{ This file is part of the Free Pascal run time library. Copyright (c) 1999-2000 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. **********************************************************************} { exported by the system unit } function get_fsr : dword;external name 'FPC_GETFSR'; procedure set_fsr(fsr : dword);external name 'FPC_SETFSR'; const { FPU enable exception bits for FCSR register } fpu_enable_inexact = $80; fpu_enable_underflow = $100; fpu_enable_overflow = $200; fpu_enable_div_zero = $400; fpu_enable_invalid = $800; fpu_enable_mask = $F80; default_fpu_enable = fpu_enable_div_zero or fpu_enable_invalid; fpu_flags_mask = $7C; fpu_cause_mask = $3F000; { FPU rounding mask and values } fpu_rounding_mask = $3; fpu_rounding_nearest = 0; fpu_rounding_towards_zero = 1; fpu_rounding_plus_inf = 2; fpu_rounding_minus_inf = 3; 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; const roundmode2fsr : array [TFPURoundingMode] of byte=( fpu_rounding_nearest, fpu_rounding_minus_inf, fpu_rounding_plus_inf, fpu_rounding_towards_zero ); fsr2roundmode : array [0..3] of TFPURoundingMode = ( rmNearest, rmTruncate, rmUp, rmDown ); function GetRoundMode: TFPURoundingMode; begin result:=fsr2roundmode[get_fsr and fpu_rounding_mask]; end; function SetRoundMode(const RoundMode: TFPURoundingMode): TFPURoundingMode; var fsr: longword; begin softfloat_rounding_mode:=byte(RoundMode); fsr:=get_fsr; result:=fsr2roundmode[fsr and fpu_rounding_mask]; set_fsr((fsr and not fpu_rounding_mask) or roundmode2fsr[RoundMode]); end; function GetPrecisionMode: TFPUPrecisionMode; begin result:=pmDouble; end; function SetPrecisionMode(const Precision: TFPUPrecisionMode): TFPUPrecisionMode; begin result:=pmDouble; end; function fsr2ExceptionMask(fsr: longword): TFPUExceptionMask; begin result:=[]; { invalid operation } if (fsr and fpu_enable_invalid)=0 then include(result,exInvalidOp); { zero divide } if (fsr and fpu_enable_div_zero)=0 then include(result,exZeroDivide); { overflow } if (fsr and fpu_enable_overflow)=0 then include(result,exOverflow); { underflow: } if (fsr and fpu_enable_underflow)=0 then include(result,exUnderflow); { Precision (inexact result) } if (fsr and fpu_enable_inexact)=0 then include(result,exPrecision); end; function GetExceptionMask: TFPUExceptionMask; begin result:=fpu2ExceptionMask(get_fsr); end; function SetExceptionMask(const Mask: TFPUExceptionMask): TFPUExceptionMask; var fsr : longword; begin fsr:=get_fsr; result:=fsr2ExceptionMask(fsr); { Reset flags, cause and enables } fsr := fsr and not (fpu_flags_mask or fpu_cause_mask or fpu_enable_mask); { invalid operation } if not (exInvalidOp in mask) then fsr:=fsr or (fpu_enable_invalid); { zero divide } if not (exZeroDivide in mask) then fsr:=fsr or (fpu_enable_div_zero); { overflow } if not (exOverflow in mask) then fsr:=fsr or (fpu_enable_overflow); { underflow } if not (exUnderflow in mask) then fsr:=fsr or (fpu_enable_underflow); { Precision (inexact result) } if not (exPrecision in mask) then fsr:=fsr or (fpu_enable_inexact); { update control register contents } set_fsr(fsr); softfloat_exception_mask:=FPUExceptionMaskToSoftFloatMask(mask); end; procedure ClearExceptions(RaisePending: Boolean =true); begin set_fsr(get_fsr and not (fpu_flags_mask or fpu_cause_mask)); end;