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fpc/rtl/arm/mathu.inc
masta f354651180 Fix ARM FPU Exceptions for WinCE 
r21952 introduced wrong code (through copy&waste) for the wince
exception-setup routines.

This patch hopefully fixes the code again.

git-svn-id: trunk@21961 -
2012-07-23 22:58:02 +00:00

564 lines
15 KiB
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{
This file is part of the Free Pascal run time library.
Copyright (c) 2004 by Florian Klaempfl
member of the Free Pascal development team
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.
**********************************************************************}
function FPUExceptionMaskToSoftFloatMask(const Mask: TFPUExceptionMask): byte;
begin
result:=0;
if exInvalidOp in Mask then
result:=result or (1 shl ord(exInvalidOp));
if exDenormalized in Mask then
result:=result or (1 shl ord(exDenormalized));
if exZeroDivide in Mask then
result:=result or (1 shl ord(exZeroDivide));
if exOverflow in Mask then
result:=result or (1 shl ord(exOverflow));
if exUnderflow in Mask then
result:=result or (1 shl ord(exUnderflow));
if exPrecision in Mask then
result:=result or (1 shl ord(exPrecision));
end;
function SoftFloatMaskToFPUExceptionMask(const Mask: byte): TFPUExceptionMask;
begin
result:=[];
if (mask and (1 shl ord(exInvalidOp)) <> 0) then
include(result,exInvalidOp);
if (mask and (1 shl ord(exDenormalized)) <> 0) then
include(result,exDenormalized);
if (mask and (1 shl ord(exZeroDivide)) <> 0) then
include(result,exZeroDivide);
if (mask and (1 shl ord(exOverflow)) <> 0) then
include(result,exOverflow);
if (mask and (1 shl ord(exUnderflow)) <> 0) then
include(result,exUnderflow);
if (mask and (1 shl ord(exPrecision)) <> 0) then
include(result,exPrecision);
end;
{$if defined(wince)}
const
_DN_SAVE = $00000000;
_DN_FLUSH = $01000000;
_EM_INVALID = $00000010;
_EM_DENORMAL = $00080000;
_EM_ZERODIVIDE = $00000008;
_EM_OVERFLOW = $00000004;
_EM_UNDERFLOW = $00000002;
_EM_INEXACT = $00000001;
_IC_AFFINE = $00040000;
_IC_PROJECTIVE = $00000000;
_RC_CHOP = $00000300;
_RC_UP = $00000200;
_RC_DOWN = $00000100;
_RC_NEAR = $00000000;
_PC_24 = $00020000;
_PC_53 = $00010000;
_PC_64 = $00000000;
_MCW_DN = $03000000;
_MCW_EM = $0008001F;
_MCW_IC = $00040000;
_MCW_RC = $00000300;
_MCW_PC = $00030000;
function _controlfp(new: DWORD; mask: DWORD): DWORD; cdecl; external 'coredll';
function GetRoundMode: TFPURoundingMode;
var
c: dword;
begin
c:=_controlfp(0, 0);
Result:=TFPURoundingMode((c shr 16) and 3);
end;
function SetRoundMode(const RoundMode: TFPURoundingMode): TFPURoundingMode;
var
c: dword;
begin
case (RoundMode) of
rmNearest :
softfloat_rounding_mode := float_round_nearest_even;
rmTruncate :
softfloat_rounding_mode := float_round_to_zero;
rmUp :
softfloat_rounding_mode := float_round_up;
rmDown :
softfloat_rounding_mode := float_round_down;
end;
c:=Ord(RoundMode) shl 16;
c:=_controlfp(c, _MCW_RC);
Result:=TFPURoundingMode((c shr 16) and 3);
end;
function GetPrecisionMode: TFPUPrecisionMode;
var
c: dword;
begin
c:=_controlfp(0, 0);
if c and _MCW_PC = _PC_64 then
Result:=pmDouble
else
Result:=pmSingle;
end;
function SetPrecisionMode(const Precision: TFPUPrecisionMode): TFPUPrecisionMode;
var
c: dword;
begin
Result:=GetPrecisionMode;
if Precision = pmSingle then
c:=_PC_24
else
c:=_PC_64;
_controlfp(c, _MCW_PC);
end;
function ConvertExceptionMask(em: dword): TFPUExceptionMask;
begin
Result:=[];
if em and _EM_INVALID = 0 then
Result:=Result + [exInvalidOp];
if em and _EM_DENORMAL = 0 then
Result:=Result + [exDenormalized];
if em and _EM_ZERODIVIDE = 0 then
Result:=Result + [exZeroDivide];
if em and _EM_OVERFLOW = 0 then
Result:=Result + [exOverflow];
if em and _EM_UNDERFLOW = 0 then
Result:=Result + [exUnderflow];
if em and _EM_INEXACT = 0 then
Result:=Result + [exPrecision];
end;
function GetExceptionMask: TFPUExceptionMask;
begin
Result:=ConvertExceptionMask(_controlfp(0, 0));
end;
function SetExceptionMask(const Mask: TFPUExceptionMask): TFPUExceptionMask;
var
c: dword;
begin
c:=0;
if not(exInvalidOp in Mask) then
c:=c or _EM_INVALID;
if not(exDenormalized in Mask) then
c:=c or _EM_DENORMAL;
if not(exZeroDivide in Mask) then
c:=c or _EM_ZERODIVIDE;
if not(exOverflow in Mask) then
c:=c or _EM_OVERFLOW;
if not(exUnderflow in Mask) then
c:=c or _EM_UNDERFLOW;
if not(exPrecision in Mask) then
c:=c or _EM_INEXACT;
c:=_controlfp(c, _MCW_EM);
Result:=ConvertExceptionMask(c);
softfloat_exception_mask:=FPUExceptionMaskToSoftFloatMask(mask);
end;
procedure ClearExceptions(RaisePending: Boolean =true);
begin
end;
{$elseif defined(darwin) or defined(FPUVFPV2) or defined(FPUVFPV3) or defined(FPUVFPV3_d16)}
const
_VFP_ENABLE_IM = 1 shl 8; { invalid operation }
_VFP_ENABLE_ZM = 1 shl 9; { divide by zero }
_VFP_ENABLE_OM = 1 shl 10; { overflow }
_VFP_ENABLE_UM = 1 shl 11; { underflow }
_VFP_ENABLE_PM = 1 shl 12; { inexact }
_VFP_ENABLE_DM = 1 shl 15; { denormalized operation }
_VFP_ENABLE_ALL = _VFP_ENABLE_IM or
_VFP_ENABLE_ZM or
_VFP_ENABLE_OM or
_VFP_ENABLE_UM or
_VFP_ENABLE_PM or
_VFP_ENABLE_DM; { mask for all flags }
_VFP_ROUNDINGMODE_MASK_SHIFT = 22;
_VFP_ROUNDINGMODE_MASK = 3 shl _VFP_ROUNDINGMODE_MASK_SHIFT;
_VFP_EXCEPTIONS_PENDING_MASK =
(1 shl 0) or
(1 shl 1) or
(1 shl 2) or
(1 shl 3) or
(1 shl 4) or
(1 shl 7);
function VFP_GetCW : dword; nostackframe; assembler;
asm
fmrx r0,fpscr
end;
procedure VFP_SetCW(cw : dword); nostackframe; assembler;
asm
fmxr fpscr,r0
end;
function GetRoundMode: TFPURoundingMode;
var
rm: byte;
begin
case (VFP_GetCW and _VFP_ROUNDINGMODE_MASK) shr _VFP_ROUNDINGMODE_MASK_SHIFT of
0 : result := rmNearest;
1 : result := rmUp;
2 : result := rmDown;
3 : result := rmTruncate;
end;
end;
function SetRoundMode(const RoundMode: TFPURoundingMode): TFPURoundingMode;
var
mode: dword;
begin
case (RoundMode) of
rmNearest :
begin
mode := 0;
softfloat_rounding_mode := float_round_nearest_even;
end;
rmUp :
begin
mode := 1;
softfloat_rounding_mode := float_round_up;
end;
rmDown :
begin
mode := 2;
softfloat_rounding_mode := float_round_down;
end;
rmTruncate :
begin
mode := 3;
softfloat_rounding_mode := float_round_to_zero;
end;
end;
mode:=mode shl _VFP_ROUNDINGMODE_MASK_SHIFT;
VFP_SetCW((VFP_GetCW and (not _VFP_ROUNDINGMODE_MASK)) or mode);
result := RoundMode;
end;
function GetPrecisionMode: TFPUPrecisionMode;
begin
result := pmDouble;
end;
function SetPrecisionMode(const Precision: TFPUPrecisionMode): TFPUPrecisionMode;
begin
{ nothing to do, not supported }
result := pmDouble;
end;
function GetExceptionMask: TFPUExceptionMask;
var
cw : dword;
begin
Result:=[];
cw:=VFP_GetCW;
if (cw and _VFP_ENABLE_IM)=0 then
include(Result,exInvalidOp);
if (cw and _VFP_ENABLE_DM)=0 then
include(Result,exDenormalized);
if (cw and _VFP_ENABLE_ZM)=0 then
include(Result,exZeroDivide);
if (cw and _VFP_ENABLE_OM)=0 then
include(Result,exOverflow);
if (cw and _VFP_ENABLE_UM)=0 then
include(Result,exUnderflow);
if (cw and _VFP_ENABLE_PM)=0 then
include(Result,exPrecision);
end;
function SetExceptionMask(const Mask: TFPUExceptionMask): TFPUExceptionMask;
var
cw : dword;
begin
cw:=VFP_GetCW and not(_VFP_ENABLE_ALL);
{$ifndef darwin}
if not(exInvalidOp in Mask) then
cw:=cw or _VFP_ENABLE_IM;
if not(exDenormalized in Mask) then
cw:=cw or _VFP_ENABLE_DM;
if not(exZeroDivide in Mask) then
cw:=cw or _VFP_ENABLE_ZM;
if not(exOverflow in Mask) then
cw:=cw or _VFP_ENABLE_OM;
if not(exUnderflow in Mask) then
cw:=cw or _VFP_ENABLE_UM;
if not(exPrecision in Mask) then
cw:=cw or _VFP_ENABLE_PM;
{$endif}
VFP_SetCW(cw);
result:=Mask;
softfloat_exception_mask:=FPUExceptionMaskToSoftFloatMask(Mask);
end;
procedure ClearExceptions(RaisePending: Boolean =true);
begin
{ RaisePending has no effect on ARM, it always raises them at the correct location }
VFP_SetCW(VFP_GetCW and (not _VFP_EXCEPTIONS_PENDING_MASK));
end;
{$else wince/darwin/vfpv2/vfpv3}
{*****************************************************************************
FPA code
*****************************************************************************}
{
Docs from uclib
* We have a slight terminology confusion here. On the ARM, the register
* we're interested in is actually the FPU status word - the FPU control
* word is something different (which is implementation-defined and only
* accessible from supervisor mode.)
*
* The FPSR looks like this:
*
* 31-24 23-16 15-8 7-0
* | system ID | trap enable | system control | exception flags |
*
* We ignore the system ID bits; for interest's sake they are:
*
* 0000 "old" FPE
* 1000 FPPC hardware
* 0001 FPE 400
* 1001 FPA hardware
*
* The trap enable and exception flags are both structured like this:
*
* 7 - 5 4 3 2 1 0
* | reserved | INX | UFL | OFL | DVZ | IVO |
*
* where a `1' bit in the enable byte means that the trap can occur, and
* a `1' bit in the flags byte means the exception has occurred.
*
* The exceptions are:
*
* IVO - invalid operation
* DVZ - divide by zero
* OFL - overflow
* UFL - underflow
* INX - inexact (do not use; implementations differ)
*
* The system control byte looks like this:
*
* 7-5 4 3 2 1 0
* | reserved | AC | EP | SO | NE | ND |
*
* where the bits mean
*
* ND - no denormalised numbers (force them all to zero)
* NE - enable NaN exceptions
* SO - synchronous operation
* EP - use expanded packed-decimal format
* AC - use alternate definition for C flag on compare operations
*/
/* masking of interrupts */
#define _FPU_MASK_IM 0x00010000 /* invalid operation */
#define _FPU_MASK_ZM 0x00020000 /* divide by zero */
#define _FPU_MASK_OM 0x00040000 /* overflow */
#define _FPU_MASK_UM 0x00080000 /* underflow */
#define _FPU_MASK_PM 0x00100000 /* inexact */
#define _FPU_MASK_DM 0x00000000 /* denormalized operation */
/* The system id bytes cannot be changed.
Only the bottom 5 bits in the trap enable byte can be changed.
Only the bottom 5 bits in the system control byte can be changed.
Only the bottom 5 bits in the exception flags are used.
The exception flags are set by the fpu, but can be zeroed by the user. */
#define _FPU_RESERVED 0xffe0e0e0 /* These bits are reserved. */
/* The fdlibm code requires strict IEEE double precision arithmetic,
no interrupts for exceptions, rounding to nearest. Changing the
rounding mode will break long double I/O. Turn on the AC bit,
the compiler generates code that assumes it is on. */
#define _FPU_DEFAULT 0x00001000 /* Default value. */
#define _FPU_IEEE 0x001f1000 /* Default + exceptions enabled. */
}
{$if not(defined(gba)) and not(defined(nds)) and not(defined(FPUSOFT)) and not(defined(FPULIBGCC))}
const
_FPU_MASK_IM = $00010000; { invalid operation }
_FPU_MASK_ZM = $00020000; { divide by zero }
_FPU_MASK_OM = $00040000; { overflow }
_FPU_MASK_UM = $00080000; { underflow }
_FPU_MASK_PM = $00100000; { inexact }
_FPU_MASK_DM = $00000000; { denormalized operation }
_FPU_MASK_ALL = $001f0000; { mask for all flags }
function FPU_GetCW : dword; nostackframe; assembler;
asm
rfs r0
end;
procedure FPU_SetCW(cw : dword); nostackframe; assembler;
asm
wfs r0
end;
{$endif}
function GetRoundMode: TFPURoundingMode;
begin
case softfloat_rounding_mode of
float_round_nearest_even:
GetRoundMode:=rmNearest;
float_round_up:
GetRoundMode:=rmUp;
float_round_down:
GetRoundMode:=rmDown;
float_round_to_zero:
GetRoundMode:=rmTruncate;
end;
end;
function SetRoundMode(const RoundMode: TFPURoundingMode): TFPURoundingMode;
begin
case (RoundMode) of
rmNearest :
begin
softfloat_rounding_mode := float_round_nearest_even;
end;
rmUp :
begin
softfloat_rounding_mode := float_round_up;
end;
rmDown :
begin
softfloat_rounding_mode := float_round_down;
end;
rmTruncate :
begin
softfloat_rounding_mode := float_round_to_zero;
end;
end;
SetRoundMode:=RoundMode;
end;
function GetPrecisionMode: TFPUPrecisionMode;
begin
result := pmDouble;
end;
function SetPrecisionMode(const Precision: TFPUPrecisionMode): TFPUPrecisionMode;
begin
{ does not apply }
result := pmDouble;
end;
function GetExceptionMask: TFPUExceptionMask;
var
cw : dword;
begin
{$if not(defined(gba)) and not(defined(nds)) and not(defined(FPUSOFT)) and not(defined(FPULIBGCC))}
Result:=[];
cw:=FPU_GetCW;
if (cw and _FPU_MASK_IM)=0 then
include(Result,exInvalidOp);
if (cw and _FPU_MASK_DM)=0 then
include(Result,exDenormalized);
if (cw and _FPU_MASK_ZM)=0 then
include(Result,exZeroDivide);
if (cw and _FPU_MASK_OM)=0 then
include(Result,exOverflow);
if (cw and _FPU_MASK_UM)=0 then
include(Result,exUnderflow);
if (cw and _FPU_MASK_PM)=0 then
include(Result,exPrecision);
{$else}
Result:=SoftFloatMaskToFPUExceptionMask(softfloat_exception_mask);
{$endif}
end;
function SetExceptionMask(const Mask: TFPUExceptionMask): TFPUExceptionMask;
var
cw : dword;
begin
{$if not(defined(gba)) and not(defined(nds)) and not(defined(FPUSOFT)) and not(defined(FPULIBGCC))}
cw:=FPU_GetCW or _FPU_MASK_ALL;
if exInvalidOp in Mask then
cw:=cw and not(_FPU_MASK_IM);
if exDenormalized in Mask then
cw:=cw and not(_FPU_MASK_DM);
if exZeroDivide in Mask then
cw:=cw and not(_FPU_MASK_ZM);
if exOverflow in Mask then
cw:=cw and not(_FPU_MASK_OM);
if exUnderflow in Mask then
cw:=cw and not(_FPU_MASK_UM);
if exPrecision in Mask then
cw:=cw and not(_FPU_MASK_PM);
FPU_SetCW(cw);
{$endif}
softfloat_exception_mask:=FPUExceptionMaskToSoftFloatMask(Mask);
Result:=Mask;
end;
procedure ClearExceptions(RaisePending: Boolean =true);
begin
end;
{$endif wince}
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