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I have PDFs and CDFs for two custom distributions, a means of generating RandomVariates for each, and code for fitting parameters to data. Some of this code I've posted previously at:

Calculating expectation for a custom distribution in Mathematica

Some of it follows:

nlDist /: PDF[nlDist[alpha_, beta_, mu_, sigma_], 
   x_] := (1/(2*(alpha + beta)))*alpha* 
   beta*(E^(alpha*(mu + (alpha*sigma^2)/2 - x))* 
      Erfc[(mu + alpha*sigma^2 - x)/(Sqrt[2]*sigma)] + 
     E^(beta*(-mu + (beta*sigma^2)/2 + x))* 
      Erfc[(-mu + beta*sigma^2 + x)/(Sqrt[2]*sigma)]); 

nlDist /: 
  CDF[nlDist[alpha_, beta_, mu_, sigma_], 
   x_] := ((1/(2*(alpha + beta)))*((alpha + beta)*E^(alpha*x)* 
        Erfc[(mu - x)/(Sqrt[2]*sigma)] - 
       beta*E^(alpha*mu + (alpha^2*sigma^2)/2)*
        Erfc[(mu + alpha*sigma^2 - x)/(Sqrt[2]*sigma)] + 
       alpha*E^((-beta)*mu + (beta^2*sigma^2)/2 + alpha*x + beta*x)*
        Erfc[(-mu + beta*sigma^2 + x)/(Sqrt[2]*sigma)]))/ 
   E^(alpha*x);         

dplDist /: PDF[dplDist[alpha_, beta_, mu_, sigma_], x_] := 
  PDF[nlDist[alpha, beta, mu, sigma], Log[x]]/x;
dplDist /: CDF[dplDist[alpha_, beta_, mu_, sigma_], x_] := 
  CDF[nlDist[alpha, beta, mu, sigma], Log[x]];

nlDist /: DistributionDomain[nlDist[alpha_, beta_, mu_, sigma_]] := 
 Interval[{-Infinity, Infinity}]

nlDist /: 
    Random`DistributionVector[
    nlDist [alpha_, beta_, mu_, sigma_], n_, prec_] :=
    RandomVariate[ExponentialDistribution[alpha], n, 
        WorkingPrecision -> prec] - 
      RandomVariate[ExponentialDistribution[beta], n, 
        WorkingPrecision -> prec] + 
      RandomVariate[NormalDistribution[mu, sigma], n, 
        WorkingPrecision -> prec];

dplDist /: 
    Random`DistributionVector[
    dplDist[alpha_, beta_, mu_, sigma_], n_, prec_] :=
    Exp[RandomVariate[ExponentialDistribution[alpha], n, 
         WorkingPrecision -> prec] - 
       RandomVariate[ExponentialDistribution[beta], n, 
         WorkingPrecision -> prec] + 
       RandomVariate[NormalDistribution[mu, sigma], n, 
         WorkingPrecision -> prec]];

I can post more of the code if someone needs to see it, but I think the above gives a good sense of the approach so far.

Now I need a way to use DistributionFitTest[] with these distributions in something like this:

DistributionFitTest[data, dplDist[3.77, 1.34, -2.65, 0.40],"HypothesisTestData"]  

Ah, but this doesn't work. Instead I get an error message that starts out as:

"The argument dplDist[3.77,1.34,-2.65,0.4] should be a valid distribution..."

So it appears that DistributionFitTest[] doesn't recognize these distributions as distributions.

I don't see how using TagSet would help in this instance, unless one can use TagSet to give DistributionFitTest[] what it needs to identify these custom distributions.

Can anyone advise me of a way to get this to work? I'd like to use DistributionFitTest[] with custom distributions like this or find some work around to assess goodness of fit.

Thx -- Jagra

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1 Answer 1

up vote 15 down vote accepted

Since this question has come up many times, I think it's prime time to furnish some recipes for how to properly cook a custom distribution for v8.

Use TagSet to define for your distribution:

  1. DistributionParameterQ, DistributionParameterAssumptions, DistributionDomain
  2. Define PDF, CDF, SurvivalFunction, HazardFunction
  3. Define random number generation code by coding Random`DistributionVector

Doing so will make everything but parameter estimation work for your distribution.

Your mistake was that dplDist had no DistributionDomain definition, and both nlDist and dplDist did not have DistributionParameterQ and DistributionParameterAssumptions definitions.

I added to your definitions the following:

dplDist /: DistributionDomain[dplDist[alpha_, beta_, mu_, sigma_]] := 
 Interval[{-Infinity, Infinity}]

nlDist /: 
 DistributionParameterQ[nlDist[alpha_, beta_, mu_, sigma_]] := ! 
  TrueQ[Not[
    Element[{alpha, beta, sigma, mu}, Reals] && alpha > 0 && 
     beta > 0 && sigma > 0]]

dplDist /: 
 DistributionParameterQ[dplDist[alpha_, beta_, mu_, sigma_]] := ! 
  TrueQ[Not[
    Element[{alpha, beta, sigma, mu}, Reals] && alpha > 0 && 
     beta > 0 && sigma > 0]]

nlDist /: 
 DistributionParameterAssumptions[
  nlDist[alpha_, beta_, mu_, sigma_]] := 
 Element[{alpha, beta, sigma, mu}, Reals] && alpha > 0 && beta > 0 && 
  sigma > 0

dplDist /: 
 DistributionParameterAssumptions[
  dplDist[alpha_, beta_, mu_, sigma_]] := 
 Element[{alpha, beta, sigma, mu}, Reals] && alpha > 0 && beta > 0 && 
  sigma > 0

And now it worked:

In[1014]:= data = RandomVariate[dplDist[3.77, 1.34, -2.65, 0.40], 100];

In[1015]:= DistributionFitTest[data, dplDist[3.77, 1.34, -2.65, 0.40],
  "HypothesisTestData"]

Out[1015]= HypothesisTestData[<<DistributionFitTest>>]
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2  
Nice! I think you could add this one (along with more details, if you wish) to our little ToolBag post under the Undocumented (or scarcely documented) Features section. –  belisarius Jun 15 '11 at 21:30
    
Thoughtful, informative, and revealing of what goes on under the hood. I wonder if whomever writes the tutorials could provide a detailed one on this entire subject? It might also cover fitting parameters, moments, etc. - all the things one needs to get custom defined distributions to work as seamlessly as possible with Mathematica. Again, many thanks -- Jagra –  Jagra Jun 15 '11 at 22:32
    
Does the same apply for LogLikelihood? Basically, do you have to use TagSet to define every possible function over the custom distribution? –  jfelectron Oct 30 '11 at 18:23
    
@jfelectron Yes, the same holds for LogLikelihood –  Sasha Oct 30 '11 at 18:52
    
@Jagra The Wolfram Technology Conference 2011 presentation from the workshop 'Create Your Own Distribution' can now be downloaded from here –  Sasha Jan 13 '12 at 16:53

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