I want to Round(-0.0066219357357) and it gives -1.

Isn't it supposed to be 0? And what can I use to round it correctly?

UPDATE: the number is a result of (LineDirection.X/distance); where LineDirection.X is an integer and Distace is double.

  • 4
    I think it's strange. That would be Ceil(). Round has other "problems" (it uses banker's rounding) – xanatos Oct 27 '11 at 9:53
  • 1
    Tested with a Delphi XE console application, no uses: Writeln(Round(-0.0066219357357)); shows 0! – Uwe Raabe Oct 27 '11 at 9:57
  • Different options set with SetRoundMode also give always 0. – Heinrich Ulbricht Oct 27 '11 at 9:59
  • Uhm. This is such an easy test case that I am tempted to say making errors is not an option. So what's different here? I'm @ D2009. – Heinrich Ulbricht Oct 27 '11 at 10:08
  • 4
    Are you sure you don't have another Round function that is accidentally used? A line like this can give you problems: function Round(e: Extended): Extended; begin Result := Trunc(e); end; – GolezTrol Oct 27 '11 at 10:26

Looking into System.pas from XE, all work is done by FISTP instruction:

    procedure _ROUND;
            FISTP   qword ptr [ESP]

According to the Intel's Instruction Reference, value "is rounded to an integer value, according to the rounding mode specified by the RC field of the FPU control word"

So, I would advise you to check if this RC field of FPU control word is set to the rounding you need.

You can do this by working with whole control word - see Set8087CW, and related xxxx8087CW procedures/functions, with Default8087CW variable.

Or you can try Math.SetRoundMode, as @Uwe Raabe suggested. Your case sounds like either rmUp or rmTruncate rmDown was used.

Theoretically, your CPU can be the reason as well, however, it hardly so.


From the Delphi help:

The behavior of Round can be affected by the Set8087CW procedure or Math.SetRoundMode function.

Tested in Delphi 2006, Round and Ceil give the same result: 0.

  • 1
    Ceil() should always produce 0, indeed. Floor() should always produce -1. Round() is dependent on the rounding mode, although, AFAIK, only for values very near to -0.5 (within one ulp -- en.wikipedia.org/wiki/Unit_in_the_last_place), which does not apply to the value given. It should always produce 0, even for RoundMode = rmDown (toward negative infinity). – Rudy Velthuis Oct 27 '11 at 11:17
  • 1
    The often referred site, download.oracle.com/docs/cd/E19957-01/806-3568/…, says: When used with the convert to integer operation, round toward - infinity causes the convert to become the floor function, while round toward + infinity is ceiling.. So that explains why -1 is returned when RoundMode = rmDown. – Rudy Velthuis Oct 27 '11 at 11:24

You are asking people to troubleshoot something for you. So I can offer the following ideas:

  1. store the value of your division in a variable of type double.

      val : Double;
     val := Expression1/expression2; // use single step in debugger to evaluate and store
     val := Round(val); // now step over this value.
  2. Test using a literal:

    val := Round(0.006);
    val := Round(-0.006);

Observe consistent or inconsistent results, examine and post these results. Remember that there are many things that can happen here:

A. What Types are involved and what significance/precision losses occur?

B. Do any integer overflow errors occur anywhere in your calculations that you haven't accounted for?

C. Is there anybody truncating any results that you haven't accounted for?

D. Exceptional circumstances; Someone asked in a comment about another function named Round()? A Cpu problem? Memory corruption? think creatively, you're a programmer. Turn on Debug-DCUs and single step through the code, in CPU view. Make sure you get to System.pas _ROUND. Use the debug expression evaluator and debug watch window to watch your variable values. Figure it out.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.