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@@ -19,3 +19,73 @@ begin
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result:=result - (qword(1) shl 52);
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result:=result - (qword(1) shl 52);
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end;
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end;
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{$endif FPC_INCLUDE_SOFTWARE_LONGWORD_TO_DOUBLE}
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{$endif FPC_INCLUDE_SOFTWARE_LONGWORD_TO_DOUBLE}
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+
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+{$if defined(FPU68881) or defined(FPUCOLDFIRE)}
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+{$ifndef FPC_SYSTEM_HAS_ROUND}
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+{$define FPC_SYSTEM_HAS_ROUND}
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+ function fpc_round_real(d : ValReal) : int64;compilerproc;
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+ type
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+ float64 = record
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+ high,low: longint;
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+ end;
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+ var
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+ tmp: double;
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+ j0: longint;
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+ hx: longword;
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+ sx: longint;
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+ const
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+ H2_52: array[0..1] of double = (
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+ 4.50359962737049600000e+15,
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+ -4.50359962737049600000e+15
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+ );
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+ Begin
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+ { This basically calculates trunc((d+2**52)-2**52) }
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+ hx:=float64(d).high;
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+ j0:=((hx shr 20) and $7ff) - $3ff;
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+ sx:=hx shr 31;
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+ hx:=(hx and $fffff) or $100000;
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+
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+ if j0>=52 then { No fraction bits, already integer }
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+ begin
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+ if j0>=63 then { Overflow, let trunc() raise an exception }
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+ exit(trunc(d)) { and/or return +/-MaxInt64 if it's masked }
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+ else
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+ result:=((int64(hx) shl 32) or float64(d).low) shl (j0-52);
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+ end
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+ else
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+ begin
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+ { Rounding happens here. It is important that the expression is not
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+ optimized by selecting a larger type to store 'tmp'. }
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+
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+ { The double cast should enforce a memory store and reload, which is the
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+ fastest way on a 68881/2 to enforce the rounding to double precision.
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+ The internal operation of the '88x is always in extended. If the rounding
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+ of the FPU is set to a different precision in the FPCR, the result is a
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+ a large performance penalty, according to the 68881/68882 Users Manual
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+ Section 2.2.2. So we keep the FPU in extended, but this means the rounding
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+ to double trick might conflict with tmp being a regvar. (KB) }
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+{$ifdef FPU68881}
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+ tmp:=double(float64(H2_52[sx]+d));
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+{$else}
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+ { The above doesn't affect the CF FPU. Its maximum precision is double. }
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+ tmp:=H2_52[sx]+d;
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+{$endif}
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+ d:=tmp-H2_52[sx];
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+ hx:=float64(d).high;
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+ j0:=((hx shr 20) and $7ff)-$3ff;
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+ hx:=(hx and $fffff) or $100000;
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+ if j0<=20 then
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+ begin
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+ if j0<0 then
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+ exit(0)
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+ else { more than 32 fraction bits, low dword discarded }
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+ result:=hx shr (20-j0);
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+ end
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+ else
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+ result:=(int64(hx) shl (j0-20)) or (float64(d).low shr (52-j0));
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+ end;
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+ if sx<>0 then
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+ result:=-result;
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+ end;
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+{$endif FPC_SYSTEM_HAS_ROUND}
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+{$endif defined(FPU68881) or defined(FPUCOLDFIRE)}
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Károly Balogh