{ $Id$ Copyright (c) 1998-2000 by Florian Klaempfl 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 globtype,systems, dos,globals,cobjects,cpubase, strings,files,verbose {$ifdef GDB} ,gdb {$endif GDB} ; const line_length = 70; var {$ifdef GDB} n_line : byte; { different types of source lines } linecount, includecount : longint; funcname : pchar; stabslastfileinfo : tfileposinfo; {$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; (* TO SUPPORT SOONER OR LATER!!! 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[8]= ('','.text','.data','.bss', '.stab','.stabstr', '.idata2','.idata4','.idata5','.idata6','.idata7', '.edata',''); 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) or (cs_gdb_lineinfo in aktglobalswitches)) then begin if not (hp^.typ in [ait_external,ait_regalloc, ait_regdealloc,ait_stabn,ait_stabs, ait_label,ait_cut,ait_marker,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^,false)))+'",'+ 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_const_symbol_offset : Begin AsmWrite(#9'.long'#9); AsmWritePChar(pai_const_symbol_offset(hp)^.name); if pai_const_symbol_offset(hp)^.offset>0 then AsmWrite('+'+tostr(pai_const_symbol_offset(hp)^.offset)) else if pai_const_symbol_offset(hp)^.offset<0 then AsmWrite(tostr(pai_const_symbol_offset(hp)^.offset)); AsmLn; 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; { TO SUPPORT SOONER OR LATER!!! 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_8bit, ait_const_symbol,ait_const_symbol_offset, 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+ mit_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_8bit, ait_const_symbol,ait_const_symbol_offset, 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; {$ifdef GDB} ait_stabs : begin AsmWrite(#9'.stabs '); AsmWritePChar(pai_stabs(hp)^.str); AsmLn; end; ait_stabn : begin AsmWrite(#9'.stabn '); AsmWritePChar(pai_stabn(hp)^.str); AsmLn; end; ait_force_line : begin stabslastfileinfo.line:=0; end; ait_stab_function_name : funcname:=pai_stab_function_name(hp)^.str; {$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; ait_marker : ; 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)+'"'); countlabelref:=false; { there should be nothing but externals so we don't need to process WriteTree(externals); } If (cs_debuginfo in aktmoduleswitches) then WriteTree(debuglist); WriteTree(codesegment); WriteTree(datasegment); WriteTree(consts); WriteTree(rttilist); WriteTree(bsssegment); Writetree(importssection); Writetree(exportssection); Writetree(resourcesection); countlabelref:=true; 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 1.2 2000-07-13 11:32:31 michael + removed logs }