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28. Polynomials: Stopes
The expression */ x + s * i. n
is often called a factorial function but,
to avoid confusion with the function ! ,
we will call it a stope; the factors occurring
in its definition differ by steps of size s,
like the steps in a mine stope. Stopes are useful in actuarial work and
in the difference calculus.
The stope is a variant of the power ^
(being equivalent for the case s=:0),
and is provided by the fit conjunction in the variant ^!.s.
For example:
x + s * i. n [ x=: 7 [ n=: 5 [ s=: _1
7 6 5 4 3
(*/x + s * i. n);(x ^!.s n);(x ^!.0 n);(x^n)
+----+----+-----+-----+
|2520|2520|16807|16807|
+----+----+-----+-----+
The phrase +/c * x^!.s i.#c
is called a stope polynomial, just as +/c*x^i.#c
may be called a power polynomial. We define an
adverb P that applies to any step size s to provide
the corresponding stope polynomial:
P=: 1 : '+/@([ * ] ^!. x. i.@#@[)"1 0'
c=: 1 3 3 1 [ d=: 1 7 6 1 [ x=: 0 1 2 3 4
(c p. x);(c 0 P x);(d _1 P x);(d p.!._1 x)
+-------------+-------------+-------------+-------------+
|1 8 27 64 125|1 8 27 64 125|1 8 27 64 125|1 8 27 64 125|
+-------------+-------------+-------------+-------------+
As illustrated above, stope polynomials are (for a suitable
choice of coefficients) equivalent to ordinary polynomials.
Moreover, the transformations between them are provided by
a matrix product as follows:
VM=: 1 : '[ ^!.x./ i.@#@]'
TO=: 2 : '(x. VM %. y. VM)~ @i.@#'
(0 TO _1 c) +/ . * c
1 7 6 1
The matrices 0 TO _1 and _1 TO 0 are
mutually inverse, and are simply related to Stirling numbers:
(0 TO _1 i.5);(_1 TO 0 i.5)
+---------+------------+
|1 0 0 0 0|1 0 0 0 0|
|0 1 1 1 1|0 1 _1 2 _6|
|0 0 1 3 7|0 0 1 _3 11|
|0 0 0 1 6|0 0 0 1 _6|
|0 0 0 0 1|0 0 0 0 1|
+---------+------------+
The stope polynomial is also provided by the variant p.!.s .
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