{ Copyright (c) 1998-2000 by Florian Klaempfl Basic Processor information 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 cpuinfo; {$i fpcdefs.inc} Interface uses globtype; Type bestreal = extended; {$if FPC_FULLVERSION>20700} {$ifdef FPC_HAS_TYPE_EXTENDED} bestrealrec = TExtended80Rec; {$else} bestrealrec = TDoubleRec; {$endif} {$endif FPC_FULLVERSION>20700} ts32real = single; ts64real = double; ts80real = extended; ts128real = type extended; ts64comp = type extended; pbestreal=^bestreal; tcputype = (cpu_none, cpu_athlon64, cpu_core_i, cpu_core_avx, cpu_core_avx2 ); tfputype = (fpu_none, // fpu_soft, { generic } fpu_sse64, fpu_sse3, fpu_ssse3, fpu_sse41, fpu_sse42, fpu_avx, fpu_avx2, fpu_avx512f ); tcontrollertype = (ct_none ); tcontrollerdatatype = record controllertypestr, controllerunitstr: string[20]; cputype: tcputype; fputype: tfputype; flashbase, flashsize, srambase, sramsize, eeprombase, eepromsize, bootbase, bootsize: dword; end; Const { Is there support for dealing with multiple microcontrollers available } { for this platform? } ControllerSupport = false; { Size of native extended type } extended_size = 10; { target cpu string (used by compiler options) } target_cpu_string = 'x86_64'; { 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)); {$POP} { calling conventions supported by the code generator } supported_calling_conventions : tproccalloptions = [ pocall_internproc, { pocall_compilerproc, pocall_inline,} pocall_register, pocall_safecall, pocall_stdcall, pocall_cdecl, pocall_cppdecl, pocall_mwpascal, pocall_sysv_abi_default, pocall_sysv_abi_cdecl, pocall_ms_abi_default, pocall_ms_abi_cdecl, pocall_vectorcall ]; cputypestr : array[tcputype] of string[10] = ('', 'ATHLON64', 'COREI', 'COREAVX', 'COREAVX2' ); fputypestr : array[tfputype] of string[7] = ('', // 'SOFT', 'SSE64', 'SSE3', 'SSSE3', 'SSE41', 'SSE42', 'AVX', 'AVX2', 'AVX512F' ); fputypestrllvm : array[tfputype] of string[7] = ('', // 'SOFT', '', 'sse3', 'ssse3', 'sse4.1', 'sse4.2', 'avx', 'avx2', 'avx512f' ); sse_singlescalar = [fpu_sse64..fpu_avx512f]; sse_doublescalar = [fpu_sse64..fpu_avx512f]; fpu_avx_instructionsets = [fpu_avx,fpu_avx2,fpu_avx512f]; { Supported optimizations, only used for information } supported_optimizerswitches = genericlevel1optimizerswitches+ genericlevel2optimizerswitches+ genericlevel3optimizerswitches- { no need to write info about those } [cs_opt_level1,cs_opt_level2,cs_opt_level3]+ [{$ifndef llvm}cs_opt_regvar,{$endif}cs_opt_loopunroll,cs_opt_stackframe,cs_userbp, cs_opt_tailrecursion,cs_opt_nodecse,cs_opt_reorder_fields,cs_opt_fastmath]; level1optimizerswitches = genericlevel1optimizerswitches; level2optimizerswitches = genericlevel2optimizerswitches + level1optimizerswitches + [{$ifndef llvm}cs_opt_regvar,{$endif}cs_opt_stackframe,cs_opt_tailrecursion,cs_opt_nodecse]; level3optimizerswitches = genericlevel3optimizerswitches + level2optimizerswitches + [{,cs_opt_loopunroll}]; level4optimizerswitches = genericlevel4optimizerswitches + level3optimizerswitches + [cs_userbp]; type tcpuflags = (CPUX86_HAS_CMOV, CPUX86_HAS_SSEUNIT, CPUX86_HAS_SSE2, CPUX86_HAS_BMI1, CPUX86_HAS_BMI2, CPUX86_HAS_POPCNT, CPUX86_HAS_LZCNT, CPUX86_HAS_MOVBE, CPUX86_HAS_FMA, CPUX86_HAS_FMA4 ); tfpuflags = (FPUX86_HAS_AVXUNIT, FPUX86_HAS_32MMREGS ); const cpu_capabilities : array[tcputype] of set of tcpuflags = ( { cpu_none } [], { Athlon64 } [CPUX86_HAS_CMOV,CPUX86_HAS_SSEUNIT,CPUX86_HAS_SSE2], { cpu_core_i } [CPUX86_HAS_CMOV,CPUX86_HAS_SSEUNIT,CPUX86_HAS_SSE2,CPUX86_HAS_POPCNT], { cpu_core_avx } [CPUX86_HAS_CMOV,CPUX86_HAS_SSEUNIT,CPUX86_HAS_SSE2,CPUX86_HAS_POPCNT], { cpu_core_avx2 } [CPUX86_HAS_CMOV,CPUX86_HAS_SSEUNIT,CPUX86_HAS_SSE2,CPUX86_HAS_POPCNT,CPUX86_HAS_BMI1,CPUX86_HAS_BMI2,CPUX86_HAS_LZCNT,CPUX86_HAS_MOVBE,CPUX86_HAS_FMA] ); fpu_capabilities : array[tfputype] of set of tfpuflags = ( { fpu_none } [], { fpu_sse64 } [], { fpu_sse3 } [], { fpu_ssse3 } [], { fpu_sse41 } [], { fpu_sse42 } [], { fpu_avx } [FPUX86_HAS_AVXUNIT], { fpu_avx2 } [FPUX86_HAS_AVXUNIT], { fpu_avx512 } [FPUX86_HAS_AVXUNIT,FPUX86_HAS_32MMREGS] ); Implementation end.