# Is Delphi's Skewness correct

In Delphi one can calculate Skewness using `System.Math`'s function `MomentSkewKurtosis()`.

``````var m1, m2, m3, m4, skew, k: Extended;
System.Math.MomentSkewKurtosis([1.1,
3.345,
12.234,
11.945,
14.235,
16.876,
20.213,
11.001,
7.098,
21.234], m1, m2, m3, m4, skew, k);
``````
• This will prints skew equal to -0.200371489809269.
• Minitab prints the value -0.24
• SigmaXL prints the value -0.23611

The reason is that Delphi does not not perform adjustment.

Here is my implementation which calculates adjustment:

``````function Skewness(const X: array of Extended; const Adjusted: Boolean): Extended;
begin
var AMean := Mean(X);
var xi_minus_mean_power_3 := 0.0;
var xi_minus_mean_power_2 := 0.0;
for var i := Low(X) to High(X) do
begin
xi_minus_mean_power_3 := xi_minus_mean_power_3 + IntPower((X[i] - AMean), 3);
xi_minus_mean_power_2 := xi_minus_mean_power_2 + IntPower((X[i] - AMean), 2);
end;
// URL : https://www.gnu.org/software/octave/doc/v4.0.1/Descriptive-Statistics.html
{                mean ((x - mean (x)).^3)
skewness (X) = ------------------------.
std (x).^3
}
var N := Length(X);
Result := xi_minus_mean_power_3 / N /
IntPower(Sqrt(1 / N * xi_minus_mean_power_2), 3);
// URL : https://www.gnu.org/software/octave/doc/v4.0.1/Descriptive-Statistics.html
{                  sqrt (N*(N-1))   mean ((x - mean (x)).^3)
skewness (X, 0) = -------------- * ------------------------.
(N - 2)             std (x).^3
}
Result := Result * Sqrt(N * Pred(N)) / (N - 2);
end;
``````

The helper routine IntPower is as follows:

``````function IntPower(const X: Extended; const N: Integer): Extended;

/// <remarks>
/// Calculate any float to non-negative integer power. Developed by Rory Daulton and used with permission. Last modified December 1998.
/// </remarks>
function IntPow(const Base: Extended; const Exponent: LongWord): Extended;
{ Heart of Rory Daulton's IntPower: assumes valid parameters &
non-negative exponent }
{\$IFDEF WIN32}
asm
fld1                      // Result := 1
cmp     eax, 0            // eax := Exponent
jz      @@3
fld     Base
jmp     @@2
@@1:    fmul    ST, ST      // X := Base * Base
@@2:    shr     eax,1
jnc     @@1
fmul    ST(1),ST          // Result := Result * X
jnz     @@1
fstp    st                // pop X from FPU stack
@@3:
fwait
end;
{\$ENDIF}
{\$IFDEF WIN64}
begin
Result := Power(Base, Exponent);
end;
{\$ENDIF}
begin
if N = 0 then
Result := 1
else if (X = 0) then
begin
if N < 0 then
raise EMathError.Create('Zero cannot be raised to a negative power.')
else
Result := 0
end
else if (X = 1) then
Result := 1
else if X = -1 then
begin
if Odd (N) then
Result := -1
else
Result := 1
end
else if N > 0 then
Result := IntPow (X, N)
else
begin
var P: LongWord;
if N <> Low (LongInt) then
P := Abs(N)
else
P := LongWord(High(LongInt)) + 1;
try
Result := IntPow(X, P);
except
on EMathError do
begin
Result := IntPow(1 / X, P); // try again with another method, perhaps less precise
Exit;
end;
end;
Result := 1 / Result;
end;
end;
``````

With that function the adjusted skewness becomes the accurate -0.237611357234441 matching Matlab and Minitab.

The only explanation I found is: https://octave.org/doc/v4.0.1/Descriptive-Statistics.html

"The adjusted skewness coefficient is obtained by replacing the sample second and third central moments by their bias-corrected versions."

Same goes with Kurtosis:

``````function Kurtosis(const X: array of Extended; const Adjusted: Boolean): Extended;
begin
var AMean := Mean(X);
var xi_minus_mean_power_4 := 0.0;
var xi_minus_mean_power_2 := 0.0;
for var i := Low(X) to High(X) do
begin
xi_minus_mean_power_4 := xi_minus_mean_power_4 + IntPower((X[i] - AMean), 4);
xi_minus_mean_power_2 := xi_minus_mean_power_2 + IntPower((X[i] - AMean), 2);
end;

{     mean ((x - mean (x)).^4)
k1 = ------------------------
std (x).^4
}
var N := Length(X);
Result := xi_minus_mean_power_4 / N /
IntPower(1 / N * xi_minus_mean_power_2, 2);
{             N - 1
k0 = 3 + -------------- * ((N + 1) * k1 - 3 * (N - 1))
(N - 2)(N - 3)
}
• Your `function Sknewness` cannot compile - please copy code instead of re-typing it. The parameter should be most likely `const X: TArray<Extended>`, too. Also check the outcome of the formattings of your question, especially on single linebreaks. Consider using lists and backticks. May 22 at 22:40