{ $Id$ Copyright (c) 1998-2000 by Carl Eric Codere and Peter Vreman Handles the common i386 assembler reader routines 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 Ra386; interface uses aasm,cpubase,RAUtils; { Parser helpers } function is_prefix(t:tasmop):boolean; function is_override(t:tasmop):boolean; Function CheckPrefix(prefixop,op:tasmop): Boolean; Function CheckOverride(overrideop,op:tasmop): Boolean; Procedure FWaitWarning; type P386Operand=^T386Operand; T386Operand=object(TOperand) end; P386Instruction=^T386Instruction; T386Instruction=object(TInstruction) { Operand sizes } procedure AddReferenceSizes; procedure SetInstructionOpsize; procedure CheckOperandSizes; { opcode adding } procedure ConcatInstruction(p : paasmoutput);virtual; end; implementation uses globtype,systems,globals,verbose,cpuasm; {***************************************************************************** Parser Helpers *****************************************************************************} function is_prefix(t:tasmop):boolean; var i : longint; Begin is_prefix:=false; for i:=1 to AsmPrefixes do if t=AsmPrefix[i-1] then begin is_prefix:=true; exit; end; end; function is_override(t:tasmop):boolean; var i : longint; Begin is_override:=false; for i:=1 to AsmOverrides do if t=AsmOverride[i-1] then begin is_override:=true; exit; end; end; Function CheckPrefix(prefixop,op:tasmop): Boolean; { Checks if the prefix is valid with the following opcode } { return false if not, otherwise true } Begin CheckPrefix := TRUE; (* Case prefix of A_REP,A_REPNE,A_REPE: Case opcode Of A_SCASB,A_SCASW,A_SCASD, A_INS,A_OUTS,A_MOVS,A_CMPS,A_LODS,A_STOS:; Else Begin CheckPrefix := FALSE; exit; end; end; { case } A_LOCK: Case opcode Of A_BT,A_BTS,A_BTR,A_BTC,A_XCHG,A_ADD,A_OR,A_ADC,A_SBB,A_AND,A_SUB, A_XOR,A_NOT,A_NEG,A_INC,A_DEC:; Else Begin CheckPrefix := FALSE; Exit; end; end; { case } A_NONE: exit; { no prefix here } else CheckPrefix := FALSE; end; { end case } *) end; Function CheckOverride(overrideop,op:tasmop): Boolean; { Check if the override is valid, and if so then } { update the instr variable accordingly. } Begin CheckOverride := true; { Case instr.getinstruction of A_MOVS,A_XLAT,A_CMPS: Begin CheckOverride := TRUE; Message(assem_e_segment_override_not_supported); end end } end; Procedure FWaitWarning; begin if (target_info.target=target_i386_GO32V2) and (cs_fp_emulation in aktmoduleswitches) then Message(asmr_w_fwait_emu_prob); end; {***************************************************************************** T386Instruction *****************************************************************************} procedure T386Instruction.AddReferenceSizes; { this will add the sizes for references like [esi] which do not have the size set yet, it will take only the size if the other operand is a register } var operand2,i : longint; s : pasmsymbol; so : longint; begin for i:=1to ops do if (operands[i]^.size=S_NO) then begin case operands[i]^.Opr.Typ of OPR_REFERENCE : begin if i=2 then operand2:=1 else operand2:=2; { Only allow register as operand to take the size from } if operands[operand2]^.opr.typ=OPR_REGISTER then operands[i]^.size:=operands[operand2]^.size else begin { if no register then take the opsize (which is available with ATT) } operands[i]^.size:=opsize; end; end; OPR_SYMBOL : begin { Fix lea which need a reference } if opcode=A_LEA then begin s:=operands[i]^.opr.symbol; so:=operands[i]^.opr.symofs; operands[i]^.opr.typ:=OPR_REFERENCE; reset_reference(operands[i]^.opr.ref); operands[i]^.opr.ref.symbol:=s; operands[i]^.opr.ref.offset:=so; end; operands[i]^.size:=S_L; end; end; end; end; procedure T386Instruction.SetInstructionOpsize; begin if opsize<>S_NO then exit; case ops of 0 : ; 1 : opsize:=operands[1]^.size; 2 : begin case opcode of A_MOVZX,A_MOVSX : begin case operands[1]^.size of S_W : case operands[2]^.size of S_L : opsize:=S_WL; end; S_B : case operands[2]^.size of S_W : opsize:=S_BW; S_L : opsize:=S_BL; end; end; end; A_OUT : opsize:=operands[1]^.size; else opsize:=operands[2]^.size; end; end; 3 : opsize:=operands[3]^.size; end; end; procedure T386Instruction.CheckOperandSizes; var sizeerr : boolean; i : longint; begin { Check only the most common opcodes here, the others are done in the assembler pass } case opcode of A_PUSH,A_DEC,A_INC,A_NOT,A_NEG, A_CMP,A_MOV, A_ADD,A_SUB,A_ADC,A_SBB, A_AND,A_OR,A_TEST,A_XOR: ; else exit; end; { Handle the BW,BL,WL separatly } sizeerr:=false; if opsize in [S_BW,S_BL,S_WL] then begin if ops<>2 then sizeerr:=true else begin case opsize of S_BW : sizeerr:=(operands[1]^.size<>S_B) or (operands[2]^.size<>S_W); S_BL : sizeerr:=(operands[1]^.size<>S_B) or (operands[2]^.size<>S_L); S_WL : sizeerr:=(operands[1]^.size<>S_W) or (operands[2]^.size<>S_L); end; end; end else begin for i:=1to ops do begin if (operands[i]^.opr.typ<>OPR_CONSTANT) and (operands[i]^.size in [S_B,S_W,S_L]) and (operands[i]^.size<>opsize) then sizeerr:=true; end; end; if sizeerr then begin { if range checks are on then generate an error } if (cs_compilesystem in aktmoduleswitches) or not (cs_check_range in aktlocalswitches) then Message(asmr_w_size_suffix_and_dest_dont_match) else Message(asmr_e_size_suffix_and_dest_dont_match); end; end; {***************************************************************************** opcode Adding *****************************************************************************} procedure T386Instruction.ConcatInstruction(p : paasmoutput); var siz : topsize; i : longint; ai : paicpu; begin { Get Opsize } if (opsize<>S_NO) or (Ops=0) then siz:=opsize else begin if (Ops=2) and (operands[1]^.opr.typ=OPR_REGISTER) then siz:=operands[1]^.size else siz:=operands[Ops]^.size; end; ai:=new(paicpu,op_none(opcode,siz)); ai^.Ops:=Ops; for i:=1to Ops do begin case operands[i]^.opr.typ of OPR_CONSTANT : ai^.loadconst(i-1,operands[i]^.opr.val); OPR_REGISTER: ai^.loadreg(i-1,operands[i]^.opr.reg); OPR_SYMBOL: ai^.loadsymbol(i-1,operands[i]^.opr.symbol,operands[i]^.opr.symofs); OPR_REFERENCE: ai^.loadref(i-1,newreference(operands[i]^.opr.ref)); end; end; { Condition ? } if condition<>C_None then ai^.SetCondition(condition); { Concat the opcode or give an error } if assigned(ai) then p^.concat(ai) else Message(asmr_e_invalid_opcode_and_operand); end; end. { $Log$ Revision 1.12 2000-02-09 13:23:01 peter * log truncated Revision 1.11 2000/01/07 01:14:34 peter * updated copyright to 2000 Revision 1.10 1999/12/12 12:59:34 peter * only check suffixsize for byte,word,long Revision 1.9 1999/08/25 12:00:05 jonas * changed pai386, paippc and paiapha (same for tai*) to paicpu (taicpu) Revision 1.8 1999/08/04 00:23:23 florian * renamed i386asm and i386base to cpuasm and cpubase }