same name in the extended record }
hlpsrsym:=srsym;
hlpsrsymtable:=srsymtable;
end;
srsymtable:=recordh.symtable;
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) and is_visible_for_object(srsym,recordh) then
begin
addsymref(srsym);
result:=true;
exit;
end;
srsym:=hlpsrsym;
srsymtable:=hlpsrsymtable;
result:=assigned(srsym);
end;
function searchsym_in_class_by_msgint(classh:tobjectdef;msgid:longint;out srdef : tdef;out srsym:tsym;out srsymtable:TSymtable):boolean;
var
def : tdef;
i : longint;
begin
{ in case this is a formal objcclass, first find the real definition }
if assigned(classh) and
(oo_is_formal in classh.objectoptions) then
classh:=find_real_objcclass_definition(classh,true);
result:=false;
def:=nil;
while assigned(classh) do
begin
for i:=0 to classh.symtable.DefList.Count-1 do
begin
def:=tstoreddef(classh.symtable.DefList[i]);
{ Find also all hidden private methods to
be compatible with delphi, see tw6203 (PFV) }
if (def.typ=procdef) and
(po_msgint in tprocdef(def).procoptions) and
(tprocdef(def).messageinf.i=msgid) then
begin
srdef:=def;
srsym:=tprocdef(def).procsym;
srsymtable:=classh.symtable;
addsymref(srsym);
result:=true;
exit;
end;
end;
classh:=classh.childof;
end;
srdef:=nil;
srsym:=nil;
srsymtable:=nil;
end;
function searchsym_in_class_by_msgstr(classh:tobjectdef;const s:string;out srsym:tsym;out srsymtable:TSymtable):boolean;
var
def : tdef;
i : longint;
begin
{ in case this is a formal objcclass, first find the real definition }
if assigned(classh) and
(oo_is_formal in classh.objectoptions) then
classh:=find_real_objcclass_definition(classh,true);
result:=false;
def:=nil;
while assigned(classh) do
begin
for i:=0 to classh.symtable.DefList.Count-1 do
begin
def:=tstoreddef(classh.symtable.DefList[i]);
{ Find also all hidden private methods to
be compatible with delphi, see tw6203 (PFV) }
if (def.typ=procdef) and
(po_msgstr in tprocdef(def).procoptions) and
(tprocdef(def).messageinf.str^=s) then
begin
srsym:=tprocdef(def).procsym;
srsymtable:=classh.symtable;
addsymref(srsym);
result:=true;
exit;
end;
end;
classh:=classh.childof;
end;
srsym:=nil;
srsymtable:=nil;
end;
function searchsym_in_helper(classh,contextclassh:tobjectdef;const s: TIDString;out srsym:tsym;out srsymtable:TSymtable;aHasInherited:boolean):boolean;
var
hashedid : THashedIDString;
parentclassh : tobjectdef;
begin
result:=false;
if not is_objectpascal_helper(classh) then
Internalerror(2011030101);
hashedid.id:=s;
{ in a helper things are a bit more complex:
1. search the symbol in the helper (if not "inherited")
2. search the symbol in the extended type
3. search the symbol in the parent helpers
4. only classes: search the symbol in the parents of the extended type
}
if not aHasInherited then
begin
{ search in the helper itself }
srsymtable:=classh.symtable;
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) and
is_visible_for_object(srsym,contextclassh) then
begin
addsymref(srsym);
result:=true;
exit;
end;
end;
{ now search in the extended type itself }
if classh.extendeddef.typ in [recorddef,objectdef] then
begin
srsymtable:=tabstractrecorddef(classh.extendeddef).symtable;
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) and
is_visible_for_object(srsym,contextclassh) then
begin
addsymref(srsym);
result:=true;
exit;
end;
end;
{ now search in the parent helpers }
parentclassh:=classh.childof;
while assigned(parentclassh) do
begin
srsymtable:=parentclassh.symtable;
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) and
is_visible_for_object(srsym,contextclassh) then
begin
addsymref(srsym);
result:=true;
exit;
end;
parentclassh:=parentclassh.childof;
end;
if is_class(classh.extendeddef) then
{ now search in the parents of the extended class (with helpers!) }
result:=searchsym_in_class(tobjectdef(classh.extendeddef).childof,contextclassh,s,srsym,srsymtable,true);
{ addsymref is already called by searchsym_in_class }
end;
function search_specific_assignment_operator(assignment_type:ttoken;from_def,to_def:Tdef):Tprocdef;
var
sym : Tprocsym;
hashedid : THashedIDString;
curreq,
besteq : tequaltype;
currpd,
bestpd : tprocdef;
stackitem : psymtablestackitem;
begin
hashedid.id:=overloaded_names[assignment_type];
besteq:=te_incompatible;
bestpd:=nil;
stackitem:=symtablestack.stack;
while assigned(stackitem) do
begin
sym:=Tprocsym(stackitem^.symtable.FindWithHash(hashedid));
if sym<>nil then
begin
if sym.typ<>procsym then
internalerror(200402031);
{ if the source type is an alias then this is only the second choice,
if you mess with this code, check tw4093 }
currpd:=sym.find_procdef_assignment_operator(from_def,to_def,curreq);
if curreq>besteq then
begin
besteq:=curreq;
bestpd:=currpd;
if (besteq=te_exact) then
break;
end;
end;
stackitem:=stackitem^.next;
end;
result:=bestpd;
end;
function search_assignment_operator(from_def,to_def:Tdef;explicit:boolean):Tprocdef;
begin
{ search record/object symtable first for a suitable operator }
if from_def.typ in [recorddef,objectdef] then
symtablestack.push(tabstractrecorddef(from_def).symtable);
if to_def.typ in [recorddef,objectdef] then
symtablestack.push(tabstractrecorddef(to_def).symtable);
{ if type conversion is explicit then search first for explicit
operator overload and if not found then use implicit operator }
if explicit then
result:=search_specific_assignment_operator(_OP_EXPLICIT,from_def,to_def)
else
result:=nil;
if result=nil then
result:=search_specific_assignment_operator(_ASSIGNMENT,from_def,to_def);
{ restore symtable stack }
if to_def.typ in [recorddef,objectdef] then
symtablestack.pop(tabstractrecorddef(to_def).symtable);
if from_def.typ in [recorddef,objectdef] then
symtablestack.pop(tabstractrecorddef(from_def).symtable);
end;
function search_enumerator_operator(from_def,to_def:Tdef): Tprocdef;
var
sym : Tprocsym;
hashedid : THashedIDString;
curreq,
besteq : tequaltype;
currpd,
bestpd : tprocdef;
stackitem : psymtablestackitem;
begin
hashedid.id:='enumerator';
besteq:=te_incompatible;
bestpd:=nil;
stackitem:=symtablestack.stack;
while assigned(stackitem) do
begin
sym:=Tprocsym(stackitem^.symtable.FindWithHash(hashedid));
if sym<>nil then
begin
if sym.typ<>procsym then
internalerror(200910241);
{ if the source type is an alias then this is only the second choice,
if you mess with this code, check tw4093 }
currpd:=sym.find_procdef_enumerator_operator(from_def,to_def,curreq);
if curreq>besteq then
begin
besteq:=curreq;
bestpd:=currpd;
if (besteq=te_exact) then
break;
end;
end;
stackitem:=stackitem^.next;
end;
result:=bestpd;
end;
function search_system_type(const s: TIDString): ttypesym;
var
sym : tsym;
begin
sym:=tsym(systemunit.Find(s));
if not assigned(sym) or
(sym.typ<>typesym) then
cgmessage1(cg_f_unknown_system_type,s);
result:=ttypesym(sym);
end;
function try_search_system_type(const s: TIDString): ttypesym;
var
sym : tsym;
begin
sym:=tsym(systemunit.Find(s));
if not assigned(sym) then
result:=nil
else
begin
if sym.typ<>typesym then
cgmessage1(cg_f_unknown_system_type,s);
result:=ttypesym(sym);
end;
end;
function search_named_unit_globaltype(const unitname, typename: TIDString; throwerror: boolean): ttypesym;
var
srsymtable: tsymtable;
sym: tsym;
begin
if searchsym_in_named_module(unitname,typename,sym,srsymtable) and
(sym.typ=typesym) then
begin
result:=ttypesym(sym);
exit;
end
else
begin
if throwerror then
cgmessage2(cg_f_unknown_type_in_unit,typename,unitname);
result:=nil;
end;
end;
function search_last_objectpascal_helper(pd,contextclassh : tabstractrecorddef;out odef : tobjectdef):boolean;
var
s: string;
list: TFPObjectList;
i: integer;
st: tsymtable;
begin
result:=false;
odef:=nil;
{ when there are no helpers active currently then we don't need to do
anything }
if current_module.extendeddefs.count=0 then
exit;
{ no helpers for anonymous types }
if not assigned(pd.objrealname) or (pd.objrealname^='') then
exit;
{ if pd is defined inside a procedure we must not use make_mangledname
(as a helper may not be defined in a procedure this is no problem...)}
st:=pd.owner;
while st.symtabletype in [objectsymtable,recordsymtable] do
st:=st.defowner.owner;
if st.symtabletype=localsymtable then
exit;
{ the mangled name is used as the key for tmodule.extendeddefs }
s:=make_mangledname('',pd.symtable,'');
list:=TFPObjectList(current_module.extendeddefs.Find(s));
if assigned(list) and (list.count>0) then
begin
i:=list.count-1;
repeat
odef:=tobjectdef(list[list.count-1]);
result:=(odef.owner.symtabletype in [staticsymtable,globalsymtable]) or
is_visible_for_object(tobjectdef(list[i]).typesym,contextclassh);
dec(i);
until result or (i<0);
if not result then
{ just to be sure that noone uses odef }
odef:=nil;
end;
end;
function search_objectpascal_helper(pd,contextclassh : tabstractrecorddef;const s: string; out srsym: tsym; out srsymtable: tsymtable):boolean;
var
hashedid : THashedIDString;
classh : tobjectdef;
i : integer;
pdef : tprocdef;
begin
result:=false;
{ if there is no class helper for the class then there is no need to
search further }
if not search_last_objectpascal_helper(pd,contextclassh,classh) then
exit;
hashedid.id:=s;
repeat
srsymtable:=classh.symtable;
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if srsym<>nil then
begin
if srsym.typ=propertysym then
begin
result:=true;
exit;
end;
for i:=0 to tprocsym(srsym).procdeflist.count-1 do
begin
pdef:=tprocdef(tprocsym(srsym).procdeflist[i]);
if not is_visible_for_object(pdef.owner,pdef.visibility,contextclassh) then
continue;
{ we need to know if a procedure references symbols
in the static symtable, because then it can't be
inlined from outside this unit }
if assigned(current_procinfo) and
(srsym.owner.symtabletype=staticsymtable) then
include(current_procinfo.flags,pi_uses_static_symtable);
{ the first found method wins }
srsym:=tprocdef(tprocsym(srsym).procdeflist[i]).procsym;
srsymtable:=srsym.owner;
addsymref(srsym);
result:=true;
exit;
end;
end;
{ try the helper parent if available }
classh:=classh.childof;
until classh=nil;
srsym:=nil;
srsymtable:=nil;
end;
function search_objc_helper(pd : tobjectdef;const s : string; out srsym: tsym; out srsymtable: tsymtable):boolean;
var
hashedid : THashedIDString;
stackitem : psymtablestackitem;
i : longint;
defowner : tobjectdef;
begin
hashedid.id:=class_helper_prefix+s;
stackitem:=symtablestack.stack;
while assigned(stackitem) do
begin
srsymtable:=stackitem^.symtable;
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) then
begin
if not(srsymtable.symtabletype in [globalsymtable,staticsymtable]) or
not(srsym.owner.symtabletype in [globalsymtable,staticsymtable]) or
(srsym.typ<>procsym) then
internalerror(2009111505);
{ check whether this procsym includes a helper for this particular class }
for i:=0 to tprocsym(srsym).procdeflist.count-1 do
begin
{ does pd inherit from (or is the same as) the class
that this method's category extended?
Warning: this list contains both category and objcclass methods
(for id.randommethod), so only check category methods here
}
defowner:=tobjectdef(tprocdef(tprocsym(srsym).procdeflist[i]).owner.defowner);
if (oo_is_classhelper in defowner.objectoptions) and
pd.is_related(defowner.childof) then
begin
{ we need to know if a procedure references symbols
in the static symtable, because then it can't be
inlined from outside this unit }
if assigned(current_procinfo) and
(srsym.owner.symtabletype=staticsymtable) then
include(current_procinfo.flags,pi_uses_static_symtable);
{ no need to keep looking. There might be other
categories that extend this, a parent or child
class with a method with the same name (either
overriding this one, or overridden by this one),
but that doesn't matter as far as the basic
procsym is concerned.
}
srsym:=tprocdef(tprocsym(srsym).procdeflist[i]).procsym;
srsymtable:=srsym.owner;
addsymref(srsym);
result:=true;
exit;
end;
end;
end;
stackitem:=stackitem^.next;
end;
srsym:=nil;
srsymtable:=nil;
result:=false;
end;
function search_objc_method(const s : string; out srsym: tsym; out srsymtable: tsymtable):boolean;
var
hashedid : THashedIDString;
stackitem : psymtablestackitem;
i : longint;
begin
hashedid.id:=class_helper_prefix+s;
stackitem:=symtablestack.stack;
while assigned(stackitem) do
begin
srsymtable:=stackitem^.symtable;
srsym:=tsym(srsymtable.FindWithHash(hashedid));
if assigned(srsym) then
begin
if not(srsymtable.symtabletype in [globalsymtable,staticsymtable]) or
not(srsym.owner.symtabletype in [globalsymtable,staticsymtable]) or
(srsym.typ<>procsym) then
internalerror(2009112005);
{ check whether this procsym includes a helper for this particular class }
for i:=0 to tprocsym(srsym).procdeflist.count-1 do
begin
{ we need to know if a procedure references symbols
in the static symtable, because then it can't be
inlined from outside this unit }
if assigned(current_procinfo) and
(srsym.owner.symtabletype=staticsymtable) then
include(current_procinfo.flags,pi_uses_static_symtable);
{ no need to keep looking. There might be other
methods with the same name, but that doesn't matter
as far as the basic procsym is concerned.
}
srsym:=tprocdef(tprocsym(srsym).procdeflist[i]).procsym;
{ We need the symtable in which the classhelper-like sym
is located, not the objectdef. The reason is that the
callnode will climb the symtablestack until it encounters
this symtable to start looking for overloads (and it won't
find the objectsymtable in which this method sym is
located
srsymtable:=srsym.owner;
}
addsymref(srsym);
result:=true;
exit;
end;
end;
stackitem:=stackitem^.next;
end;
srsym:=nil;
srsymtable:=nil;
result:=false;
end;
function search_struct_member(pd : tabstractrecorddef;const s : string):tsym;
{ searches n in symtable of pd and all anchestors }
var
hashedid : THashedIDString;
srsym : tsym;
orgpd : tabstractrecorddef;
srsymtable : tsymtable;
begin
{ in case this is a formal objcclass, first find the real definition }
if (oo_is_formal in pd.objectoptions) then
pd:=find_real_objcclass_definition(tobjectdef(pd),true);
if search_objectpascal_helper(pd, pd, s, result, srsymtable) then
exit;
hashedid.id:=s;
orgpd:=pd;
while assigned(pd) do
begin
srsym:=tsym(pd.symtable.FindWithHash(hashedid));
if assigned(srsym) then
begin
search_struct_member:=srsym;
exit;
end;
if pd.typ=objectdef then
pd:=tobjectdef(pd).childof
else
pd:=nil;
end;
{ not found, now look for class helpers }
if is_objcclass(pd) then
search_objc_helper(tobjectdef(orgpd),s,result,srsymtable)
else
result:=nil;
end;
function search_macro(const s : string):tsym;
var
stackitem : psymtablestackitem;
hashedid : THashedIDString;
srsym : tsym;
begin
hashedid.id:=s;
{ First search the localmacrosymtable before searching the
global macrosymtables from the units }
if assigned(current_module) then
begin
srsym:=tsym(current_module.localmacrosymtable.FindWithHash(hashedid));
if assigned(srsym) then
begin
result:= srsym;
exit;
end;
end;
stackitem:=macrosymtablestack.stack;
while assigned(stackitem) do
begin
srsym:=tsym(stackitem^.symtable.FindWithHash(hashedid));
if assigned(srsym) then
begin
result:= srsym;
exit;
end;
stackitem:=stackitem^.next;
end;
result:= nil;
end;
function defined_macro(const s : string):boolean;
var
mac: tmacro;
begin
mac:=tmacro(search_macro(s));
if assigned(mac) then
begin
mac.is_used:=true;
defined_macro:=mac.defined;
end
else
defined_macro:=false;
end;
{****************************************************************************
Object Helpers
****************************************************************************}
function search_default_property(pd : tabstractrecorddef) : tpropertysym;
{ returns the default property of a class, searches also anchestors }
var
_defaultprop : tpropertysym;
helperpd : tobjectdef;
begin
_defaultprop:=nil;
{ first search in helper's hierarchy }
if search_last_objectpascal_helper(pd,nil,helperpd) then
while assigned(helperpd) do
begin
helperpd.symtable.SymList.ForEachCall(@tstoredsymtable(helperpd.symtable).testfordefaultproperty,@_defaultprop);
if assigned(_defaultprop) then
break;
helperpd:=helperpd.childof;
end;
if assigned(_defaultprop) then
begin
search_default_property:=_defaultprop;
exit;
end;
{ now search in the type's hierarchy itself }
while assigned(pd) do
begin
pd.symtable.SymList.ForEachCall(@tstoredsymtable(pd.symtable).testfordefaultproperty,@_defaultprop);
if assigned(_defaultprop) then
break;
if (pd.typ=objectdef) then
pd:=tobjectdef(pd).childof
else
break;
end;
search_default_property:=_defaultprop;
end;
{****************************************************************************
Macro Helpers
****************************************************************************}
procedure def_system_macro(const name : string);
var
mac : tmacro;
s: string;
begin
if name = '' then
internalerror(2004121202);
s:= upper(name);
mac:=tmacro(search_macro(s));
if not assigned(mac) then
begin
mac:=tmacro.create(s);
if assigned(current_module) then
current_module.localmacrosymtable.insert(mac)
else
initialmacrosymtable.insert(mac);
end;
Message1(parser_c_macro_defined,mac.name);
mac.defined:=true;
end;
procedure set_system_macro(const name, value : string);
var
mac : tmacro;
s: string;
begin
if name = '' then
internalerror(2004121203);
s:= upper(name);
mac:=tmacro(search_macro(s));
if not assigned(mac) then
begin
mac:=tmacro.create(s);
if assigned(current_module) then
current_module.localmacrosymtable.insert(mac)
else
initialmacrosymtable.insert(mac);
end
else
begin
mac.is_compiler_var:=false;
if assigned(mac.buftext) then
freemem(mac.buftext,mac.buflen);
end;
Message2(parser_c_macro_set_to,mac.name,value);
mac.buflen:=length(value);
getmem(mac.buftext,mac.buflen);
move(value[1],mac.buftext^,mac.buflen);
mac.defined:=true;
end;
procedure set_system_compvar(const name, value : string);
var
mac : tmacro;
s: string;
begin
if name = '' then
internalerror(2004121204);
s:= upper(name);
mac:=tmacro(search_macro(s));
if not assigned(mac) then
begin
mac:=tmacro.create(s);
mac.is_compiler_var:=true;
if assigned(current_module) then
current_module.localmacrosymtable.insert(mac)
else
initialmacrosymtable.insert(mac);
end
else
begin
mac.is_compiler_var:=true;
if assigned(mac.buftext) then
freemem(mac.buftext,mac.buflen);
end;
Message2(parser_c_macro_set_to,mac.name,value);
mac.buflen:=length(value);
getmem(mac.buftext,mac.buflen);
move(value[1],mac.buftext^,mac.buflen);
mac.defined:=true;
end;
procedure undef_system_macro(const name : string);
var
mac : tmacro;
s: string;
begin
if name = '' then
internalerror(2004121205);
s:= upper(name);
mac:=tmacro(search_macro(s));
if not assigned(mac) then
{If not found, then it's already undefined.}
else
begin
Message1(parser_c_macro_undefined,mac.name);
mac.defined:=false;
mac.is_compiler_var:=false;
{ delete old definition }
if assigned(mac.buftext) then
begin
freemem(mac.buftext,mac.buflen);
mac.buftext:=nil;
end;
end;
end;
{$ifdef UNITALIASES}
{****************************************************************************
TUNIT_ALIAS
****************************************************************************}
constructor tunit_alias.create(const n:string);
var
i : longint;
begin
i:=pos('=',n);
if i=0 then
fail;
inherited createname(Copy(n,1,i-1));
newname:=stringdup(Copy(n,i+1,255));
end;
destructor tunit_alias.destroy;
begin
stringdispose(newname);
inherited destroy;
end;
procedure addunitalias(const n:string);
begin
unitaliases^.insert(tunit_alias,init(Upper(n))));
end;
function getunitalias(const n:string):string;
var
p : punit_alias;
begin
p:=punit_alias(unitaliases^.Find(Upper(n)));
if assigned(p) then
getunitalias:=punit_alias(p).newname^
else
getunitalias:=n;
end;
{$endif UNITALIASES}
{****************************************************************************
Init/Done Symtable
****************************************************************************}
procedure InitSymtable;
begin
{ Reset symbolstack }
symtablestack:=nil;
systemunit:=nil;
{ create error syms and def }
generrorsym:=terrorsym.create;
generrordef:=terrordef.create;
{ macros }
initialmacrosymtable:=tmacrosymtable.create(false);
macrosymtablestack:=TSymtablestack.create;
macrosymtablestack.push(initialmacrosymtable);
{$ifdef UNITALIASES}
{ unit aliases }
unitaliases:=TFPHashObjectList.create;
{$endif}
{ set some global vars to nil, might be important for the ide }
class_tobject:=nil;
interface_iunknown:=nil;
interface_idispatch:=nil;
rec_tguid:=nil;
dupnr:=0;
end;
procedure DoneSymtable;
begin
generrorsym.owner:=nil;
generrorsym.free;
generrordef.owner:=nil;
generrordef.free;
initialmacrosymtable.free;
macrosymtablestack.free;
{$ifdef UNITALIASES}
unitaliases.free;
{$endif}
end;
end.
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