{ Copyright (c) 1998-2002 by Florian Klaempfl and David Zhang Calling conventions for the MIPSEL 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 cpupara; {$i fpcdefs.inc} interface uses globtype,globals, cclasses, aasmtai, cpubase,cpuinfo, symconst,symbase,symsym,symtype,symdef,paramgr,parabase,cgbase,cgutils; const { The value below is OK for O32 and N32 calling conventions } MIPS_MAX_REGISTERS_USED_IN_CALL = 6; { All ABI seem to start with $4 i.e. $a0 } MIPS_FIRST_REGISTER_USED_IN_CALL = RS_R4; { O32 ABI uses $a0 to $a3, i.e R4 to R7 } MIPS_LAST_REGISTER_USED_IN_CALL_ABI_O32 = RS_R7; { N32 ABI uses also R8 and R9 } MIPS_LAST_REGISTER_USED_IN_CALL_ABI_N32 = RS_R9; { The calculation below is based on the assumption that all registers used for ABI calls are ordered and follow each other } MIPS_NB_REGISTERS_USED_IN_CALL_O32 = MIPS_LAST_REGISTER_USED_IN_CALL_ABI_O32 - MIPS_FIRST_REGISTER_USED_IN_CALL + 1; MIPS_NB_REGISTERS_USED_IN_CALL_N32 = MIPS_LAST_REGISTER_USED_IN_CALL_ABI_N32 - MIPS_FIRST_REGISTER_USED_IN_CALL + 1; { Set O32 ABI as default } const mips_nb_used_registers : longint = MIPS_NB_REGISTERS_USED_IN_CALL_O32; { Might need to be changed if we support N64 ABI later } {$ifdef MIPS64} mips_sizeof_register_param : longint = 8; {$else MIPS64} mips_sizeof_register_param : longint = 4; {$endif MIPS64} type tparasupregs = array[0..MIPS_MAX_REGISTERS_USED_IN_CALL-1] of tsuperregister; tparasupregsused = array[0..MIPS_MAX_REGISTERS_USED_IN_CALL-1] of boolean; const parasupregs : tparasupregs = (RS_R4, RS_R5, RS_R6, RS_R7, RS_R8, RS_R9); type tcpuparamanager=class(TParaManager) function push_addr_param(varspez:tvarspez;def : tdef;calloption : tproccalloption) : boolean;override; function get_volatile_registers_int(calloption : tproccalloption):TCpuRegisterSet;override; function get_volatile_registers_fpu(calloption : tproccalloption):TCpuRegisterSet;override; function get_saved_registers_int(calloption : tproccalloption):TCpuRegisterArray;override; function create_paraloc_info(p : TAbstractProcDef; side: tcallercallee):longint;override; function create_varargs_paraloc_info(p : TAbstractProcDef; side: tcallercallee; varargspara:tvarargsparalist):longint;override; function get_funcretloc(p : tabstractprocdef; side: tcallercallee; forcetempdef: tdef): tcgpara;override; function param_use_paraloc(const cgpara: tcgpara): boolean; override; private intparareg, intparasize : longint; can_use_float : boolean; function is_abi_record(def: tdef): boolean; procedure create_paraloc_info_intern(p : tabstractprocdef; side: tcallercallee; paras: tparalist); end; implementation uses cutils,verbose,systems, defutil, cpupi, procinfo, cgobj; function tcpuparamanager.get_volatile_registers_int(calloption : tproccalloption):TCpuRegisterSet; begin { O32 ABI values } result:=[RS_R1..RS_R15,RS_R24..RS_R25,RS_R31]; end; function tcpuparamanager.get_volatile_registers_fpu(calloption : tproccalloption):TCpuRegisterSet; begin { O32 ABI values } result:=[RS_F0..RS_F19]; end; function tcpuparamanager.get_saved_registers_int(calloption : tproccalloption):TCpuRegisterArray; const saved_regs : tcpuregisterarray = (RS_NO); begin result:=saved_regs; end; { whether "def" must be treated as record when used as function result, i.e. its address passed in a0 } function tcpuparamanager.is_abi_record(def: tdef): boolean; begin result:=(def.typ=recorddef) or ((def.typ=procvardef) and not tprocvardef(def).is_addressonly); end; function tcpuparamanager.param_use_paraloc(const cgpara: tcgpara): boolean; var paraloc: pcgparalocation; begin paraloc:=cgpara.location; if not assigned(paraloc) then internalerror(200410102); result:=(paraloc^.loc=LOC_REFERENCE) and (paraloc^.next=nil); end; { true if a parameter is too large to copy and only the address is pushed } function tcpuparamanager.push_addr_param(varspez:tvarspez;def : tdef;calloption : tproccalloption) : boolean; begin result:=false; { var,out,constref always require address } if varspez in [vs_var,vs_out,vs_constref] then begin result:=true; exit; end; case def.typ of recorddef: { According to 032 ABI we should have } result:=false; arraydef: result:=true; {(tarraydef(def).highrange>=tarraydef(def).lowrange) or is_open_array(def) or is_array_of_const(def) or is_array_constructor(def);} variantdef, formaldef : result:=true; objectdef : result:=is_object(def); stringdef : result:=(tstringdef(def).stringtype in [st_shortstring,st_longstring]); procvardef : { If we always push records by value, we have to handle methodpointers that way too. } result:=false; {not tprocvardef(def).is_addressonly;} setdef : result:=not(is_smallset(def)); else ; end; end; function tcpuparamanager.get_funcretloc(p : tabstractprocdef; side: tcallercallee; forcetempdef: tdef): tcgpara; var paraloc : pcgparalocation; retcgsize : tcgsize; retdef : tdef; begin if set_common_funcretloc_info(p,forcetempdef,retcgsize,result) then begin { Return is passed as var parameter, in this case we use the first register R4 for it } if assigned(forcetempdef) then retdef:=forcetempdef else retdef:=p.returndef; if ret_in_param(retdef,p) and is_abi_record(retdef) then begin if intparareg=0 then inc(intparareg); end; exit; end; paraloc:=result.add_location; { Return in FPU register? } if result.def.typ=floatdef then begin if (p.proccalloption in [pocall_softfloat]) or (cs_fp_emulation in current_settings.moduleswitches) then begin case retcgsize of OS_64, OS_F64: begin { low } paraloc^.loc:=LOC_REGISTER; if side=callerside then paraloc^.register:=NR_FUNCTION_RESULT64_LOW_REG else paraloc^.register:=NR_FUNCTION_RETURN64_LOW_REG; paraloc^.size:=OS_32; paraloc^.def:=u32inttype; { high } paraloc:=result.add_location; paraloc^.loc:=LOC_REGISTER; if side=callerside then paraloc^.register:=NR_FUNCTION_RESULT64_HIGH_REG else paraloc^.register:=NR_FUNCTION_RETURN64_HIGH_REG; paraloc^.size:=OS_32; paraloc^.def:=u32inttype; end; OS_32, OS_F32: begin paraloc^.loc:=LOC_REGISTER; if side=callerside then paraloc^.register:=NR_FUNCTION_RESULT_REG else paraloc^.register:=NR_FUNCTION_RETURN_REG; paraloc^.size:=OS_32; paraloc^.def:=u32inttype; end; else internalerror(2024092901); end; end else begin paraloc^.loc:=LOC_FPUREGISTER; paraloc^.register:=NR_FPU_RESULT_REG; if retcgsize=OS_F64 then setsubreg(paraloc^.register,R_SUBFD); paraloc^.size:=retcgsize; paraloc^.def:=result.def; end; end else { Return in register } begin {$ifndef cpu64bitalu} if retcgsize in [OS_64,OS_S64] then begin { low } paraloc^.loc:=LOC_REGISTER; if side=callerside then paraloc^.register:=NR_FUNCTION_RESULT64_LOW_REG else paraloc^.register:=NR_FUNCTION_RETURN64_LOW_REG; paraloc^.size:=OS_32; paraloc^.def:=u32inttype; { high } paraloc:=result.add_location; paraloc^.loc:=LOC_REGISTER; if side=callerside then paraloc^.register:=NR_FUNCTION_RESULT64_HIGH_REG else paraloc^.register:=NR_FUNCTION_RETURN64_HIGH_REG; paraloc^.size:=OS_32; paraloc^.def:=u32inttype; end else {$endif cpu64bitalu} begin paraloc^.loc:=LOC_REGISTER; paraloc^.size:=retcgsize; paraloc^.def:=result.def; if side=callerside then paraloc^.register:=newreg(R_INTREGISTER,RS_FUNCTION_RESULT_REG,cgsize2subreg(R_INTREGISTER,retcgsize)) else paraloc^.register:=newreg(R_INTREGISTER,RS_FUNCTION_RETURN_REG,cgsize2subreg(R_INTREGISTER,retcgsize)); end; end end; procedure tcpuparamanager.create_paraloc_info_intern(p : tabstractprocdef; side: tcallercallee;paras:tparalist); var paraloc : pcgparalocation; i,j : integer; hp : tparavarsym; paracgsize : tcgsize; paralen : longint; locdef : tdef; paradef : tdef; fpparareg : integer; reg : tsuperregister; alignment : longint; tmp : longint; firstparaloc : boolean; reg_and_stack: boolean; begin fpparareg := 0; for i:=0 to paras.count-1 do begin hp:=tparavarsym(paras[i]); paradef := hp.vardef; { currently only support C-style array of const } if (p.proccalloption in cstylearrayofconst) and is_array_of_const(paradef) then begin paraloc:=hp.paraloc[side].add_location; { hack: the paraloc must be valid, but is not actually used } paraloc^.loc:=LOC_REGISTER; paraloc^.register:=NR_R0; paraloc^.size:=OS_ADDR; paraloc^.def:=voidpointertype; break; end; if push_addr_param(hp.varspez,paradef,p.proccalloption) then begin paracgsize := OS_ADDR; paralen := tcgsize2size[paracgsize]; paradef := cpointerdef.getreusable_no_free(paradef); end else begin paracgsize := def_cgsize(paradef); { for things like formaldef } if (paracgsize=OS_NO) and (paradef.typ <> recorddef) then begin paracgsize:=OS_ADDR; paradef:=voidpointertype; end; if not is_special_array(paradef) then paralen := paradef.size else paralen := tcgsize2size[paracgsize]; end; if (paracgsize in [OS_64, OS_S64, OS_F64]) or (paradef.alignment = 8) then alignment := 8 else alignment := 4; //writeln('para: ',hp.Name,' typ=',hp.vardef.typ,' paracgsize=',paracgsize,' align=',hp.vardef.alignment); hp.paraloc[side].reset; hp.paraloc[side].Alignment:=alignment; locdef:=paradef; if (paracgsize=OS_NO) or { Ordinals on caller side must be promoted to machine word } ((target_info.endian=endian_big) and // applies to little-endian too? (paradef.typ<>recorddef) and (side=callerside) and (paralen 0 do begin inc(intparareg); inc(intparasize,4); dec(tmp,4); end; { any non-float args will disable the use the floating regs } { up to two fp args } if (not(paracgsize in [OS_F32, OS_F64])) or (fpparareg = 2) then can_use_float := false; firstparaloc:=true; { Is parameter split between stack and registers? } reg_and_stack:=(side=calleeside) and (paralen+intparasize>16) and (intparasize<16); while paralen>0 do begin paraloc:=hp.paraloc[side].add_location; {$ifdef cpu64bitalu} if paracgsize in [OS_128,OS_S128] then begin if paralen>4 then begin paraloc^.size:=OS_64; paraloc^.def:=u64inttype; end end else {$else cpu64bitalu} { We can allocate at maximum 32 bits per register on mips32 } if (paracgsize in [OS_64,OS_S64]) or ((paracgsize in [OS_F32,OS_F64]) and not(can_use_float)) then begin paraloc^.size:=OS_32; paraloc^.def:=u32inttype; end else {$endif cpu64bitalu} begin paraloc^.size:=paracgsize; paraloc^.def:=locdef; end; { ret in param? } if (vo_is_funcret in hp.varoptions) and is_abi_record(hp.vardef) then begin { This should be the first parameter } //if (intparareg<>1) then // Comment(V_Warning,'intparareg should be one for funcret in tcpuparamanager.create_paraloc_info_intern'); paraloc^.loc:=LOC_REGISTER; paraloc^.register:=newreg(R_INTREGISTER,parasupregs[0],R_SUBWHOLE); inc(intparasize,align(tcgsize2size[paraloc^.size],sizeof(aint))); end { "In case of po_delphi_nested_cc, the parent frame pointer is always passed on the stack". On other targets it is used to provide caller-side stack cleanup and prevent stackframe optimization. For MIPS this does not matter. } else if (intpararegrecorddef) then inc(paraloc^.reference.offset,4-paralen); end; inc(intparasize,align(paralen,mips_sizeof_register_param)); paralen:=0; end; dec(paralen,tcgsize2size[paraloc^.size]); firstparaloc:=false; end; end; { O32 ABI reqires at least 16 bytes } if (intparasize < 16) then intparasize := 16; end; function tcpuparamanager.create_varargs_paraloc_info(p : tabstractprocdef; side: tcallercallee; varargspara:tvarargsparalist):longint; begin intparareg:=0; intparasize:=0; can_use_float := not ((p.proccalloption in [pocall_softfloat]) or (cs_fp_emulation in current_settings.moduleswitches)); { Create Function result paraloc } create_funcretloc_info(p,callerside); { calculate the registers for the normal parameters } create_paraloc_info_intern(p,side,p.paras); { append the varargs } can_use_float := false; { restore correct intparasize value } if intparareg < 4 then intparasize:=intparareg * 4; if assigned(varargspara) then begin if side=callerside then create_paraloc_info_intern(p,side,varargspara) else internalerror(2019021922); end; create_funcretloc_info(p,side); { We need to return the size allocated on the stack } result:=intparasize; end; function tcpuparamanager.create_paraloc_info(p : tabstractprocdef; side: tcallercallee):longint; begin intparareg:=0; intparasize:=0; can_use_float := not ((p.proccalloption in [pocall_softfloat]) or (cs_fp_emulation in current_settings.moduleswitches)); { Create Function result paraloc } create_funcretloc_info(p,side); create_paraloc_info_intern(p,side,p.paras); { We need to return the size allocated on the stack } result:=intparasize; end; begin ParaManager:=tcpuparamanager.create; end.