{ $Id$ Copyright (c) 2003 by Florian Klaempfl Contains the assembler object for the ARM 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 aasmcpu; {$i fpcdefs.inc} interface uses cclasses,aasmtai, aasmbase,globtype,globals,verbose, cpubase,cpuinfo,cgbase; const { "mov reg,reg" source operand number } O_MOV_SOURCE = 1; { "mov reg,reg" source operand number } O_MOV_DEST = 0; type taicpu = class(tai_cpu_abstract) oppostfix : TOpPostfix; roundingmode : troundingmode; procedure loadshifterop(opidx:longint;const so:tshifterop); procedure loadregset(opidx:longint;const s:tcpuregisterset); constructor op_none(op : tasmop); constructor op_reg(op : tasmop;_op1 : tregister); constructor op_const(op : tasmop;_op1 : longint); constructor op_reg_reg(op : tasmop;_op1,_op2 : tregister); constructor op_reg_ref(op : tasmop;_op1 : tregister;const _op2 : treference); constructor op_reg_const(op:tasmop; _op1: tregister; _op2: aword); constructor op_ref_regset(op:tasmop; _op1: treference; _op2: tcpuregisterset); constructor op_reg_reg_reg(op : tasmop;_op1,_op2,_op3 : tregister); constructor op_reg_reg_const(op : tasmop;_op1,_op2 : tregister; _op3: aword); constructor op_reg_reg_sym_ofs(op : tasmop;_op1,_op2 : tregister; _op3: tasmsymbol;_op3ofs: longint); constructor op_reg_reg_ref(op : tasmop;_op1,_op2 : tregister; const _op3: treference); constructor op_reg_reg_shifterop(op : tasmop;_op1,_op2 : tregister;_op3 : tshifterop); { SFM/LFM } constructor op_reg_const_ref(op : tasmop;_op1 : tregister;_op2 : aword;_op3 : treference); { this is for Jmp instructions } constructor op_cond_sym(op : tasmop;cond:TAsmCond;_op1 : tasmsymbol); constructor op_sym(op : tasmop;_op1 : tasmsymbol); constructor op_sym_ofs(op : tasmop;_op1 : tasmsymbol;_op1ofs:longint); constructor op_reg_sym_ofs(op : tasmop;_op1 : tregister;_op2:tasmsymbol;_op2ofs : longint); constructor op_sym_ofs_ref(op : tasmop;_op1 : tasmsymbol;_op1ofs:longint;const _op2 : treference); function is_same_reg_move(regtype: Tregistertype):boolean; override; function spilling_get_operation_type(opnr: longint): topertype;override; end; tai_align = class(tai_align_abstract) { nothing to add } end; function spilling_create_load(const ref:treference;r:tregister): tai; function spilling_create_store(r:tregister; const ref:treference): tai; function setoppostfix(i : taicpu;pf : toppostfix) : taicpu; function setroundingmode(i : taicpu;rm : troundingmode) : taicpu; function setcondition(i : taicpu;c : tasmcond) : taicpu; { inserts pc relative symbols at places where they are reachable } procedure insertpcrelativedata(list,listtoinsert : taasmoutput); procedure InitAsm; procedure DoneAsm; implementation uses cutils,rgobj,itcpugas; procedure taicpu.loadshifterop(opidx:longint;const so:tshifterop); begin allocate_oper(opidx+1); with oper[opidx]^ do begin if typ<>top_shifterop then begin clearop(opidx); new(shifterop); end; shifterop^:=so; typ:=top_shifterop; if assigned(add_reg_instruction_hook) then add_reg_instruction_hook(self,shifterop^.rs); end; end; procedure taicpu.loadregset(opidx:longint;const s:tcpuregisterset); var i : byte; begin allocate_oper(opidx+1); with oper[opidx]^ do begin if typ<>top_regset then clearop(opidx); new(regset); regset^:=s; typ:=top_regset; for i:=RS_R0 to RS_R15 do begin if assigned(add_reg_instruction_hook) and (i in regset^) then add_reg_instruction_hook(self,newreg(R_INTREGISTER,i,R_SUBWHOLE)); end; end; end; {***************************************************************************** taicpu Constructors *****************************************************************************} constructor taicpu.op_none(op : tasmop); begin inherited create(op); end; constructor taicpu.op_reg(op : tasmop;_op1 : tregister); begin inherited create(op); ops:=1; loadreg(0,_op1); end; constructor taicpu.op_const(op : tasmop;_op1 : longint); begin inherited create(op); ops:=1; loadconst(0,aword(_op1)); end; constructor taicpu.op_reg_reg(op : tasmop;_op1,_op2 : tregister); begin inherited create(op); ops:=2; loadreg(0,_op1); loadreg(1,_op2); end; constructor taicpu.op_reg_const(op:tasmop; _op1: tregister; _op2: aword); begin inherited create(op); ops:=2; loadreg(0,_op1); loadconst(1,aword(_op2)); end; constructor taicpu.op_ref_regset(op:tasmop; _op1: treference; _op2: tcpuregisterset); begin inherited create(op); ops:=2; loadref(0,_op1); loadregset(1,_op2); end; constructor taicpu.op_reg_ref(op : tasmop;_op1 : tregister;const _op2 : treference); begin inherited create(op); ops:=2; loadreg(0,_op1); loadref(1,_op2); end; constructor taicpu.op_reg_reg_reg(op : tasmop;_op1,_op2,_op3 : tregister); begin inherited create(op); ops:=3; loadreg(0,_op1); loadreg(1,_op2); loadreg(2,_op3); end; constructor taicpu.op_reg_reg_const(op : tasmop;_op1,_op2 : tregister; _op3: aword); begin inherited create(op); ops:=3; loadreg(0,_op1); loadreg(1,_op2); loadconst(2,aword(_op3)); end; constructor taicpu.op_reg_const_ref(op : tasmop;_op1 : tregister;_op2 : aword;_op3 : treference); begin inherited create(op); ops:=3; loadreg(0,_op1); loadconst(1,_op2); loadref(2,_op3); end; constructor taicpu.op_reg_reg_sym_ofs(op : tasmop;_op1,_op2 : tregister; _op3: tasmsymbol;_op3ofs: longint); begin inherited create(op); ops:=3; loadreg(0,_op1); loadreg(1,_op2); loadsymbol(0,_op3,_op3ofs); end; constructor taicpu.op_reg_reg_ref(op : tasmop;_op1,_op2 : tregister; const _op3: treference); begin inherited create(op); ops:=3; loadreg(0,_op1); loadreg(1,_op2); loadref(2,_op3); end; constructor taicpu.op_reg_reg_shifterop(op : tasmop;_op1,_op2 : tregister;_op3 : tshifterop); begin inherited create(op); ops:=3; loadreg(0,_op1); loadreg(1,_op2); loadshifterop(2,_op3); end; constructor taicpu.op_cond_sym(op : tasmop;cond:TAsmCond;_op1 : tasmsymbol); begin inherited create(op); condition:=cond; ops:=1; loadsymbol(0,_op1,0); end; constructor taicpu.op_sym(op : tasmop;_op1 : tasmsymbol); begin inherited create(op); ops:=1; loadsymbol(0,_op1,0); end; constructor taicpu.op_sym_ofs(op : tasmop;_op1 : tasmsymbol;_op1ofs:longint); begin inherited create(op); ops:=1; loadsymbol(0,_op1,_op1ofs); end; constructor taicpu.op_reg_sym_ofs(op : tasmop;_op1 : tregister;_op2:tasmsymbol;_op2ofs : longint); begin inherited create(op); ops:=2; loadreg(0,_op1); loadsymbol(1,_op2,_op2ofs); end; constructor taicpu.op_sym_ofs_ref(op : tasmop;_op1 : tasmsymbol;_op1ofs:longint;const _op2 : treference); begin inherited create(op); ops:=2; loadsymbol(0,_op1,_op1ofs); loadref(1,_op2); end; { ****************************** newra stuff *************************** } function taicpu.is_same_reg_move(regtype: Tregistertype):boolean; begin { allow the register allocator to remove unnecessary moves } result:=(((opcode=A_MOV) and (regtype = R_INTREGISTER)) or ((opcode=A_MVF) and (regtype = R_FPUREGISTER)) ) and (condition=C_None) and (ops=2) and (oper[0]^.typ=top_reg) and (oper[1]^.typ=top_reg) and (oper[0]^.reg=oper[1]^.reg); end; function spilling_create_load(const ref:treference;r:tregister): tai; begin case getregtype(r) of R_INTREGISTER : result:=taicpu.op_reg_ref(A_LDR,r,ref); R_FPUREGISTER : { use lfm because we don't know the current internal format and avoid exceptions } result:=taicpu.op_reg_const_ref(A_LFM,r,1,ref); else internalerror(200401041); end; end; function spilling_create_store(r:tregister; const ref:treference): tai; begin case getregtype(r) of R_INTREGISTER : result:=taicpu.op_reg_ref(A_STR,r,ref); R_FPUREGISTER : { use sfm because we don't know the current internal format and avoid exceptions } result:=taicpu.op_reg_const_ref(A_SFM,r,1,ref); else internalerror(200401041); end; end; function taicpu.spilling_get_operation_type(opnr: longint): topertype; begin case opcode of A_ADC,A_ADD,A_AND, A_EOR,A_CLZ, A_LDR,A_LDRB,A_LDRD,A_LDRBT,A_LDRH,A_LDRSB, A_LDRSH,A_LDRT, A_MOV,A_MVN,A_MLA,A_MUL, A_ORR,A_RSB,A_RSC,A_SBC,A_SUB, A_SWP,A_SWPB, A_LDF,A_FLT,A_FIX, A_ADF,A_DVF,A_FDV,A_FML, A_RFS,A_RFC,A_RDF, A_RMF,A_RPW,A_RSF,A_SUF,A_ABS,A_ACS,A_ASN,A_ATN,A_COS, A_EXP,A_LOG,A_LGN,A_MVF,A_MNF,A_FRD,A_MUF,A_POL,A_RND,A_SIN,A_SQT,A_TAN, A_LFM: if opnr=0 then result:=operand_write else result:=operand_read; A_BIC,A_BKPT,A_B,A_BL,A_BLX,A_BX, A_CMN,A_CMP,A_TEQ,A_TST, A_CMF,A_CMFE,A_WFS,A_CNF: result:=operand_read; A_SMLAL,A_UMLAL: if opnr in [0,1] then result:=operand_readwrite else result:=operand_read; A_SMULL,A_UMULL: if opnr in [0,1] then result:=operand_write else result:=operand_read; A_STR,A_STRB,A_STRBT,A_STRD, A_STRH,A_STRT,A_STF,A_SFM: { important is what happens with the involved registers } if opnr=0 then result := operand_read else { check for pre/post indexed } result := operand_read else internalerror(200403151); end; end; procedure InitAsm; begin end; procedure DoneAsm; begin end; function setoppostfix(i : taicpu;pf : toppostfix) : taicpu; begin i.oppostfix:=pf; result:=i; end; function setroundingmode(i : taicpu;rm : troundingmode) : taicpu; begin i.roundingmode:=rm; result:=i; end; function setcondition(i : taicpu;c : tasmcond) : taicpu; begin i.condition:=c; result:=i; end; procedure insertpcrelativedata(list,listtoinsert : taasmoutput); var curpos : longint; lastpos : longint; curop : longint; curtai : tai; curdatatai,hp : tai; curdata : taasmoutput; l : tasmlabel; begin curdata:=taasmoutput.create; lastpos:=-1; curpos:=0; curtai:=tai(list.first); while assigned(curtai) do begin { instruction? } if curtai.typ=ait_instruction then begin { walk through all operand of the instruction } for curop:=0 to taicpu(curtai).ops-1 do begin { reference? } if (taicpu(curtai).oper[curop]^.typ=top_ref) then begin { pc relative symbol? } curdatatai:=tai(taicpu(curtai).oper[curop]^.ref^.symboldata); if assigned(curdatatai) then begin { if yes, insert till next symbol } repeat hp:=tai(curdatatai.next); listtoinsert.remove(curdatatai); curdata.concat(curdatatai); curdatatai:=hp; until (curdatatai=nil) or (curdatatai.typ=ait_label); if lastpos=-1 then lastpos:=curpos; end; end; end; inc(curpos); end; if (curpos-lastpos)>1020 then begin lastpos:=curpos; hp:=tai(curtai.next); objectlibrary.getlabel(l); curdata.insert(taicpu.op_sym(A_B,l)); curdata.concat(tai_label.create(l)); list.insertlistafter(curtai,curdata); curtai:=hp; end else curtai:=tai(curtai.next); end; list.concatlist(curdata); curdata.free; end; end. { $Log$ Revision 1.34 2004-07-04 15:22:34 florian * fixed float spilling to use sfm/lfm instead of stf/ldf Revision 1.33 2004/06/20 08:55:31 florian * logs truncated Revision 1.32 2004/06/16 20:07:10 florian * dwarf branch merged Revision 1.31.2.2 2004/06/13 10:51:17 florian * fixed several register allocator problems (sparc/arm) Revision 1.31.2.1 2004/06/12 17:01:01 florian * fixed compilation of arm compiler Revision 1.31 2004/03/29 19:19:35 florian + arm floating point register saving implemented * hopefully stabs generation for MacOSX fixed + some defines for arm added Revision 1.30 2004/03/15 22:20:13 florian * handling of spilling improved }