We are facing issue with data type double comparison:
if(p > pmax) then begin Showmessage(''); end
If both values are 100 (p=100 and pmax = 100), then also it is going inside if clause.
There are several problems with comparing Doubles. One problem is that what you see is not exactly what you get due to rounding. You can have 99.999999996423 and 100.00000000001632, which are both rounded to 100, but they are not equal.
The solution is to use a margin so that, if the difference of the two Doubles lies within the margin, you accept them as equal.
You can create an IsEqual function using the margin as an optional parameter:
function IsEqual(const ANumber1, ANumber2: Double; const AMargin: Double = cMargin): Boolean; begin Result := Abs(ANumber1-ANumber2) <= AMargin; end;
The Math.pas unit includes functions such as
CompareValue() which handle floating type comparisons and equality.
const EPSILON = 0.0000001; begin if CompareValue(p, pMax, EPSILON) = GreaterThanValue then ShowMessage('p greater than pMax');
GreaterThanValue is defined in Types.pas
If you're comparing very large values you shouldn't use a constant for epsilon, instead your epsilon value should be calculated based on the values you're comparing.
var epsilon: double; begin epsilon := Max(Min(Abs(p), Abs(pMax)) * 0.000001, 0.000001); if CompareValue(p, pMax, epsilon) = GreaterThanValue then ShowMessage('p greater than pMax');
Note that if you use
CompareValue(a, b, 0) or in XE2 and later
CompareValue(a, b), Delphi will automatically fill in a good epsilon for you.
From the Delphi
function SameValue(const A, B: Extended; Epsilon: Extended): Boolean; begin if Epsilon = 0 then Epsilon := Max(Min(Abs(A), Abs(B)) * ExtendedResolution, ExtendedResolution); if A > B then Result := (A - B) <= Epsilon else Result := (B - A) <= Epsilon; end;
As of Delphi XE2 there are now overloads for all these functions that do not require an epsilon parameter and instead calculate one for you (similar to passing a 0 value for epsilon). For code clarity I would recommend calling these simpler functions and let Delphi handle the epsilon.
The only reason not to use the overloads without epsilon parameters would be when performance is crucial and you want to avoid the overhead of having the epsilon repeatedly calculated.