{ Copyright (c) 1998-2002 by Florian Klaempfl, Pierre Muller Implementation for the symbols types of the symtable 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 symsym; {$i fpcdefs.inc} interface uses { common } cutils,compinnr, { target } globtype,globals,widestr,constexp, { symtable } symconst,symbase,symtype,symdef,defcmp, cclasses, { aasm } aasmbase, cpuinfo,cgbase,cgutils,parabase ; type { this class is the base for all symbol objects } tstoredsym = class(tsym) private procedure writeentry(ppufile: tcompilerppufile; ibnr: byte); protected procedure ppuwrite_platform(ppufile: tcompilerppufile);virtual; procedure ppuload_platform(ppufile: tcompilerppufile);virtual; public constructor create(st:tsymtyp;const n : string); constructor ppuload(st:tsymtyp;ppufile:tcompilerppufile); destructor destroy;override; procedure ppuwrite(ppufile:tcompilerppufile);virtual; procedure buildderef; override; procedure register_sym; override; end; tlabelsym = class(tstoredsym) used, defined, nonlocal : boolean; { points to the matching node, only valid resultdef pass is run and the goto<->label relation in the node tree is created, should be a tnode } code : pointer; { points to the jump buffer } jumpbuf : tstoredsym; { when the label is defined in an asm block, this points to the generated asmlabel } asmblocklabel : tasmlabel; constructor create(const n : string);virtual; constructor ppuload(ppufile:tcompilerppufile); { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; function mangledname:TSymStr;override; end; tlabelsymclass = class of tlabelsym; tunitsym = class(Tstoredsym) module : tobject; { tmodule } constructor create(const n : string;amodule : tobject);virtual; constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; end; tunitsymclass = class of tunitsym; tprogramparasym = class(Tstoredsym) isoindex : dword; constructor create(const n : string;i : dword);virtual; constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; end; tprogramparasymclass = class of tprogramparasym; tnamespacesym = class(Tstoredsym) unitsym:tsym; unitsymderef:tderef; constructor create(const n : string);virtual; constructor ppuload(ppufile:tcompilerppufile); { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; procedure buildderef;override; procedure deref;override; end; tnamespacesymclass = class of tnamespacesym; terrorsym = class(Tsym) constructor create; procedure register_sym; override; end; { tprocsym } tprocsym = class(tstoredsym) protected FProcdefList : TFPObjectList; FProcdefDerefList : TFPList; public constructor create(const n : string);virtual; constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; { writes all declarations except the specified one } procedure write_parameter_lists(skipdef:tprocdef); { tests, if all procedures definitions are defined and not } { only forward } procedure check_forward; virtual; { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; procedure buildderef;override; procedure deref;override; function find_procdef_bytype(pt:Tproctypeoption):Tprocdef; function find_bytype_parameterless(pt:Tproctypeoption):Tprocdef; function find_procdef_bypara(para:TFPObjectList;retdef:tdef;cpoptions:tcompare_paras_options):Tprocdef; function find_procdef_bytype_and_para(pt:Tproctypeoption;para:TFPObjectList;retdef:tdef;cpoptions:tcompare_paras_options):Tprocdef; function find_procdef_byoptions(ops:tprocoptions): Tprocdef; function find_procdef_byprocvardef(d:Tprocvardef):Tprocdef; function find_procdef_assignment_operator(fromdef,todef:tdef;var besteq:tequaltype):Tprocdef; function find_procdef_enumerator_operator(fromdef,todef:tdef;var besteq:tequaltype):Tprocdef; property ProcdefList:TFPObjectList read FProcdefList; end; tprocsymclass = class of tprocsym; ttypesym = class(Tstoredsym) public typedef : tdef; typedefderef : tderef; fprettyname : ansistring; constructor create(const n : string;def:tdef);virtual; destructor destroy;override; constructor ppuload(ppufile:tcompilerppufile); { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; procedure buildderef;override; procedure deref;override; function prettyname : string;override; end; ttypesymclass = class of ttypesym; tabstractvarsym = class(tstoredsym) varoptions : tvaroptions; varspez : tvarspez; { sets the type of access } varregable : tvarregable; varstate : tvarstate; { Has the address of this variable potentially escaped the block in which is was declared? could also be part of tabstractnormalvarsym, but there's one byte left here till the next 4 byte alignment } addr_taken : boolean; { true if the variable is accessed in a different scope } different_scope : boolean; constructor create(st:tsymtyp;const n : string;vsp:tvarspez;def:tdef;vopts:tvaroptions); constructor ppuload(st:tsymtyp;ppufile:tcompilerppufile); procedure ppuwrite(ppufile:tcompilerppufile);override; procedure buildderef;override; procedure deref;override; function getsize : asizeint; function getpackedbitsize : longint; function is_regvar(refpara: boolean):boolean; private _vardef : tdef; vardefderef : tderef; procedure setregable; procedure setvardef(const def: tdef); procedure setvardef_and_regable(def:tdef); public property vardef: tdef read _vardef write setvardef_and_regable; end; tfieldvarsym = class(tabstractvarsym) { offset in record/object, for bitpacked fields the offset is given in bit, else in bytes } fieldoffset : asizeint; {$ifdef llvm} { the llvm version of the record does not support variants, } { so the llvm equivalent field may not be at the exact same } { offset -> store the difference (bits for bitpacked records, } { bytes otherwise) } offsetfromllvmfield : aint; { number of the closest field in the llvm definition } llvmfieldnr : longint; {$endif llvm} externalname : pshortstring; {$ifdef symansistr} cachedmangledname: TSymStr; { mangled name for ObjC or Java } {$else symansistr} cachedmangledname: pshortstring; { mangled name for ObjC or Java } {$endif symansistr} constructor create(const n : string;vsp:tvarspez;def:tdef;vopts:tvaroptions);virtual; constructor ppuload(ppufile:tcompilerppufile); { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; procedure set_externalname(const s:string);virtual; function mangledname:TSymStr;override; destructor destroy;override; end; tfieldvarsymclass = class of tfieldvarsym; tabstractnormalvarsym = class(tabstractvarsym) defaultconstsym : tsym; defaultconstsymderef : tderef; { register/reference for local var } localloc : TLocation; { initial location so it can still be initialized later after the location was changed by SSA } initialloc : TLocation; { migrated to a parentfpstruct because of nested access (not written to ppu, because not important and would change interface crc) } inparentfpstruct : boolean; { the variable is not living at entry of the scope, so it does not need to be initialized if it is a reg. var (not written to ppu, because not important and would change interface crc) } noregvarinitneeded : boolean; constructor create(st:tsymtyp;const n : string;vsp:tvarspez;def:tdef;vopts:tvaroptions); constructor ppuload(st:tsymtyp;ppufile:tcompilerppufile); function globalasmsym: boolean; procedure ppuwrite(ppufile:tcompilerppufile);override; procedure buildderef;override; procedure deref;override; end; tlocalvarsym = class(tabstractnormalvarsym) constructor create(const n : string;vsp:tvarspez;def:tdef;vopts:tvaroptions);virtual; constructor ppuload(ppufile:tcompilerppufile); { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; end; tlocalvarsymclass = class of tlocalvarsym; tparavarsym = class(tabstractnormalvarsym) paraloc : array[callerside..calleeside] of TCGPara; paranr : word; { position of this parameter } { in MacPas mode, "univ" parameters mean that type checking should be disabled, except that the size of the passed parameter must match the size of the formal parameter } univpara : boolean; {$ifdef EXTDEBUG} eqval : tequaltype; {$endif EXTDEBUG} constructor create(const n : string;nr:word;vsp:tvarspez;def:tdef;vopts:tvaroptions);virtual; constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; function needs_finalization: boolean; end; tparavarsymclass = class of tparavarsym; tstaticvarsym = class(tabstractnormalvarsym) protected {$ifdef symansistr} _mangledbasename, _mangledname : TSymStr; {$else symansistr} _mangledbasename, _mangledname : pshortstring; {$endif symansistr} public section : ansistring; { if a text buffer has been defined as being initialized from command line parameters as it is done by iso pascal with the program symbols, isoindex contains the parameter number } isoindex : dword; { if this static variable was created based on a class field variable then this is set to the symbol of the corresponding class field } fieldvarsym : tfieldvarsym; fieldvarsymderef : tderef; constructor create(const n : string;vsp:tvarspez;def:tdef;vopts:tvaroptions);virtual; constructor create_dll(const n : string;vsp:tvarspez;def:tdef);virtual; constructor create_C(const n: string; const mangled : TSymStr;vsp:tvarspez;def:tdef);virtual; constructor create_from_fieldvar(const n:string;fieldvar:tfieldvarsym);virtual; constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; procedure buildderef;override; procedure deref;override; function mangledname:TSymStr;override; procedure set_mangledbasename(const s: TSymStr); function mangledbasename: TSymStr; procedure set_mangledname(const s:TSymStr);virtual; procedure set_raw_mangledname(const s:TSymStr); end; tstaticvarsymclass = class of tstaticvarsym; tabsolutevarsym = class(tabstractvarsym) public abstyp : absolutetyp; asmname : pshortstring; addroffset : PUint; ref : tpropaccesslist; constructor create(const n : string;def:tdef);virtual; constructor create_ref(const n : string;def:tdef;_ref:tpropaccesslist);virtual; destructor destroy;override; constructor ppuload(ppufile:tcompilerppufile); procedure buildderef;override; procedure deref;override; function mangledname : TSymStr;override; { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; end; tabsolutevarsymclass = class of tabsolutevarsym; tpropaccesslisttypes=(palt_none,palt_read,palt_write,palt_stored); tpropertysym = class(Tstoredsym) protected procedure finalize_getter_or_setter_for_sym(getset: tpropaccesslisttypes; sym: tsym; fielddef: tdef; accessordef: tprocdef); virtual; public propoptions : tpropertyoptions; overriddenpropsym : tpropertysym; overriddenpropsymderef : tderef; propdef : tdef; propdefderef : tderef; indexdef : tdef; indexdefderef : tderef; index, default : longint; dispid : longint; propaccesslist: array[tpropaccesslisttypes] of tpropaccesslist; parast : tsymtable; constructor create(const n : string);virtual; destructor destroy;override; constructor ppuload(ppufile:tcompilerppufile); function getsize : asizeint; { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; procedure buildderef;override; procedure deref;override; function getpropaccesslist(pap:tpropaccesslisttypes;out plist:tpropaccesslist):boolean; { copies the settings of the current propertysym to p; a bit like a form of getcopy, but without the name } procedure makeduplicate(p: tpropertysym; readprocdef, writeprocdef: tprocdef; out paranr: word); procedure add_accessor_parameters(readprocdef, writeprocdef: tprocdef); procedure add_index_parameter(var paranr: word; readprocdef, writeprocdef: tprocdef); { set up the accessors for this property } procedure add_getter_or_setter_for_sym(getset: tpropaccesslisttypes; sym: tsym; fielddef: tdef; accessordef: tprocdef); procedure register_override(overriddenprop: tpropertysym); { inherit the read/write property } procedure inherit_accessor(getset: tpropaccesslisttypes); virtual; end; tpropertysymclass = class of tpropertysym; tconstvalue = record case integer of 0: (valueord : tconstexprint); 1: (valueordptr : tconstptruint); 2: (valueptr : pointer; len : longint); end; tconstsym = class(tstoredsym) constdef : tdef; constdefderef : tderef; consttyp : tconsttyp; value : tconstvalue; constructor create_ord(const n : string;t : tconsttyp;v : tconstexprint;def:tdef);virtual; constructor create_ordptr(const n : string;t : tconsttyp;v : tconstptruint;def:tdef);virtual; constructor create_ptr(const n : string;t : tconsttyp;v : pointer;def:tdef);virtual; constructor create_string(const n : string;t : tconsttyp;str:pchar;l:longint;def:tdef);virtual; constructor create_wstring(const n : string;t : tconsttyp;pw:pcompilerwidestring);virtual; constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; procedure buildderef;override; procedure deref;override; { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; end; tconstsymclass = class of tconstsym; tenumsym = class(Tstoredsym) value : longint; definition : tenumdef; definitionderef : tderef; constructor create(const n : string;def : tenumdef;v : longint);virtual; constructor ppuload(ppufile:tcompilerppufile); { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; procedure buildderef;override; procedure deref;override; end; tenumsymclass = class of tenumsym; tsyssym = class(Tstoredsym) number : tinlinenumber; constructor create(const n : string;l : tinlinenumber);virtual; constructor ppuload(ppufile:tcompilerppufile); destructor destroy;override; { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; class function find_by_number(l:longint):tsyssym; end; tsyssymclass = class of tsyssym; const maxmacrolen=16*1024; type pmacrobuffer = ^tmacrobuffer; tmacrobuffer = array[0..maxmacrolen-1] of char; tmacro = class(tstoredsym) {Normally true, but false when a previously defined macro is undef-ed} defined : boolean; {True if this is a mac style compiler variable, in which case no macro substitutions shall be done.} is_compiler_var : boolean; {Whether the macro was used. NOTE: A use of a macro which was never defined} {e. g. an IFDEF which returns false, will not be registered as used,} {since there is no place to register its use. } is_used : boolean; buftext : pchar; buflen : longint; constructor create(const n : string); constructor ppuload(ppufile:tcompilerppufile); { do not override this routine in platform-specific subclasses, override ppuwrite_platform instead } procedure ppuwrite(ppufile:tcompilerppufile);override;final; destructor destroy;override; function GetCopy:tmacro; end; var generrorsym : tsym; clabelsym: tlabelsymclass; cunitsym: tunitsymclass; cprogramparasym: tprogramparasymclass; cnamespacesym: tnamespacesymclass; cprocsym: tprocsymclass; ctypesym: ttypesymclass; cfieldvarsym: tfieldvarsymclass; clocalvarsym: tlocalvarsymclass; cparavarsym: tparavarsymclass; cstaticvarsym: tstaticvarsymclass; cabsolutevarsym: tabsolutevarsymclass; cpropertysym: tpropertysymclass; cconstsym: tconstsymclass; cenumsym: tenumsymclass; csyssym: tsyssymclass; { generate internal static field name based on regular field name } function internal_static_field_name(const fieldname: TSymStr): TSymStr; function get_high_value_sym(vs: tparavarsym):tsym; { marking it as inline causes IE 200311075 during loading from ppu file } procedure check_hints(const srsym: tsym; const symoptions: tsymoptions; const deprecatedmsg : pshortstring);inline; procedure check_hints(const srsym: tsym; const symoptions: tsymoptions; const deprecatedmsg : pshortstring;filepos:tfileposinfo); implementation uses { global } verbose, { target } systems, { symtable } defutil,symtable, fmodule, { tree } node, { aasm } aasmdata, { codegen } paramgr, procinfo, { ppu } entfile ; {**************************************************************************** Helpers ****************************************************************************} function internal_static_field_name(const fieldname: TSymStr): TSymStr; begin result:='$_static_'+fieldname; end; function get_high_value_sym(vs: tparavarsym):tsym; begin result := tsym(vs.owner.Find('high'+vs.name)); end; procedure check_hints(const srsym: tsym; const symoptions: tsymoptions; const deprecatedmsg : pshortstring); begin check_hints(srsym,symoptions,deprecatedmsg,current_filepos); end; procedure check_hints(const srsym: tsym; const symoptions: tsymoptions; const deprecatedmsg : pshortstring;filepos:tfileposinfo); begin if not assigned(srsym) then internalerror(200602051); if sp_hint_deprecated in symoptions then if (sp_has_deprecated_msg in symoptions) and (deprecatedmsg <> nil) then MessagePos2(filepos,sym_w_deprecated_symbol_with_msg,srsym.realname,deprecatedmsg^) else MessagePos1(filepos,sym_w_deprecated_symbol,srsym.realname); if sp_hint_experimental in symoptions then MessagePos1(filepos,sym_w_experimental_symbol,srsym.realname); if sp_hint_platform in symoptions then MessagePos1(filepos,sym_w_non_portable_symbol,srsym.realname); if sp_hint_library in symoptions then MessagePos1(filepos,sym_w_library_symbol,srsym.realname); if sp_hint_unimplemented in symoptions then MessagePos1(filepos,sym_w_non_implemented_symbol,srsym.realname); end; {**************************************************************************** TSYM (base for all symtypes) ****************************************************************************} constructor tstoredsym.create(st:tsymtyp;const n : string); begin inherited create(st,n); end; constructor tstoredsym.ppuload(st:tsymtyp;ppufile:tcompilerppufile); begin inherited Create(st,ppufile.getstring); SymId:=ppufile.getlongint; current_module.symlist[SymId]:=self; ppufile.getposinfo(fileinfo); visibility:=tvisibility(ppufile.getbyte); ppufile.getsmallset(symoptions); if sp_has_deprecated_msg in symoptions then deprecatedmsg:=ppufile.getpshortstring else deprecatedmsg:=nil; end; procedure tstoredsym.ppuwrite(ppufile:tcompilerppufile); var oldintfcrc : boolean; begin ppufile.putstring(realname); ppufile.putlongint(SymId); ppufile.putposinfo(fileinfo); ppufile.putbyte(byte(visibility)); { symoptions can differ between interface and implementation, except for overload (this is checked in pdecsub.proc_add_definition() ) These differences can lead to compiler crashes, so ignore them. This does mean that changing e.g. the "deprecated" state of a symbol by itself will not trigger a recompilation of dependent units. } oldintfcrc:=ppufile.do_interface_crc; ppufile.do_interface_crc:=false; ppufile.putsmallset(symoptions); if sp_has_deprecated_msg in symoptions then ppufile.putstring(deprecatedmsg^); ppufile.do_interface_crc:=oldintfcrc; end; procedure tstoredsym.buildderef; begin inherited; if not registered then register_sym; end; procedure tstoredsym.writeentry(ppufile: tcompilerppufile; ibnr: byte); begin ppuwrite_platform(ppufile); ppufile.writeentry(ibnr); end; procedure tstoredsym.ppuwrite_platform(ppufile: tcompilerppufile); begin { by default: do nothing } end; procedure tstoredsym.ppuload_platform(ppufile: tcompilerppufile); begin { by default: do nothing } end; destructor tstoredsym.destroy; begin inherited destroy; end; procedure tstoredsym.register_sym; begin if registered then exit; { Register in current_module } if assigned(current_module) then begin current_module.symlist.Add(self); SymId:=current_module.symlist.Count-1; end else SymId:=symid_registered_nost; end; {**************************************************************************** TLABELSYM ****************************************************************************} constructor tlabelsym.create(const n : string); begin inherited create(labelsym,n); used:=false; defined:=false; nonlocal:=false; code:=nil; end; constructor tlabelsym.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(labelsym,ppufile); code:=nil; used:=false; nonlocal:=false; defined:=true; ppuload_platform(ppufile); end; procedure tlabelsym.ppuwrite(ppufile:tcompilerppufile); begin if owner.symtabletype=globalsymtable then Message(sym_e_ill_label_decl) else begin inherited ppuwrite(ppufile); writeentry(ppufile,iblabelsym); end; end; function tlabelsym.mangledname:TSymStr; begin if (asmblocklabel=nil) then begin if nonlocal then current_asmdata.getglobaljumplabel(asmblocklabel) else current_asmdata.getjumplabel(asmblocklabel); end; result:=asmblocklabel.name; end; {**************************************************************************** TUNITSYM ****************************************************************************} constructor tunitsym.create(const n : string;amodule : tobject); begin inherited create(unitsym,n); module:=amodule; end; constructor tunitsym.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(unitsym,ppufile); module:=nil; ppuload_platform(ppufile); end; destructor tunitsym.destroy; begin inherited destroy; end; procedure tunitsym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); writeentry(ppufile,ibunitsym); end; {**************************************************************************** TPROGRAMPARASYM ****************************************************************************} constructor tprogramparasym.create(const n : string; i : dword); begin inherited create(programparasym,n); isoindex:=i; end; constructor tprogramparasym.ppuload(ppufile : tcompilerppufile); begin { program parameter syms (iso pascal style) might be never written to a ppu } internalerror(2015050102); end; destructor tprogramparasym.destroy; begin inherited destroy; end; procedure tprogramparasym.ppuwrite(ppufile : tcompilerppufile); begin { program parameter syms (iso pascal style) might be never written to a ppu } internalerror(2015050101); end; {**************************************************************************** TNAMESPACESYM ****************************************************************************} constructor tnamespacesym.create(const n : string); begin inherited create(namespacesym,n); unitsym:=nil; unitsymderef.reset; end; constructor tnamespacesym.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(namespacesym,ppufile); ppufile.getderef(unitsymderef); ppuload_platform(ppufile); end; procedure tnamespacesym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); ppufile.putderef(unitsymderef); writeentry(ppufile,ibnamespacesym); end; procedure tnamespacesym.buildderef; begin inherited buildderef; unitsymderef.build(unitsym); end; procedure tnamespacesym.deref; begin inherited deref; unitsym:=tsym(unitsymderef.resolve); end; {**************************************************************************** TPROCSYM ****************************************************************************} constructor tprocsym.create(const n : string); var i: longint; begin if not(ts_lowercase_proc_start in current_settings.targetswitches) or (n='') then inherited create(procsym,n) else begin { YToX -> yToX RC64Encode -> rc64Encode Test -> test } i:=2; while i<=length(n) do begin if not(n[i] in ['A'..'Z']) then begin if (i>2) and (n[i] in ['a'..'z']) then dec(i); break; end; inc(i); end; inherited create(procsym,lower(copy(n,1,i-1))+copy(n,i,length(n))); end; FProcdefList:=TFPObjectList.Create(false); FProcdefderefList:=nil; { the tprocdef have their own symoptions, make the procsym always visible } visibility:=vis_public; end; constructor tprocsym.ppuload(ppufile:tcompilerppufile); var pdderef : tderef; i, pdcnt : longint; begin inherited ppuload(procsym,ppufile); FProcdefList:=TFPObjectList.Create(false); FProcdefDerefList:=TFPList.Create; pdcnt:=ppufile.getword; for i:=1 to pdcnt do begin ppufile.getderef(pdderef); FProcdefDerefList.Add(Pointer(PtrInt(pdderef.dataidx))); end; ppuload_platform(ppufile); end; destructor tprocsym.destroy; begin FProcdefList.Free; if assigned(FProcdefDerefList) then FProcdefDerefList.Free; inherited destroy; end; procedure tprocsym.ppuwrite(ppufile:tcompilerppufile); var i : longint; d : tderef; begin inherited ppuwrite(ppufile); if fprocdefdereflist=nil then internalerror(2013121801); ppufile.putword(FProcdefDerefList.Count); for i:=0 to FProcdefDerefList.Count-1 do begin d.dataidx:=PtrInt(FProcdefDerefList[i]); ppufile.putderef(d); end; writeentry(ppufile,ibprocsym); end; procedure tprocsym.write_parameter_lists(skipdef:tprocdef); var i : longint; pd : tprocdef; begin for i:=0 to ProcdefList.Count-1 do begin pd:=tprocdef(ProcdefList[i]); if pd<>skipdef then MessagePos1(pd.fileinfo,sym_e_param_list,pd.fullprocname(false)); end; end; procedure tprocsym.check_forward; var i : longint; pd : tprocdef; begin for i:=0 to ProcdefList.Count-1 do begin pd:=tprocdef(ProcdefList[i]); if (pd.owner=owner) and (pd.forwarddef) then begin { For mode macpas. Make implicit externals (procedures declared in the interface section which do not have a counterpart in the implementation) to be an imported procedure } if (m_mac in current_settings.modeswitches) and (pd.interfacedef) then begin pd.setmangledname(target_info.CPrefix+tprocdef(pd).procsym.realname); if (not current_module.interface_only) then MessagePos1(pd.fileinfo,sym_w_forward_not_resolved,pd.fullprocname(false)); end else begin MessagePos1(pd.fileinfo,sym_e_forward_not_resolved,pd.fullprocname(false)); end; { Turn further error messages off } pd.forwarddef:=false; end; end; end; procedure tprocsym.buildderef; var i : longint; pd : tprocdef; d : tderef; begin inherited; if not assigned(FProcdefDerefList) then FProcdefDerefList:=TFPList.Create else FProcdefDerefList.Clear; for i:=0 to ProcdefList.Count-1 do begin pd:=tprocdef(ProcdefList[i]); { only write the proc definitions that belong to this procsym and are in the global symtable } if pd.owner=owner then begin d.build(pd); FProcdefDerefList.Add(Pointer(PtrInt(d.dataidx))); end; end; end; procedure tprocsym.deref; var i : longint; pd : tprocdef; d : tderef; begin { Clear all procdefs } ProcdefList.Clear; if not assigned(FProcdefDerefList) then internalerror(200611031); for i:=0 to FProcdefDerefList.Count-1 do begin d.dataidx:=PtrInt(FProcdefDerefList[i]); pd:=tprocdef(d.resolve); ProcdefList.Add(pd); end; end; function Tprocsym.Find_procdef_bytype(pt:Tproctypeoption):Tprocdef; var i : longint; pd : tprocdef; begin result:=nil; for i:=0 to ProcdefList.Count-1 do begin pd:=tprocdef(ProcdefList[i]); if pd.proctypeoption=pt then begin result:=pd; exit; end; end; end; function tprocsym.find_bytype_parameterless(pt: Tproctypeoption): Tprocdef; var i,j : longint; pd : tprocdef; found : boolean; begin result:=nil; for i:=0 to ProcdefList.Count-1 do begin pd:=tprocdef(ProcdefList[i]); if (pd.proctypeoption=pt) then begin found:=true; for j:=0 to pd.paras.count-1 do begin if not(vo_is_hidden_para in tparavarsym(pd.paras[j]).varoptions) then begin found:=false; break; end; end; if found then begin result:=pd; exit; end; end; end; end; function check_procdef_paras(pd:tprocdef;para:TFPObjectList;retdef:tdef; cpoptions:tcompare_paras_options): tprocdef; var eq: tequaltype; begin result:=nil; if assigned(retdef) then eq:=compare_defs(retdef,pd.returndef,nothingn) else eq:=te_equal; if (eq>=te_equal) or ((cpo_allowconvert in cpoptions) and (eq>te_incompatible)) then begin eq:=compare_paras(para,pd.paras,cp_value_equal_const,cpoptions); if (eq>=te_equal) or ((cpo_allowconvert in cpoptions) and (eq>te_incompatible)) then begin result:=pd; exit; end; end; end; function Tprocsym.Find_procdef_bypara(para:TFPObjectList;retdef:tdef; cpoptions:tcompare_paras_options):Tprocdef; var i : longint; pd : tprocdef; begin result:=nil; for i:=0 to ProcdefList.Count-1 do begin pd:=tprocdef(ProcdefList[i]); result:=check_procdef_paras(pd,para,retdef,cpoptions); if assigned(result) then exit; end; end; function Tprocsym.find_procdef_bytype_and_para(pt:Tproctypeoption; para:TFPObjectList;retdef:tdef;cpoptions:tcompare_paras_options):Tprocdef; var i : longint; pd : tprocdef; begin result:=nil; for i:=0 to ProcdefList.Count-1 do begin pd:=tprocdef(ProcdefList[i]); if pd.proctypeoption=pt then begin result:=check_procdef_paras(pd,para,retdef,cpoptions); if assigned(result) then exit; end; end; end; function tprocsym.find_procdef_byoptions(ops: tprocoptions): Tprocdef; var i : longint; pd : tprocdef; begin result:=nil; for i:=0 to ProcdefList.Count-1 do begin pd:=tprocdef(ProcdefList[i]); if ops * pd.procoptions = ops then begin result:=pd; exit; end; end; end; function Tprocsym.Find_procdef_byprocvardef(d:Tprocvardef):Tprocdef; var i : longint; bestpd, pd : tprocdef; eq,besteq : tequaltype; sym: tsym; ps: tprocsym; begin { This function will return the pprocdef of pprocsym that is the best match for procvardef. When there are multiple matches it returns nil.} result:=nil; bestpd:=nil; besteq:=te_incompatible; ps:=self; repeat for i:=0 to ps.ProcdefList.Count-1 do begin pd:=tprocdef(ps.ProcdefList[i]); eq:=proc_to_procvar_equal(pd,d,false); if eq>=te_convert_l1 then begin { multiple procvars with the same equal level } if assigned(bestpd) and (besteq=eq) then exit; if eq>besteq then begin besteq:=eq; bestpd:=pd; end; end; end; { maybe TODO: also search class helpers? -- this code is similar to what happens in htypechk in tcallcandidates.collect_overloads_in_struct: keep searching in parent types in case the currently found procdef is marked as "overload" and we haven't found a proper match yet } if assigned(ps.owner.defowner) and (ps.owner.defowner.typ=objectdef) and assigned(tobjectdef(ps.owner.defowner).childof) and (not assigned(bestpd) or (po_overload in bestpd.procoptions)) then begin sym:=tsym(tobjectdef(ps.owner.defowner).childof.symtable.find(ps.name)); if assigned(sym) and (sym.typ=procsym) then ps:=tprocsym(sym) else ps:=nil; end else ps:=nil; until (besteq>=te_equal) or not assigned(ps); result:=bestpd; end; function Tprocsym.Find_procdef_assignment_operator(fromdef,todef:tdef;var besteq:tequaltype):Tprocdef; var paraidx, realparamcount, i, j : longint; bestpd, hpd, pd : tprocdef; convtyp : tconverttype; eq : tequaltype; begin { This function will return the pprocdef of pprocsym that is the best match for fromdef and todef. } result:=nil; bestpd:=nil; besteq:=te_incompatible; for i:=0 to ProcdefList.Count-1 do begin pd:=tprocdef(ProcdefList[i]); if (pd.owner.symtabletype=staticsymtable) and not pd.owner.iscurrentunit then continue; if (equal_defs(todef,pd.returndef) or { shortstrings of different lengths are ok as result } (is_shortstring(todef) and is_shortstring(pd.returndef))) and { the result type must be always really equal and not an alias, if you mess with this code, check tw4093 } ((todef=pd.returndef) or ( not(df_unique in todef.defoptions) and not(df_unique in pd.returndef.defoptions) ) ) then begin paraidx:=0; { ignore vs_hidden parameters } while (paraidxtparavarsym(pd.paras[paraidx]).vardef) and ((df_unique in fromdef.defoptions) or (df_unique in tparavarsym(pd.paras[paraidx]).vardef.defoptions)) then eq:=te_convert_l1; if eq=te_exact then begin besteq:=eq; result:=pd; exit; end; if eq>besteq then begin bestpd:=pd; besteq:=eq; end; end; end; end; result:=bestpd; end; function Tprocsym.find_procdef_enumerator_operator(fromdef,todef:tdef;var besteq:tequaltype):Tprocdef; var paraidx, realparamcount, i, j : longint; bestpd, hpd, pd : tprocdef; current : tpropertysym; convtyp : tconverttype; eq : tequaltype; begin { This function will return the pprocdef of pprocsym that is the best match for fromdef and todef. } result:=nil; bestpd:=nil; besteq:=te_incompatible; for i:=0 to ProcdefList.Count-1 do begin pd:=tprocdef(ProcdefList[i]); if (pd.owner.symtabletype=staticsymtable) and not pd.owner.iscurrentunit then continue; if not (is_class_or_interface_or_object(pd.returndef) or is_record(pd.returndef)) then continue; current := tpropertysym(tabstractrecorddef(pd.returndef).search_enumerator_current); if (current = nil) then continue; // compare current result def with the todef if (equal_defs(todef, current.propdef) or { shortstrings of different lengths are ok as result } (is_shortstring(todef) and is_shortstring(current.propdef))) and { the result type must be always really equal and not an alias, if you mess with this code, check tw4093 } ((todef=current.propdef) or ( not(df_unique in todef.defoptions) and not(df_unique in current.propdef.defoptions) ) ) then begin paraidx:=0; { ignore vs_hidden parameters } while (paraidxtparavarsym(pd.paras[paraidx]).vardef) and ((df_unique in fromdef.defoptions) or (df_unique in tparavarsym(pd.paras[paraidx]).vardef.defoptions)) then eq:=te_convert_l1; if eq=te_exact then begin besteq:=eq; result:=pd; exit; end; if eq>besteq then begin bestpd:=pd; besteq:=eq; end; end; end; end; result:=bestpd; end; {**************************************************************************** TERRORSYM ****************************************************************************} constructor terrorsym.create; begin inherited create(errorsym,''); end; procedure terrorsym.register_sym; begin { these should never be written to a ppu file, since they don't derive from tstoredsym } Internalerror(2015101801); end; {**************************************************************************** TPROPERTYSYM ****************************************************************************} procedure tpropertysym.finalize_getter_or_setter_for_sym(getset: tpropaccesslisttypes; sym: tsym; fielddef: tdef; accessordef: tprocdef); begin { do nothing by default } end; constructor tpropertysym.create(const n : string); var pap : tpropaccesslisttypes; begin inherited create(propertysym,n); propoptions:=[]; index:=0; default:=0; propdef:=nil; propdefderef.reset; indexdef:=nil; indexdefderef.reset; parast:=nil; for pap:=low(tpropaccesslisttypes) to high(tpropaccesslisttypes) do propaccesslist[pap]:=tpropaccesslist.create; end; constructor tpropertysym.ppuload(ppufile:tcompilerppufile); var pap : tpropaccesslisttypes; begin inherited ppuload(propertysym,ppufile); ppufile.getsmallset(propoptions); if ppo_overrides in propoptions then ppufile.getderef(overriddenpropsymderef); ppufile.getderef(propdefderef); index:=ppufile.getlongint; default:=ppufile.getlongint; ppufile.getderef(indexdefderef); for pap:=low(tpropaccesslisttypes) to high(tpropaccesslisttypes) do propaccesslist[pap]:=ppufile.getpropaccesslist; ppuload_platform(ppufile); if [ppo_hasparameters,ppo_overrides]*propoptions=[ppo_hasparameters] then begin parast:=tparasymtable.create(nil,0); tparasymtable(parast).ppuload(ppufile); end else parast:=nil; end; destructor tpropertysym.destroy; var pap : tpropaccesslisttypes; begin for pap:=low(tpropaccesslisttypes) to high(tpropaccesslisttypes) do propaccesslist[pap].free; parast.free; inherited destroy; end; procedure tpropertysym.buildderef; var pap : tpropaccesslisttypes; begin inherited; propdefderef.build(propdef); indexdefderef.build(indexdef); for pap:=low(tpropaccesslisttypes) to high(tpropaccesslisttypes) do propaccesslist[pap].buildderef; if ppo_overrides in propoptions then overriddenpropsymderef.build(overriddenpropsym) else if ppo_hasparameters in propoptions then tparasymtable(parast).buildderef; end; procedure tpropertysym.deref; var pap : tpropaccesslisttypes; begin indexdef:=tdef(indexdefderef.resolve); propdef:=tdef(propdefderef.resolve); for pap:=low(tpropaccesslisttypes) to high(tpropaccesslisttypes) do propaccesslist[pap].resolve; if ppo_overrides in propoptions then begin overriddenpropsym:=tpropertysym(overriddenpropsymderef.resolve); if ppo_hasparameters in propoptions then parast:=overriddenpropsym.parast.getcopy; end else if ppo_hasparameters in propoptions then tparasymtable(parast).deref(false) end; function tpropertysym.getpropaccesslist(pap:tpropaccesslisttypes;out plist:tpropaccesslist):boolean; var hpropsym : tpropertysym; begin result:=false; { find property in the overridden list } hpropsym:=self; repeat plist:=hpropsym.propaccesslist[pap]; if not plist.empty then begin result:=true; exit; end; hpropsym:=hpropsym.overriddenpropsym; until not assigned(hpropsym); end; procedure tpropertysym.add_accessor_parameters(readprocdef, writeprocdef: tprocdef); var i: integer; orig, hparavs: tparavarsym; begin for i := 0 to parast.SymList.Count - 1 do begin orig:=tparavarsym(parast.SymList[i]); if assigned(readprocdef) then begin hparavs:=cparavarsym.create(orig.RealName,orig.paranr,orig.varspez,orig.vardef,[]); readprocdef.parast.insert(hparavs); end; if assigned(writeprocdef) then begin hparavs:=cparavarsym.create(orig.RealName,orig.paranr,orig.varspez,orig.vardef,[]); writeprocdef.parast.insert(hparavs); end; end; end; procedure tpropertysym.add_index_parameter(var paranr: word; readprocdef, writeprocdef: tprocdef); var hparavs: tparavarsym; begin inc(paranr); if assigned(readprocdef) then begin hparavs:=cparavarsym.create('$index',10*paranr,vs_value,indexdef,[]); readprocdef.parast.insert(hparavs); end; if assigned(writeprocdef) then begin hparavs:=cparavarsym.create('$index',10*paranr,vs_value,indexdef,[]); writeprocdef.parast.insert(hparavs); end; end; procedure tpropertysym.add_getter_or_setter_for_sym(getset: tpropaccesslisttypes; sym: tsym; fielddef: tdef; accessordef: tprocdef); var cpo: tcompare_paras_options; begin case sym.typ of procsym : begin { search procdefs matching accessordef } { we ignore hidden stuff here because the property access symbol might have non default calling conventions which might change the hidden stuff; see tw3216.pp (FK) } cpo:=[cpo_allowdefaults,cpo_ignorehidden]; { allow var-parameters for setters in case of VARPROPSETTER+ } if (getset=palt_write) and (cs_varpropsetter in current_settings.localswitches) then include(cpo,cpo_ignorevarspez); propaccesslist[getset].procdef:=tprocsym(sym).find_procdef_bypara(accessordef.paras,accessordef.returndef,cpo); if not assigned(propaccesslist[getset].procdef) or { because of cpo_ignorehidden we need to compare if it is a static class method and we have a class property } ((sp_static in symoptions)<>tprocdef(propaccesslist[getset].procdef).no_self_node) then Message(parser_e_ill_property_access_sym) else finalize_getter_or_setter_for_sym(getset,sym,fielddef,accessordef); end; fieldvarsym : begin if not assigned(fielddef) then internalerror(200310071); if compare_defs(fielddef,propdef,nothingn)>=te_equal then begin { property parameters are allowed if this is an indexed property, because the index is then the parameter. Note: In the help of Kylix it is written that it isn't allowed, but the compiler accepts it (PFV) } if (ppo_hasparameters in propoptions) or ((sp_static in symoptions) <> (sp_static in sym.symoptions)) then Message(parser_e_ill_property_access_sym) else finalize_getter_or_setter_for_sym(getset,sym,fielddef,accessordef); end else IncompatibleTypes(fielddef,propdef); end; else Message(parser_e_ill_property_access_sym); end; end; procedure tpropertysym.register_override(overriddenprop: tpropertysym); begin overriddenpropsym:=tpropertysym(overriddenprop); include(propoptions,ppo_overrides); end; procedure tpropertysym.inherit_accessor(getset: tpropaccesslisttypes); begin { nothing to do by default } end; procedure tpropertysym.makeduplicate(p: tpropertysym; readprocdef, writeprocdef: tprocdef; out paranr: word); begin { inherit all type related entries } p.indexdef:=indexdef; p.propdef:=propdef; p.index:=index; p.default:=default; p.propoptions:=propoptions; paranr:=0; if ppo_hasparameters in propoptions then begin p.parast:=parast.getcopy; p.add_accessor_parameters(readprocdef,writeprocdef); paranr:=p.parast.SymList.Count; end; if ppo_indexed in p.propoptions then p.add_index_parameter(paranr,readprocdef,writeprocdef); end; function tpropertysym.getsize : asizeint; begin getsize:=0; end; procedure tpropertysym.ppuwrite(ppufile:tcompilerppufile); var pap : tpropaccesslisttypes; begin inherited ppuwrite(ppufile); ppufile.putsmallset(propoptions); if ppo_overrides in propoptions then ppufile.putderef(overriddenpropsymderef); ppufile.putderef(propdefderef); ppufile.putlongint(index); ppufile.putlongint(default); ppufile.putderef(indexdefderef); for pap:=low(tpropaccesslisttypes) to high(tpropaccesslisttypes) do ppufile.putpropaccesslist(propaccesslist[pap]); writeentry(ppufile,ibpropertysym); if [ppo_hasparameters,ppo_overrides]*propoptions=[ppo_hasparameters] then tparasymtable(parast).ppuwrite(ppufile); end; {**************************************************************************** TABSTRACTVARSYM ****************************************************************************} constructor tabstractvarsym.create(st:tsymtyp;const n : string;vsp:tvarspez;def:tdef;vopts:tvaroptions); begin inherited create(st,n); vardef:=def; vardefderef.reset; varspez:=vsp; varstate:=vs_declared; varoptions:=vopts; end; constructor tabstractvarsym.ppuload(st:tsymtyp;ppufile:tcompilerppufile); begin inherited ppuload(st,ppufile); varstate:=vs_readwritten; varspez:=tvarspez(ppufile.getbyte); varregable:=tvarregable(ppufile.getbyte); addr_taken:=ppufile.getboolean; different_scope:=ppufile.getboolean; ppufile.getderef(vardefderef); ppufile.getsmallset(varoptions); end; procedure tabstractvarsym.buildderef; begin inherited; vardefderef.build(vardef); end; procedure tabstractvarsym.deref; begin { assigning vardef also updates varregable. We just loaded this } { value from a ppu, so it must not be changed (e.g. tw7817a.pp/ } { tw7817b.pp: the address is taken of a local variable in an } { inlined procedure -> must remain non-regable when inlining) } setvardef(tdef(vardefderef.resolve)); end; procedure tabstractvarsym.ppuwrite(ppufile:tcompilerppufile); var oldintfcrc : boolean; begin inherited ppuwrite(ppufile); ppufile.putbyte(byte(varspez)); oldintfcrc:=ppufile.do_crc; ppufile.do_crc:=false; ppufile.putbyte(byte(varregable)); ppufile.putboolean(addr_taken); ppufile.putboolean(different_scope); ppufile.do_crc:=oldintfcrc; ppufile.putderef(vardefderef); ppufile.putsmallset(varoptions); end; function tabstractvarsym.getsize : asizeint; begin if assigned(vardef) and ((vardef.typ<>arraydef) or is_dynamic_array(vardef) or (tarraydef(vardef).highrange>=tarraydef(vardef).lowrange)) then result:=vardef.size else result:=0; end; function tabstractvarsym.getpackedbitsize : longint; begin { bitpacking is only done for ordinals } if not is_ordinal(vardef) then internalerror(2006082010); result:=vardef.packedbitsize; end; function tabstractvarsym.is_regvar(refpara: boolean):boolean; begin { Register variables are not allowed in the following cases: - regvars are disabled - exceptions are used (after an exception is raised the contents of the registers is not valid anymore) - it has a local copy - the value needs to be in memory (i.e. reference counted) } result:=(cs_opt_regvar in current_settings.optimizerswitches) and not(pi_has_assembler_block in current_procinfo.flags) and not(pi_uses_exceptions in current_procinfo.flags) and not(pi_has_interproclabel in current_procinfo.flags) and ((refpara and (varregable <> vr_none)) or (not refpara and not(varregable in [vr_none,vr_addr]))) {$if not defined(powerpc) and not defined(powerpc64)} and ((vardef.typ <> recorddef) or (varregable = vr_addr) or not(varstate in [vs_written,vs_readwritten])); {$endif} end; procedure tabstractvarsym.setvardef_and_regable(def:tdef); begin setvardef(def); setregable; end; procedure tabstractvarsym.setregable; begin { can we load the value into a register ? } if not assigned(owner) or (owner.symtabletype in [localsymtable, parasymtable]) or ( (owner.symtabletype=staticsymtable) and not(cs_create_pic in current_settings.moduleswitches) ) then begin if (tstoreddef(vardef).is_intregable and { we could keep all aint*2 records in registers, but this causes too much spilling for CPUs with 8-16 registers so keep only parameters and function results of this type in register because they are normally passed by register anyways This can be changed, as soon as we have full ssa (FK) } ((typ=paravarsym) or (vo_is_funcret in varoptions) or (tstoreddef(vardef).typ<>recorddef) or (tstoreddef(vardef).size<=sizeof(aint)))) or { const parameters can be put into registers if the def fits into a register } (tstoreddef(vardef).is_const_intregable and (typ=paravarsym) and (varspez=vs_const)) then varregable:=vr_intreg else if tstoreddef(vardef).is_fpuregable then begin if use_vectorfpu(vardef) then varregable:=vr_mmreg else varregable:=vr_fpureg; end; end; end; procedure tabstractvarsym.setvardef(const def: tdef); begin _vardef := def; end; {**************************************************************************** TFIELDVARSYM ****************************************************************************} constructor tfieldvarsym.create(const n : string;vsp:tvarspez;def:tdef;vopts:tvaroptions); begin inherited create(fieldvarsym,n,vsp,def,vopts); fieldoffset:=-1; end; constructor tfieldvarsym.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(fieldvarsym,ppufile); fieldoffset:=ppufile.getasizeint; if (vo_has_mangledname in varoptions) then externalname:=ppufile.getpshortstring else externalname:=nil; ppuload_platform(ppufile); end; procedure tfieldvarsym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); ppufile.putasizeint(fieldoffset); if (vo_has_mangledname in varoptions) then ppufile.putstring(externalname^); writeentry(ppufile,ibfieldvarsym); end; procedure tfieldvarsym.set_externalname(const s: string); begin internalerror(2014033001); end; function tfieldvarsym.mangledname:TSymStr; var srsym : tsym; srsymtable : tsymtable; begin if sp_static in symoptions then begin if searchsym(lower(owner.name^)+'_'+name,srsym,srsymtable) then result:=srsym.mangledname { when generating the debug info for the module in which the } { symbol is defined, the localsymtable of that module is } { already popped from the symtablestack } else if searchsym_in_module(current_module,lower(owner.name^)+'_'+name,srsym,srsymtable) then result:=srsym.mangledname else internalerror(2007012501); end else if is_objcclass(tdef(owner.defowner)) then begin {$ifdef symansistr} if cachedmangledname<>'' then result:=cachedmangledname {$else symansistr} if assigned(cachedmangledname) then result:=cachedmangledname^ {$endif symansistr} else begin result:=target_info.cprefix+'OBJC_IVAR_$_'+tobjectdef(owner.defowner).objextname^+'.'+RealName; {$ifdef symansistr} cachedmangledname:=result; {$else symansistr} cachedmangledname:=stringdup(result); {$endif symansistr} end; end else result:=inherited mangledname; end; destructor tfieldvarsym.destroy; begin {$ifndef symansistr} stringdispose(cachedmangledname); {$endif symansistr} stringdispose(externalname); inherited destroy; end; {**************************************************************************** TABSTRACTNORMALVARSYM ****************************************************************************} constructor tabstractnormalvarsym.create(st:tsymtyp;const n : string;vsp:tvarspez;def:tdef;vopts:tvaroptions); begin inherited create(st,n,vsp,def,vopts); fillchar(localloc,sizeof(localloc),0); fillchar(initialloc,sizeof(initialloc),0); defaultconstsym:=nil; defaultconstsymderef.reset; end; constructor tabstractnormalvarsym.ppuload(st:tsymtyp;ppufile:tcompilerppufile); begin inherited ppuload(st,ppufile); fillchar(localloc,sizeof(localloc),0); fillchar(initialloc,sizeof(initialloc),0); ppufile.getderef(defaultconstsymderef); end; function tabstractnormalvarsym.globalasmsym: boolean; begin result:= (owner.symtabletype=globalsymtable) or (create_smartlink and not(tf_smartlink_sections in target_info.flags)) or current_module.islibrary or (assigned(current_procinfo) and ((po_inline in current_procinfo.procdef.procoptions) or { globalasmsym is called normally before the body of a subroutine is parsed so we cannot know if it will be auto inlined, so make all symbols of it global if asked } (cs_opt_autoinline in current_settings.optimizerswitches)) ) or (vo_is_public in varoptions); end; procedure tabstractnormalvarsym.buildderef; begin inherited buildderef; defaultconstsymderef.build(defaultconstsym); end; procedure tabstractnormalvarsym.deref; begin inherited deref; defaultconstsym:=tsym(defaultconstsymderef.resolve); end; procedure tabstractnormalvarsym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); ppufile.putderef(defaultconstsymderef); end; {**************************************************************************** Tstaticvarsym ****************************************************************************} constructor tstaticvarsym.create(const n : string;vsp:tvarspez;def:tdef;vopts:tvaroptions); begin inherited create(staticvarsym,n,vsp,def,vopts); fieldvarsymderef.reset; {$ifdef symansistr} _mangledname:=''; {$else symansistr} _mangledname:=nil; {$endif symansistr} end; constructor tstaticvarsym.create_dll(const n : string;vsp:tvarspez;def:tdef); begin tstaticvarsym(self).create(n,vsp,def,[vo_is_dll_var]); end; constructor tstaticvarsym.create_C(const n: string; const mangled : TSymStr;vsp:tvarspez;def:tdef); begin tstaticvarsym(self).create(n,vsp,def,[]); set_mangledname(mangled); end; constructor tstaticvarsym.create_from_fieldvar(const n: string;fieldvar:tfieldvarsym); begin create(internal_static_field_name(n),fieldvar.varspez,fieldvar.vardef,[]); fieldvarsym:=fieldvar; end; constructor tstaticvarsym.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(staticvarsym,ppufile); {$ifdef symansistr} if vo_has_mangledname in varoptions then _mangledname:=ppufile.getansistring else _mangledname:=''; {$else symansistr} if vo_has_mangledname in varoptions then _mangledname:=ppufile.getpshortstring else _mangledname:=nil; {$endif symansistr} if vo_has_section in varoptions then section:=ppufile.getansistring; ppufile.getderef(fieldvarsymderef); ppuload_platform(ppufile); end; destructor tstaticvarsym.destroy; begin {$ifndef symansistr} if assigned(_mangledname) then begin {$ifdef MEMDEBUG} memmanglednames.start; {$endif MEMDEBUG} stringdispose(_mangledname); {$ifdef MEMDEBUG} memmanglednames.stop; {$endif MEMDEBUG} end; stringdispose(_mangledbasename); {$endif} inherited destroy; end; procedure tstaticvarsym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); { write mangledname rather than _mangledname in case the mangledname has not been calculated yet (can happen in case only the mangledbasename has been set) } if vo_has_mangledname in varoptions then {$ifdef symansistr} ppufile.putansistring(mangledname); {$else symansistr} ppufile.putstring(mangledname); {$endif symansistr} if vo_has_section in varoptions then ppufile.putansistring(section); ppufile.putderef(fieldvarsymderef); writeentry(ppufile,ibstaticvarsym); end; procedure tstaticvarsym.buildderef; begin inherited buildderef; fieldvarsymderef.build(fieldvarsym); end; procedure tstaticvarsym.deref; begin inherited deref; fieldvarsym:=tfieldvarsym(fieldvarsymderef.resolve); end; function tstaticvarsym.mangledname:TSymStr; var usename, prefix : TSymStr; begin {$ifdef symansistr} if _mangledname='' then {$else symansistr} if not assigned(_mangledname) then {$endif symansistr} begin if (vo_is_typed_const in varoptions) then prefix:='TC' else prefix:='U'; {$ifdef symansistr} if _mangledbasename='' then usename:=name else usename:=_mangledbasename; _mangledname:=make_mangledname(prefix,owner,usename); {$else symansistr} if not assigned(_mangledbasename) then usename:=name else usename:=_mangledbasename^; _mangledname:=stringdup(make_mangledname(prefix,owner,usename)); {$endif symansistr} end; {$ifdef symansistr} result:=_mangledname; {$else symansistr} result:=_mangledname^; {$endif symansistr} end; procedure tstaticvarsym.set_mangledbasename(const s: TSymStr); begin {$ifdef symansistr} _mangledbasename:=s; _mangledname:=''; {$else symansistr} stringdispose(_mangledname); stringdispose(_mangledbasename); _mangledbasename:=stringdup(s); {$endif symansistr} include(varoptions,vo_has_mangledname); end; function tstaticvarsym.mangledbasename: TSymStr; begin {$ifdef symansistr} result:=_mangledbasename; {$else symansistr} if assigned(_mangledbasename) then result:=_mangledbasename^ else result:=''; {$endif symansistr} end; procedure tstaticvarsym.set_mangledname(const s:TSymStr); begin {$ifdef symansistr} _mangledname:=s; {$else symansistr} stringdispose(_mangledname); _mangledname:=stringdup(s); {$endif symansistr} include(varoptions,vo_has_mangledname); end; procedure tstaticvarsym.set_raw_mangledname(const s: TSymStr); begin {$ifndef symansistr} stringdispose(_mangledname); _mangledname:=stringdup(s); {$else} _mangledname:=s; {$endif} include(varoptions,vo_has_mangledname); end; {**************************************************************************** TLOCALVARSYM ****************************************************************************} constructor tlocalvarsym.create(const n : string;vsp:tvarspez;def:tdef;vopts:tvaroptions); begin inherited create(localvarsym,n,vsp,def,vopts); end; constructor tlocalvarsym.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(localvarsym,ppufile); ppuload_platform(ppufile); end; procedure tlocalvarsym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); writeentry(ppufile,iblocalvarsym); end; {**************************************************************************** TPARAVARSYM ****************************************************************************} constructor tparavarsym.create(const n : string;nr:word;vsp:tvarspez;def:tdef;vopts:tvaroptions); begin inherited create(paravarsym,n,vsp,def,vopts); if (vsp in [vs_var,vs_value,vs_const,vs_constref]) and not(vo_is_funcret in vopts) then varstate := vs_initialised; paranr:=nr; paraloc[calleeside].init; paraloc[callerside].init; end; destructor tparavarsym.destroy; begin paraloc[calleeside].done; paraloc[callerside].done; inherited destroy; end; constructor tparavarsym.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(paravarsym,ppufile); paranr:=ppufile.getword; univpara:=ppufile.getboolean; { The var state of parameter symbols is fixed after writing them so we write them to the unit file. This enables constant folding for inline procedures loaded from units } varstate:=tvarstate(ppufile.getbyte); { read usage info } refs:=ppufile.getbyte; paraloc[calleeside].init; paraloc[callerside].init; if vo_has_explicit_paraloc in varoptions then paraloc[callerside].ppuload(ppufile); ppuload_platform(ppufile); end; procedure tparavarsym.ppuwrite(ppufile:tcompilerppufile); var oldintfcrc : boolean; begin inherited ppuwrite(ppufile); ppufile.putword(paranr); ppufile.putboolean(univpara); { The var state of parameter symbols is fixed after writing them so we write them to the unit file. This enables constant folding for inline procedures loaded from units } oldintfcrc:=ppufile.do_crc; ppufile.do_crc:=false; ppufile.putbyte(ord(varstate)); { write also info about the usage of parameters, the absolute usage does not matter } ppufile.putbyte(min(1,refs)); ppufile.do_crc:=oldintfcrc; if vo_has_explicit_paraloc in varoptions then begin paraloc[callerside].check_simple_location; paraloc[callerside].ppuwrite(ppufile); end; writeentry(ppufile,ibparavarsym); end; function tparavarsym.needs_finalization:boolean; begin result:=(varspez=vs_value) and (is_managed_type(vardef) or ( (not (tabstractprocdef(owner.defowner).proccalloption in cdecl_pocalls)) and (not paramanager.use_stackalloc) and (is_open_array(vardef) or is_array_of_const(vardef)) ) ); end; {**************************************************************************** TABSOLUTEVARSYM ****************************************************************************} constructor tabsolutevarsym.create(const n : string;def:tdef); begin inherited create(absolutevarsym,n,vs_value,def,[]); ref:=nil; end; constructor tabsolutevarsym.create_ref(const n : string;def:tdef;_ref:tpropaccesslist); begin inherited create(absolutevarsym,n,vs_value,def,[]); ref:=_ref; end; destructor tabsolutevarsym.destroy; begin if assigned(ref) then ref.free; inherited destroy; end; constructor tabsolutevarsym.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(absolutevarsym,ppufile); ref:=nil; asmname:=nil; abstyp:=absolutetyp(ppufile.getbyte); case abstyp of tovar : ref:=ppufile.getpropaccesslist; toasm : asmname:=ppufile.getpshortstring; toaddr : addroffset:=ppufile.getpuint; end; ppuload_platform(ppufile); end; procedure tabsolutevarsym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); ppufile.putbyte(byte(abstyp)); case abstyp of tovar : ppufile.putpropaccesslist(ref); toasm : ppufile.putstring(asmname^); toaddr : ppufile.putpuint(addroffset); end; writeentry(ppufile,ibabsolutevarsym); end; procedure tabsolutevarsym.buildderef; begin inherited buildderef; if (abstyp=tovar) then ref.buildderef; end; procedure tabsolutevarsym.deref; begin inherited deref; { own absolute deref } if (abstyp=tovar) then ref.resolve; end; function tabsolutevarsym.mangledname : TSymStr; begin case abstyp of toasm : mangledname:=asmname^; toaddr : mangledname:='$'+tostr(addroffset); else internalerror(200411062); end; end; {**************************************************************************** TCONSTSYM ****************************************************************************} constructor tconstsym.create_ord(const n : string;t : tconsttyp;v : tconstexprint;def:tdef); begin inherited create(constsym,n); fillchar(value, sizeof(value), #0); consttyp:=t; value.valueord:=v; constdef:=def; constdefderef.reset; end; constructor tconstsym.create_ordptr(const n : string;t : tconsttyp;v : tconstptruint;def:tdef); begin inherited create(constsym,n); fillchar(value, sizeof(value), #0); consttyp:=t; value.valueordptr:=v; constdef:=def; constdefderef.reset; end; constructor tconstsym.create_ptr(const n : string;t : tconsttyp;v : pointer;def:tdef); begin inherited create(constsym,n); fillchar(value, sizeof(value), #0); consttyp:=t; value.valueptr:=v; constdef:=def; constdefderef.reset; end; constructor tconstsym.create_string(const n : string;t : tconsttyp;str:pchar;l:longint;def: tdef); begin inherited create(constsym,n); fillchar(value, sizeof(value), #0); consttyp:=t; value.valueptr:=str; if assigned(def) then constdef:=def else constdef:=carraydef.getreusable(cansichartype,l); constdefderef.reset; value.len:=l; end; constructor tconstsym.create_wstring(const n : string;t : tconsttyp;pw:pcompilerwidestring); begin inherited create(constsym,n); fillchar(value, sizeof(value), #0); consttyp:=t; pcompilerwidestring(value.valueptr):=pw; constdef:=carraydef.getreusable(cwidechartype,getlengthwidestring(pw)); constdefderef.reset; value.len:=getlengthwidestring(pw); end; constructor tconstsym.ppuload(ppufile:tcompilerppufile); var pd : pbestreal; ps : pnormalset; pc : pchar; pw : pcompilerwidestring; i : longint; begin inherited ppuload(constsym,ppufile); constdef:=nil; consttyp:=tconsttyp(ppufile.getbyte); fillchar(value, sizeof(value), #0); case consttyp of constord : begin ppufile.getderef(constdefderef); value.valueord:=ppufile.getexprint; end; constpointer : begin ppufile.getderef(constdefderef); value.valueordptr:=ppufile.getptruint; end; constwstring : begin initwidestring(pw); setlengthwidestring(pw,ppufile.getlongint); { don't use getdata, because the compilerwidechars may have to be byteswapped } {$if sizeof(tcompilerwidechar) = 2} for i:=0 to pw^.len-1 do pw^.data[i]:=ppufile.getword; {$elseif sizeof(tcompilerwidechar) = 4} for i:=0 to pw^.len-1 do pw^.data[i]:=cardinal(ppufile.getlongint); {$else} {$error Unsupported tcompilerwidechar size} {$endif} pcompilerwidestring(value.valueptr):=pw; end; conststring, constresourcestring : begin ppufile.getderef(constdefderef); value.len:=ppufile.getlongint; getmem(pc,value.len+1); ppufile.getdata(pc^,value.len); pc[value.len]:=#0; value.valueptr:=pc; end; constreal : begin ppufile.getderef(constdefderef); new(pd); pd^:=ppufile.getreal; value.valueptr:=pd; end; constset : begin ppufile.getderef(constdefderef); new(ps); ppufile.getnormalset(ps^); value.valueptr:=ps; end; constguid : begin ppufile.getderef(constdefderef); new(pguid(value.valueptr)); ppufile.getdata(value.valueptr^,sizeof(tguid)); end; constnil : ppufile.getderef(constdefderef); else Message1(unit_f_ppu_invalid_entry,tostr(ord(consttyp))); end; ppuload_platform(ppufile); end; destructor tconstsym.destroy; begin case consttyp of conststring, constresourcestring : freemem(pchar(value.valueptr),value.len+1); constwstring : donewidestring(pcompilerwidestring(value.valueptr)); constreal : dispose(pbestreal(value.valueptr)); constset : dispose(pnormalset(value.valueptr)); constguid : dispose(pguid(value.valueptr)); end; inherited destroy; end; procedure tconstsym.buildderef; begin inherited; case consttyp of constnil,constord,constreal,constpointer,constset,conststring,constresourcestring,constguid: constdefderef.build(constdef); constwstring: ; else internalerror(2015120802); end; end; procedure tconstsym.deref; begin case consttyp of constnil,constord,constreal,constpointer,constset,conststring,constresourcestring,constguid: constdef:=tdef(constdefderef.resolve); constwstring: constdef:=carraydef.getreusable(cwidechartype,getlengthwidestring(pcompilerwidestring(value.valueptr))); else internalerror(2015120801); end end; procedure tconstsym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); ppufile.putbyte(byte(consttyp)); case consttyp of constnil : ppufile.putderef(constdefderef); constord : begin ppufile.putderef(constdefderef); ppufile.putexprint(value.valueord); end; constpointer : begin ppufile.putderef(constdefderef); ppufile.putptruint(value.valueordptr); end; constwstring : begin { no need to store the def, we can reconstruct it } ppufile.putlongint(getlengthwidestring(pcompilerwidestring(value.valueptr))); ppufile.putdata(pcompilerwidestring(value.valueptr)^.data^,pcompilerwidestring(value.valueptr)^.len*sizeof(tcompilerwidechar)); end; conststring, constresourcestring : begin ppufile.putderef(constdefderef); ppufile.putlongint(value.len); ppufile.putdata(pchar(value.valueptr)^,value.len); end; constreal : begin ppufile.putderef(constdefderef); ppufile.putreal(pbestreal(value.valueptr)^); end; constset : begin ppufile.putderef(constdefderef); ppufile.putnormalset(value.valueptr^); end; constguid : begin ppufile.putderef(constdefderef); ppufile.putdata(value.valueptr^,sizeof(tguid)); end; else internalerror(13); end; writeentry(ppufile,ibconstsym); end; {**************************************************************************** TENUMSYM ****************************************************************************} constructor tenumsym.create(const n : string;def : tenumdef;v : longint); begin inherited create(enumsym,n); definition:=def; definitionderef.reset; value:=v; end; constructor tenumsym.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(enumsym,ppufile); ppufile.getderef(definitionderef); value:=ppufile.getlongint; ppuload_platform(ppufile); end; procedure tenumsym.buildderef; begin inherited; definitionderef.build(definition); end; procedure tenumsym.deref; begin definition:=tenumdef(definitionderef.resolve); end; procedure tenumsym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); ppufile.putderef(definitionderef); ppufile.putlongint(value); writeentry(ppufile,ibenumsym); end; {**************************************************************************** TTYPESYM ****************************************************************************} constructor ttypesym.create(const n : string;def:tdef); begin inherited create(typesym,n); typedef:=def; typedefderef.reset; { register the typesym for the definition } if assigned(typedef) and (typedef.typ<>errordef) and not(assigned(typedef.typesym)) then typedef.typesym:=self; end; destructor ttypesym.destroy; begin inherited destroy; end; constructor ttypesym.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(typesym,ppufile); ppufile.getderef(typedefderef); fprettyname:=ppufile.getansistring; ppuload_platform(ppufile); end; procedure ttypesym.buildderef; begin inherited; typedefderef.build(typedef); end; procedure ttypesym.deref; begin typedef:=tdef(typedefderef.resolve); end; procedure ttypesym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); ppufile.putderef(typedefderef); ppufile.putansistring(fprettyname); writeentry(ppufile,ibtypesym); end; function ttypesym.prettyname : string; begin if fprettyname<>'' then result:=fprettyname else result:=inherited prettyname; end; {**************************************************************************** TSYSSYM ****************************************************************************} var syssym_list : TFPHashObjectList; constructor tsyssym.create(const n : string;l : tinlinenumber); var s : shortstring; begin inherited create(syssym,n); number:=l; str(longint(l),s); if assigned(syssym_list.find(s)) then internalerror(2016060303); syssym_list.add(s,self); end; constructor tsyssym.ppuload(ppufile:tcompilerppufile); var s : shortstring; begin inherited ppuload(syssym,ppufile); number:=tinlinenumber(ppufile.getlongint); ppuload_platform(ppufile); str(longint(number),s); if assigned(syssym_list.find(s)) then internalerror(2016060304); syssym_list.add(s,self); end; destructor tsyssym.destroy; begin inherited destroy; end; procedure tsyssym.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); ppufile.putlongint(longint(number)); writeentry(ppufile,ibsyssym); end; class function tsyssym.find_by_number(l:longint):tsyssym; var s : shortstring; begin str(l,s); result:=tsyssym(syssym_list.find(s)); end; {***************************************************************************** TMacro *****************************************************************************} constructor tmacro.create(const n : string); begin inherited create(macrosym,n); owner:=nil; defined:=false; is_used:=false; is_compiler_var:=false; buftext:=nil; buflen:=0; end; constructor tmacro.ppuload(ppufile:tcompilerppufile); begin inherited ppuload(macrosym,ppufile); defined:=ppufile.getboolean; is_compiler_var:=ppufile.getboolean; is_used:=false; buflen:= ppufile.getlongint; if buflen > 0 then begin getmem(buftext, buflen); ppufile.getdata(buftext^, buflen) end else buftext:=nil; end; destructor tmacro.destroy; begin if assigned(buftext) then freemem(buftext); inherited destroy; end; procedure tmacro.ppuwrite(ppufile:tcompilerppufile); begin inherited ppuwrite(ppufile); ppufile.putboolean(defined); ppufile.putboolean(is_compiler_var); ppufile.putlongint(buflen); if buflen > 0 then ppufile.putdata(buftext^,buflen); writeentry(ppufile,ibmacrosym); end; function tmacro.GetCopy:tmacro; var p : tmacro; begin p:=tmacro.create(realname); p.defined:=defined; p.is_used:=is_used; p.is_compiler_var:=is_compiler_var; p.buflen:=buflen; if assigned(buftext) then begin getmem(p.buftext,buflen); move(buftext^,p.buftext^,buflen); end; Result:=p; end; procedure init_symsym; begin syssym_list:=tfphashobjectlist.create(false); end; procedure done_symsym; begin syssym_list.free; end; initialization register_initdone_proc(@init_symsym,@done_symsym); end.