{ Copyright (c) 1998-2002 by Florian Klaempfl This unit implements the first loading and searching of the modules 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 fppu; {$i fpcdefs.inc} { close ppufiles on system that are short on file handles like DOS system PM } {$ifdef GO32V2} {$define SHORT_ON_FILE_HANDLES} {$endif GO32V2} {$ifdef WATCOM} {$define SHORT_ON_FILE_HANDLES} {$endif WATCOM} interface uses cutils,cclasses, globtype,globals,finput,fmodule, symbase,ppu,symtype; type tppumodule = class(tmodule) ppufile : tcompilerppufile; { the PPU file } sourcefn : pshortstring; { Source specified with "uses .. in '..'" } comments : tstringlist; {$ifdef Test_Double_checksum} crc_array : pointer; crc_size : longint; crc_array2 : pointer; crc_size2 : longint; {$endif def Test_Double_checksum} constructor create(LoadedFrom:TModule;const s:string;const fn:string;_is_unit:boolean); destructor destroy;override; procedure reset;override; function openppu:boolean; procedure getppucrc; procedure writeppu; procedure loadppu; function needrecompile:boolean; private function search_unit(onlysource,shortname:boolean):boolean; procedure load_interface; procedure load_implementation; procedure load_usedunits; procedure printcomments; procedure queuecomment(s:string;v,w:longint); procedure writesourcefiles; procedure writeusedunit(intf:boolean); procedure writelinkcontainer(var p:tlinkcontainer;id:byte;strippath:boolean); procedure writederefmap; procedure writederefdata; procedure writeImportSymbols; procedure readsourcefiles; procedure readloadunit; procedure readlinkcontainer(var p:tlinkcontainer); procedure readderefmap; procedure readderefdata; procedure readImportSymbols; {$IFDEF MACRO_DIFF_HINT} procedure writeusedmacro(p:TNamedIndexItem;arg:pointer); procedure writeusedmacros; procedure readusedmacros; {$ENDIF} end; procedure reload_flagged_units; function registerunit(callermodule:tmodule;const s : TIDString;const fn:string) : tppumodule; implementation uses SysUtils, cfileutils, verbose,systems,version, symtable, symsym, scanner, aasmbase,ogbase, parser, comphook; {**************************************************************************** Helpers ****************************************************************************} procedure reload_flagged_units; var hp : tmodule; begin { now reload all dependent units } hp:=tmodule(loaded_units.first); while assigned(hp) do begin if hp.do_reload then tppumodule(hp).loadppu; hp:=tmodule(hp.next); end; end; {**************************************************************************** TPPUMODULE ****************************************************************************} constructor tppumodule.create(LoadedFrom:TModule;const s:string;const fn:string;_is_unit:boolean); begin inherited create(LoadedFrom,s,_is_unit); ppufile:=nil; sourcefn:=stringdup(fn); end; destructor tppumodule.Destroy; begin if assigned(ppufile) then ppufile.free; ppufile:=nil; comments.free; comments:=nil; stringdispose(sourcefn); inherited Destroy; end; procedure tppumodule.reset; begin if assigned(ppufile) then begin ppufile.free; ppufile:=nil; end; inherited reset; end; procedure tppumodule.queuecomment(s:string;v,w:longint); begin if comments = nil then comments := tstringlist.create; comments.insert(s); end; procedure tppumodule.printcomments; var comment: string; begin if comments = nil then exit; { comments are inserted in reverse order } repeat comment := comments.getlast; if length(comment) = 0 then exit; do_comment(v_normal, comment); until false; end; function tppumodule.openppu:boolean; var ppufiletime : longint; begin openppu:=false; Message1(unit_t_ppu_loading,ppufilename^,@queuecomment); { Get ppufile time (also check if the file exists) } ppufiletime:=getnamedfiletime(ppufilename^); if ppufiletime=-1 then exit; { Open the ppufile } Message1(unit_u_ppu_name,ppufilename^); ppufile:=tcompilerppufile.create(ppufilename^); if not ppufile.openfile then begin ppufile.free; ppufile:=nil; Message(unit_u_ppu_file_too_short); exit; end; { check for a valid PPU file } if not ppufile.CheckPPUId then begin ppufile.free; ppufile:=nil; Message(unit_u_ppu_invalid_header); exit; end; { check for allowed PPU versions } if not (ppufile.GetPPUVersion = CurrentPPUVersion) then begin Message1(unit_u_ppu_invalid_version,tostr(ppufile.GetPPUVersion),@queuecomment); ppufile.free; ppufile:=nil; exit; end; { check the target processor } if tsystemcpu(ppufile.header.cpu)<>target_cpu then begin ppufile.free; ppufile:=nil; Message(unit_u_ppu_invalid_processor,@queuecomment); exit; end; { check target } if tsystem(ppufile.header.target)<>target_info.system then begin ppufile.free; ppufile:=nil; Message(unit_u_ppu_invalid_target,@queuecomment); exit; end; {$ifdef cpufpemu} { check if floating point emulation is on?} { fpu emulation isn't unit levelwise if ((ppufile.header.flags and uf_fpu_emulation)<>0) and (cs_fp_emulation in current_settings.moduleswitches) then begin ppufile.free; ppufile:=nil; Message(unit_u_ppu_invalid_fpumode); exit; end; } {$endif cpufpemu} { Load values to be access easier } flags:=ppufile.header.flags; crc:=ppufile.header.checksum; interface_crc:=ppufile.header.interface_checksum; { Show Debug info } Message1(unit_u_ppu_time,filetimestring(ppufiletime)); Message1(unit_u_ppu_flags,tostr(flags)); Message1(unit_u_ppu_crc,hexstr(ppufile.header.checksum,8)); Message1(unit_u_ppu_crc,hexstr(ppufile.header.interface_checksum,8)+' (intfc)'); Comment(V_used,'Number of definitions: '+tostr(ppufile.header.deflistsize)); Comment(V_used,'Number of symbols: '+tostr(ppufile.header.symlistsize)); do_compile:=false; openppu:=true; end; function tppumodule.search_unit(onlysource,shortname:boolean):boolean; var singlepathstring, filename : string; Function UnitExists(const ext:string;var foundfile:string):boolean; begin Message1(unit_t_unitsearch,Singlepathstring+filename+ext); UnitExists:=FindFile(FileName+ext,Singlepathstring,true,foundfile); end; Function PPUSearchPath(const s:string):boolean; var found : boolean; hs : string; begin Found:=false; singlepathstring:=FixPath(s,false); { Check for PPU file } Found:=UnitExists(target_info.unitext,hs); if Found then Begin SetFileName(hs,false); Found:=OpenPPU; End; PPUSearchPath:=Found; end; Function SourceSearchPath(const s:string):boolean; var found : boolean; hs : string; begin Found:=false; singlepathstring:=FixPath(s,false); { Check for Sources } ppufile:=nil; do_compile:=true; recompile_reason:=rr_noppu; {Check for .pp file} Found:=UnitExists(sourceext,hs); if not Found then begin { Check for .pas } Found:=UnitExists(pasext,hs); end; if not Found and (m_mac in current_settings.modeswitches) then begin { Check for .p, if mode is macpas} Found:=UnitExists(pext,hs); end; stringdispose(mainsource); if Found then begin sources_avail:=true; { Load Filenames when found } mainsource:=StringDup(hs); SetFileName(hs,false); end else sources_avail:=false; SourceSearchPath:=Found; end; Function SearchPath(const s:string):boolean; var found : boolean; begin { First check for a ppu, then for the source } found:=false; if not onlysource then found:=PPUSearchPath(s); if not found then found:=SourceSearchPath(s); SearchPath:=found; end; Function SearchPathList(list:TSearchPathList):boolean; var hp : TStringListItem; found : boolean; begin found:=false; hp:=TStringListItem(list.First); while assigned(hp) do begin found:=SearchPath(hp.Str); if found then break; hp:=TStringListItem(hp.next); end; SearchPathList:=found; end; var fnd : boolean; hs : string; begin if shortname then filename:=FixFileName(Copy(realmodulename^,1,8)) else filename:=FixFileName(realmodulename^); { try to find unit 1. look for ppu in cwd 2. look for ppu in outputpath if set, this is tp7 compatible (PFV) 3. look for the specified source file (from the uses line) 4. look for source in cwd 5. look in same path as local unit 6. local unit pathlist 7. global unit pathlist } fnd:=false; if not onlysource then begin fnd:=PPUSearchPath('.'); if (not fnd) and (outputpath^<>'') then fnd:=PPUSearchPath(outputpath^); end; if (not fnd) and (sourcefn^<>'') then begin { the full filename is specified so we can't use here the searchpath (PFV) } Message1(unit_t_unitsearch,ChangeFileExt(sourcefn^,sourceext)); fnd:=FindFile(ChangeFileExt(sourcefn^,sourceext),'',true,hs); if not fnd then begin Message1(unit_t_unitsearch,ChangeFileExt(sourcefn^,pasext)); fnd:=FindFile(ChangeFileExt(sourcefn^,pasext),'',true,hs); end; if not fnd and ((m_mac in current_settings.modeswitches) or (tf_p_ext_support in target_info.flags)) then begin Message1(unit_t_unitsearch,ChangeFileExt(sourcefn^,pext)); fnd:=FindFile(ChangeFileExt(sourcefn^,pext),'',true,hs); end; if fnd then begin sources_avail:=true; do_compile:=true; recompile_reason:=rr_noppu; stringdispose(mainsource); mainsource:=StringDup(hs); SetFileName(hs,false); end; end; if not fnd then fnd:=SourceSearchPath('.'); if (not fnd) and Assigned(Loaded_From) then begin fnd:=PPUSearchPath(Loaded_From.Path^); if not fnd then fnd:=SourceSearchPath(Loaded_From.Path^); if not fnd then fnd:=SearchPathList(Loaded_From.LocalUnitSearchPath); end; if not fnd then fnd:=SearchPathList(UnitSearchPath); { try to find a file with the first 8 chars of the modulename, like dos } if (not fnd) and (length(filename)>8) then begin filename:=copy(filename,1,8); fnd:=SearchPath('.'); if (not fnd) then fnd:=SearchPathList(LocalUnitSearchPath); if not fnd then fnd:=SearchPathList(UnitSearchPath); end; search_unit:=fnd; end; {********************************** PPU Reading/Writing Helpers ***********************************} {$IFDEF MACRO_DIFF_HINT} var is_initial: Boolean; procedure tppumodule.writeusedmacro(p:TNamedIndexItem;arg:pointer); begin if tmacro(p).is_used or is_initial then begin ppufile.putstring(p.name); ppufile.putbyte(byte(is_initial)); ppufile.putbyte(byte(tmacro(p).is_used)); end; end; procedure tppumodule.writeusedmacros; begin ppufile.do_crc:=false; is_initial:= true; initialmacrosymtable.foreach(@writeusedmacro,nil); is_initial:= false; if assigned(globalmacrosymtable) then globalmacrosymtable.foreach(@writeusedmacro,nil); localmacrosymtable.foreach(@writeusedmacro,nil); ppufile.writeentry(ibusedmacros); ppufile.do_crc:=true; end; {$ENDIF} procedure tppumodule.writesourcefiles; var hp : tinputfile; i,j : longint; begin { second write the used source files } ppufile.do_crc:=false; hp:=sourcefiles.files; { write source files directly in good order } j:=0; while assigned(hp) do begin inc(j); hp:=hp.ref_next; end; while j>0 do begin hp:=sourcefiles.files; for i:=1 to j-1 do hp:=hp.ref_next; ppufile.putstring(hp.name^); ppufile.putlongint(hp.getfiletime); dec(j); end; ppufile.writeentry(ibsourcefiles); ppufile.do_crc:=true; end; procedure tppumodule.writeusedunit(intf:boolean); var hp : tused_unit; oldcrc : boolean; begin { write a reference for each used unit } hp:=tused_unit(used_units.first); while assigned(hp) do begin if hp.in_interface=intf then begin ppufile.putstring(hp.u.realmodulename^); { the checksum should not affect the crc of this unit ! (PFV) } oldcrc:=ppufile.do_crc; ppufile.do_crc:=false; ppufile.putlongint(longint(hp.checksum)); ppufile.putlongint(longint(hp.interface_checksum)); ppufile.do_crc:=oldcrc; end; hp:=tused_unit(hp.next); end; ppufile.do_interface_crc:=true; ppufile.writeentry(ibloadunit); end; procedure tppumodule.writelinkcontainer(var p:tlinkcontainer;id:byte;strippath:boolean); var hcontainer : tlinkcontainer; s : string; mask : cardinal; begin hcontainer:=TLinkContainer.Create; while not p.empty do begin s:=p.get(mask); if strippath then ppufile.putstring(ExtractFileName(s)) else ppufile.putstring(s); ppufile.putlongint(mask); hcontainer.add(s,mask); end; ppufile.writeentry(id); p.Free; p:=hcontainer; end; procedure tppumodule.writederefmap; var i : longint; oldcrc : boolean; begin { This does not influence crc } oldcrc:=ppufile.do_crc; ppufile.do_crc:=false; { The unit map used for resolving } ppufile.putlongint(derefmapcnt); for i:=0 to derefmapcnt-1 do begin if not assigned(derefmap[i].u) then internalerror(2005011512); ppufile.putstring(derefmap[i].u.modulename^) end; ppufile.writeentry(ibderefmap); ppufile.do_crc:=oldcrc; end; procedure tppumodule.writederefdata; var oldcrc : boolean; len,hlen : longint; buf : array[0..1023] of byte; begin if derefdataintflen>derefdata.size then internalerror(200310223); derefdata.seek(0); { Write interface data } len:=derefdataintflen; while (len>0) do begin if len>1024 then hlen:=1024 else hlen:=len; derefdata.read(buf,hlen); ppufile.putdata(buf,hlen); dec(len,hlen); end; { Write implementation data, this does not influence crc } oldcrc:=ppufile.do_crc; ppufile.do_crc:=false; len:=derefdata.size-derefdataintflen; while (len>0) do begin if len>1024 then hlen:=1024 else hlen:=len; derefdata.read(buf,hlen); ppufile.putdata(buf,hlen); dec(len,hlen); end; if derefdata.pos<>derefdata.size then internalerror(200310224); ppufile.do_crc:=oldcrc; ppufile.writeentry(ibderefdata); end; procedure tppumodule.writeImportSymbols; var i,j : longint; ImportLibrary : TImportLibrary; ImportSymbol : TImportSymbol; begin for i:=0 to ImportLibraryList.Count-1 do begin ImportLibrary:=TImportLibrary(ImportLibraryList[i]); ppufile.putstring(ImportLibrary.Name); ppufile.putlongint(ImportLibrary.ImportSymbolList.Count); for j:=0 to ImportLibrary.ImportSymbolList.Count-1 do begin ImportSymbol:=TImportSymbol(ImportLibrary.ImportSymbolList[j]); ppufile.putstring(ImportSymbol.Name); ppufile.putlongint(ImportSymbol.OrdNr); ppufile.putbyte(byte(ImportSymbol.IsVar)); end; end; ppufile.writeentry(ibImportSymbols); end; {$IFDEF MACRO_DIFF_HINT} { Define MACRO_DIFF_HINT for the whole compiler (and ppudump) to turn this facility on. Also the hint messages defined below must be commented in in the msg/errore.msg file. There is some problems with this, thats why it is shut off: At the first compilation, consider a macro which is not initially defined, but it is used (e g the check that it is undefined is true). Since it do not exist, there is no macro object where the is_used flag can be set. Later on when the macro is defined, and the ppu is opened, the check cannot detect this. Also, in which macro object should this flag be set ? It cant be set for macros in the initialmacrosymboltable since this table is shared between different files. } procedure tppumodule.readusedmacros; var hs : string; mac : tmacro; was_initial, was_used : boolean; {Reads macros which was defined or used when the module was compiled. This is done when a ppu file is open, before it possibly is parsed.} begin while not ppufile.endofentry do begin hs:=ppufile.getstring; was_initial:=boolean(ppufile.getbyte); was_used:=boolean(ppufile.getbyte); mac:=tmacro(initialmacrosymtable.Find(hs)); if assigned(mac) then begin {$ifndef EXTDEBUG} { if we don't have the sources why tell } if sources_avail then {$endif ndef EXTDEBUG} if (not was_initial) and was_used then Message2(unit_h_cond_not_set_in_last_compile,hs,mainsource^); end else { not assigned } if was_initial and was_used then Message2(unit_h_cond_set_in_last_compile,hs,mainsource^); end; end; {$ENDIF} procedure tppumodule.readsourcefiles; var temp,hs : string; temp_dir : string; main_dir : string; found, is_main : boolean; orgfiletime, source_time : longint; hp : tinputfile; begin sources_avail:=(flags and uf_release) = 0; if not sources_avail then exit; is_main:=true; main_dir:=''; while not ppufile.endofentry do begin hs:=ppufile.getstring; orgfiletime:=ppufile.getlongint; temp_dir:=''; if (flags and uf_in_library)<>0 then begin sources_avail:=false; temp:=' library'; end else if pos('Macro ',hs)=1 then begin { we don't want to find this file } { but there is a problem with file indexing !! } temp:=''; end else begin { check the date of the source files: 1 path of ppu 2 path of main source 3 current dir 4 include/unit path } Source_Time:=GetNamedFileTime(path^+hs); found:=false; if Source_Time<>-1 then hs:=path^+hs else if not(is_main) then begin Source_Time:=GetNamedFileTime(main_dir+hs); if Source_Time<>-1 then hs:=main_dir+hs; end; if Source_Time=-1 then Source_Time:=GetNamedFileTime(hs); if (Source_Time=-1) then begin if is_main then found:=unitsearchpath.FindFile(hs,true,temp_dir) else found:=includesearchpath.FindFile(hs,true,temp_dir); if found then begin Source_Time:=GetNamedFileTime(temp_dir); if Source_Time<>-1 then hs:=temp_dir; end; end; if Source_Time<>-1 then begin if is_main then main_dir:=ExtractFilePath(hs); temp:=' time '+filetimestring(source_time); if (orgfiletime<>-1) and (source_time<>orgfiletime) then begin do_compile:=true; recompile_reason:=rr_sourcenewer; Message2(unit_u_source_modified,hs,ppufilename^); temp:=temp+' *'; end; end else begin sources_avail:=false; temp:=' not found'; end; hp:=tinputfile.create(hs); { the indexing is wrong here PM } sourcefiles.register_file(hp); end; if is_main then begin stringdispose(mainsource); mainsource:=stringdup(hs); end; Message1(unit_u_ppu_source,hs+temp); is_main:=false; end; { check if we want to rebuild every unit, only if the sources are available } if do_build and sources_avail then begin do_compile:=true; recompile_reason:=rr_build; end; end; procedure tppumodule.readloadunit; var hs : string; pu : tused_unit; hp : tppumodule; intfchecksum, checksum : cardinal; begin while not ppufile.endofentry do begin hs:=ppufile.getstring; checksum:=cardinal(ppufile.getlongint); intfchecksum:=cardinal(ppufile.getlongint); { set the state of this unit before registering, this is needed for a correct circular dependency check } hp:=registerunit(self,hs,''); pu:=addusedunit(hp,false,nil); pu.checksum:=checksum; pu.interface_checksum:=intfchecksum; end; in_interface:=false; end; procedure tppumodule.readlinkcontainer(var p:tlinkcontainer); var s : string; m : longint; begin while not ppufile.endofentry do begin s:=ppufile.getstring; m:=ppufile.getlongint; p.add(s,m); end; end; procedure tppumodule.readderefmap; var i : longint; begin { Load unit map used for resolving } derefmapsize:=ppufile.getlongint; derefmapcnt:=derefmapsize; getmem(derefmap,derefmapsize*sizeof(tderefmaprec)); fillchar(derefmap^,derefmapsize*sizeof(tderefmaprec),0); for i:=0 to derefmapsize-1 do derefmap[i].modulename:=stringdup(ppufile.getstring); end; procedure tppumodule.readderefdata; var len,hlen : longint; buf : array[0..1023] of byte; begin len:=ppufile.entrysize; while (len>0) do begin if len>1024 then hlen:=1024 else hlen:=len; ppufile.getdata(buf,hlen); derefdata.write(buf,hlen); dec(len,hlen); end; end; procedure tppumodule.readImportSymbols; var j, extsymcnt : longint; ImportLibrary : TImportLibrary; extsymname : string; extsymordnr : longint; extsymisvar : boolean; begin while not ppufile.endofentry do begin ImportLibrary:=TImportLibrary.Create(ImportLibraryList,ppufile.getstring); extsymcnt:=ppufile.getlongint; for j:=0 to extsymcnt-1 do begin extsymname:=ppufile.getstring; extsymordnr:=ppufile.getlongint; extsymisvar:=(ppufile.getbyte<>0); TImportSymbol.Create(ImportLibrary.ImportSymbolList,extsymname,extsymordnr,extsymisvar); end; end; end; procedure tppumodule.load_interface; var b : byte; newmodulename : string; begin { read interface part } repeat b:=ppufile.readentry; case b of ibmodulename : begin newmodulename:=ppufile.getstring; if (cs_check_unit_name in current_settings.globalswitches) and (upper(newmodulename)<>modulename^) then Message2(unit_f_unit_name_error,realmodulename^,newmodulename); stringdispose(modulename); stringdispose(realmodulename); modulename:=stringdup(upper(newmodulename)); realmodulename:=stringdup(newmodulename); end; ibsourcefiles : readsourcefiles; {$IFDEF MACRO_DIFF_HINT} ibusedmacros : readusedmacros; {$ENDIF} ibloadunit : readloadunit; iblinkunitofiles : readlinkcontainer(LinkUnitOFiles); iblinkunitstaticlibs : readlinkcontainer(LinkUnitStaticLibs); iblinkunitsharedlibs : readlinkcontainer(LinkUnitSharedLibs); iblinkotherofiles : readlinkcontainer(LinkotherOFiles); iblinkotherstaticlibs : readlinkcontainer(LinkotherStaticLibs); iblinkothersharedlibs : readlinkcontainer(LinkotherSharedLibs); ibImportSymbols : readImportSymbols; ibderefmap : readderefmap; ibderefdata : readderefdata; ibendinterface : break; else Message1(unit_f_ppu_invalid_entry,tostr(b)); end; { we can already stop when we know that we must recompile } if do_compile then exit; until false; end; procedure tppumodule.load_implementation; var b : byte; begin { read implementation part } repeat b:=ppufile.readentry; case b of ibloadunit : readloadunit; ibasmsymbols : {$warning TODO Remove ibasmsymbols} ; ibendimplementation : break; else Message1(unit_f_ppu_invalid_entry,tostr(b)); end; until false; end; procedure tppumodule.writeppu; var pu : tused_unit; begin Message1(unit_u_ppu_write,realmodulename^); { create unit flags } if do_release then flags:=flags or uf_release; if assigned(localsymtable) then flags:=flags or uf_local_symtable; {$ifdef cpufpemu} if (cs_fp_emulation in current_settings.moduleswitches) then flags:=flags or uf_fpu_emulation; {$endif cpufpemu} {$ifdef Test_Double_checksum_write} Assign(CRCFile,s+'.IMP'); Rewrite(CRCFile); {$endif def Test_Double_checksum_write} { create new ppufile } ppufile:=tcompilerppufile.create(ppufilename^); if not ppufile.createfile then Message(unit_f_ppu_cannot_write); { first the unitname } ppufile.putstring(realmodulename^); ppufile.writeentry(ibmodulename); writesourcefiles; {$IFDEF MACRO_DIFF_HINT} writeusedmacros; {$ENDIF} { write interface uses } writeusedunit(true); { write the objectfiles and libraries that come for this unit, preserve the containers becuase they are still needed to load the link.res. All doesn't depend on the crc! It doesn't matter if a unit is in a .o or .a file } ppufile.do_crc:=false; writelinkcontainer(linkunitofiles,iblinkunitofiles,true); writelinkcontainer(linkunitstaticlibs,iblinkunitstaticlibs,true); writelinkcontainer(linkunitsharedlibs,iblinkunitsharedlibs,true); writelinkcontainer(linkotherofiles,iblinkotherofiles,false); writelinkcontainer(linkotherstaticlibs,iblinkotherstaticlibs,true); writelinkcontainer(linkothersharedlibs,iblinkothersharedlibs,true); writeImportSymbols; ppufile.do_crc:=true; { generate implementation deref data, the interface deref data is already generated when calculating the interface crc } if (cs_compilesystem in current_settings.moduleswitches) then begin tstoredsymtable(globalsymtable).buildderef; derefdataintflen:=derefdata.size; end; tstoredsymtable(globalsymtable).buildderefimpl; if (flags and uf_local_symtable)<>0 then begin tstoredsymtable(localsymtable).buildderef; tstoredsymtable(localsymtable).buildderefimpl; end; writederefmap; writederefdata; ppufile.writeentry(ibendinterface); { write the symtable entries } tstoredsymtable(globalsymtable).ppuwrite(ppufile); if assigned(globalmacrosymtable) and (globalmacrosymtable.SymList.count > 0) then begin ppufile.putbyte(byte(true)); ppufile.writeentry(ibexportedmacros); tstoredsymtable(globalmacrosymtable).ppuwrite(ppufile); end else begin ppufile.putbyte(byte(false)); ppufile.writeentry(ibexportedmacros); end; { everything after this doesn't affect the crc } ppufile.do_crc:=false; { write implementation uses } writeusedunit(false); { end of implementation } ppufile.writeentry(ibendimplementation); { write static symtable needed for local debugging of unit functions } if (flags and uf_local_symtable)<>0 then tstoredsymtable(localsymtable).ppuwrite(ppufile); { the last entry ibend is written automaticly } { flush to be sure } ppufile.flush; { create and write header } ppufile.header.size:=ppufile.size; ppufile.header.checksum:=ppufile.crc; ppufile.header.interface_checksum:=ppufile.interface_crc; ppufile.header.compiler:=wordversion; ppufile.header.cpu:=word(target_cpu); ppufile.header.target:=word(target_info.system); ppufile.header.flags:=flags; ppufile.header.deflistsize:=current_module.deflist.count; ppufile.header.symlistsize:=current_module.symlist.count; ppufile.writeheader; { save crc in current module also } crc:=ppufile.crc; interface_crc:=ppufile.interface_crc; {$ifdef Test_Double_checksum_write} close(CRCFile); {$endif Test_Double_checksum_write} ppufile.closefile; ppufile.free; ppufile:=nil; end; procedure tppumodule.getppucrc; begin {$ifdef Test_Double_checksum_write} Assign(CRCFile,s+'.INT') Rewrite(CRCFile); {$endif def Test_Double_checksum_write} { create new ppufile } ppufile:=tcompilerppufile.create(ppufilename^); ppufile.crc_only:=true; if not ppufile.createfile then Message(unit_f_ppu_cannot_write); { first the unitname } ppufile.putstring(realmodulename^); ppufile.writeentry(ibmodulename); { the interface units affect the crc } writeusedunit(true); { deref data of interface that affect the crc } derefdata.reset; tstoredsymtable(globalsymtable).buildderef; derefdataintflen:=derefdata.size; writederefmap; writederefdata; ppufile.writeentry(ibendinterface); { write the symtable entries } tstoredsymtable(globalsymtable).ppuwrite(ppufile); if assigned(globalmacrosymtable) and (globalmacrosymtable.SymList.count > 0) then begin ppufile.putbyte(byte(true)); ppufile.writeentry(ibexportedmacros); tstoredsymtable(globalmacrosymtable).ppuwrite(ppufile); end else begin ppufile.putbyte(byte(false)); ppufile.writeentry(ibexportedmacros); end; { save crc } crc:=ppufile.crc; interface_crc:=ppufile.interface_crc; { end of implementation, to generate a correct ppufile for ppudump when using INTFPPU define } ppufile.writeentry(ibendimplementation); {$ifdef Test_Double_checksum} crc_array:=ppufile.crc_test; ppufile.crc_test:=nil; crc_size:=ppufile.crc_index2; crc_array2:=ppufile.crc_test2; ppufile.crc_test2:=nil; crc_size2:=ppufile.crc_index2; {$endif Test_Double_checksum} {$ifdef Test_Double_checksum_write} close(CRCFile); {$endif Test_Double_checksum_write} { create and write header, this will only be used for debugging purposes } ppufile.header.size:=ppufile.size; ppufile.header.checksum:=ppufile.crc; ppufile.header.interface_checksum:=ppufile.interface_crc; ppufile.header.compiler:=wordversion; ppufile.header.cpu:=word(target_cpu); ppufile.header.target:=word(target_info.system); ppufile.header.flags:=flags; ppufile.writeheader; ppufile.closefile; ppufile.free; ppufile:=nil; end; procedure tppumodule.load_usedunits; var pu : tused_unit; load_refs : boolean; begin if current_module<>self then internalerror(200212284); load_refs:=true; { load the used units from interface } in_interface:=true; pu:=tused_unit(used_units.first); while assigned(pu) do begin if pu.in_interface then begin tppumodule(pu.u).loadppu; { if this unit is compiled we can stop } if state=ms_compiled then exit; { add this unit to the dependencies } pu.u.adddependency(self); { need to recompile the current unit, check the interface crc. And when not compiled with -Ur then check the complete crc } if (pu.u.interface_crc<>pu.interface_checksum) or ( ((ppufile.header.flags and uf_release)=0) and (pu.u.crc<>pu.checksum) ) then begin Message2(unit_u_recompile_crc_change,realmodulename^,pu.u.realmodulename^,@queuecomment); recompile_reason:=rr_crcchanged; do_compile:=true; exit; end; end; pu:=tused_unit(pu.next); end; { ok, now load the interface of this unit } if current_module<>self then internalerror(200208187); deflist.count:=ppufile.header.deflistsize; symlist.count:=ppufile.header.symlistsize; globalsymtable:=tglobalsymtable.create(modulename^,moduleid); tstoredsymtable(globalsymtable).ppuload(ppufile); if ppufile.readentry<>ibexportedmacros then Message(unit_f_ppu_read_error); if boolean(ppufile.getbyte) then begin globalmacrosymtable:=tmacrosymtable.Create(true); tstoredsymtable(globalmacrosymtable).ppuload(ppufile) end; interface_compiled:=true; { read the implementation part, containing the implementation uses and ObjData } in_interface:=false; load_implementation; { now only read the implementation uses } pu:=tused_unit(used_units.first); while assigned(pu) do begin if (not pu.in_interface) then begin tppumodule(pu.u).loadppu; { if this unit is compiled we can stop } if state=ms_compiled then exit; { add this unit to the dependencies } pu.u.adddependency(self); { need to recompile the current unit ? } if (pu.u.interface_crc<>pu.interface_checksum) then begin Message2(unit_u_recompile_crc_change,realmodulename^,pu.u.realmodulename^+' {impl}',@queuecomment); recompile_reason:=rr_crcchanged; do_compile:=true; exit; end; end; pu:=tused_unit(pu.next); end; { load implementation symtable } if (flags and uf_local_symtable)<>0 then begin localsymtable:=tstaticsymtable.create(modulename^,moduleid); tstaticsymtable(localsymtable).ppuload(ppufile); end; { we can now derefence all pointers to the implementation parts } tstoredsymtable(globalsymtable).derefimpl; if assigned(localsymtable) then tstoredsymtable(localsymtable).derefimpl; end; function tppumodule.needrecompile:boolean; var pu : tused_unit; begin result:=false; pu:=tused_unit(used_units.first); while assigned(pu) do begin { need to recompile the current unit, check the interface crc. And when not compiled with -Ur then check the complete crc } if (pu.u.interface_crc<>pu.interface_checksum) or ( (pu.in_interface) and (pu.u.crc<>pu.checksum) ) then begin result:=true; exit; end; pu:=tused_unit(pu.next); end; end; procedure tppumodule.loadppu; const ImplIntf : array[boolean] of string[15]=('implementation','interface'); var do_load, second_time : boolean; old_current_module : tmodule; begin old_current_module:=current_module; Message3(unit_u_load_unit,old_current_module.modulename^, ImplIntf[old_current_module.in_interface], modulename^); { Update loaded_from to detect cycles } loaded_from:=old_current_module; { check if the globalsymtable is already available, but we must reload when the do_reload flag is set } if (not do_reload) and assigned(globalsymtable) then exit; { reset } do_load:=true; second_time:=false; current_module:=self; SetCompileModule(current_module); Fillchar(current_filepos,0,sizeof(current_filepos)); { A force reload } if do_reload then begin Message(unit_u_forced_reload); do_reload:=false; { When the unit is already loaded or being loaded we can maybe skip a complete reload/recompile } if assigned(globalsymtable) and (not needrecompile) then begin { When we don't have any data stored yet there is nothing to resolve } if interface_compiled then begin Message1(unit_u_reresolving_unit,modulename^); tstoredsymtable(globalsymtable).deref; tstoredsymtable(globalsymtable).derefimpl; if assigned(localsymtable) then begin tstoredsymtable(localsymtable).deref; tstoredsymtable(localsymtable).derefimpl; end; end else Message1(unit_u_skipping_reresolving_unit,modulename^); do_load:=false; end; end; if do_load then begin { we are loading a new module, save the state of the scanner and reset scanner+module } if assigned(current_scanner) then current_scanner.tempcloseinputfile; current_scanner:=nil; { loading the unit for a second time? } if state=ms_registered then state:=ms_load else begin { try to load the unit a second time first } Message1(unit_u_second_load_unit,modulename^); Message2(unit_u_previous_state,modulename^,ModuleStateStr[state]); { Flag modules to reload } flagdependent(old_current_module); { Reset the module } reset; if state in [ms_compile,ms_second_compile] then begin Message1(unit_u_second_compile_unit,modulename^); state:=ms_second_compile; do_compile:=true; end else state:=ms_second_load; second_time:=true; end; { close old_current_ppu on system that are short on file handles like DOS PM } {$ifdef SHORT_ON_FILE_HANDLES} if old_current_module.is_unit and assigned(tppumodule(old_current_module).ppufile) then tppumodule(old_current_module).ppufile.tempclose; {$endif SHORT_ON_FILE_HANDLES} { try to opening ppu, skip this when we already know that we need to compile the unit } if not do_compile then begin Message1(unit_u_loading_unit,modulename^); search_unit(false,false); if not do_compile then begin load_interface; if not do_compile then begin load_usedunits; if not do_compile then Message1(unit_u_finished_loading_unit,modulename^); end; end; { PPU is not needed anymore } if assigned(ppufile) then begin ppufile.closefile; ppufile.free; ppufile:=nil; end; end; { Do we need to recompile the unit } if do_compile then begin { recompile the unit or give a fatal error if sources not available } if not(sources_avail) then begin if (not search_unit(true,false)) and (length(modulename^)>8) then search_unit(true,true); if not(sources_avail) then begin printcomments; if recompile_reason=rr_noppu then Message1(unit_f_cant_find_ppu,realmodulename^) else Message1(unit_f_cant_compile_unit,realmodulename^); end; end; { we found the sources, we do not need the verbose messages anymore } if comments <> nil then begin comments.free; comments:=nil; end; { Flag modules to reload } flagdependent(old_current_module); { Reset the module } reset; { compile this module } if not(state in [ms_compile,ms_second_compile]) then state:=ms_compile; compile(mainsource^); end else state:=ms_compiled; if current_module<>self then internalerror(200212282); if in_interface then internalerror(200212283); { for a second_time recompile reload all dependent units, for a first time compile register the unit _once_ } if second_time then reload_flagged_units else usedunits.concat(tused_unit.create(self,true,false,nil)); { reopen the old module } {$ifdef SHORT_ON_FILE_HANDLES} if old_current_module.is_unit and assigned(tppumodule(old_current_module).ppufile) then tppumodule(old_current_module).ppufile.tempopen; {$endif SHORT_ON_FILE_HANDLES} { reload old scanner } current_scanner:=tscannerfile(old_current_module.scanner); if assigned(current_scanner) then begin current_scanner.tempopeninputfile; current_scanner.gettokenpos end else fillchar(current_filepos,sizeof(current_filepos),0); end; { we are back, restore current_module } current_module:=old_current_module; SetCompileModule(current_module); end; {***************************************************************************** RegisterUnit *****************************************************************************} function registerunit(callermodule:tmodule;const s : TIDString;const fn:string) : tppumodule; var ups : TIDString; hp : tppumodule; hp2 : tmodule; begin { Info } ups:=upper(s); { search all loaded units } hp:=tppumodule(loaded_units.first); while assigned(hp) do begin if hp.modulename^=ups then begin { only check for units. The main program is also as a unit in the loaded_units list. We simply need to ignore this entry (PFV) } if hp.is_unit then begin { both units in interface ? } if callermodule.in_interface and hp.in_interface then begin { check for a cycle } hp2:=callermodule.loaded_from; while assigned(hp2) and (hp2<>hp) do begin if hp2.in_interface then hp2:=hp2.loaded_from else hp2:=nil; end; if assigned(hp2) then Message2(unit_f_circular_unit_reference,callermodule.realmodulename^,hp.realmodulename^); end; break; end; end; { the next unit } hp:=tppumodule(hp.next); end; { the unit is not in the loaded units, we create an entry and register the unit } if not assigned(hp) then begin Message1(unit_u_registering_new_unit,Upper(s)); hp:=tppumodule.create(callermodule,s,fn,true); hp.loaded_from:=callermodule; addloadedunit(hp); end; { return } registerunit:=hp; end; end.