{ $Id$ Copyright (c) 1998 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; {.$define TEST_IMPL does not work well } interface procedure proc_unit; procedure proc_program(islibrary : boolean); implementation uses cobjects,comphook,systems,globals, symtable,aasm,files, hcodegen,verbose, link,assemble,import,gendef,ppu {$ifdef i386} ,i386 {$endif} {$ifdef m68k} ,m68k {$endif} ,scanner,pbase,psystem,pdecl,psub,parser; procedure create_objectfile; begin { create the .s file and assemble it } GenerateAsm; { When creating a library call the linker. And insert the output of the linker files } if (cs_create_sharedlib in aktmoduleswitches) then Linker.MakeSharedLibrary else if (cs_create_staticlib in aktmoduleswitches) or (cs_smartlink in aktmoduleswitches) then Linker.MakeStaticLibrary(SmartLinkFilesCnt); { add the files for the linker from current_module } Linker.AddModuleFiles(current_module); end; procedure insertobjectfile; { Insert the used object file for this unit in the used list for this unit } begin if (cs_create_sharedlib in aktmoduleswitches) then current_module^.linksharedlibs.insert(current_module^.sharedlibfilename^) else begin if (cs_create_staticlib in aktmoduleswitches) or (cs_smartlink in aktmoduleswitches) then current_module^.linkstaticlibs.insert(current_module^.staticlibfilename^) else current_module^.linkofiles.insert(current_module^.objfilename^); end; end; procedure insertsegment; procedure fixseg(p:paasmoutput;sec:tsection); begin p^.insert(new(pai_section,init(sec))); if (cs_smartlink in aktmoduleswitches) then p^.insert(new(pai_cut,init)); p^.concat(new(pai_section,init(sec_none))); end; begin {Insert Ident of the compiler} if (not (cs_smartlink in aktmoduleswitches)) {$ifndef EXTDEBUG} and (not current_module^.is_unit) {$endif} then begin datasegment^.insert(new(pai_align,init(4))); datasegment^.insert(new(pai_string,init('FPC '+version_string+' for '+target_string+' - '+target_info.short_name))); end; { Insert start and end of sections } fixseg(codesegment,sec_code); fixseg(datasegment,sec_data); fixseg(bsssegment,sec_bss); fixseg(consts,sec_data); end; procedure insertheap; begin if (cs_smartlink in aktmoduleswitches) then begin bsssegment^.concat(new(pai_cut,init)); datasegment^.concat(new(pai_cut,init)); end; { On the Macintosh Classic M68k Architecture The Heap variable is simply a POINTER to the real HEAP. The HEAP must be set up by the RTL and must store the pointer in this value. On OS/2 the heap is also intialized by the RTL. We do not output a pointer } case target_info.target of {$ifdef i386} target_i386_OS2 : ; {$endif i386} {$ifdef m68k} target_m68k_Mac : bsssegment^.concat(new(pai_datablock,init_global('HEAP',4))); {$endif m68k} else bsssegment^.concat(new(pai_datablock,init_global('HEAP',heapsize))); end; {$ifdef i386} datasegment^.concat(new(pai_symbol,init_global('HEAPSIZE'))); {$endif i386} {$ifdef m68k} datasegment^.concat(new(pai_symbol,init_global('HEAP_SIZE'))); {$endif m68k} datasegment^.concat(new(pai_const,init_32bit(heapsize))); end; procedure inserttargetspecific; begin case target_info.target of {$ifdef i386} target_i386_GO32V2 : begin { stacksize can be specified } datasegment^.concat(new(pai_symbol,init_global('__stklen'))); datasegment^.concat(new(pai_const,init_32bit(stacksize))); end; target_i386_WIN32 : begin { Generate an external entry to be sure that _mainCRTStarup will be linked, can't use concat_external because those aren't written for asw (PFV) } datasegment^.concat(new(pai_const,init_symbol('_mainCRTStartup'))); end; {$endif i386} {$ifdef m68k} target_m68k_Atari : begin { stacksize can be specified } datasegment^.concat(new(pai_symbol,init_global('__stklen'))); datasegment^.concat(new(pai_const,init_32bit(stacksize))); end; {$endif m68k} end; end; function loadunit(const s : string;compile_system:boolean) : pmodule;forward; procedure load_usedunits(compile_system:boolean); var pu : pused_unit; loaded_unit : pmodule; nextmapentry : longint; begin { init the map } new(current_module^.map); fillchar(current_module^.map^,sizeof(tunitmap),#0); {$ifdef NEWMAP} current_module^.map^[0]:=current_module; {$endif NEWMAP} nextmapentry:=1; { load the used units from interface } current_module^.in_implementation:=false; pu:=pused_unit(current_module^.used_units.first); while assigned(pu) do begin if (not pu^.loaded) and (pu^.in_interface) then begin loaded_unit:=loadunit(pu^.name^,false); if current_module^.compiled then exit; { register unit in used units } pu^.u:=loaded_unit; pu^.loaded:=true; { need to recompile the current unit ? } if loaded_unit^.crc<>pu^.checksum then begin Message2(unit_u_recompile_crc_change,current_module^.modulename^,pu^.name^); current_module^.do_compile:=true; dispose(current_module^.map); current_module^.map:=nil; exit; end; { setup the map entry for deref } {$ifndef NEWMAP} current_module^.map^[nextmapentry]:=loaded_unit^.globalsymtable; {$else NEWMAP} current_module^.map^[nextmapentry]:=loaded_unit; {$endif NEWMAP} inc(nextmapentry); if nextmapentry>maxunits then Message(unit_f_too_much_units); end; pu:=pused_unit(pu^.next); end; { ok, now load the unit } current_module^.globalsymtable:=new(punitsymtable,loadasunit); { if this is the system unit insert the intern symbols } if compile_system then begin make_ref:=false; insertinternsyms(psymtable(current_module^.globalsymtable)); make_ref:=true; end; { now only read the implementation part } current_module^.in_implementation:=true; { load the used units from implementation } pu:=pused_unit(current_module^.used_units.first); while assigned(pu) do begin if (not pu^.loaded) and (not pu^.in_interface) then begin loaded_unit:=loadunit(pu^.name^,false); if current_module^.compiled then exit; { register unit in used units } pu^.u:=loaded_unit; pu^.loaded:=true; {$ifdef TEST_IMPL} { need to recompile the current unit ? } if loaded_unit^.crc<>pu^.checksum then begin Message2(unit_u_recompile_crc_change,current_module^.modulename^,pu^.name^); current_module^.do_compile:=true; dispose(current_module^.map); current_module^.map:=nil; exit; end; {$endif TEST_IMPL} { setup the map entry for deref } {$ifndef NEWMAP} current_module^.map^[nextmapentry]:=loaded_unit^.globalsymtable; {$else NEWMAP} current_module^.map^[nextmapentry]:=loaded_unit; {$endif NEWMAP} inc(nextmapentry); if nextmapentry>maxunits then Message(unit_f_too_much_units); end; pu:=pused_unit(pu^.next); end; {$ifdef UseBrowser} if cs_browser in aktmoduleswitches then punitsymtable(current_module^.globalsymtable)^.load_symtable_refs; if ((current_module^.flags and uf_has_browser)<>0) and (cs_local_browser in aktmoduleswitches) then begin current_module^.localsymtable:=new(psymtable,load); psymtable(current_module^.localsymtable)^.name:= stringdup('implementation of '+psymtable(current_module^.globalsymtable)^.name^); psymtable(current_module^.localsymtable)^.load_browser; end; {$endif UseBrowser} { remove the map, it's not needed anymore } dispose(current_module^.map); current_module^.map:=nil; end; function loadunit(const s : string;compile_system:boolean) : pmodule; const ImplIntf : array[boolean] of string[15]=('interface','implementation'); var st : punitsymtable; old_current_ppu : pppufile; old_current_module,hp,hp2 : pmodule; name : string;{ necessary because current_module^.mainsource^ is reset in compile !! } scanner : pscannerfile; procedure loadppufile; begin { load interface section } if not current_module^.do_compile then load_interface; { only load units when we don't recompile } if not current_module^.do_compile then load_usedunits(compile_system); { recompile if set } if current_module^.do_compile then begin { we don't need the ppufile anymore } if assigned(current_module^.ppufile) then begin dispose(current_module^.ppufile,done); current_module^.ppufile:=nil; end; { recompile the unit or give a fatal error if sources not available } if not(current_module^.sources_avail) then if (not current_module^.search_unit(current_module^.modulename^)) and (length(current_module^.modulename^)>8) then current_module^.search_unit(copy(current_module^.modulename^,1,8)); if not(current_module^.sources_avail) then Message1(unit_f_cant_compile_unit,current_module^.modulename^) else begin if current_module^.in_second_compile then Message1(parser_d_compiling_second_time,current_module^.modulename^); current_scanner^.tempcloseinputfile; name:=current_module^.mainsource^; if assigned(scanner) then scanner^.invalid:=true; compile(name,compile_system); if (not current_scanner^.invalid) then current_scanner^.tempopeninputfile; end; end else begin { only reassemble ? } if (current_module^.do_assemble) then OnlyAsm; { add the files for the linker } Linker.AddModuleFiles(current_module); end; if assigned(current_module^.ppufile) then begin dispose(current_module^.ppufile,done); current_module^.ppufile:=nil; end; end; begin old_current_module:=current_module; old_current_ppu:=current_ppu; { Info } Message3(unit_u_load_unit,current_module^.modulename^,ImplIntf[current_module^.in_implementation],s); { unit not found } st:=nil; { search all loaded units } hp:=pmodule(loaded_units.first); while assigned(hp) do begin if hp^.modulename^=s then begin { the unit is already registered } { and this means that the unit } { is already compiled } { else there is a cyclic unit use } if assigned(hp^.globalsymtable) then st:=punitsymtable(hp^.globalsymtable) else begin { both units in interface ? } if (not current_module^.in_implementation) and (not hp^.in_implementation) then begin { check for a cycle } hp2:=current_module^.loaded_from; while assigned(hp2) and (hp2<>hp) do begin if hp2^.in_implementation then hp2:=nil else hp2:=hp2^.loaded_from; end; if assigned(hp2) then Message2(unit_f_circular_unit_reference,current_module^.modulename^,hp^.modulename^); end; end; break; end; { the next unit } hp:=pmodule(hp^.next); end; { the unit is not in the symtable stack } if (not assigned(st)) then begin if assigned(hp) then begin { remove the old unit } loaded_units.remove(hp); scanner:=hp^.scanner; hp^.reset; hp^.scanner:=scanner; { try to reopen ppu } hp^.search_unit(s); { try to load the unit a second time first } { if not current_module^.in_implementation then hp^.do_compile:=true; } current_module:=hp; current_module^.in_second_compile:=true; Message1(unit_u_second_load_unit,current_module^.modulename^); end else { generates a new unit info record } begin current_module:=new(pmodule,init(s,true)); scanner:=nil; end; current_ppu:=current_module^.ppufile; { now we can register the unit } current_module^.loaded_from:=old_current_module; loaded_units.insert(current_module); { now realy load the ppu } loadppufile; { set compiled flag } current_module^.compiled:=true; { register the unit _once_ } usedunits.concat(new(pused_unit,init(current_module,true))); { load return pointer } hp:=current_module; end; { set the old module } current_ppu:=old_current_ppu; current_module:=old_current_module; loadunit:=hp; end; procedure loaddefaultunits; var hp : pmodule; begin { are we compiling the system unit? } if (cs_compilesystem in aktmoduleswitches) then begin { create system defines } createconstdefs; { we don't need to reset anything, it's already done in parser.pas } exit; end; { insert the system unit, it is allways the first } hp:=loadunit(upper(target_info.system_unit),true); systemunit:=hp^.globalsymtable; { it's always the first unit } systemunit^.next:=nil; symtablestack:=systemunit; { add to the used units } current_module^.used_units.concat(new(pused_unit,init(hp,true))); refsymtable^.insert(new(punitsym,init('SYSTEM',systemunit))); { read default constant definitions } make_ref:=false; readconstdefs; make_ref:=true; { if POWER is defined in the RTL then use it for starstar overloading } getsym('POWER',false); if assigned(srsym) and (srsym^.typ=procsym) and (overloaded_operators[STARSTAR]=nil) then overloaded_operators[STARSTAR]:=pprocsym(srsym); { Objpas unit? } if m_objpas in aktmodeswitches then begin hp:=loadunit('OBJPAS',false); objpasunit:=hp^.globalsymtable; { insert in stack } objpasunit^.next:=symtablestack; symtablestack:=objpasunit; { add to the used units } current_module^.used_units.concat(new(pused_unit,init(hp,true))); refsymtable^.insert(new(punitsym,init('OBJPAS',objpasunit))); end else objpasunit:=nil; { save default symtablestack } defaultsymtablestack:=symtablestack; end; procedure loadunits; var s : stringid; hp : pused_unit; hp2 : pmodule; hp3 : psymtable; oldprocsym:Pprocsym; begin oldprocsym:=aktprocsym; consume(_USES); {$ifdef DEBUG} test_symtablestack; {$endif DEBUG} repeat s:=pattern; consume(ID); { avoid uses of itself } if s<>current_module^.modulename^ then begin { load the unit } hp2:=loadunit(s,false); { the current module uses the unit hp2 } current_module^.used_units.concat(new(pused_unit,init(hp2,not current_module^.in_implementation))); pused_unit(current_module^.used_units.last)^.in_uses:=true; if current_module^.compiled then exit; refsymtable^.insert(new(punitsym,init(s,hp2^.globalsymtable))); end else Message1(sym_e_duplicate_id,s); if token=COMMA then begin pattern:=''; consume(COMMA); end else break; until false; consume(SEMICOLON); { set the symtable to systemunit so it gets reorderd correctly } symtablestack:=defaultsymtablestack; { now insert the units in the symtablestack } hp:=pused_unit(current_module^.used_units.first); while assigned(hp) do begin {$IfDef GDB} if (cs_debuginfo in aktmoduleswitches) and not hp^.is_stab_written then begin punitsymtable(hp^.u^.globalsymtable)^.concattypestabto(debuglist); hp^.is_stab_written:=true; hp^.unitid:=psymtable(hp^.u^.globalsymtable)^.unitid; end; {$EndIf GDB} if hp^.in_uses then begin hp3:=symtablestack; while assigned(hp3) do begin { insert units only once ! } if hp^.u^.globalsymtable=hp3 then break; hp3:=hp3^.next; { unit isn't inserted } if hp3=nil then begin psymtable(hp^.u^.globalsymtable)^.next:=symtablestack; symtablestack:=psymtable(hp^.u^.globalsymtable); {$ifdef CHAINPROCSYMS} symtablestack^.chainprocsyms; {$endif CHAINPROCSYMS} {$ifdef DEBUG} test_symtablestack; {$endif DEBUG} end; end; end; hp:=pused_unit(hp^.next); end; aktprocsym:=oldprocsym; end; procedure parse_implementation_uses(symt:Psymtable); begin if token=_USES then begin symt^.symtabletype:=unitsymtable; loadunits; symt^.symtabletype:=globalsymtable; {$ifdef DEBUG} test_symtablestack; {$endif DEBUG} end; end; procedure gen_main_procsym(const name:string;options:longint;st:psymtable); begin {Generate a procsym for main} make_ref:=false; aktprocsym:=new(Pprocsym,init(name)); aktprocsym^.definition:=new(Pprocdef,init); aktprocsym^.definition^.options:=aktprocsym^.definition^.options or options; aktprocsym^.definition^.setmangledname(target_os.cprefix+name); aktprocsym^.definition^.forwarddef:=false; make_ref:=true; { The localst is a local symtable. Change it into the static symtable } dispose(aktprocsym^.definition^.localst,done); aktprocsym^.definition^.localst:=st; { and insert the procsym in symtable } st^.insert(aktprocsym); { set some informations about the main program } with procinfo do begin retdef:=voiddef; _class:=nil; call_offset:=8; framepointer:=frame_pointer; flags:=0; end; end; procedure proc_unit; function is_assembler_generated:boolean; begin is_assembler_generated:=not( codesegment^.empty and datasegment^.empty and bsssegment^.empty and ((importssection=nil) or importssection^.empty) and ((resourcesection=nil) or resourcesection^.empty) ); end; var { unitname : stringid; } names : Tstringcontainer; st : psymtable; unitst : punitsymtable; {$ifdef GDB} pu : pused_unit; {$endif GDB} i : longint; s1,s2 : ^string; {Saves stack space} begin consume(_UNIT); if token=ID then begin { create filenames and unit name } current_module^.SetFileName(current_scanner^.inputfile^.path^+current_scanner^.inputfile^.name^,true); stringdispose(current_module^.modulename); current_module^.modulename:=stringdup(upper(pattern)); { check for system unit } new(s1); new(s2); s1^:=upper(target_info.system_unit); s2^:=upper(current_scanner^.inputfile^.name^); { strip extension, there could only be one dot } i:=pos('.',s2^); if i>0 then s2^:=Copy(s2^,1,i-1); if (cs_compilesystem in aktmoduleswitches) then begin if (cs_check_unit_name in aktglobalswitches) and ((length(current_module^.modulename^)>8) or (current_module^.modulename^<>s1^) or (current_module^.modulename^<>s2^)) then Message1(unit_e_illegal_unit_name,s1^); end else if (current_module^.modulename^=s1^) then Message(unit_w_switch_us_missed); dispose(s2); dispose(s1); end; consume(ID); consume(SEMICOLON); consume(_INTERFACE); { global switches are read, so further changes aren't allowed } current_module^.in_global:=false; Message1(unit_u_start_parse_interface,current_module^.modulename^); { update status } status.currentmodule:=current_module^.modulename^; { maybe turn off m_objpas if we are compiling objpas } if (current_module^.modulename^='OBJPAS') then aktmodeswitches:=aktmodeswitches-[m_objpas]; { this should be placed after uses !!} {$ifndef UseNiceNames} procprefix:='_'+current_module^.modulename^+'$$'; {$else UseNiceNames} procprefix:='_'+tostr(length(current_module^.unitname^))+lowercase(current_module^.unitname^)+'_'; {$endif UseNiceNames} parse_only:=true; { generate now the global symboltable } st:=new(punitsymtable,init(globalsymtable,current_module^.modulename^)); refsymtable:=st; unitst:=punitsymtable(st); { define first as local to overcome dependency conflicts } current_module^.localsymtable:=st; { the unit name must be usable as a unit specifier } { inside the unit itself (PM) } { this also forbids to have another symbol } { with the same name as the unit } refsymtable^.insert(new(punitsym,init(current_module^.modulename^,unitst))); { a unit compiled at command line must be inside the loaded_unit list } if (compile_level=1) then loaded_units.insert(current_module); { load default units, like the system unit } loaddefaultunits; { reset } make_ref:=true; lexlevel:=0; { insert qualifier for the system unit (allows system.writeln) } if not(cs_compilesystem in aktmoduleswitches) then begin if token=_USES then begin unitst^.symtabletype:=unitsymtable; loadunits; { has it been compiled at a higher level ?} if current_module^.compiled then begin { this unit symtable is obsolete } { dispose(unitst,done); disposed as localsymtable !! } exit; end; unitst^.symtabletype:=globalsymtable; end; { ... but insert the symbol table later } st^.next:=symtablestack; symtablestack:=st; end else { while compiling a system unit, some types are directly inserted } begin st^.next:=symtablestack; symtablestack:=st; insert_intern_types(st); end; { now we know the place to insert the constants } constsymtable:=symtablestack; { move the global symtab from the temporary local to global } current_module^.globalsymtable:=current_module^.localsymtable; current_module^.localsymtable:=nil; { ... parse the declarations } read_interface_declarations; {$ifdef GDB} { add all used definitions} if (cs_debuginfo in aktmoduleswitches) then begin { all types } punitsymtable(refsymtable)^.concattypestabto(debuglist); { and all local symbols} refsymtable^.concatstabto(debuglist); end; {$endif GDB} { leave when we got an error } if status.errorcount>0 then begin Message1(unit_f_errors_in_unit,tostr(status.errorcount)); exit; end; { Parse the implementation section } consume(_IMPLEMENTATION); current_module^.in_implementation:=true; Message1(unit_u_start_parse_implementation,current_module^.modulename^); parse_only:=false; { generates static symbol table } st:=new(punitsymtable,init(staticsymtable,current_module^.modulename^)); current_module^.localsymtable:=st; { remove the globalsymtable from the symtable stack } { to reinsert it after loading the implementation units } symtablestack:=unitst^.next; { number the definitions, so a deref from other units works } refsymtable^.number_defs; {$ifdef UseBrowser} refsymtable^.number_symbols; { we don't want implementation units symbols in unitsymtable !! PM } refsymtable:=st; {$endif UseBrowser} { Read the implementation units } parse_implementation_uses(unitst); if current_module^.compiled then begin exit; end; { reset ranges/stabs in exported definitions } { If I find who removed this line !!!!!!! I AM TIRED OF THIS !!!!!!!!!!! DONT TOUCH WITHOUT ASKING ME Pierre Muller } reset_global_defs; { All units are read, now give them a number } numberunits; { now we can change refsymtable } refsymtable:=st; { but reinsert the global symtable as lasts } unitst^.next:=symtablestack; symtablestack:=unitst; {$ifdef DEBUG} test_symtablestack; {$endif DEBUG} constsymtable:=symtablestack; {$ifdef Splitheap} if testsplit then begin Split_Heap; allow_special:=true; Switch_to_temp_heap; end; { it will report all crossings } allow_special:=false; {$endif Splitheap} { Generate a procsym } gen_main_procsym(current_module^.modulename^+'_init',pounitinit,st); { Compile the unit } codegen_newprocedure; names.init; names.insert('INIT$$'+current_module^.modulename^); names.insert(target_os.cprefix+current_module^.modulename^+'_init'); compile_proc_body(names,true,false); names.done; codegen_doneprocedure; { avoid self recursive destructor call !! PM } aktprocsym^.definition^.localst:=nil; { finalize? } if token=_FINALIZATION then begin { set module options } current_module^.flags:=current_module^.flags or uf_finalize; { Generate a procsym } gen_main_procsym(current_module^.modulename^+'_finalize',pounitfinalize,st); { Compile the finalize } codegen_newprocedure; names.init; names.insert('FINALIZE$$'+current_module^.modulename^); names.insert(target_os.cprefix+current_module^.modulename^+'_finalize'); compile_proc_body(names,true,false); names.done; codegen_doneprocedure; { avoid self recursive destructor call !! PM } aktprocsym^.definition^.localst:=nil; end; { the last char should always be a point } consume(POINT); { avoid self recursive destructor call !! PM } aktprocsym^.definition^.localst:=nil; { absence does not matter here !! } aktprocsym^.definition^.forwarddef:=false; { test static symtable } st^.allsymbolsused; { size of the static data } datasize:=st^.datasize; {$ifdef GDB} { add all used definitions even for implementation} if (cs_debuginfo in aktmoduleswitches) then begin { all types } punitsymtable(st)^.concattypestabto(debuglist); { and all local symbols} st^.concatstabto(debuglist); end; {$endif GDB} { tests, if all (interface) forwards are resolved } symtablestack^.check_forwards; { now we have a correct unit, change the symtable type } current_module^.in_implementation:=false; symtablestack^.symtabletype:=unitsymtable; {$ifdef GDB} punitsymtable(symtablestack)^.is_stab_written:=false; {$endif GDB} { leave when we got an error } if status.errorcount>0 then begin Message1(unit_f_errors_in_unit,tostr(status.errorcount)); exit; end; { generate imports } if current_module^.uses_imports then importlib^.generatelib; { insert own objectfile, or say that it's in a library (no check for an .o when loading) } if is_assembler_generated then insertobjectfile else current_module^.flags:=current_module^.flags or uf_in_library; { Write out the ppufile } writeunitas(current_module^.ppufilename^,punitsymtable(symtablestack)); { write local browser } {$ifdef UseBrowser} if cs_local_browser in aktmoduleswitches then begin current_module^.localsymtable:=refsymtable; refsymtable^.write; refsymtable^.write_browser; end; {$endif UseBrowser} {$ifdef GDB} pu:=pused_unit(usedunits.first); while assigned(pu) do begin punitsymtable(pu^.u^.globalsymtable)^.is_stab_written:=false; pu:=pused_unit(pu^.next); end; {$endif GDB} { remove static symtable (=refsymtable) here to save some mem } {$ifndef UseBrowser} dispose(st,done); current_module^.localsymtable:=nil; {$endif UseBrowser} if is_assembler_generated then begin { finish asmlist by adding segment starts } insertsegment; { assemble } create_objectfile; end; end; procedure proc_program(islibrary : boolean); var st : psymtable; names : Tstringcontainer; begin parse_only:=false; if islibrary then begin consume(_LIBRARY); stringdispose(current_module^.modulename); current_module^.modulename:=stringdup(pattern); consume(ID); consume(SEMICOLON); end else { is there an program head ? } if token=_PROGRAM then begin consume(_PROGRAM); stringdispose(current_module^.modulename); current_module^.modulename:=stringdup(pattern); consume(ID); if token=LKLAMMER then begin consume(LKLAMMER); idlist; consume(RKLAMMER); end; consume(SEMICOLON); end; { global switches are read, so further changes aren't allowed } current_module^.in_global:=false; { set implementation flag } current_module^.in_implementation:=true; { insert after the unit symbol tables the static symbol table } { of the program } st:=new(punitsymtable,init(staticsymtable,current_module^.modulename^)); current_module^.localsymtable:=st; symtablestack:=st; refsymtable:=st; { necessary for browser } loaded_units.insert(current_module); { load standard units (system,objpas unit) } loaddefaultunits; { reset } lexlevel:=0; {Load the units used by the program we compile.} if token=_USES then loadunits; {Insert the name of the main program into the symbol table.} if current_module^.modulename^<>'' then st^.insert(new(pprogramsym,init(current_module^.modulename^))); { ...is also constsymtable, this is the symtable where } { the elements of enumeration types are inserted } constsymtable:=st; { Generate a procsym for main } gen_main_procsym('main',poproginit,st); { reset } procprefix:=''; in_except_block:=false; {The program intialization needs an alias, so it can be called from the bootstrap code.} codegen_newprocedure; names.init; names.insert('program_init'); names.insert('PASCALMAIN'); names.insert(target_os.cprefix+'main'); {$ifdef m68k} if target_info.target=target_m68k_PalmOS then names.insert('PilotMain'); {$endif} compile_proc_body(names,true,false); names.done; { avoid self recursive destructor call !! PM } aktprocsym^.definition^.localst:=nil; codegen_doneprocedure; { consume the last point } consume(POINT); { leave when we got an error } if status.errorcount>0 then begin Message1(unit_f_errors_in_unit,tostr(status.errorcount)); exit; end; { generate imports } if current_module^.uses_imports then importlib^.generatelib; { insert heap } insertheap; inserttargetspecific; datasize:=symtablestack^.datasize; { finish asmlist by adding segment starts } insertsegment; { insert own objectfile } insertobjectfile; { assemble and link } create_objectfile; { create the executable when we are at level 1 } if (compile_level=1) then begin if (cs_link_deffile in aktglobalswitches) then deffile.writefile; if (not current_module^.is_unit) then Linker.MakeExecutable; end; end; end. { $Log$ Revision 1.73 1998-10-22 23:53:27 peter * leave when an error has been in the interface (else other units could be compiled with the implementation uses!) * don't always compile when not in implementation with a second_load Revision 1.72 1998/10/22 11:36:34 peter * fixed imports generation at the wrong place Revision 1.71 1998/10/21 20:13:10 peter * check for importsection for empty asm file Revision 1.70 1998/10/20 09:30:05 peter * set also in_library flag when no .o is generated Revision 1.68 1998/10/19 08:54:59 pierre * wrong stabs info corrected once again !! + variable vmt offset with vmt field only if required implemented now !!! Revision 1.67 1998/10/13 13:10:25 peter * new style for m68k/i386 infos and enums Revision 1.66 1998/10/09 16:36:05 pierre * some memory leaks specific to usebrowser define fixed * removed tmodule.implsymtable (was like tmodule.localsymtable) Revision 1.65 1998/10/09 14:38:55 pierre * add a second load for PPU file Revision 1.64 1998/10/09 08:56:28 pierre * several memory leaks fixed Revision 1.63 1998/10/08 23:29:01 peter * -vu shows unit info, -vt shows tried/used files Revision 1.62 1998/10/08 17:17:25 pierre * current_module old scanner tagged as invalid if unit is recompiled + added ppheap for better info on tracegetmem of heaptrc (adds line column and file index) * several memory leaks removed ith help of heaptrc !! Revision 1.61 1998/10/08 13:48:47 peter * fixed memory leaks for do nothing source * fixed unit interdependency Revision 1.60 1998/10/06 17:16:54 pierre * some memory leaks fixed (thanks to Peter for heaptrc !) Revision 1.59 1998/10/05 21:33:26 peter * fixed 161,165,166,167,168 Revision 1.58 1998/09/30 16:43:37 peter * fixed unit interdependency with circular uses Revision 1.57 1998/09/30 12:11:52 peter * fixed circular uses which looped forever Revision 1.56 1998/09/28 11:22:15 pierre * did not compile for browser * merge from fixes Revision 1.48.2.1 1998/09/28 10:55:16 pierre fix for current_module dispose bug Revision 1.55 1998/09/28 11:04:03 peter * fixed loaddefaultunits which was at the wrong place for programs, so the default defs were not loaded when main was initialized Revision 1.54 1998/09/24 23:49:12 peter + aktmodeswitches Revision 1.53 1998/09/23 12:20:50 pierre * main program tmodule had no symtable (crashed browser) * unit symbols problem fixed !! Revision 1.52 1998/09/22 17:13:49 pierre + browsing updated and developed records and objects fields are also stored Revision 1.51 1998/09/22 15:40:55 peter * some extra ifdef GDB Revision 1.50 1998/09/21 08:45:17 pierre + added vmt_offset in tobjectdef.write for fututre use (first steps to have objects without vmt if no virtual !!) + added fpu_used field for tabstractprocdef : sets this level to 2 if the functions return with value in FPU (is then set to correct value at parsing of implementation) THIS MIGHT refuse some code with FPU expression too complex that were accepted before and even in some cases that don't overflow in fact ( like if f : float; is a forward that finally in implementation only uses one fpu register !!) Nevertheless I think that it will improve security on FPU operations !! * most other changes only for UseBrowser code (added symtable references for record and objects) local switch for refs to args and local of each function (static symtable still missing) UseBrowser still not stable and probably broken by the definition hash array !! Revision 1.49 1998/09/18 08:01:36 pierre + improvement on the usebrowser part (does not work correctly for now) Revision 1.48 1998/09/09 15:33:07 peter * fixed in_global to allow directives also after interface token Revision 1.47 1998/09/09 11:50:55 pierre * forward def are not put in record or objects + added check for forwards also in record and objects * dummy parasymtable for unit initialization removed from symtable stack Revision 1.46 1998/09/03 11:24:01 peter * moved more inputfile things from tscannerfile to tinputfile * changed ifdef Sourceline to cs_asm_source Revision 1.45 1998/08/31 12:26:28 peter * m68k and palmos updates from surebugfixes Revision 1.44 1998/08/26 15:35:33 peter * fixed scannerfiles for macros + $I %% Revision 1.43 1998/08/26 10:08:47 peter * fixed problem with libprefix at the wrong place * fixed lib generation with smartlinking and no -CS used Revision 1.42 1998/08/19 18:04:54 peter * fixed current_module^.in_implementation flag Revision 1.41 1998/08/17 10:10:08 peter - removed OLDPPU Revision 1.40 1998/08/17 09:17:50 peter * static/shared linking updates Revision 1.39 1998/08/14 21:56:37 peter * setting the outputfile using -o works now to create static libs Revision 1.38 1998/08/10 14:50:13 peter + localswitches, moduleswitches, globalswitches splitting Revision 1.37 1998/08/10 10:18:31 peter + Compiler,Comphook unit which are the new interface units to the compiler Revision 1.36 1998/07/14 14:46:54 peter * released NEWINPUT Revision 1.35 1998/07/08 12:39:38 peter * heap_size for m68k Revision 1.34 1998/07/07 11:20:03 peter + NEWINPUT for a better inputfile and scanner object Revision 1.33 1998/06/25 11:15:34 pierre * ppu files where not closed in newppu !! second compilation was impossible due to too many opened files (not visible in 'make cycle' as we remove all the ppu files) Revision 1.32 1998/06/25 08:48:16 florian * first version of rtti support Revision 1.31 1998/06/24 14:48:35 peter * ifdef newppu -> ifndef oldppu Revision 1.30 1998/06/17 14:10:16 peter * small os2 fixes * fixed interdependent units with newppu (remake3 under linux works now) Revision 1.29 1998/06/16 08:56:25 peter + targetcpu * cleaner pmodules for newppu Revision 1.28 1998/06/13 00:10:10 peter * working browser and newppu * some small fixes against crashes which occured in bp7 (but not in fpc?!) Revision 1.27 1998/06/11 13:58:08 peter * small fix to let newppu compile Revision 1.26 1998/06/09 16:01:47 pierre + added procedure directive parsing for procvars (accepted are popstack cdecl and pascal) + added C vars with the following syntax var C calias 'true_c_name';(can be followed by external) reason is that you must add the Cprefix which is target dependent Revision 1.25 1998/06/08 22:59:49 peter * smartlinking works for win32 * some defines to exclude some compiler parts Revision 1.24 1998/06/08 13:13:44 pierre + temporary variables now in temp_gen.pas unit because it is processor independent * mppc68k.bat modified to undefine i386 and support_mmx (which are defaults for i386) Revision 1.23 1998/06/05 17:47:29 peter * some better uses clauses Revision 1.22 1998/06/05 14:37:34 pierre * fixes for inline for operators * inline procedure more correctly restricted Revision 1.21 1998/06/04 23:51:53 peter * m68k compiles + .def file creation moved to gendef.pas so it could also be used for win32 Revision 1.20 1998/06/04 09:55:42 pierre * demangled name of procsym reworked to become independant of the mangling scheme Revision 1.19 1998/06/03 23:40:38 peter + unlimited file support, release tempclose Revision 1.18 1998/06/03 22:49:00 peter + wordbool,longbool * rename bis,von -> high,low * moved some systemunit loading/creating to psystem.pas Revision 1.17 1998/05/28 14:40:25 peter * fixes for newppu, remake3 works now with it Revision 1.16 1998/05/27 19:45:06 peter * symtable.pas splitted into includefiles * symtable adapted for $ifdef NEWPPU Revision 1.15 1998/05/23 01:21:22 peter + aktasmmode, aktoptprocessor, aktoutputformat + smartlink per module $SMARTLINK-/+ (like MMX) and moved to aktswitches + $LIBNAME to set the library name where the unit will be put in * splitted cgi386 a bit (codeseg to large for bp7) * nasm, tasm works again. nasm moved to ag386nsm.pas Revision 1.14 1998/05/20 09:42:35 pierre + UseTokenInfo now default * unit in interface uses and implementation uses gives error now * only one error for unknown symbol (uses lastsymknown boolean) the problem came from the label code ! + first inlined procedures and function work (warning there might be allowed cases were the result is still wrong !!) * UseBrower updated gives a global list of all position of all used symbols with switch -gb Revision 1.13 1998/05/12 10:47:00 peter * moved printstatus to verb_def + V_Normal which is between V_Error and V_Warning and doesn't have a prefix like error: warning: and is included in V_Default * fixed some messages * first time parameter scan is only for -v and -T - removed old style messages Revision 1.12 1998/05/11 13:07:56 peter + $ifdef NEWPPU for the new ppuformat + $define GDB not longer required * removed all warnings and stripped some log comments * no findfirst/findnext anymore to remove smartlink *.o files Revision 1.11 1998/05/06 18:36:53 peter * tai_section extended with code,data,bss sections and enumerated type * ident 'compiled by FPC' moved to pmodules * small fix for smartlink Revision 1.10 1998/05/04 17:54:28 peter + smartlinking works (only case jumptable left todo) * redesign of systems.pas to support assemblers and linkers + Unitname is now also in the PPU-file, increased version to 14 Revision 1.9 1998/05/01 16:38:45 florian * handling of private and protected fixed + change_keywords_to_tp implemented to remove keywords which aren't supported by tp * break and continue are now symbols of the system unit + widestring, longstring and ansistring type released Revision 1.8 1998/04/30 15:59:41 pierre * GDB works again better : correct type info in one pass + UseTokenInfo for better source position * fixed one remaining bug in scanner for line counts * several little fixes Revision 1.7 1998/04/29 10:33:59 pierre + added some code for ansistring (not complete nor working yet) * corrected operator overloading * corrected nasm output + started inline procedures + added starstarn : use ** for exponentiation (^ gave problems) + started UseTokenInfo cond to get accurate positions Revision 1.6 1998/04/27 23:10:28 peter + new scanner * $makelib -> if smartlink * small filename fixes pmodule.setfilename * moved import from files.pas -> import.pas Revision 1.5 1998/04/14 23:27:03 florian + exclude/include with constant second parameter added Revision 1.4 1998/04/10 14:41:43 peter * removed some Hints * small speed optimization for AsmLn Revision 1.3 1998/04/03 09:51:00 daniel * Fixed heap allocation for OS/2. }