{ $Id$ Copyright (c) 1998-2002 by Florian Klaempfl Generate generic mathematical nodes 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 ncgmat; {$i fpcdefs.inc} interface uses node,nmat,cpubase,cgbase; type tcgunaryminusnode = class(tunaryminusnode) protected { This routine is called to change the sign of the floating point value in the floating point register r. This routine should be overriden, since the generic version is not optimal at all. The generic version assumes that floating point values are stored in the register in IEEE-754 format. } procedure emit_float_sign_change(r: tregister; _size : tcgsize);virtual; {$ifdef SUPPORT_MMX} procedure second_mmx;virtual;abstract; {$endif SUPPORT_MMX} {$ifndef cpu64bit} procedure second_64bit;virtual; {$endif cpu64bit} procedure second_integer;virtual; procedure second_float;virtual; public procedure pass_2;override; end; tcgmoddivnode = class(tmoddivnode) procedure pass_2;override; protected { This routine must do an actual 32-bit division, be it signed or unsigned. The result must set into the the @var(num) register. @param(signed Indicates if the division must be signed) @param(denum Register containing the denominator @param(num Register containing the numerator, will also receive result) The actual optimizations regarding shifts have already been done and emitted, so this should really a do a divide. } procedure emit_div_reg_reg(signed: boolean;denum,num : tregister);virtual;abstract; { This routine must do an actual 32-bit modulo, be it signed or unsigned. The result must set into the the @var(num) register. @param(signed Indicates if the modulo must be signed) @param(denum Register containing the denominator @param(num Register containing the numerator, will also receive result) The actual optimizations regarding shifts have already been done and emitted, so this should really a do a modulo. } procedure emit_mod_reg_reg(signed: boolean;denum,num : tregister);virtual;abstract; {$ifndef cpu64bit} { This routine must do an actual 64-bit division, be it signed or unsigned. The result must set into the the @var(num) register. @param(signed Indicates if the division must be signed) @param(denum Register containing the denominator @param(num Register containing the numerator, will also receive result) The actual optimizations regarding shifts have already been done and emitted, so this should really a do a divide. Currently, this routine should only be implemented on 64-bit systems, otherwise a helper is called in 1st pass. } procedure emit64_div_reg_reg(signed: boolean;denum,num : tregister64);virtual; {$endif cpu64bit} end; tcgshlshrnode = class(tshlshrnode) {$ifndef cpu64bit} procedure second_64bit;virtual; {$endif cpu64bit} procedure second_integer;virtual; procedure pass_2;override; end; tcgnotnode = class(tnotnode) protected procedure second_boolean;virtual;abstract; {$ifdef SUPPORT_MMX} procedure second_mmx;virtual;abstract; {$endif SUPPORT_MMX} {$ifndef cpu64bit} procedure second_64bit;virtual; {$endif cpu64bit} procedure second_integer;virtual; public procedure pass_2;override; end; implementation uses globtype,systems, cutils,verbose,globals, symconst,aasmbase,aasmtai,aasmcpu,defutil, parabase, pass_2, ncon, tgobj,ncgutil,cgobj,cgutils,paramgr {$ifndef cpu64bit} ,cg64f32 {$endif cpu64bit} ; {***************************************************************************** TCGUNARYMINUSNODE *****************************************************************************} procedure tcgunaryminusnode.emit_float_sign_change(r: tregister; _size : tcgsize); var href, href2 : treference; begin { get a temporary memory reference to store the floating point value } tg.gettemp(exprasmlist,tcgsize2size[_size],tt_normal,href); { store the floating point value in the temporary memory area } cg.a_loadfpu_reg_ref(exprasmlist,_size,r,href); { only single and double ieee are supported, for little endian the signed bit is in the second dword } href2:=href; case _size of OS_F64 : if target_info.endian = endian_little then inc(href2.offset,4); OS_F32 : ; else internalerror(200406021); end; { flip sign-bit (bit 31/63) of single/double } cg.a_op_const_ref(exprasmlist,OP_XOR,OS_32,aint($80000000),href2); cg.a_loadfpu_ref_reg(exprasmlist,_size,href,r); tg.ungetiftemp(exprasmlist,href); end; {$ifndef cpu64bit} procedure tcgunaryminusnode.second_64bit; begin secondpass(left); { load left operator in a register } location_copy(location,left.location); location_force_reg(exprasmlist,location,OS_64,false); cg64.a_op64_loc_reg(exprasmlist,OP_NEG, location,joinreg64(location.register64.reglo,location.register64.reghi)); end; {$endif cpu64bit} procedure tcgunaryminusnode.second_float; begin secondpass(left); location_reset(location,LOC_FPUREGISTER,def_cgsize(resulttype.def)); case left.location.loc of LOC_REFERENCE, LOC_CREFERENCE : begin location.register:=cg.getfpuregister(exprasmlist,location.size); cg.a_loadfpu_ref_reg(exprasmlist, def_cgsize(left.resulttype.def), left.location.reference,location.register); emit_float_sign_change(location.register,def_cgsize(left.resulttype.def)); end; LOC_FPUREGISTER: begin location.register:=left.location.register; emit_float_sign_change(location.register,def_cgsize(left.resulttype.def)); end; LOC_CFPUREGISTER: begin location.register:=cg.getfpuregister(exprasmlist,location.size); cg.a_loadfpu_reg_reg(exprasmlist,left.location.size,left.location.register,location.register); emit_float_sign_change(location.register,def_cgsize(left.resulttype.def)); end; else internalerror(200306021); end; end; procedure tcgunaryminusnode.second_integer; begin secondpass(left); { load left operator in a register } location_copy(location,left.location); location_force_reg(exprasmlist,location,OS_INT,false); cg.a_op_reg_reg(exprasmlist,OP_NEG,OS_INT,location.register,location.register); end; procedure tcgunaryminusnode.pass_2; begin {$ifndef cpu64bit} if is_64bit(left.resulttype.def) then second_64bit else {$endif cpu64bit} {$ifdef SUPPORT_MMX} if (cs_mmx in aktlocalswitches) and is_mmx_able_array(left.resulttype.def) then second_mmx else {$endif SUPPORT_MMX} if (left.resulttype.def.deftype=floatdef) then second_float else second_integer; end; {***************************************************************************** TCGMODDIVNODE *****************************************************************************} {$ifndef cpu64bit} procedure tcgmoddivnode.emit64_div_reg_reg(signed: boolean; denum,num:tregister64); begin { handled in pass_1 already, unless pass_1 is overriden } { should be handled in pass_1 (JM) } internalerror(200109052); end; {$endif cpu64bit} procedure tcgmoddivnode.pass_2; var hreg1 : tregister; hdenom : tregister; power : longint; hl : tasmlabel; paraloc1 : tcgpara; begin secondpass(left); if codegenerror then exit; secondpass(right); if codegenerror then exit; location_copy(location,left.location); {$ifndef cpu64bit} if is_64bit(resulttype.def) then begin { this code valid for 64-bit cpu's only , otherwise helpers are called in pass_1 } location_force_reg(exprasmlist,location,OS_64,false); location_copy(location,left.location); location_force_reg(exprasmlist,right.location,OS_64,false); emit64_div_reg_reg(is_signed(left.resulttype.def), joinreg64(right.location.register64.reglo,right.location.register64.reghi), joinreg64(location.register64.reglo,location.register64.reghi)); end else {$endif cpu64bit} begin { put numerator in register } location_force_reg(exprasmlist,left.location,OS_INT,false); hreg1:=left.location.register; if (nodetype=divn) and (right.nodetype=ordconstn) and ispowerof2(tordconstnode(right).value,power) then Begin { for signed numbers, the numerator must be adjusted before the shift instruction, but not wih unsigned numbers! Otherwise, "Cardinal($ffffffff) div 16" overflows! (JM) } If is_signed(left.resulttype.def) Then Begin objectlibrary.getlabel(hl); cg.a_cmp_const_reg_label(exprasmlist,OS_INT,OC_GT,0,hreg1,hl); if power=1 then cg.a_op_const_reg(exprasmlist,OP_ADD,OS_INT,1,hreg1) else cg.a_op_const_reg(exprasmlist,OP_ADD,OS_INT,tordconstnode(right).value-1,hreg1); cg.a_label(exprasmlist,hl); cg.a_op_const_reg(exprasmlist,OP_SAR,OS_INT,power,hreg1); End Else { not signed } cg.a_op_const_reg(exprasmlist,OP_SHR,OS_INT,power,hreg1); End else begin { bring denominator to hdenom } { hdenom is always free, it's } { only used for temporary } { purposes } hdenom := cg.getintregister(exprasmlist,OS_INT); cg.a_load_loc_reg(exprasmlist,right.location.size,right.location,hdenom); { verify if the divisor is zero, if so return an error immediately } objectlibrary.getlabel(hl); cg.a_cmp_const_reg_label(exprasmlist,OS_INT,OC_NE,0,hdenom,hl); paraloc1.init; paramanager.getintparaloc(pocall_default,1,paraloc1); paramanager.allocparaloc(exprasmlist,paraloc1); cg.a_param_const(exprasmlist,OS_S32,200,paraloc1); paramanager.freeparaloc(exprasmlist,paraloc1); cg.a_call_name(exprasmlist,'FPC_HANDLERROR'); paraloc1.done; cg.a_label(exprasmlist,hl); if nodetype = modn then emit_mod_reg_reg(is_signed(left.resulttype.def),hdenom,hreg1) else emit_div_reg_reg(is_signed(left.resulttype.def),hdenom,hreg1); end; location_reset(location,LOC_REGISTER,OS_INT); location.register:=hreg1; end; cg.g_overflowcheck(exprasmlist,location,resulttype.def); end; {***************************************************************************** TCGSHLRSHRNODE *****************************************************************************} {$ifndef cpu64bit} procedure tcgshlshrnode.second_64bit; begin { already hanled in 1st pass } internalerror(2002081501); end; {$endif cpu64bit} procedure tcgshlshrnode.second_integer; var op : topcg; hcountreg : tregister; begin { determine operator } case nodetype of shln: op:=OP_SHL; shrn: op:=OP_SHR; end; { load left operators in a register } location_copy(location,left.location); location_force_reg(exprasmlist,location,OS_INT,false); { shifting by a constant directly coded: } if (right.nodetype=ordconstn) then begin { l shl 32 should 0 imho, but neither TP nor Delphi do it in this way (FK) if right.value<=31 then } cg.a_op_const_reg(exprasmlist,op,location.size, tordconstnode(right).value and 31,location.register); { else emit_reg_reg(A_XOR,S_L,hregister1, hregister1); } end else begin { load right operators in a register - this is done since most target cpu which will use this node do not support a shift count in a mem. location (cec) } if right.location.loc<>LOC_REGISTER then begin hcountreg:=cg.getintregister(exprasmlist,OS_INT); cg.a_load_loc_reg(exprasmlist,right.location.size,right.location,hcountreg); end else hcountreg:=right.location.register; cg.a_op_reg_reg(exprasmlist,op,OS_INT,hcountreg,location.register); end; end; procedure tcgshlshrnode.pass_2; begin secondpass(left); secondpass(right); {$ifndef cpu64bit} if is_64bit(left.resulttype.def) then second_64bit else {$endif cpu64bit} second_integer; end; {***************************************************************************** TCGNOTNODE *****************************************************************************} {$ifndef cpu64bit} procedure tcgnotnode.second_64bit; begin secondpass(left); location_force_reg(exprasmlist,left.location,def_cgsize(left.resulttype.def),false); location_copy(location,left.location); { perform the NOT operation } cg64.a_op64_reg_reg(exprasmlist,OP_NOT,left.location.register64,location.register64); end; {$endif cpu64bit} procedure tcgnotnode.second_integer; begin secondpass(left); location_force_reg(exprasmlist,left.location,def_cgsize(left.resulttype.def),false); location_copy(location,left.location); { perform the NOT operation } cg.a_op_reg_reg(exprasmlist,OP_NOT,location.size,location.register,location.register); end; procedure tcgnotnode.pass_2; begin if is_boolean(resulttype.def) then second_boolean {$ifdef SUPPORT_MMX} else if (cs_mmx in aktlocalswitches) and is_mmx_able_array(left.resulttype.def) then second_mmx {$endif SUPPORT_MMX} {$ifndef cpu64bit} else if is_64bit(left.resulttype.def) then second_64bit {$endif cpu64bit} else second_integer; end; begin cmoddivnode:=tcgmoddivnode; cunaryminusnode:=tcgunaryminusnode; cshlshrnode:=tcgshlshrnode; cnotnode:=tcgnotnode; end. { $Log$ Revision 1.30 2004-10-31 21:45:03 peter * generic tlocation * move tlocation to cgutils Revision 1.29 2004/09/25 14:23:54 peter * ungetregister is now only used for cpuregisters, renamed to ungetcpuregister * renamed (get|unget)explicitregister(s) to ..cpuregister * removed location-release/reference_release Revision 1.28 2004/09/21 17:25:12 peter * paraloc branch merged Revision 1.27.4.1 2004/08/31 20:43:06 peter * paraloc patch Revision 1.27 2004/06/20 08:55:29 florian * logs truncated Revision 1.26 2004/06/16 20:07:08 florian * dwarf branch merged Revision 1.25.2.4 2004/06/02 19:04:51 peter * fixed minusunary for float Revision 1.25.2.3 2004/05/31 16:39:42 peter * add ungetiftemp in a few locations Revision 1.25.2.2 2004/05/30 17:07:07 peter * fix shl shr for sparc Revision 1.25.2.1 2004/04/27 18:18:25 peter * aword -> aint }