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{
Copyright (c) 1998-2002 by the Free Pascal development team
Basic Processor information for the Risc-V64
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;
interface
uses
globtype;
type
bestreal = double;
{$if FPC_FULLVERSION>20700}
bestrealrec = TDoubleRec;
{$endif FPC_FULLVERSION>20700}
ts32real = single;
ts64real = double;
ts80real = extended;
ts128real = extended;
ts64comp = comp;
pbestreal = ^bestreal;
{ possible supported processors for this target }
tcputype = (cpu_none,
cpu_rv64imafdc,
cpu_rv64imafd,
cpu_rv64ima,
cpu_rv64im,
cpu_rv64i
);
tfputype =
(fpu_none,
fpu_libgcc,
fpu_soft,
fpu_fd
);
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;
{ 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_stdcall,
{ the difference to stdcall is only the name mangling }
pocall_cdecl,
{ the difference to stdcall is only the name mangling }
pocall_cppdecl,
{ the difference with stdcall is that all const record
parameters are passed by reference }
pocall_mwpascal
];
cputypestr: array[tcputype] of string[10] = ('',
'RV64IMAFDC',
'RV64IMAFD',
'RV64IMA',
'RV64IM',
'RV64I'
);
fputypestr: array[tfputype] of string[8] = ('',
'LIBGCC',
'SOFT',
'FD'
);
{ 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]+
[cs_opt_regvar,cs_opt_loopunroll,cs_opt_nodecse,
cs_opt_tailrecursion,cs_opt_reorder_fields,cs_opt_fastmath,
cs_opt_stackframe];
level1optimizerswitches = genericlevel1optimizerswitches;
level2optimizerswitches = genericlevel2optimizerswitches + level1optimizerswitches +
[cs_opt_regvar,cs_opt_stackframe,cs_opt_nodecse,cs_opt_tailrecursion];
level3optimizerswitches = genericlevel3optimizerswitches + level2optimizerswitches + [{,cs_opt_loopunroll}];
level4optimizerswitches = genericlevel4optimizerswitches + level3optimizerswitches + [cs_opt_stackframe];
type
tcpuflags =
(CPURV_HAS_MUL,
CPURV_HAS_ATOMIC,
CPURV_HAS_COMPACT
);
const
cpu_capabilities : array[tcputype] of set of tcpuflags =
( { cpu_none } [],
{ cpu_rv64imafdc } [CPURV_HAS_MUL,CPURV_HAS_ATOMIC,CPURV_HAS_COMPACT],
{ cpu_rv64imafd } [CPURV_HAS_MUL,CPURV_HAS_ATOMIC],
{ cpu_rv64ima } [CPURV_HAS_MUL,CPURV_HAS_ATOMIC],
{ cpu_rv64im } [CPURV_HAS_MUL],
{ cpu_rv64i } []
);
implementation
end.
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