"UnivarLebDecDistribution".UnivarLebDecDistribution(acPart, discretePart, acWeight, discreteWeight,
r = NULL, e = NULL, n = NULL)"AbscontDistribution" (or subclasses);
a.c. part of the distribution"AbscontDistribution" (or subclasses);
discrete part of the distribution"numeric"; weight of the a.c. part of
the distribution"numeric"; weight of the discrete
part of the distributionr <- function(n){....} to produce r.v.'s distributed
according to the distribution; used in a call to r is given, this is the number
of r.v.'s drawn to fill the empty slots of this object; if missing filled
with getdistrOption("RtoDPQ.e").r is given, this is the number
gridpoints used in filling the empty p,d,q slots of this object; if missing filled
with getdistrOption("DefaultNrGridPoints")."UnivarLebDecDistribution".discretePart, acPart, or r
must be given; if the first two are missing, slots are filled by a call
to RtoDPQ.LV. For this purpose argument r is used together
with arguments e and n. If the latter are missing they are
filled with getdistrOption("RtoDPQ.e") and
getdistrOption("DefaultNrGridPoints"), respectively.
If argument discretePart is missing but acPart is not,
discreteWeight is set to 0 and discretePart is set to Dirac(0).
If argument acPart is missing but discretePart is not,
acWeight is set to 0 and discretePart is set to Norm().
If both arguments acPart and discretePart are given,
at least one of arguments discreteWeight and acWeight must
be given and lie in [0,1], else an error is thrown.
If only one argument acWeight or discreteWeight is given
the other one is gotten as 1-[ac/discrete]Weight.
Else if both are given, they must sum up to 1.
If a weight is smaller than getdistrOption("TruncQuantile"), it
is set to 0.UnivarLebDecDistribution-class,
simplifyDmylist <- UnivarLebDecDistribution(discretePart=Binom(3,.3), acPart=Norm(2,2),
acWeight=11/20)
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