{ Copyright (c) 1998-2008 by Florian Klaempfl Handles the parsing and loading of the modules (ppufiles) 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 pmodules; {$i fpcdefs.inc} interface procedure proc_unit; procedure proc_package; procedure proc_program(islibrary : boolean); implementation uses SysUtils, globtype,version,systems,tokens, cutils,cfileutl,cclasses,comphook, globals,verbose,fmodule,finput,fppu, symconst,symbase,symtype,symdef,symsym,symtable, wpoinfo, aasmtai,aasmdata,aasmcpu,aasmbase, cgbase,cgobj, nbas,ncgutil, link,assemble,import,export,gendef,ppu,comprsrc,dbgbase, cresstr,procinfo, pexports, objcgutl, wpobase, scanner,pbase,pexpr,psystem,psub,pdecsub,ptype ,cpuinfo {$ifdef i386} { fix me! } ,cpubase {$endif i386} ; procedure create_objectfile; var DLLScanner : TDLLScanner; s : string; KeepShared : TCmdStrList; begin { try to create import entries from system dlls } if (tf_has_dllscanner in target_info.flags) and (not current_module.linkOtherSharedLibs.Empty) then begin { Init DLLScanner } if assigned(CDLLScanner[target_info.system]) then DLLScanner:=CDLLScanner[target_info.system].Create else internalerror(200104121); KeepShared:=TCmdStrList.Create; { Walk all shared libs } While not current_module.linkOtherSharedLibs.Empty do begin S:=current_module.linkOtherSharedLibs.Getusemask(link_always); if not DLLScanner.scan(s) then KeepShared.Concat(s); end; DLLscanner.Free; { Recreate import section } if (target_info.system in [system_i386_win32,system_i386_wdosx]) then begin if assigned(current_asmdata.asmlists[al_imports]) then current_asmdata.asmlists[al_imports].clear else current_asmdata.asmlists[al_imports]:=TAsmList.Create; importlib.generatelib; end; { Readd the not processed files } while not KeepShared.Empty do begin s:=KeepShared.GetFirst; current_module.linkOtherSharedLibs.add(s,link_always); end; KeepShared.Free; end; { Start and end module debuginfo, at least required for stabs to insert n_sourcefile lines } if (cs_debuginfo in current_settings.moduleswitches) or (cs_use_lineinfo in current_settings.globalswitches) then current_debuginfo.insertmoduleinfo; { create the .s file and assemble it } GenerateAsm(false); { Also create a smartlinked version ? } if create_smartlink_library then begin GenerateAsm(true); if (af_needar in target_asm.flags) then Linker.MakeStaticLibrary; end; { resource files } CompileResourceFiles; end; procedure insertobjectfile; { Insert the used object file for this unit in the used list for this unit } begin current_module.linkunitofiles.add(current_module.objfilename^,link_static); current_module.flags:=current_module.flags or uf_static_linked; if create_smartlink_library then begin current_module.linkunitstaticlibs.add(current_module.staticlibfilename^,link_smart); current_module.flags:=current_module.flags or uf_smart_linked; end; end; procedure create_dwarf_frame; begin { Dwarf conflicts with smartlinking in separate .a files } if create_smartlink_library then exit; { Call frame information } { MWE: we write our own info, so dwarf asm support is not really needed } { if (af_supports_dwarf in target_asm.flags) and } { CFI is currently broken for Darwin } if not(target_info.system in systems_darwin) and ( (tf_needs_dwarf_cfi in target_info.flags) or (paratargetdbg in [dbg_dwarf2, dbg_dwarf3]) ) then begin current_asmdata.asmlists[al_dwarf_frame].Free; current_asmdata.asmlists[al_dwarf_frame] := TAsmList.create; current_asmdata.asmcfi.generate_code(current_asmdata.asmlists[al_dwarf_frame]); end; end; procedure InsertThreadvarTablesTable; var hp : tused_unit; ltvTables : TAsmList; count : longint; begin if (tf_section_threadvars in target_info.flags) then exit; ltvTables:=TAsmList.Create; count:=0; hp:=tused_unit(usedunits.first); while assigned(hp) do begin If (hp.u.flags and uf_threadvars)=uf_threadvars then begin ltvTables.concat(Tai_const.Createname(make_mangledname('THREADVARLIST',hp.u.globalsymtable,''),0)); inc(count); end; hp:=tused_unit(hp.next); end; { Add program threadvars, if any } If (current_module.flags and uf_threadvars)=uf_threadvars then begin ltvTables.concat(Tai_const.Createname(make_mangledname('THREADVARLIST',current_module.localsymtable,''),0)); inc(count); end; { Insert TableCount at start } ltvTables.insert(Tai_const.Create_32bit(count)); { insert in data segment } maybe_new_object_file(current_asmdata.asmlists[al_globals]); new_section(current_asmdata.asmlists[al_globals],sec_data,'FPC_THREADVARTABLES',sizeof(pint)); current_asmdata.asmlists[al_globals].concat(Tai_symbol.Createname_global('FPC_THREADVARTABLES',AT_DATA,0)); current_asmdata.asmlists[al_globals].concatlist(ltvTables); current_asmdata.asmlists[al_globals].concat(Tai_symbol_end.Createname('FPC_THREADVARTABLES')); ltvTables.free; end; procedure AddToThreadvarList(p:TObject;arg:pointer); var ltvTable : TAsmList; begin ltvTable:=TAsmList(arg); if (tsym(p).typ=staticvarsym) and (vo_is_thread_var in tstaticvarsym(p).varoptions) then begin { address of threadvar } ltvTable.concat(tai_const.Createname(tstaticvarsym(p).mangledname,0)); { size of threadvar } ltvTable.concat(tai_const.create_32bit(tstaticvarsym(p).getsize)); end; end; procedure InsertThreadvars; var s : string; ltvTable : TAsmList; begin if (tf_section_threadvars in target_info.flags) then exit; ltvTable:=TAsmList.create; if assigned(current_module.globalsymtable) then current_module.globalsymtable.SymList.ForEachCall(@AddToThreadvarList,ltvTable); current_module.localsymtable.SymList.ForEachCall(@AddToThreadvarList,ltvTable); if ltvTable.first<>nil then begin s:=make_mangledname('THREADVARLIST',current_module.localsymtable,''); { end of the list marker } ltvTable.concat(tai_const.create_sym(nil)); { add to datasegment } maybe_new_object_file(current_asmdata.asmlists[al_globals]); new_section(current_asmdata.asmlists[al_globals],sec_data,s,sizeof(pint)); current_asmdata.asmlists[al_globals].concat(Tai_symbol.Createname_global(s,AT_DATA,0)); current_asmdata.asmlists[al_globals].concatlist(ltvTable); current_asmdata.asmlists[al_globals].concat(Tai_symbol_end.Createname(s)); current_module.flags:=current_module.flags or uf_threadvars; end; ltvTable.Free; end; procedure InsertWideInits; var s: string; item: TTCInitItem; begin item:=TTCInitItem(current_asmdata.WideInits.First); if item=nil then exit; s:=make_mangledname('WIDEINITS',current_module.localsymtable,''); maybe_new_object_file(current_asmdata.asmlists[al_globals]); new_section(current_asmdata.asmlists[al_globals],sec_data,s,sizeof(pint)); current_asmdata.asmlists[al_globals].concat(Tai_symbol.Createname_global(s,AT_DATA,0)); repeat { address to initialize } current_asmdata.asmlists[al_globals].concat(Tai_const.createname(item.sym.mangledname, item.offset)); { value with which to initialize } current_asmdata.asmlists[al_globals].concat(Tai_const.Create_sym(item.datalabel)); item:=TTCInitItem(item.Next); until item=nil; { end-of-list marker } current_asmdata.asmlists[al_globals].concat(Tai_const.Create_sym(nil)); current_asmdata.asmlists[al_globals].concat(Tai_symbol_end.Createname(s)); current_module.flags:=current_module.flags or uf_wideinits; end; procedure InsertWideInitsTablesTable; var hp: tused_unit; lwiTables: TAsmList; count: longint; begin lwiTables:=TAsmList.Create; count:=0; hp:=tused_unit(usedunits.first); while assigned(hp) do begin if (hp.u.flags and uf_wideinits)=uf_wideinits then begin lwiTables.concat(Tai_const.Createname(make_mangledname('WIDEINITS',hp.u.globalsymtable,''),0)); inc(count); end; hp:=tused_unit(hp.next); end; { Add program widestring consts, if any } if (current_module.flags and uf_wideinits)=uf_wideinits then begin lwiTables.concat(Tai_const.Createname(make_mangledname('WIDEINITS',current_module.localsymtable,''),0)); inc(count); end; { Insert TableCount at start } lwiTables.insert(Tai_const.Create_32bit(count)); { insert in data segment } maybe_new_object_file(current_asmdata.asmlists[al_globals]); new_section(current_asmdata.asmlists[al_globals],sec_data,'FPC_WIDEINITTABLES',sizeof(pint)); current_asmdata.asmlists[al_globals].concat(Tai_symbol.Createname_global('FPC_WIDEINITTABLES',AT_DATA,0)); current_asmdata.asmlists[al_globals].concatlist(lwiTables); current_asmdata.asmlists[al_globals].concat(Tai_symbol_end.Createname('FPC_WIDEINITTABLES')); lwiTables.free; end; Function CheckResourcesUsed : boolean; var hp : tused_unit; found : Boolean; begin CheckResourcesUsed:=tf_has_winlike_resources in target_info.flags; if not CheckResourcesUsed then exit; hp:=tused_unit(usedunits.first); found:=((current_module.flags and uf_has_resourcefiles)=uf_has_resourcefiles); If not found then While Assigned(hp) and not found do begin Found:=((hp.u.flags and uf_has_resourcefiles)=uf_has_resourcefiles); hp:=tused_unit(hp.next); end; CheckResourcesUsed:=found; end; Procedure InsertResourceInfo(ResourcesUsed : boolean); var ResourceInfo : TAsmList; begin if (target_res.id in [res_elf,res_macho]) then begin ResourceInfo:=TAsmList.Create; maybe_new_object_file(ResourceInfo); new_section(ResourceInfo,sec_data,'FPC_RESLOCATION',sizeof(aint)); ResourceInfo.concat(Tai_symbol.Createname_global('FPC_RESLOCATION',AT_DATA,0)); if ResourcesUsed then { Valid pointer to resource information } ResourceInfo.concat(Tai_const.Createname('FPC_RESSYMBOL',0)) else { Nil pointer to resource information } {$IFDEF CPU32} ResourceInfo.Concat(Tai_const.Create_32bit(0)); {$ELSE} ResourceInfo.Concat(Tai_const.Create_64bit(0)); {$ENDIF} maybe_new_object_file(current_asmdata.asmlists[al_globals]); current_asmdata.asmlists[al_globals].concatlist(ResourceInfo); ResourceInfo.free; end; end; Procedure InsertResourceTablesTable; var hp : tmodule; ResourceStringTables : tasmlist; count : longint; begin ResourceStringTables:=tasmlist.Create; count:=0; hp:=tmodule(loaded_units.first); while assigned(hp) do begin If (hp.flags and uf_has_resourcestrings)=uf_has_resourcestrings then begin ResourceStringTables.concat(Tai_const.Createname(make_mangledname('RESSTR',hp.localsymtable,'START'),0)); ResourceStringTables.concat(Tai_const.Createname(make_mangledname('RESSTR',hp.localsymtable,'END'),0)); inc(count); end; hp:=tmodule(hp.next); end; { Insert TableCount at start } ResourceStringTables.insert(Tai_const.Create_pint(count)); { Add to data segment } maybe_new_object_file(current_asmdata.AsmLists[al_globals]); new_section(current_asmdata.AsmLists[al_globals],sec_data,'FPC_RESOURCESTRINGTABLES',sizeof(pint)); current_asmdata.AsmLists[al_globals].concat(Tai_symbol.Createname_global('FPC_RESOURCESTRINGTABLES',AT_DATA,0)); current_asmdata.AsmLists[al_globals].concatlist(ResourceStringTables); current_asmdata.AsmLists[al_globals].concat(Tai_symbol_end.Createname('FPC_RESOURCESTRINGTABLES')); ResourceStringTables.free; end; procedure AddToStructInits(p:TObject;arg:pointer); var StructList: TFPList absolute arg; begin if (tdef(p).typ in [objectdef,recorddef]) and ([oo_has_class_constructor,oo_has_class_destructor] * tabstractrecorddef(p).objectoptions <> []) then StructList.Add(p); end; procedure InsertInitFinalTable; var hp : tused_unit; unitinits : TAsmList; count : longint; procedure write_struct_inits(u: tmodule); var i: integer; structlist: TFPList; pd: tprocdef; begin structlist := TFPList.Create; if assigned(u.globalsymtable) then u.globalsymtable.DefList.ForEachCall(@AddToStructInits,structlist); u.localsymtable.DefList.ForEachCall(@AddToStructInits,structlist); { write structures } for i := 0 to structlist.Count - 1 do begin pd := tabstractrecorddef(structlist[i]).find_procdef_bytype(potype_class_constructor); if assigned(pd) then unitinits.concat(Tai_const.Createname(pd.mangledname,0)) else unitinits.concat(Tai_const.Create_pint(0)); pd := tabstractrecorddef(structlist[i]).find_procdef_bytype(potype_class_destructor); if assigned(pd) then unitinits.concat(Tai_const.Createname(pd.mangledname,0)) else unitinits.concat(Tai_const.Create_pint(0)); inc(count); end; structlist.free; end; begin unitinits:=TAsmList.Create; count:=0; hp:=tused_unit(usedunits.first); while assigned(hp) do begin { insert class constructors/destructors of the unit } if (hp.u.flags and uf_classinits) <> 0 then write_struct_inits(hp.u); { call the unit init code and make it external } if (hp.u.flags and (uf_init or uf_finalize))<>0 then begin if (hp.u.flags and uf_init)<>0 then unitinits.concat(Tai_const.Createname(make_mangledname('INIT$',hp.u.globalsymtable,''),0)) else unitinits.concat(Tai_const.Create_sym(nil)); if (hp.u.flags and uf_finalize)<>0 then unitinits.concat(Tai_const.Createname(make_mangledname('FINALIZE$',hp.u.globalsymtable,''),0)) else unitinits.concat(Tai_const.Create_sym(nil)); inc(count); end; hp:=tused_unit(hp.next); end; { insert class constructors/destructor of the program } if (current_module.flags and uf_classinits) <> 0 then write_struct_inits(current_module); { Insert initialization/finalization of the program } if (current_module.flags and (uf_init or uf_finalize))<>0 then begin if (current_module.flags and uf_init)<>0 then unitinits.concat(Tai_const.Createname(make_mangledname('INIT$',current_module.localsymtable,''),0)) else unitinits.concat(Tai_const.Create_sym(nil)); if (current_module.flags and uf_finalize)<>0 then unitinits.concat(Tai_const.Createname(make_mangledname('FINALIZE$',current_module.localsymtable,''),0)) else unitinits.concat(Tai_const.Create_sym(nil)); inc(count); end; { Insert TableCount,InitCount at start } unitinits.insert(Tai_const.Create_32bit(0)); unitinits.insert(Tai_const.Create_32bit(count)); { Add to data segment } maybe_new_object_file(current_asmdata.asmlists[al_globals]); new_section(current_asmdata.asmlists[al_globals],sec_data,'INITFINAL',sizeof(pint)); current_asmdata.asmlists[al_globals].concat(Tai_symbol.Createname_global('INITFINAL',AT_DATA,0)); current_asmdata.asmlists[al_globals].concatlist(unitinits); current_asmdata.asmlists[al_globals].concat(Tai_symbol_end.Createname('INITFINAL')); unitinits.free; end; procedure InsertMemorySizes; {$IFDEF POWERPC} var stkcookie: string; {$ENDIF POWERPC} begin maybe_new_object_file(current_asmdata.asmlists[al_globals]); { Insert Ident of the compiler in the .fpc.version section } new_section(current_asmdata.asmlists[al_globals],sec_fpc,'version',const_align(32)); current_asmdata.asmlists[al_globals].concat(Tai_string.Create('FPC '+full_version_string+ ' ['+date_string+'] for '+target_cpu_string+' - '+target_info.shortname)); if not(tf_no_generic_stackcheck in target_info.flags) then begin { stacksize can be specified and is now simulated } new_section(current_asmdata.asmlists[al_globals],sec_data,'__stklen', sizeof(pint)); current_asmdata.asmlists[al_globals].concat(Tai_symbol.Createname_global('__stklen',AT_DATA,sizeof(pint))); current_asmdata.asmlists[al_globals].concat(Tai_const.Create_pint(stacksize)); end; {$IFDEF POWERPC} { AmigaOS4 "stack cookie" support } if ( target_info.system = system_powerpc_amiga ) then begin { this symbol is needed to ignite powerpc amigaos' } { stack allocation magic for us with the given stack size. } { note: won't work for m68k amigaos or morphos. (KB) } str(stacksize,stkcookie); stkcookie:='$STACK: '+stkcookie+#0; maybe_new_object_file(current_asmdata.asmlists[al_globals]); new_section(current_asmdata.asmlists[al_globals],sec_data,'__stack_cookie',length(stkcookie)); current_asmdata.asmlists[al_globals].concat(Tai_symbol.Createname_global('__stack_cookie',AT_DATA,length(stkcookie))); current_asmdata.asmlists[al_globals].concat(Tai_string.Create(stkcookie)); end; {$ENDIF POWERPC} { Initial heapsize } maybe_new_object_file(current_asmdata.asmlists[al_globals]); new_section(current_asmdata.asmlists[al_globals],sec_data,'__heapsize',sizeof(pint)); current_asmdata.asmlists[al_globals].concat(Tai_symbol.Createname_global('__heapsize',AT_DATA,sizeof(pint))); current_asmdata.asmlists[al_globals].concat(Tai_const.Create_pint(heapsize)); { Initial heapsize } maybe_new_object_file(current_asmdata.asmlists[al_globals]); new_section(current_asmdata.asmlists[al_globals],sec_data,'__fpc_valgrind',sizeof(boolean)); current_asmdata.asmlists[al_globals].concat(Tai_symbol.Createname_global('__fpc_valgrind',AT_DATA,sizeof(boolean))); current_asmdata.asmlists[al_globals].concat(Tai_const.create_8bit(byte(cs_gdb_valgrind in current_settings.globalswitches))); end; procedure AddUnit(const s:string); var hp : tppumodule; unitsym : tunitsym; begin { load unit } hp:=registerunit(current_module,s,''); hp.loadppu; hp.adddependency(current_module); { add to symtable stack } symtablestack.push(hp.globalsymtable); if (m_mac in current_settings.modeswitches) and assigned(hp.globalmacrosymtable) then macrosymtablestack.push(hp.globalmacrosymtable); { insert unitsym } unitsym:=tunitsym.create(s,hp); inc(unitsym.refs); current_module.localsymtable.insert(unitsym); { add to used units } current_module.addusedunit(hp,false,unitsym); end; procedure maybeloadvariantsunit; var hp : tmodule; begin { Do we need the variants unit? Skip this for VarUtils unit for bootstrapping } if (current_module.flags and uf_uses_variants=0) or (current_module.modulename^='VARUTILS') then exit; { Variants unit already loaded? } hp:=tmodule(loaded_units.first); while assigned(hp) do begin if hp.modulename^='VARIANTS' then exit; hp:=tmodule(hp.next); end; { Variants unit is not loaded yet, load it now } Message(parser_w_implicit_uses_of_variants_unit); AddUnit('variants'); end; function MaybeRemoveResUnit : boolean; var resources_used : boolean; hp : tmodule; uu : tused_unit; unitname : shortstring; begin { We simply remove the unit from: - usedunit list, so that things like init/finalization table won't contain references to this unit - loaded_units list, so that the unit object file doesn't get linked with the executable. } { Note: on windows we always need resources! } resources_used:=(target_info.system in systems_all_windows) or CheckResourcesUsed; if (not resources_used) and (tf_has_winlike_resources in target_info.flags) then begin { resources aren't used, so we don't need this unit } if target_res.id=res_ext then unitname:='FPEXTRES' else unitname:='FPINTRES'; Message1(unit_u_unload_resunit,unitname); { find the module } hp:=tmodule(loaded_units.first); while assigned(hp) do begin if hp.is_unit and (hp.modulename^=unitname) then break; hp:=tmodule(hp.next); end; if not assigned(hp) then internalerror(200801071); { find its tused_unit in the global list } uu:=tused_unit(usedunits.first); while assigned(uu) do begin if uu.u=hp then break; uu:=tused_unit(uu.next); end; if not assigned(uu) then internalerror(200801072); { remove the tused_unit } usedunits.Remove(uu); uu.Free; { remove the module } loaded_units.Remove(hp); unloaded_units.Concat(hp); end; MaybeRemoveResUnit:=resources_used; end; procedure loaddefaultunits; begin { we are going to rebuild the symtablestack, clear it first } symtablestack.clear; macrosymtablestack.clear; { macro symtable } macrosymtablestack.push(initialmacrosymtable); { are we compiling the system unit? } if (cs_compilesystem in current_settings.moduleswitches) then begin systemunit:=tglobalsymtable(current_module.localsymtable); { create system defines } create_intern_symbols; create_intern_types; { Set the owner of errorsym and errortype to symtable to prevent crashes when accessing .owner } generrorsym.owner:=systemunit; generrordef.owner:=systemunit; exit; end; { insert the system unit, it is allways the first. Load also the internal types from the system unit } AddUnit('system'); systemunit:=tglobalsymtable(symtablestack.top); load_intern_types; { Set the owner of errorsym and errortype to symtable to prevent crashes when accessing .owner } generrorsym.owner:=systemunit; generrordef.owner:=systemunit; { Units only required for main module } if not(current_module.is_unit) then begin { Heaptrc unit, load heaptrace before any other units especially objpas } if (cs_use_heaptrc in current_settings.globalswitches) then AddUnit('heaptrc'); { Lineinfo unit } if (cs_use_lineinfo in current_settings.globalswitches) then begin if (paratargetdbg = dbg_stabs) then AddUnit('lineinfo') else AddUnit('lnfodwrf'); end; { Valgrind requires c memory manager } if (cs_gdb_valgrind in current_settings.globalswitches) then AddUnit('cmem'); {$ifdef cpufpemu} { Floating point emulation unit? softfpu must be in the system unit anyways (FK) if (cs_fp_emulation in current_settings.moduleswitches) and not(target_info.system in system_wince) then AddUnit('softfpu'); } {$endif cpufpemu} { Which kind of resource support? Note: if resources aren't used this unit will be removed later, otherwise we need it here since it must be loaded quite early } if (tf_has_winlike_resources in target_info.flags) then if target_res.id=res_ext then AddUnit('fpextres') else AddUnit('fpintres'); end; { Objpas unit? } if m_objpas in current_settings.modeswitches then AddUnit('objpas'); { Macpas unit? } if m_mac in current_settings.modeswitches then AddUnit('macpas'); if m_iso in current_settings.modeswitches then AddUnit('iso7185'); { Objective-C support unit? } if (m_objectivec1 in current_settings.modeswitches) then begin { interface to Objective-C run time } AddUnit('objc'); loadobjctypes; { NSObject } if not(current_module.is_unit) or (current_module.modulename^<>'OBJCBASE') then AddUnit('objcbase'); end; { Profile unit? Needed for go32v2 only } if (cs_profile in current_settings.moduleswitches) and (target_info.system in [system_i386_go32v2,system_i386_watcom]) then AddUnit('profile'); if (cs_load_fpcylix_unit in current_settings.globalswitches) then begin AddUnit('fpcylix'); AddUnit('dynlibs'); end; { CPU targets with microcontroller support can add a controller specific unit } {$if defined(ARM)} if (target_info.system in systems_embedded) and (current_settings.controllertype<>ct_none) then AddUnit(controllerunitstr[current_settings.controllertype]); {$endif ARM} end; procedure loadautounits; var hs,s : string; begin hs:=autoloadunits; repeat s:=GetToken(hs,','); if s='' then break; AddUnit(s); until false; end; procedure loadunits; var s,sorg : TIDString; fn : string; pu : tused_unit; hp2 : tmodule; unitsym : tunitsym; begin consume(_USES); repeat s:=pattern; sorg:=orgpattern; consume(_ID); { support " in ''" construct, but not for tp7 } fn:=''; if not(m_tp7 in current_settings.modeswitches) and try_to_consume(_OP_IN) then fn:=FixFileName(get_stringconst); { Give a warning if lineinfo is loaded } if s='LINEINFO' then begin Message(parser_w_no_lineinfo_use_switch); if (paratargetdbg in [dbg_dwarf2, dbg_dwarf3]) then s := 'LNFODWRF'; sorg := s; end; { Give a warning if objpas is loaded } if s='OBJPAS' then Message(parser_w_no_objpas_use_mode); { Using the unit itself is not possible } if (s<>current_module.modulename^) then begin { check if the unit is already used } hp2:=nil; pu:=tused_unit(current_module.used_units.first); while assigned(pu) do begin if (pu.u.modulename^=s) then begin hp2:=pu.u; break; end; pu:=tused_unit(pu.next); end; if not assigned(hp2) then hp2:=registerunit(current_module,sorg,fn) else Message1(sym_e_duplicate_id,s); { Create unitsym, we need to use the name as specified, we can not use the modulename because that can be different when -Un is used } unitsym:=tunitsym.create(sorg,nil); current_module.localsymtable.insert(unitsym); { the current module uses the unit hp2 } current_module.addusedunit(hp2,true,unitsym); end else Message1(sym_e_duplicate_id,s); if token=_COMMA then begin pattern:=''; consume(_COMMA); end else break; until false; { Load the units } pu:=tused_unit(current_module.used_units.first); while assigned(pu) do begin { Only load the units that are in the current (interface/implementation) uses clause } if pu.in_uses and (pu.in_interface=current_module.in_interface) then begin tppumodule(pu.u).loadppu; { is our module compiled? then we can stop } if current_module.state=ms_compiled then exit; { add this unit to the dependencies } pu.u.adddependency(current_module); { save crc values } pu.checksum:=pu.u.crc; pu.interface_checksum:=pu.u.interface_crc; pu.indirect_checksum:=pu.u.indirect_crc; { connect unitsym to the module } pu.unitsym.module:=pu.u; { add to symtable stack } symtablestack.push(pu.u.globalsymtable); if (m_mac in current_settings.modeswitches) and assigned(pu.u.globalmacrosymtable) then macrosymtablestack.push(pu.u.globalmacrosymtable); { check hints } pu.u.check_hints; end; pu:=tused_unit(pu.next); end; consume(_SEMICOLON); end; procedure reset_all_defs; begin if assigned(current_module.wpoinfo) then current_module.wpoinfo.resetdefs; end; procedure free_localsymtables(st:TSymtable); var i : longint; def : tstoreddef; pd : tprocdef; begin for i:=0 to st.DefList.Count-1 do begin def:=tstoreddef(st.DefList[i]); if def.typ=procdef then begin pd:=tprocdef(def); if assigned(pd.localst) and (pd.localst.symtabletype<>staticsymtable) and not(po_inline in pd.procoptions) then begin free_localsymtables(pd.localst); pd.localst.free; pd.localst:=nil; end; end; end; end; procedure parse_implementation_uses; begin if token=_USES then loadunits; end; procedure setupglobalswitches; begin if (cs_create_pic in current_settings.moduleswitches) then begin def_system_macro('FPC_PIC'); def_system_macro('PIC'); end; end; function create_main_proc(const name:string;potype:tproctypeoption;st:TSymtable):tcgprocinfo; var ps : tprocsym; pd : tprocdef; begin { there should be no current_procinfo available } if assigned(current_procinfo) then internalerror(200304275); {Generate a procsym for main} ps:=tprocsym.create('$'+name); { main are allways used } inc(ps.refs); st.insert(ps); pd:=tprocdef.create(main_program_level); include(pd.procoptions,po_global); pd.procsym:=ps; ps.ProcdefList.Add(pd); { set procdef options } pd.proctypeoption:=potype; pd.proccalloption:=pocall_default; include(pd.procoptions,po_hascallingconvention); pd.forwarddef:=false; pd.setmangledname(target_info.cprefix+name); pd.aliasnames.insert(pd.mangledname); handle_calling_convention(pd); { We don't need is a local symtable. Change it into the static symtable } pd.localst.free; pd.localst:=st; { set procinfo and current_procinfo.procdef } result:=tcgprocinfo(cprocinfo.create(nil)); result.procdef:=pd; { main proc does always a call e.g. to init system unit } include(result.flags,pi_do_call); end; procedure release_main_proc(pi:tcgprocinfo); begin { remove localst as it was replaced by staticsymtable } pi.procdef.localst:=nil; { remove procinfo } current_module.procinfo:=nil; pi.free; pi:=nil; end; { Insert _GLOBAL_OFFSET_TABLE_ symbol if system uses it } procedure maybe_load_got; {$ifdef i386} var gotvarsym : tstaticvarsym; {$endif i386} begin {$ifdef i386} if (cs_create_pic in current_settings.moduleswitches) and (tf_pic_uses_got in target_info.flags) then begin { insert symbol for got access in assembler code} gotvarsym:=tstaticvarsym.create('_GLOBAL_OFFSET_TABLE_', vs_value,voidpointertype,[vo_is_external]); gotvarsym.set_mangledname('_GLOBAL_OFFSET_TABLE_'); current_module.localsymtable.insert(gotvarsym); { avoid unnecessary warnings } gotvarsym.varstate:=vs_read; gotvarsym.refs:=1; end; {$endif i386} end; function gen_implicit_initfinal(flag:word;st:TSymtable):tcgprocinfo; begin { update module flags } current_module.flags:=current_module.flags or flag; { create procdef } case flag of uf_init : begin result:=create_main_proc(make_mangledname('',current_module.localsymtable,'init_implicit'),potype_unitinit,st); result.procdef.aliasnames.insert(make_mangledname('INIT$',current_module.localsymtable,'')); end; uf_finalize : begin result:=create_main_proc(make_mangledname('',current_module.localsymtable,'finalize_implicit'),potype_unitfinalize,st); result.procdef.aliasnames.insert(make_mangledname('FINALIZE$',current_module.localsymtable,'')); if (not current_module.is_unit) then result.procdef.aliasnames.insert('PASCALFINALIZE'); end; else internalerror(200304253); end; result.code:=cnothingnode.create; end; procedure copy_macro(p:TObject; arg:pointer); begin current_module.globalmacrosymtable.insert(tmacro(p).getcopy); end; function try_consume_hintdirective(var moduleopt:tmoduleoptions; var deprecatedmsg:pshortstring):boolean; var last_is_deprecated:boolean; begin try_consume_hintdirective:=false; repeat last_is_deprecated:=false; case idtoken of _LIBRARY : begin include(moduleopt,mo_hint_library); try_consume_hintdirective:=true; end; _DEPRECATED : begin include(moduleopt,mo_hint_deprecated); try_consume_hintdirective:=true; last_is_deprecated:=true; end; _EXPERIMENTAL : begin include(moduleopt,mo_hint_experimental); try_consume_hintdirective:=true; end; _PLATFORM : begin include(moduleopt,mo_hint_platform); try_consume_hintdirective:=true; end; _UNIMPLEMENTED : begin include(moduleopt,mo_hint_unimplemented); try_consume_hintdirective:=true; end; else break; end; consume(Token); { handle deprecated message } if ((token=_CSTRING) or (token=_CCHAR)) and last_is_deprecated then begin if deprecatedmsg<>nil then internalerror(201001221); if token=_CSTRING then deprecatedmsg:=stringdup(cstringpattern) else deprecatedmsg:=stringdup(pattern); consume(token); include(moduleopt,mo_has_deprecated_msg); end; until false; end; procedure proc_unit; function is_assembler_generated:boolean; var hal : tasmlisttype; begin result:=false; if Errorcount=0 then begin for hal:=low(TasmlistType) to high(TasmlistType) do if not current_asmdata.asmlists[hal].empty then begin result:=true; exit; end; end; end; var main_file: tinputfile; {$ifdef EXTDEBUG} store_crc, {$endif EXTDEBUG} store_interface_crc, store_indirect_crc: cardinal; s1,s2 : ^string; {Saves stack space} force_init_final : boolean; init_procinfo, finalize_procinfo : tcgprocinfo; unitname8 : string[8]; ag: boolean; {$ifdef debug_devirt} i: longint; {$endif debug_devirt} begin init_procinfo:=nil; finalize_procinfo:=nil; if m_mac in current_settings.modeswitches then current_module.mode_switch_allowed:= false; consume(_UNIT); if compile_level=1 then Status.IsExe:=false; if token=_ID then begin { create filenames and unit name } main_file := current_scanner.inputfile; while assigned(main_file.next) do main_file := main_file.next; new(s1); s1^:=current_module.modulename^; current_module.SetFileName(main_file.path^+main_file.name^,true); current_module.SetModuleName(orgpattern); { check for system unit } new(s2); s2^:=upper(ChangeFileExt(ExtractFileName(main_file.name^),'')); unitname8:=copy(current_module.modulename^,1,8); if (cs_check_unit_name in current_settings.globalswitches) and ( not( (current_module.modulename^=s2^) or ( (length(current_module.modulename^)>8) and (unitname8=s2^) ) ) or ( (length(s1^)>8) and (s1^<>current_module.modulename^) ) ) then Message1(unit_e_illegal_unit_name,current_module.realmodulename^); if (current_module.modulename^='SYSTEM') then include(current_settings.moduleswitches,cs_compilesystem); dispose(s2); dispose(s1); end; if (target_info.system in systems_unit_program_exports) then exportlib.preparelib(current_module.realmodulename^); consume(_ID); { parse hint directives } try_consume_hintdirective(current_module.moduleoptions, current_module.deprecatedmsg); consume(_SEMICOLON); consume(_INTERFACE); { global switches are read, so further changes aren't allowed } current_module.in_global:=false; { handle the global switches } setupglobalswitches; message1(unit_u_loading_interface_units,current_module.modulename^); { update status } status.currentmodule:=current_module.realmodulename^; { maybe turn off m_objpas if we are compiling objpas } if (current_module.modulename^='OBJPAS') then exclude(current_settings.modeswitches,m_objpas); { maybe turn off m_mac if we are compiling macpas } if (current_module.modulename^='MACPAS') then exclude(current_settings.modeswitches,m_mac); parse_only:=true; { generate now the global symboltable, define first as local to overcome dependency conflicts } current_module.localsymtable:=tglobalsymtable.create(current_module.modulename^,current_module.moduleid); { insert unitsym of this unit to prevent other units having the same name } current_module.localsymtable.insert(tunitsym.create(current_module.realmodulename^,current_module)); { load default units, like the system unit } loaddefaultunits; { insert qualifier for the system unit (allows system.writeln) } if not(cs_compilesystem in current_settings.moduleswitches) and (token=_USES) then begin loadunits; { has it been compiled at a higher level ?} if current_module.state=ms_compiled then exit; end; { move the global symtable from the temporary local to global } current_module.globalsymtable:=current_module.localsymtable; current_module.localsymtable:=nil; { number all units, so we know if a unit is used by this unit or needs to be added implicitly } current_module.updatemaps; { create whole program optimisation information (may already be updated in the interface, e.g., in case of classrefdef typed constants } current_module.wpoinfo:=tunitwpoinfo.create; { ... parse the declarations } Message1(parser_u_parsing_interface,current_module.realmodulename^); symtablestack.push(current_module.globalsymtable); read_interface_declarations; symtablestack.pop(current_module.globalsymtable); { Export macros defined in the interface for macpas. The macros are put in the globalmacrosymtable that will only be used by other units. The current unit continues to use the localmacrosymtable } if (m_mac in current_settings.modeswitches) then begin current_module.globalmacrosymtable:=tmacrosymtable.create(true); current_module.localmacrosymtable.SymList.ForEachCall(@copy_macro,nil); end; { leave when we got an error } if (Errorcount>0) and not status.skip_error then begin Message1(unit_f_errors_in_unit,tostr(Errorcount)); status.skip_error:=true; exit; end; { Our interface is compiled, generate CRC and switch to implementation } if not(cs_compilesystem in current_settings.moduleswitches) and (Errorcount=0) then tppumodule(current_module).getppucrc; current_module.in_interface:=false; current_module.interface_compiled:=true; { First reload all units depending on our interface, we need to do this in the implementation part to prevent erroneous circular references } tppumodule(current_module).setdefgeneration; tppumodule(current_module).reload_flagged_units; { Parse the implementation section } if (m_mac in current_settings.modeswitches) and try_to_consume(_END) then current_module.interface_only:=true else current_module.interface_only:=false; parse_only:=false; { create static symbol table } current_module.localsymtable:=tstaticsymtable.create(current_module.modulename^,current_module.moduleid); { Insert _GLOBAL_OFFSET_TABLE_ symbol if system uses it } maybe_load_got; if not current_module.interface_only then begin consume(_IMPLEMENTATION); Message1(unit_u_loading_implementation_units,current_module.modulename^); { Read the implementation units } parse_implementation_uses; end; if current_module.state=ms_compiled then exit; { All units are read, now give them a number } current_module.updatemaps; symtablestack.push(current_module.globalsymtable); symtablestack.push(current_module.localsymtable); if not current_module.interface_only then begin Message1(parser_u_parsing_implementation,current_module.modulename^); if current_module.in_interface then internalerror(200212285); { Compile the unit } init_procinfo:=create_main_proc(make_mangledname('',current_module.localsymtable,'init'),potype_unitinit,current_module.localsymtable); init_procinfo.procdef.aliasnames.insert(make_mangledname('INIT$',current_module.localsymtable,'')); init_procinfo.parse_body; { save file pos for debuginfo } current_module.mainfilepos:=init_procinfo.entrypos; end; { Generate specializations of objectdefs methods } generate_specialization_procs; { if the unit contains ansi/widestrings, initialization and finalization code must be forced } force_init_final:=tglobalsymtable(current_module.globalsymtable).needs_init_final or tstaticsymtable(current_module.localsymtable).needs_init_final; { should we force unit initialization? } { this is a hack, but how can it be done better ? } if force_init_final and ((current_module.flags and uf_init)=0) then begin { first release the not used init procinfo } if assigned(init_procinfo) then release_main_proc(init_procinfo); init_procinfo:=gen_implicit_initfinal(uf_init,current_module.localsymtable); end; { finalize? } if not current_module.interface_only and (token=_FINALIZATION) then begin { the uf_finalize flag is only set after we checked that it wasn't empty } { Compile the finalize } finalize_procinfo:=create_main_proc(make_mangledname('',current_module.localsymtable,'finalize'),potype_unitfinalize,current_module.localsymtable); finalize_procinfo.procdef.aliasnames.insert(make_mangledname('FINALIZE$',current_module.localsymtable,'')); finalize_procinfo.parse_body; end else if force_init_final then finalize_procinfo:=gen_implicit_initfinal(uf_finalize,current_module.localsymtable); { Now both init and finalize bodies are read and it is known which variables are used in both init and finalize we can now generate the code. This is required to prevent putting a variable in a register that is also used in the finalize body (PFV) } if assigned(init_procinfo) then begin init_procinfo.generate_code; init_procinfo.resetprocdef; release_main_proc(init_procinfo); end; if assigned(finalize_procinfo) then begin finalize_procinfo.generate_code; finalize_procinfo.resetprocdef; release_main_proc(finalize_procinfo); end; symtablestack.pop(current_module.localsymtable); symtablestack.pop(current_module.globalsymtable); { the last char should always be a point } consume(_POINT); { reset wpo flags for all defs } reset_all_defs; if (Errorcount=0) then begin { tests, if all (interface) forwards are resolved } tstoredsymtable(current_module.globalsymtable).check_forwards; { check if all private fields are used } tstoredsymtable(current_module.globalsymtable).allprivatesused; { test static symtable } tstoredsymtable(current_module.localsymtable).allsymbolsused; tstoredsymtable(current_module.localsymtable).allprivatesused; tstoredsymtable(current_module.localsymtable).check_forwards; tstoredsymtable(current_module.localsymtable).checklabels; { used units } current_module.allunitsused; end; { leave when we got an error } if (Errorcount>0) and not status.skip_error then begin Message1(unit_f_errors_in_unit,tostr(Errorcount)); status.skip_error:=true; exit; end; { if an Objective-C module, generate rtti and module info } MaybeGenerateObjectiveCImageInfo(current_module.globalsymtable,current_module.localsymtable); { do we need to add the variants unit? } maybeloadvariantsunit; { generate wrappers for interfaces } gen_intf_wrappers(current_asmdata.asmlists[al_procedures],current_module.globalsymtable,false); gen_intf_wrappers(current_asmdata.asmlists[al_procedures],current_module.localsymtable,false); { generate pic helpers to load eip if necessary } gen_pic_helpers(current_asmdata.asmlists[al_procedures]); { generate rtti/init tables } write_persistent_type_info(current_module.globalsymtable); write_persistent_type_info(current_module.localsymtable); { Tables } InsertThreadvars; { Resource strings } GenerateResourceStrings; { Widestring typed constants } InsertWideInits; { generate debuginfo } if (cs_debuginfo in current_settings.moduleswitches) then current_debuginfo.inserttypeinfo; { generate imports } if current_module.ImportLibraryList.Count>0 then importlib.generatelib; { insert own objectfile, or say that it's in a library (no check for an .o when loading) } ag:=is_assembler_generated; if ag then insertobjectfile else begin current_module.flags:=current_module.flags or uf_no_link; current_module.flags:=current_module.flags and not (uf_has_stabs_debuginfo or uf_has_dwarf_debuginfo); end; if ag then begin { create callframe info } create_dwarf_frame; { assemble } create_objectfile; end; { Write out the ppufile after the object file has been created } store_interface_crc:=current_module.interface_crc; store_indirect_crc:=current_module.indirect_crc; {$ifdef EXTDEBUG} store_crc:=current_module.crc; {$endif EXTDEBUG} if (Errorcount=0) then tppumodule(current_module).writeppu; if not(cs_compilesystem in current_settings.moduleswitches) then begin if store_interface_crc<>current_module.interface_crc then Message1(unit_u_interface_crc_changed,current_module.ppufilename^); if store_indirect_crc<>current_module.indirect_crc then Message1(unit_u_indirect_crc_changed,current_module.ppufilename^); end; {$ifdef EXTDEBUG} if not(cs_compilesystem in current_settings.moduleswitches) then if (store_crc<>current_module.crc) and simplify_ppu then Message1(unit_u_implementation_crc_changed,current_module.ppufilename^); {$endif EXTDEBUG} { release local symtables that are not needed anymore } free_localsymtables(current_module.globalsymtable); free_localsymtables(current_module.localsymtable); { leave when we got an error } if (Errorcount>0) and not status.skip_error then begin Message1(unit_f_errors_in_unit,tostr(Errorcount)); status.skip_error:=true; exit; end; {$ifdef debug_devirt} { print out all instantiated class/object types } writeln('constructed object/class/classreftypes in ',current_module.realmodulename^); for i := 0 to current_module.wpoinfo.createdobjtypes.count-1 do begin write(' ',tdef(current_module.wpoinfo.createdobjtypes[i]).GetTypeName); case tdef(current_module.wpoinfo.createdobjtypes[i]).typ of objectdef: case tobjectdef(current_module.wpoinfo.createdobjtypes[i]).objecttype of odt_object: writeln(' (object)'); odt_class: writeln(' (class)'); else internalerror(2008101103); end; else internalerror(2008101104); end; end; for i := 0 to current_module.wpoinfo.createdclassrefobjtypes.count-1 do begin write(' Class Of ',tdef(current_module.wpoinfo.createdclassrefobjtypes[i]).GetTypeName); case tdef(current_module.wpoinfo.createdclassrefobjtypes[i]).typ of objectdef: case tobjectdef(current_module.wpoinfo.createdclassrefobjtypes[i]).objecttype of odt_class: writeln(' (classrefdef)'); else internalerror(2008101105); end else internalerror(2008101102); end; end; {$endif debug_devirt} Message1(unit_u_finished_compiling,current_module.modulename^); end; procedure procexport(const s : string); var hp : texported_item; begin hp:=texported_item.create; hp.name:=stringdup(s); hp.options:=hp.options or eo_name; exportlib.exportprocedure(hp); end; procedure varexport(const s : string); var hp : texported_item; begin hp:=texported_item.create; hp.name:=stringdup(s); hp.options:=hp.options or eo_name; exportlib.exportvar(hp); end; procedure insert_export(sym : TObject;arg:pointer); var i : longint; item : TCmdStrListItem; begin case TSym(sym).typ of { ignore: } unitsym, syssym, constsym, enumsym, typesym: ; procsym: begin for i:=0 to tprocsym(sym).ProcdefList.Count-1 do begin if not(tprocdef(tprocsym(sym).ProcdefList[i]).proccalloption in [pocall_internproc]) and ((tprocdef(tprocsym(sym).ProcdefList[i]).procoptions*[po_external])=[]) and ((tsymtable(arg).symtabletype=globalsymtable) or ((tsymtable(arg).symtabletype=staticsymtable) and (po_public in tprocdef(tprocsym(sym).ProcdefList[i]).procoptions)) ) then begin procexport(tprocdef(tprocsym(sym).ProcdefList[i]).mangledname); { walk through all aliases } item:=TCmdStrListItem(tprocdef(tprocsym(sym).ProcdefList[i]).aliasnames.first); while assigned(item) do begin { avoid duplicate entries, sometimes aliasnames contains the mangledname } if item.str<>tprocdef(tprocsym(sym).ProcdefList[i]).mangledname then procexport(item.str); item:=TCmdStrListItem(item.next); end; end; end; end; staticvarsym: begin varexport(tsym(sym).mangledname); end; else begin writeln('unknown: ',ord(TSym(sym).typ)); end; end; end; Function RewritePPU(const PPUFn,PPLFn:String):Boolean; Var MakeStatic : Boolean; Var buffer : array[0..$1fff] of byte; inppu, outppu : tppufile; b, untilb : byte; l,m : longint; f : file; ext, s : string; ppuversion : dword; begin Result:=false; MakeStatic:=False; inppu:=tppufile.create(PPUFn); if not inppu.openfile then begin inppu.free; Comment(V_Error,'Could not open : '+PPUFn); Exit; end; { Check the ppufile } if not inppu.CheckPPUId then begin inppu.free; Comment(V_Error,'Not a PPU File : '+PPUFn); Exit; end; ppuversion:=inppu.GetPPUVersion; if ppuversion0 then begin inppu.free; Result:=true; Exit; end; { Already a lib? } if (inppu.header.flags and uf_in_library)<>0 then begin inppu.free; Comment(V_Error,'PPU is already in a library : '+PPUFn); Exit; end; { We need a static linked unit } if (inppu.header.flags and uf_static_linked)=0 then begin inppu.free; Comment(V_Error,'PPU is not static linked : '+PPUFn); Exit; end; { Check if shared is allowed } if tsystem(inppu.header.target) in [system_i386_go32v2] then begin Comment(V_Error,'Shared library not supported for ppu target, switching to static library'); MakeStatic:=true; end; { Create the new ppu } if PPUFn=PPLFn then outppu:=tppufile.create('ppumove.$$$') else outppu:=tppufile.create(PPLFn); outppu.createfile; { Create new header, with the new flags } outppu.header:=inppu.header; outppu.header.flags:=outppu.header.flags or uf_in_library; if MakeStatic then outppu.header.flags:=outppu.header.flags or uf_static_linked else outppu.header.flags:=outppu.header.flags or uf_shared_linked; { read until the object files are found } untilb:=iblinkunitofiles; repeat b:=inppu.readentry; if b in [ibendinterface,ibend] then begin inppu.free; outppu.free; Comment(V_Error,'No files to be linked found : '+PPUFn); Exit; end; if b<>untilb then begin repeat inppu.getdatabuf(buffer,sizeof(buffer),l); outppu.putdata(buffer,l); until libend then begin if b=iblinkothersharedlibs then begin while not inppu.endofentry do begin s:=inppu.getstring; m:=inppu.getlongint; outppu.putstring(s); outppu.putlongint(m); { strip lib prefix } if copy(s,1,3)='lib' then delete(s,1,3); ext:=ExtractFileExt(s); if ext<>'' then delete(s,length(s)-length(ext)+1,length(ext)); current_module.linkOtherSharedLibs.add(s,link_always); end; end else repeat inppu.getdatabuf(buffer,sizeof(buffer),l); outppu.putdata(buffer,l); until l0 then; end; Result:=True; end; procedure createimportlibfromexports; var hp : texported_item; begin hp:=texported_item(current_module._exports.first); while assigned(hp) do begin current_module.AddExternalImport(current_module.realmodulename^,hp.name^,hp.index,hp.is_var,false); hp:=texported_item(hp.next); end; end; procedure proc_package; var main_file : tinputfile; hp,hp2 : tmodule; {finalize_procinfo, init_procinfo, main_procinfo : tcgprocinfo;} force_init_final : boolean; uu : tused_unit; begin Status.IsPackage:=true; Status.IsExe:=true; parse_only:=false; {main_procinfo:=nil; init_procinfo:=nil; finalize_procinfo:=nil;} if not RelocSectionSetExplicitly then RelocSection:=true; { Relocation works only without stabs under Windows when } { external linker (LD) is used. LD generates relocs for } { stab sections which is not loaded in memory. It causes } { AV error when DLL is loaded and relocation is needed. } { Internal linker does not have this problem. } if RelocSection and (target_info.system in systems_all_windows+[system_i386_wdosx]) and (cs_link_extern in current_settings.globalswitches) then begin include(current_settings.globalswitches,cs_link_strip); { Warning stabs info does not work with reloc section !! } if (cs_debuginfo in current_settings.moduleswitches) and (target_dbg.id=dbg_stabs) then begin Message1(parser_w_parser_reloc_no_debug,current_module.mainsource^); Message(parser_w_parser_win32_debug_needs_WN); exclude(current_settings.moduleswitches,cs_debuginfo); end; end; { get correct output names } main_file := current_scanner.inputfile; while assigned(main_file.next) do main_file := main_file.next; current_module.SetFileName(main_file.path^+main_file.name^,true); consume(_ID); current_module.setmodulename(orgpattern); current_module.ispackage:=true; exportlib.preparelib(orgpattern); if tf_library_needs_pic in target_info.flags then include(current_settings.moduleswitches,cs_create_pic); consume(_ID); consume(_SEMICOLON); { global switches are read, so further changes aren't allowed } current_module.in_global:=false; { setup things using the switches } setupglobalswitches; { set implementation flag } current_module.in_interface:=false; current_module.interface_compiled:=true; { insert after the unit symbol tables the static symbol table } { of the program } current_module.localsymtable:=tstaticsymtable.create(current_module.modulename^,current_module.moduleid); {Load the units used by the program we compile.} if token=_REQUIRES then begin end; {Load the units used by the program we compile.} if (token=_ID) and (idtoken=_CONTAINS) then begin consume(_ID); while true do begin if token=_ID then AddUnit(pattern); consume(_ID); if token=_COMMA then consume(_COMMA) else break; end; consume(_SEMICOLON); end; { All units are read, now give them a number } current_module.updatemaps; {Insert the name of the main program into the symbol table.} if current_module.realmodulename^<>'' then current_module.localsymtable.insert(tunitsym.create(current_module.realmodulename^,current_module)); Message1(parser_u_parsing_implementation,current_module.mainsource^); symtablestack.push(current_module.localsymtable); { create whole program optimisation information } current_module.wpoinfo:=tunitwpoinfo.create; { should we force unit initialization? } force_init_final:=tstaticsymtable(current_module.localsymtable).needs_init_final; if force_init_final then {init_procinfo:=gen_implicit_initfinal(uf_init,current_module.localsymtable)}; { Add symbol to the exports section for win32 so smartlinking a DLL will include the edata section } if assigned(exportlib) and (target_info.system in [system_i386_win32,system_i386_wdosx]) and ((current_module.flags and uf_has_exports)<>0) then current_asmdata.asmlists[al_procedures].concat(tai_const.createname(make_mangledname('EDATA',current_module.localsymtable,''),0)); { all labels must be defined before generating code } if Errorcount=0 then tstoredsymtable(current_module.localsymtable).checklabels; symtablestack.pop(current_module.localsymtable); { consume the last point } consume(_END); consume(_POINT); if (Errorcount=0) then begin { test static symtable } tstoredsymtable(current_module.localsymtable).allsymbolsused; tstoredsymtable(current_module.localsymtable).allprivatesused; tstoredsymtable(current_module.localsymtable).check_forwards; current_module.allunitsused; end; new_section(current_asmdata.asmlists[al_globals],sec_data,'_FPCDummy',4); current_asmdata.asmlists[al_globals].concat(tai_symbol.createname_global('_FPCDummy',AT_DATA,0)); current_asmdata.asmlists[al_globals].concat(tai_const.create_32bit(0)); new_section(current_asmdata.asmlists[al_procedures],sec_code,'',0); current_asmdata.asmlists[al_procedures].concat(tai_symbol.createname_global('_DLLMainCRTStartup',AT_FUNCTION,0)); {$ifdef i386} { fix me! } current_asmdata.asmlists[al_procedures].concat(Taicpu.Op_const_reg(A_MOV,S_L,1,NR_EAX)); current_asmdata.asmlists[al_procedures].concat(Taicpu.Op_const(A_RET,S_W,12)); {$endif i386} current_asmdata.asmlists[al_procedures].concat(tai_const.createname('_FPCDummy',0)); { leave when we got an error } if (Errorcount>0) and not status.skip_error then begin Message1(unit_f_errors_in_unit,tostr(Errorcount)); status.skip_error:=true; exit; end; { remove all unused units, this happends when units are removed from the uses clause in the source and the ppu was already being loaded } hp:=tmodule(loaded_units.first); while assigned(hp) do begin hp2:=hp; hp:=tmodule(hp.next); if hp2.is_unit and not assigned(hp2.globalsymtable) then loaded_units.remove(hp2); end; { force exports } uu:=tused_unit(usedunits.first); while assigned(uu) do begin uu.u.globalsymtable.symlist.ForEachCall(@insert_export,uu.u.globalsymtable); { check localsymtable for exports too to get public symbols } uu.u.localsymtable.symlist.ForEachCall(@insert_export,uu.u.localsymtable); { create special exports } if (uu.u.flags and uf_init)<>0 then procexport(make_mangledname('INIT$',uu.u.globalsymtable,'')); if (uu.u.flags and uf_finalize)<>0 then procexport(make_mangledname('FINALIZE$',uu.u.globalsymtable,'')); if (uu.u.flags and uf_threadvars)=uf_threadvars then varexport(make_mangledname('THREADVARLIST',uu.u.globalsymtable,'')); uu:=tused_unit(uu.next); end; {$ifdef arm} { Insert .pdata section for arm-wince. It is needed for exception handling. } if target_info.system in [system_arm_wince] then InsertPData; {$endif arm} { generate debuginfo } if (cs_debuginfo in current_settings.moduleswitches) then current_debuginfo.inserttypeinfo; exportlib.generatelib; { write all our exports to the import library, needs to be done after exportlib.generatelib; } createimportlibfromexports; { generate imports } if current_module.ImportLibraryList.Count>0 then importlib.generatelib; { Reference all DEBUGINFO sections from the main .fpc section } if (cs_debuginfo in current_settings.moduleswitches) then current_debuginfo.referencesections(current_asmdata.asmlists[al_procedures]); { insert own objectfile } insertobjectfile; { assemble and link } create_objectfile; { We might need the symbols info if not using the default do_extractsymbolinfo which is a dummy function PM } needsymbolinfo:=do_extractsymbolinfo<>@def_extractsymbolinfo; { release all local symtables that are not needed anymore } if (not needsymbolinfo) then free_localsymtables(current_module.localsymtable); { leave when we got an error } if (Errorcount>0) and not status.skip_error then begin Message1(unit_f_errors_in_unit,tostr(Errorcount)); status.skip_error:=true; exit; end; if (not current_module.is_unit) then begin { finally rewrite all units included into the package } uu:=tused_unit(usedunits.first); while assigned(uu) do begin RewritePPU(uu.u.ppufilename^,uu.u.ppufilename^); uu:=tused_unit(uu.next); end; { create the executable when we are at level 1 } if (compile_level=1) then begin { create global resource file by collecting all resource files } CollectResourceFiles; { write .def file } if (cs_link_deffile in current_settings.globalswitches) then deffile.writefile; { insert all .o files from all loaded units and unload the units, we don't need them anymore. Keep the current_module because that is still needed } hp:=tmodule(loaded_units.first); while assigned(hp) do begin { the package itself contains no code so far } linker.AddModuleFiles(hp); hp2:=tmodule(hp.next); if (hp<>current_module) and (not needsymbolinfo) then begin loaded_units.remove(hp); hp.free; end; hp:=hp2; end; linker.MakeSharedLibrary end; { Give Fatal with error count for linker errors } if (Errorcount>0) and not status.skip_error then begin Message1(unit_f_errors_in_unit,tostr(Errorcount)); status.skip_error:=true; end; end; end; procedure proc_program(islibrary : boolean); var main_file : tinputfile; hp,hp2 : tmodule; finalize_procinfo, init_procinfo, main_procinfo : tcgprocinfo; force_init_final : boolean; resources_used : boolean; begin DLLsource:=islibrary; Status.IsLibrary:=IsLibrary; Status.IsPackage:=false; Status.IsExe:=true; parse_only:=false; main_procinfo:=nil; init_procinfo:=nil; finalize_procinfo:=nil; resources_used:=false; { DLL defaults to create reloc info } if islibrary then begin if not RelocSectionSetExplicitly then RelocSection:=true; end; { Relocation works only without stabs under Windows when } { external linker (LD) is used. LD generates relocs for } { stab sections which is not loaded in memory. It causes } { AV error when DLL is loaded and relocation is needed. } { Internal linker does not have this problem. } if RelocSection and (target_info.system in systems_all_windows+[system_i386_wdosx]) and (cs_link_extern in current_settings.globalswitches) then begin include(current_settings.globalswitches,cs_link_strip); { Warning stabs info does not work with reloc section !! } if (cs_debuginfo in current_settings.moduleswitches) and (target_dbg.id=dbg_stabs) then begin Message1(parser_w_parser_reloc_no_debug,current_module.mainsource^); Message(parser_w_parser_win32_debug_needs_WN); exclude(current_settings.moduleswitches,cs_debuginfo); end; end; { get correct output names } main_file := current_scanner.inputfile; while assigned(main_file.next) do main_file := main_file.next; current_module.SetFileName(main_file.path^+main_file.name^,true); if islibrary then begin consume(_LIBRARY); current_module.setmodulename(orgpattern); current_module.islibrary:=true; exportlib.preparelib(orgpattern); if tf_library_needs_pic in target_info.flags then include(current_settings.moduleswitches,cs_create_pic); consume(_ID); consume(_SEMICOLON); end else { is there an program head ? } if token=_PROGRAM then begin consume(_PROGRAM); current_module.setmodulename(orgpattern); if (target_info.system in systems_unit_program_exports) then exportlib.preparelib(orgpattern); consume(_ID); if token=_LKLAMMER then begin consume(_LKLAMMER); repeat consume(_ID); until not try_to_consume(_COMMA); consume(_RKLAMMER); end; consume(_SEMICOLON); end else if (target_info.system in systems_unit_program_exports) then exportlib.preparelib(current_module.realmodulename^); { global switches are read, so further changes aren't allowed } current_module.in_global:=false; { setup things using the switches } setupglobalswitches; { set implementation flag } current_module.in_interface:=false; current_module.interface_compiled:=true; { insert after the unit symbol tables the static symbol table } { of the program } current_module.localsymtable:=tstaticsymtable.create(current_module.modulename^,current_module.moduleid); { load standard units (system,objpas,profile unit) } loaddefaultunits; { Load units provided on the command line } loadautounits; {Load the units used by the program we compile.} if token=_USES then loadunits; { All units are read, now give them a number } current_module.updatemaps; {Insert the name of the main program into the symbol table.} if current_module.realmodulename^<>'' then current_module.localsymtable.insert(tunitsym.create(current_module.realmodulename^,current_module)); Message1(parser_u_parsing_implementation,current_module.mainsource^); symtablestack.push(current_module.localsymtable); { Insert _GLOBAL_OFFSET_TABLE_ symbol if system uses it } maybe_load_got; { create whole program optimisation information } current_module.wpoinfo:=tunitwpoinfo.create; { The program intialization needs an alias, so it can be called from the bootstrap code.} if islibrary then begin main_procinfo:=create_main_proc(make_mangledname('',current_module.localsymtable,mainaliasname),potype_proginit,current_module.localsymtable); { Win32 startup code needs a single name } if not(target_info.system in systems_darwin) then main_procinfo.procdef.aliasnames.insert('PASCALMAIN') else main_procinfo.procdef.aliasnames.insert(target_info.Cprefix+'PASCALMAIN') end else if (target_info.system in ([system_i386_netware,system_i386_netwlibc,system_powerpc_macos]+systems_darwin)) then begin main_procinfo:=create_main_proc('PASCALMAIN',potype_proginit,current_module.localsymtable); end else begin main_procinfo:=create_main_proc(mainaliasname,potype_proginit,current_module.localsymtable); main_procinfo.procdef.aliasnames.insert('PASCALMAIN'); end; main_procinfo.parse_body; { save file pos for debuginfo } current_module.mainfilepos:=main_procinfo.entrypos; { Generate specializations of objectdefs methods } generate_specialization_procs; { should we force unit initialization? } force_init_final:=tstaticsymtable(current_module.localsymtable).needs_init_final; if force_init_final then init_procinfo:=gen_implicit_initfinal(uf_init,current_module.localsymtable); { Add symbol to the exports section for win32 so smartlinking a DLL will include the edata section } if assigned(exportlib) and (target_info.system in [system_i386_win32,system_i386_wdosx]) and ((current_module.flags and uf_has_exports)<>0) then current_asmdata.asmlists[al_procedures].concat(tai_const.createname(make_mangledname('EDATA',current_module.localsymtable,''),0)); { finalize? } if token=_FINALIZATION then begin { the uf_finalize flag is only set after we checked that it wasn't empty } { Parse the finalize } finalize_procinfo:=create_main_proc(make_mangledname('',current_module.localsymtable,'finalize'),potype_unitfinalize,current_module.localsymtable); finalize_procinfo.procdef.aliasnames.insert(make_mangledname('FINALIZE$',current_module.localsymtable,'')); finalize_procinfo.procdef.aliasnames.insert('PASCALFINALIZE'); finalize_procinfo.parse_body; end else if force_init_final then finalize_procinfo:=gen_implicit_initfinal(uf_finalize,current_module.localsymtable); { the finalization routine of libraries is generic (and all libraries need to } { be finalized, so they can finalize any units they use } if (islibrary) then exportlib.setfininame(current_asmdata.asmlists[al_procedures],'FPC_LIB_EXIT'); { all labels must be defined before generating code } if Errorcount=0 then tstoredsymtable(current_module.localsymtable).checklabels; { See remark in unit init/final } main_procinfo.generate_code; main_procinfo.resetprocdef; release_main_proc(main_procinfo); if assigned(init_procinfo) then begin init_procinfo.generate_code; init_procinfo.resetprocdef; release_main_proc(init_procinfo); end; if assigned(finalize_procinfo) then begin finalize_procinfo.generate_code; finalize_procinfo.resetprocdef; release_main_proc(finalize_procinfo); end; symtablestack.pop(current_module.localsymtable); { consume the last point } consume(_POINT); { reset wpo flags for all defs } reset_all_defs; if (Errorcount=0) then begin { test static symtable } tstoredsymtable(current_module.localsymtable).allsymbolsused; tstoredsymtable(current_module.localsymtable).allprivatesused; tstoredsymtable(current_module.localsymtable).check_forwards; current_module.allunitsused; end; { leave when we got an error } if (Errorcount>0) and not status.skip_error then begin Message1(unit_f_errors_in_unit,tostr(Errorcount)); status.skip_error:=true; exit; end; { remove all unused units, this happens when units are removed from the uses clause in the source and the ppu was already being loaded } hp:=tmodule(loaded_units.first); while assigned(hp) do begin hp2:=hp; hp:=tmodule(hp.next); if hp2.is_unit and not assigned(hp2.globalsymtable) then begin loaded_units.remove(hp2); unloaded_units.concat(hp2); end; end; { do we need to add the variants unit? } maybeloadvariantsunit; { Now that everything has been compiled we know if we need resource support. If not, remove the unit. } resources_used:=MaybeRemoveResUnit; linker.initsysinitunitname; if target_info.system in systems_internal_sysinit then begin { add start/halt unit } AddUnit(linker.sysinitunit); end; {$ifdef arm} { Insert .pdata section for arm-wince. It is needed for exception handling. } if target_info.system in [system_arm_wince] then InsertPData; {$endif arm} InsertThreadvars; { generate pic helpers to load eip if necessary } gen_pic_helpers(current_asmdata.asmlists[al_procedures]); { generate rtti/init tables } write_persistent_type_info(current_module.localsymtable); { if an Objective-C module, generate rtti and module info } MaybeGenerateObjectiveCImageInfo(nil,current_module.localsymtable); { generate wrappers for interfaces } gen_intf_wrappers(current_asmdata.asmlists[al_procedures],current_module.localsymtable,false); { generate imports } if current_module.ImportLibraryList.Count>0 then importlib.generatelib; { generate debuginfo } if (cs_debuginfo in current_settings.moduleswitches) then current_debuginfo.inserttypeinfo; if islibrary or (target_info.system in systems_unit_program_exports) then exportlib.generatelib; { Reference all DEBUGINFO sections from the main .fpc section } if (cs_debuginfo in current_settings.moduleswitches) then current_debuginfo.referencesections(current_asmdata.asmlists[al_procedures]); { Resource strings } GenerateResourceStrings; { Windows widestring needing initialization } InsertWideInits; { insert Tables and StackLength } InsertInitFinalTable; InsertThreadvarTablesTable; InsertResourceTablesTable; InsertWideInitsTablesTable; InsertMemorySizes; { Insert symbol to resource info } InsertResourceInfo(resources_used); { create callframe info } create_dwarf_frame; { insert own objectfile } insertobjectfile; { assemble and link } create_objectfile; { We might need the symbols info if not using the default do_extractsymbolinfo which is a dummy function PM } needsymbolinfo:= (do_extractsymbolinfo<>@def_extractsymbolinfo) or ((current_settings.genwpoptimizerswitches*WPOptimizationsNeedingAllUnitInfo)<>[]); { release all local symtables that are not needed anymore } if (not needsymbolinfo) then free_localsymtables(current_module.localsymtable); { leave when we got an error } if (Errorcount>0) and not status.skip_error then begin Message1(unit_f_errors_in_unit,tostr(Errorcount)); status.skip_error:=true; exit; end; if (not current_module.is_unit) then begin { create the executable when we are at level 1 } if (compile_level=1) then begin { create global resource file by collecting all resource files } CollectResourceFiles; { write .def file } if (cs_link_deffile in current_settings.globalswitches) then deffile.writefile; { insert all .o files from all loaded units and unload the units, we don't need them anymore. Keep the current_module because that is still needed } hp:=tmodule(loaded_units.first); while assigned(hp) do begin linker.AddModuleFiles(hp); hp2:=tmodule(hp.next); if (hp<>current_module) and (not needsymbolinfo) then begin loaded_units.remove(hp); hp.free; end; hp:=hp2; end; { free also unneeded units we didn't free before } if not needsymbolinfo then unloaded_units.Clear; { finally we can create a executable } if DLLSource then linker.MakeSharedLibrary else linker.MakeExecutable; { collect all necessary information for whole-program optimization } wpoinfomanager.extractwpoinfofromprogram; end; { Give Fatal with error count for linker errors } if (Errorcount>0) and not status.skip_error then begin Message1(unit_f_errors_in_unit,tostr(Errorcount)); status.skip_error:=true; end; end; end; end.