{ $Id$ Copyright (c) 1998-2000 by Jonas Maebe, member of the Free Pascal Development Team This unit contains the processor specific implementation of the assembler optimizer common subexpression elimination object. 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 aoptcpuc; Interface Uses CpuBase,AOptCs; Type TRegInfoCpu = Object(TRegInfo) Procedure AddReg(OldReg, NewReg: TRegister); Virtual; End; Implementation { ********************* TRegInfoCpu *****************} Procedure TRegInfoCpu.AddReg(OldReg, NewReg: TRegister); Begin NewRegsEncountered := NewRegsEncountered + [NewReg]; OldRegsEncountered := OldRegsEncountered + [OldReg]; New2OldReg[NewReg] := OldReg; Case OldReg Of R_EAX..R_EDI: Begin NewRegsEncountered := NewRegsEncountered + [Reg32toReg16(NewReg)]; OldRegsEncountered := OldRegsEncountered + [Reg32toReg16(OldReg)]; New2OldReg[Reg32toReg16(NewReg)] := Reg32toReg16(OldReg); If (NewReg in [R_EAX..R_EBX]) And (OldReg in [R_EAX..R_EBX]) Then Begin NewRegsEncountered := NewRegsEncountered + [Reg32toReg8(NewReg)]; OldRegsEncountered := OldRegsEncountered + [Reg32toReg8(OldReg)]; New2OldReg[Reg32toReg8(NewReg)] := Reg32toReg8(OldReg); End; End; R_AX..R_DI: Begin NewRegsEncountered := NewRegsEncountered + [Reg16toReg32(NewReg)]; OldRegsEncountered := OldRegsEncountered + [Reg16toReg32(OldReg)]; New2OldReg[Reg16toReg32(NewReg)] := Reg16toReg32(OldReg); If (NewReg in [R_AX..R_BX]) And (OldReg in [R_AX..R_BX]) Then Begin NewRegsEncountered := NewRegsEncountered + [Reg16toReg8(NewReg)]; OldRegsEncountered := OldRegsEncountered + [Reg16toReg8(OldReg)]; New2OldReg[Reg16toReg8(NewReg)] := Reg16toReg8(OldReg); End; End; R_AL..R_BL: Begin NewRegsEncountered := NewRegsEncountered + [Reg8toReg32(NewReg)] + [Reg8toReg16(NewReg)]; OldRegsEncountered := OldRegsEncountered + [Reg8toReg32(OldReg)] + [Reg8toReg16(OldReg)]; New2OldReg[Reg8toReg32(NewReg)] := Reg8toReg32(OldReg); End; End; End; End. { $Log$ Revision 1.1 2000-07-13 06:30:10 michael + Initial import Revision 1.3 2000/01/07 01:14:57 peter * updated copyright to 2000 Revision 1.2 1999/11/09 22:57:09 peter * compiles again both i386,alpha both with optimizer Revision 1.1 1999/08/18 14:32:26 jonas + compilable! + dataflow analyzer finished + start of CSE units + aoptbase which contains a base object for all optimizer objects * some constants and type definitions moved around to avoid circular dependencies * moved some methods from base objects to specialized objects because they're not used anywhere else }