{ Copyright (c) 1998-2002 by the Free Pascal development team Basic Processor information for the MIPS See the file COPYING.FPC, included in this distribution, for details about the copyright. 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. **********************************************************************} Unit CPUInfo; {$i fpcdefs.inc} Interface uses globtype; Type bestreal = double; {$if FPC_FULLVERSION>20700} bestrealrec = TDoubleRec; {$endif FPC_FULLVERSION>20700} ts32real = single; ts64real = double; ts80real = type double; ts128real = type double; ts64comp = comp; pbestreal=^bestreal; { possible supported processors for this target } tcputype = (cpu_none, cpu_mips1, cpu_mips2, cpu_mips3, cpu_mips4, cpu_mips5, cpu_mips32, cpu_mips32r2, cpu_pic32mx ); tfputype =(fpu_none,fpu_soft,fpu_mips2,fpu_mips3); tabitype = ( abi_none, abi_default, abi_o32, abi_n32, abi_o64, abi_n64, abi_eabi ); Const {# Size of native extended floating point type } extended_size = 8; { calling conventions supported by the code generator } supported_calling_conventions : tproccalloptions = [ pocall_internproc, pocall_stdcall, pocall_safecall, { same as stdcall only different name mangling } pocall_cdecl, { same as stdcall only different name mangling } pocall_cppdecl ]; { cpu strings as accepted by GNU assembler in -arch=XXX option this ilist needs to be uppercased } cputypestr : array[tcputype] of string[8] = ('', { cpu_mips1 } 'MIPS1', { cpu_mips2 } 'MIPS2', { cpu_mips3 } 'MIPS3', { cpu_mips4 } 'MIPS4', { cpu_mips5 } 'MIPS5', { cpu_mips32 } 'MIPS32', { cpu_mips32r2 } 'MIPS32R2', { cpu_pic32mx } 'PIC32MX' ); fputypestr : array[tfputype] of string[9] = ( 'NONE', 'SOFT', 'MIPS2','MIPS3' ); { abi strings as accepted by GNU assembler in -abi=XXX option } abitypestr : array[tabitype] of string[4] = ({ abi_none } '', { abi_default } '32', { abi_o32 } '32', { abi_n32 } 'n32', { abi_o64 } 'o64', { abi_n64 } '64', { abi_eabi } 'eabi' ); mips_abi : tabitype = abi_default; type tcpuflags=( CPUMIPS_HAS_CMOV, { conditional move instructions (mips4+) } CPUMIPS_HAS_ISA32R2 { mips32r2 instructions (also on PIC32) } ); tcontrollerdatatype = record controllertypestr, controllerunitstr: string[20]; cputype: tcputype; fputype: tfputype; flashbase, flashsize, srambase, sramsize, eeprombase, eepromsize, bootbase, bootsize: dword; end; const cpu_capabilities : array[tcputype] of set of tcpuflags = ( { cpu_none } [], { cpu_mips1 } [], { cpu_mips2 } [], { cpu_mips3 } [], { cpu_mips4 } [CPUMIPS_HAS_CMOV], { cpu_mips5 } [CPUMIPS_HAS_CMOV], { cpu_mips32 } [CPUMIPS_HAS_CMOV], { cpu_mips32r2 } [CPUMIPS_HAS_CMOV,CPUMIPS_HAS_ISA32R2], { cpu_pic32mx } [CPUMIPS_HAS_CMOV,CPUMIPS_HAS_ISA32R2] ); {$ifndef MIPSEL} type tcontrollertype = (ct_none ); Const { Is there support for dealing with multiple microcontrollers available } { for this platform? } ControllerSupport = false; { We know that there are fields after sramsize but we don't care about this warning } {$PUSH} {$WARN 3177 OFF} embedded_controllers : array [tcontrollertype] of tcontrollerdatatype = ( (controllertypestr:''; controllerunitstr:''; cputype:cpu_none; fputype:fpu_none; flashbase:0; flashsize:0; srambase:0; sramsize:0)); {$POP} {$ELSE MIPSEL} { Is there support for dealing with multiple microcontrollers available } { for this platform? } ControllerSupport = true; type tcontrollertype = (ct_none, { pic32mx } ct_pic32mx110f016b, ct_pic32mx110f016c, ct_pic32mx110f016d, ct_pic32mx120f032b, ct_pic32mx120f032c, ct_pic32mx120f032d, ct_pic32mx130f064b, ct_pic32mx130f064c, ct_pic32mx130f064d, ct_pic32mx150f128b, ct_pic32mx150f128c, ct_pic32mx150f128d, ct_pic32mx210f016b, ct_pic32mx210f016c, ct_pic32mx210f016d, ct_pic32mx220f032b, ct_pic32mx220f032c, ct_pic32mx220f032d, ct_pic32mx230f064b, ct_pic32mx230f064c, ct_pic32mx230f064d, ct_pic32mx250f128b, ct_pic32mx250f128c, ct_pic32mx250f128d, ct_pic32mx775f256h, ct_pic32mx775f256l, ct_pic32mx775f512h, ct_pic32mx775f512l, ct_pic32mx795f512h, ct_pic32mx795f512l ); { We know that there are fields after sramsize but we don't care about this warning } {$WARN 3177 OFF} const embedded_controllers : array [tcontrollertype] of tcontrollerdatatype = ( (controllertypestr:''; controllerunitstr:''; cputype: cpu_none; fputype: fpu_none; flashbase:0; flashsize:0; srambase:0; sramsize:0), { PIC32MX1xx Series} (controllertypestr:'PIC32MX110F016B'; controllerunitstr:'PIC32MX1xxFxxxB'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00004000; srambase:$A0000000; sramsize:$00001000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX110F016C'; controllerunitstr:'PIC32MX1xxFxxxC'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00004000; srambase:$A0000000; sramsize:$00001000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX110F016D'; controllerunitstr:'PIC32MX1xxFxxxD'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00004000; srambase:$A0000000; sramsize:$00001000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX120F032B'; controllerunitstr:'PIC32MX1xxFxxxB'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00008000; srambase:$A0000000; sramsize:$00002000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX120F032C'; controllerunitstr:'PIC32MX1xxFxxxC'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00008000; srambase:$A0000000; sramsize:$00002000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX120F032D'; controllerunitstr:'PIC32MX1xxFxxxD'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00008000; srambase:$A0000000; sramsize:$00002000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX130F064B'; controllerunitstr:'PIC32MX1xxFxxxB'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00010000; srambase:$A0000000; sramsize:$00004000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX130F064C'; controllerunitstr:'PIC32MX1xxFxxxC'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00010000; srambase:$A0000000; sramsize:$00004000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX130F064D'; controllerunitstr:'PIC32MX1xxFxxxD'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00010000; srambase:$A0000000; sramsize:$00004000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX150F128B'; controllerunitstr:'PIC32MX1xxFxxxB'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00020000; srambase:$A0000000; sramsize:$00008000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX150F128C'; controllerunitstr:'PIC32MX1xxFxxxC'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00020000; srambase:$A0000000; sramsize:$00008000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX150F128D'; controllerunitstr:'PIC32MX1xxFxxxD'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00020000; srambase:$A0000000; sramsize:$00008000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), { PIC32MX2xx Series} (controllertypestr:'PIC32MX210F016B'; controllerunitstr:'PIC32MX2xxFxxxB'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00004000; srambase:$A0000000; sramsize:$00001000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX210F016C'; controllerunitstr:'PIC32MX2xxFxxxC'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00004000; srambase:$A0000000; sramsize:$00001000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX210F016D'; controllerunitstr:'PIC32MX2xxFxxxD'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00004000; srambase:$A0000000; sramsize:$00001000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX220F032B'; controllerunitstr:'PIC32MX2xxFxxxB'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00008000; srambase:$A0000000; sramsize:$00002000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX220F032C'; controllerunitstr:'PIC32MX2xxFxxxC'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00008000; srambase:$A0000000; sramsize:$00002000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX220F032D'; controllerunitstr:'PIC32MX2xxFxxxD'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00008000; srambase:$A0000000; sramsize:$00002000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX230F064B'; controllerunitstr:'PIC32MX2xxFxxxB'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00010000; srambase:$A0000000; sramsize:$00004000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX230F064C'; controllerunitstr:'PIC32MX2xxFxxxC'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00010000; srambase:$A0000000; sramsize:$00004000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX230F064D'; controllerunitstr:'PIC32MX2xxFxxxD'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00010000; srambase:$A0000000; sramsize:$00004000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX250F128B'; controllerunitstr:'PIC32MX2xxFxxxB'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00020000; srambase:$A0000000; sramsize:$00008000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX250F128C'; controllerunitstr:'PIC32MX2xxFxxxC'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00020000; srambase:$80000000; sramsize:$00008000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), (controllertypestr:'PIC32MX250F128D'; controllerunitstr:'PIC32MX2xxFxxxD'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00020000; srambase:$A0000000; sramsize:$00008000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00000BEF), { PIC32MX7x5 Series} (controllertypestr:'PIC32MX775F256H'; controllerunitstr:'PIC32MX7x5FxxxH'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00040000; srambase:$A0000000; sramsize:$00010000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00002FEF), (controllertypestr:'PIC32MX775F256L'; controllerunitstr:'PIC32MX7x5FxxxL'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00040000; srambase:$A0000000; sramsize:$00010000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00002FEF), (controllertypestr:'PIC32MX775F512H'; controllerunitstr:'PIC32MX7x5FxxxH'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00080000; srambase:$A0000000; sramsize:$00010000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00002FEF), (controllertypestr:'PIC32MX775F512L'; controllerunitstr:'PIC32MX7x5FxxxL'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00080000; srambase:$A0000000; sramsize:$00010000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00002FEF), (controllertypestr:'PIC32MX795F512H'; controllerunitstr:'PIC32MX7x5FxxxH'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00080000; srambase:$A0000000; sramsize:$00020000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00002FEF), (controllertypestr:'PIC32MX795F512L'; controllerunitstr:'PIC32MX7x5FxxxL'; cputype: cpu_pic32mx; fputype: fpu_soft; flashbase:$9d000000; flashsize:$00080000; srambase:$A0000000; sramsize:$00020000; eeprombase:0; eepromsize:0; bootbase:$BFC00000; bootsize:$00002FEF) ); {$endif MIPSEL} { Supported optimizations, only used for information } supported_optimizerswitches = [{$ifndef llvm}cs_opt_regvar,{$endif}cs_opt_loopunroll,cs_opt_nodecse, cs_opt_reorder_fields,cs_opt_fastmath]; level1optimizerswitches = genericlevel1optimizerswitches; level2optimizerswitches = level1optimizerswitches + [{$ifndef llvm}cs_opt_regvar,{$endif}cs_opt_stackframe,cs_opt_nodecse]; level3optimizerswitches = level2optimizerswitches + [cs_opt_loopunroll]; level4optimizerswitches = genericlevel4optimizerswitches + level3optimizerswitches + []; function SetMipsABIType(const s : string) : boolean; Implementation uses cutils; function SetMipsABIType(const s : string) : boolean; var abi : tabitype; begin SetMipsABIType:=false; for abi := low(tabitype) to high(tabitype) do if (lower(s)=abitypestr[abi]) then begin mips_abi:=abi; SetMipsABIType:=true; break; end; end; end.