{ $Id$ Copyright (c) 1998 by the FPC development team This unit implements an asmoutput class for MIT syntax with Motorola 68000 (for MIT syntax TEST WITH GAS v1.34) 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. **************************************************************************** What's to do: o Verify if this actually work as indirect mode with name of variables o write lines numbers and file names to output file o generate debugging informations } unit ag68kmit; interface uses aasm,assemble; type pm68kmitasmlist=^tm68kmitasmlist; tm68kmitasmlist = object(tasmlist) procedure WriteTree(p:paasmoutput);virtual; procedure WriteAsmList;virtual; end; implementation uses dos,globals,systems,cobjects,m68k, strings,files,verbose {$ifdef GDB} ,gdb {$endif GDB} ; const line_length = 70; var {$ifdef GDB} n_line : byte; { different types of source lines } includecount : longint; {$endif} lastsec : tsection; { last section type written } lastsecidx, lastfileindex, lastline : longint; function double2str(d : double) : string; var hs : string; begin str(d,hs); { replace space with + } if hs[1]=' ' then hs[1]:='+'; double2str:=hs; end; function comp2str(d : bestreal) : string; type pdouble = ^double; var c : comp; dd : pdouble; begin {$ifdef TP} c:=d; {$else} c:=comp(d); {$endif} dd:=pdouble(@c); { this makes a bitwise copy of c into a double } comp2str:=double2str(dd^); end; function getreferencestring(const ref : treference) : string; var s : string; begin s:=''; if ref.isintvalue then s:='#'+tostr(ref.offset) else with ref do begin { symbol and offset } if (assigned(symbol)) and (offset<>0) then Begin s:=s+'('+tostr(offset)+symbol^; end else { symbol only } if (assigned(symbol)) and (offset=0) then Begin s:=s+'('+symbol^; end else { offset only } if (symbol=nil) and (offset<>0) then Begin s:=s+'('+tostr(offset); end else { NOTHING - put zero as offset } if (symbol=nil) and (offset=0) then Begin s:=s+'('+'0'; end else InternalError(10004); if (index<>R_NO) and (base=R_NO) and (direction=dir_none) then InternalError(10004) else if (index=R_NO) and (base<>R_NO) and (direction=dir_inc) then begin if (scalefactor = 1) or (scalefactor = 0) then Begin if offset<>0 then s:=mit_reg2str[base]+'@+'+s+')' else s:=mit_reg2str[base]+'@+'; end else InternalError(10002); end else if (index=R_NO) and (base<>R_NO) and (direction=dir_dec) then begin if (scalefactor = 1) or (scalefactor = 0) then Begin if offset<>0 then s:=mit_reg2str[base]+'@-'+s+')' else s:=mit_reg2str[base]+'@-'; end else InternalError(10003); end else if (index=R_NO) and (base<>R_NO) and (direction=dir_none) then begin if (offset=0) and (symbol=nil) then s:=mit_reg2str[base]+'@' else s:=mit_reg2str[base]+'@'+s+')'; end else if (index<>R_NO) and (base<>R_NO) and (direction=dir_none) then begin s:=mit_reg2str[base]+'@'+s+','+mit_reg2str[index]+':L'; if (scalefactor = 1) or (scalefactor = 0) then s:=s+')' else s:=s+':'+tostr(scalefactor)+')'; end else if assigned(symbol) then Begin s:=symbol^; if offset<>0 then s:=s+'+'+tostr(offset); end { this must be a physical address } else s:=s+')'; { else if NOT assigned(symbol) then InternalError(10004);} end; { end with } getreferencestring:=s; end; function getopstr(t : byte;o : pointer) : string; var hs : string; i: tregister; begin case t of top_reg : getopstr:=mit_reg2str[tregister(o)]; top_ref : getopstr:=getreferencestring(preference(o)^); top_reglist: begin hs:=''; for i:=R_NO to R_FPSR do begin if i in tregisterlist(o^) then hs:=hs+mit_reg2str[i]+'/'; end; delete(hs,length(hs),1); getopstr := hs; end; top_const : getopstr:='#'+tostr(longint(o)); top_symbol : { compare with i386, where a symbol is considered } { a constant. } begin hs[0]:=chr(strlen(pchar(pcsymbol(o)^.symbol))); move(pchar(pcsymbol(o)^.symbol)^,hs[1],byte(hs[0])); { inc(byte(hs[0]));} if pcsymbol(o)^.offset>0 then hs:=hs+'+'+tostr(pcsymbol(o)^.offset) else if pcsymbol(o)^.offset<0 then hs:=hs+tostr(pcsymbol(o)^.offset); getopstr:=hs; end; else internalerror(10001); end; end; function getopstr_jmp(t : byte;o : pointer) : string; var hs : string; begin case t of top_reg : getopstr_jmp:=mit_reg2str[tregister(o)]; top_ref : getopstr_jmp:=getreferencestring(preference(o)^); top_const : getopstr_jmp:=tostr(longint(o)); top_symbol : begin hs[0]:=chr(strlen(pchar(pcsymbol(o)^.symbol))); move(pchar(pcsymbol(o)^.symbol)^,hs[1],byte(hs[0])); if pcsymbol(o)^.offset>0 then hs:=hs+'+'+tostr(pcsymbol(o)^.offset) else if pcsymbol(o)^.offset<0 then hs:=hs+tostr(pcsymbol(o)^.offset); getopstr_jmp:=hs; end; else internalerror(10001); end; end; {**************************************************************************** T68kGASASMOUTPUT ****************************************************************************} const ait_const2str:array[ait_const_32bit..ait_const_8bit] of string[8]= (#9'.long'#9,'',#9'.short'#9,#9'.byte'#9); ait_section2str : array[tsection] of string[6]= ('','.text','.data','.bss','.idata'); procedure tm68kmitasmlist.WriteTree(p:paasmoutput); var hp : pai; ch : char; consttyp : tait; s : string; pos,l,i : longint; found : boolean; {$ifdef GDB} curr_n : byte; infile : pinputfile; funcname : pchar; linecount : longint; {$endif GDB} begin if not assigned(p) then exit; {$ifdef GDB} funcname:=nil; linecount:=1; {$endif GDB} hp:=pai(p^.first); while assigned(hp) do begin { write debugger informations } {$ifdef GDB} if cs_debuginfo in aktmoduleswitches then begin if not (hp^.typ in [ait_external,ait_stabn,ait_stabs, ait_label,ait_cut,ait_align,ait_stab_function_name]) then begin { file changed ? (must be before line info) } if lastfileindex<>hp^.fileinfo.fileindex then begin infile:=current_module^.sourcefiles.get_file(hp^.fileinfo.fileindex); if includecount=0 then curr_n:=n_sourcefile else curr_n:=n_includefile; if (infile^.path^<>'') then begin AsmWriteLn(#9'.stabs "'+lower(BsToSlash(FixPath(infile^.path^)))+'",'+ tostr(curr_n)+',0,0,'+'Ltext'+ToStr(IncludeCount)); end; AsmWriteLn(#9'.stabs "'+lower(FixFileName(infile^.name^))+'",'+ tostr(curr_n)+',0,0,'+'Ltext'+ToStr(IncludeCount)); AsmWriteLn('Ltext'+ToStr(IncludeCount)+':'); inc(includecount); lastfileindex:=hp^.fileinfo.fileindex; end; { line changed ? } if (hp^.fileinfo.line<>lastline) and (hp^.fileinfo.line<>0) then begin if (n_line=n_textline) and assigned(funcname) and (target_os.use_function_relative_addresses) then begin AsmWriteLn(target_asm.labelprefix+'l'+tostr(linecount)+':'); AsmWrite(#9'.stabn '+tostr(n_line)+',0,'+tostr(hp^.fileinfo.line)+','+ target_asm.labelprefix+'l'+tostr(linecount)+' - '); AsmWritePChar(FuncName); AsmLn; inc(linecount); end else AsmWriteLn(#9'.stabd'#9+tostr(n_line)+',0,'+tostr(hp^.fileinfo.line)); lastline:=hp^.fileinfo.line; end; end; end; {$endif GDB} case hp^.typ of ait_external : ; { external is ignored } ait_comment : Begin AsmWrite(target_asm.comment); AsmWritePChar(pai_asm_comment(hp)^.str); AsmLn; End; {$ifdef DREGALLOC} ait_regalloc : AsmWriteLn(target_asm.comment+'Register '+att_reg2str[pairegalloc(hp)^.reg]+' allocated'); ait_regdealloc : AsmWriteLn(target_asm.comment+'Register '+att_reg2str[pairegalloc(hp)^.reg]+' released'); {$endif DREGALLOC} ait_align : AsmWriteLn(#9'.align '+tostr(pai_align(hp)^.aligntype)); ait_section : begin if pai_section(hp)^.sec<>sec_none then begin AsmLn; AsmWrite(ait_section2str[pai_section(hp)^.sec]); if pai_section(hp)^.idataidx>0 then AsmWrite('$'+tostr(pai_section(hp)^.idataidx)); AsmLn; {$ifdef GDB} case pai_section(hp)^.sec of sec_code : n_line:=n_textline; sec_data : n_line:=n_dataline; sec_bss : n_line:=n_bssline; end; {$endif GDB} end; LastSec:=pai_section(hp)^.sec; end; ait_datablock : begin { ------------------------------------------------------- } { ----------- ALIGNMENT FOR ANY NON-BYTE VALUE ---------- } { ------------- REQUIREMENT FOR 680x0 ------------------- } { ------------------------------------------------------- } if pai_datablock(hp)^.size <> 1 then begin if not(cs_littlesize in aktglobalswitches) then AsmWriteLn(#9#9'.align 4') else AsmWriteLn(#9#9'.align 2'); end; if pai_datablock(hp)^.is_global then AsmWrite(#9'.comm'#9) else AsmWrite(#9'.lcomm'#9); AsmWriteLn(StrPas(pai_datablock(hp)^.name)+','+tostr(pai_datablock(hp)^.size)); end; ait_const_32bit, { alignment is required for 16/32 bit data! } ait_const_16bit: begin AsmWrite(ait_const2str[hp^.typ]+tostr(pai_const(hp)^.value)); consttyp:=hp^.typ; l:=0; repeat found:=(not (Pai(hp^.next)=nil)) and (Pai(hp^.next)^.typ=consttyp); if found then begin hp:=Pai(hp^.next); s:=','+tostr(pai_const(hp)^.value); AsmWrite(s); inc(l,length(s)); end; until (not found) or (l>line_length); AsmLn; end; ait_const_8bit : begin AsmWrite(ait_const2str[hp^.typ]+tostr(pai_const(hp)^.value)); consttyp:=hp^.typ; l:=0; repeat found:=(not (Pai(hp^.next)=nil)) and (Pai(hp^.next)^.typ=consttyp); if found then begin hp:=Pai(hp^.next); s:=','+tostr(pai_const(hp)^.value); AsmWrite(s); inc(l,length(s)); end; until (not found) or (l>line_length); AsmLn; end; ait_const_symbol : Begin AsmWriteLn(#9'.long'#9+StrPas(pchar(pai_const(hp)^.value))); end; ait_real_64bit : Begin AsmWriteLn(#9'.double'#9+double2str(pai_double(hp)^.value)); end; ait_real_32bit : Begin AsmWriteLn(#9'.single'#9+double2str(pai_single(hp)^.value)); end; ait_real_extended : Begin AsmWriteLn(#9'.extend'#9+double2str(pai_extended(hp)^.value)); { comp type is difficult to write so use double } end; ait_comp : Begin AsmWriteLn(#9'.double'#9+comp2str(pai_extended(hp)^.value)); end; ait_direct : begin AsmWritePChar(pai_direct(hp)^.str); AsmLn; {$IfDef GDB} if strpos(pai_direct(hp)^.str,'.data')<>nil then n_line:=n_dataline else if strpos(pai_direct(hp)^.str,'.text')<>nil then n_line:=n_textline else if strpos(pai_direct(hp)^.str,'.bss')<>nil then n_line:=n_bssline; {$endif GDB} end; ait_string : begin pos:=0; for i:=1 to pai_string(hp)^.len do begin if pos=0 then begin AsmWrite(#9'.ascii'#9'"'); pos:=20; end; ch:=pai_string(hp)^.str[i-1]; case ch of #0, {This can't be done by range, because a bug in FPC} #1..#31, #128..#255 : s:='\'+tostr(ord(ch) shr 6)+tostr((ord(ch) and 63) shr 3)+tostr(ord(ch) and 7); '"' : s:='\"'; '\' : s:='\\'; else s:=ch; end; AsmWrite(s); inc(pos,length(s)); if (pos>line_length) or (i=pai_string(hp)^.len) then begin AsmWriteLn('"'); pos:=0; end; end; end; ait_label : begin if assigned(hp^.next) and (pai(hp^.next)^.typ in [ait_const_32bit,ait_const_16bit,ait_const_symbol, ait_real_64bit,ait_real_32bit,ait_string]) then begin if not(cs_littlesize in aktglobalswitches) then AsmWriteLn(#9#9'.align 4') else AsmWriteLn(#9#9'.align 2'); end; if (pai_label(hp)^.l^.is_used) then AsmWriteLn(lab2str(pai_label(hp)^.l)+':'); end; ait_labeled_instruction : begin { labeled operand } if pai_labeled(hp)^._op1 = R_NO then AsmWriteLn(#9+mot_op2str[pai_labeled(hp)^._operator]+#9+lab2str(pai_labeled(hp)^.lab)) else { labeled operand with register } AsmWriteLn(#9+mot_op2str[pai_labeled(hp)^._operator]+#9+ reg2str(pai_labeled(hp)^._op1)+','+lab2str(pai_labeled(hp)^.lab)) end; ait_symbol : begin { ------------------------------------------------------- } { ----------- ALIGNMENT FOR ANY NON-BYTE VALUE ---------- } { ------------- REQUIREMENT FOR 680x0 ------------------- } { ------------------------------------------------------- } if assigned(hp^.next) and (pai(hp^.next)^.typ in [ait_const_32bit,ait_const_16bit,ait_const_symbol, ait_real_64bit,ait_real_32bit,ait_string]) then begin if not(cs_littlesize in aktglobalswitches) then AsmWriteLn(#9#9'.align 4') else AsmWriteLn(#9#9'.align 2'); end; if pai_symbol(hp)^.is_global then AsmWriteLn('.globl '+StrPas(pai_symbol(hp)^.name)); AsmWriteLn(StrPas(pai_symbol(hp)^.name)+':'); end; ait_instruction : begin { old versions of GAS don't like PEA.L and LEA.L } if (pai68k(hp)^._operator in [ A_LEA,A_PEA,A_ABCD,A_BCHG,A_BCLR,A_BSET,A_BTST, A_EXG,A_NBCD,A_SBCD,A_SWAP,A_TAS,A_SCC,A_SCS, A_SEQ,A_SGE,A_SGT,A_SHI,A_SLE,A_SLS,A_SLT,A_SMI, A_SNE,A_SPL,A_ST,A_SVC,A_SVS,A_SF]) then s:=#9+mot_op2str[pai68k(hp)^._operator] else s:=#9+mot_op2str[pai68k(hp)^._operator]+mit_opsize2str[pai68k(hp)^.size]; if pai68k(hp)^.op1t<>top_none then begin { call and jmp need an extra handling } { this code is only callded if jmp isn't a labeled instruction } if pai68k(hp)^._operator in [A_JSR,A_JMP] then s:=s+#9+getopstr_jmp(pai68k(hp)^.op1t,pai68k(hp)^.op1) else if pai68k(hp)^.op1t = top_reglist then s:=s+#9+getopstr(pai68k(hp)^.op1t,@(pai68k(hp)^.reglist)) else s:=s+#9+getopstr(pai68k(hp)^.op1t,pai68k(hp)^.op1); if pai68k(hp)^.op2t<>top_none then begin if pai68k(hp)^.op2t = top_reglist then s:=s+','+getopstr(pai68k(hp)^.op2t,@pai68k(hp)^.reglist) else s:=s+','+getopstr(pai68k(hp)^.op2t,pai68k(hp)^.op2); { three operands } if pai68k(hp)^.op3t<>top_none then begin if (pai68k(hp)^._operator = A_DIVSL) or (pai68k(hp)^._operator = A_DIVUL) or (pai68k(hp)^._operator = A_MULU) or (pai68k(hp)^._operator = A_MULS) or (pai68k(hp)^._operator = A_DIVS) or (pai68k(hp)^._operator = A_DIVU) then s:=s+':'+getopstr(pai68k(hp)^.op3t,pai68k(hp)^.op3) else s:=s+','+getopstr(pai68k(hp)^.op3t,pai68k(hp)^.op3); end; end; end; AsmWriteLn(s); end; {$ifdef GDB} ait_stabs : begin AsmWrite(#9'.stabs '); AsmWritePChar(pai_stabs(hp)^.str); AsmLn; end; ait_stabn : begin AsmWrite(#9'.stabn '); AsmWritePChar(pai_stabn(hp)^.str); AsmLn; end; ait_stab_function_name : funcname:=pai_stab_function_name(hp)^.str; {$endif GDB} ait_cut : begin { create only a new file when the last is not empty } if AsmSize>0 then begin AsmClose; DoAssemble; AsmCreate; end; { avoid empty files } while assigned(hp^.next) and (pai(hp^.next)^.typ in [ait_cut,ait_section,ait_comment]) do begin if pai(hp^.next)^.typ=ait_section then begin lastsec:=pai_section(hp^.next)^.sec; lastsecidx:=pai_section(hp^.next)^.idataidx; end; hp:=pai(hp^.next); end; if lastsec<>sec_none then AsmWriteLn(ait_section2str[lastsec,lastsecidx]); end; else internalerror(10000); end; hp:=pai(hp^.next); end; end; procedure tm68kmitasmlist.WriteAsmList; var p:dirstr; n:namestr; e:extstr; begin {$ifdef EXTDEBUG} if assigned(current_module^.mainsource) then comment(v_info,'Start writing gas-styled assembler output for '+current_module^.mainsource^); {$endif} lastline:=0; lastfileindex:=0; LastSec:=sec_none; {$ifdef GDB} includecount:=0; n_line:=n_bssline; {$endif GDB} if assigned(current_module^.mainsource) then fsplit(current_module^.mainsource^,p,n,e) else begin p:=inputdir; n:=inputfile; e:=inputextension; end; { to get symify to work } AsmWriteLn(#9'.file "'+FixFileName(n+e)+'"'); { there should be nothing but externals so we don't need to process WriteTree(externals); } WriteTree(debuglist); WriteTree(codesegment); WriteTree(datasegment); WriteTree(consts); WriteTree(rttilist); WriteTree(bsssegment); Writetree(importssection); Writetree(exportssection); Writetree(resourcesection); AsmLn; {$ifdef EXTDEBUG} if assigned(current_module^.mainsource) then comment(v_info,'Done writing gas-styled assembler output for '+current_module^.mainsource^); {$endif EXTDEBUG} end; end. { $Log$ Revision 1.8 1998-08-10 14:49:37 peter + localswitches, moduleswitches, globalswitches splitting Revision 1.7 1998/07/14 14:46:39 peter * released NEWINPUT Revision 1.6 1998/07/10 10:50:55 peter * m68k updates Revision 1.5 1998/06/05 17:46:05 peter * tp doesn't like comp() typecast Revision 1.4 1998/06/04 23:51:29 peter * m68k compiles + .def file creation moved to gendef.pas so it could also be used for win32 }