Ops.freealg | R Documentation |
Arithmetic operators for manipulation of freealg objects such as addition, multiplication, powers, etc
## S3 method for class 'freealg'
Ops(e1, e2)
free_negative(S)
free_power_scalar(S,n)
free_eq_free(e1,e2)
free_plus_numeric(S,x)
free_plus_free(e1,e2)
lowlevel_simplify(words,coeffs)
lowlevel_free_prod(words1,coeffs1,words2,coeffs2)
lowlevel_free_sum(words1,coeffs1,words2,coeffs2)
lowlevel_free_power(words,coeffs,n)
lowlevel_diffn(words,coeffs,r)
lowlevel_subs(words1, coeffs1, words2, coeffs2, r)
inv(S)
S , e1 , e2 |
Objects of class |
n |
Integer, possibly non-positive |
r |
Integer vector indicating variables to differentiate with respect to |
x |
Scalar value |
words , words1 , words2 |
A list of words, that is, a list of integer vectors representing the variables in each term |
coeffs , coeffs1 , coeffs2 |
Numeric vector representing the coefficients of each word |
The function Ops.freealg()
passes binary arithmetic operators
(“+
”, “-
”, “*
”,
“^
”, and “==
”) to the appropriate
specialist function.
The caret, as in a^n
, denotes arithmetic exponentiation, as in
x^3==x*x*x
. As an experimental feature, this is (sort of)
vectorised: if n
is a vector, then a^n
returns the sum
of a
raised to the power of each element of n
. For example,
a^c(n1,n2,n3)
is a^n1 + a^n2 + a^n3
. Internally,
n
is tabulated in the interests of efficiency, so
a^c(0,2,5,5,5,) = 1 + a^2 + 3a^5
is evaluated with only a
single fifth power. Similar functionality is implemented in the
mvp package.
The only comparison operators are equality and inequality; x==y
is defined as is.zero(x-y)
.
Functions lowlevel_foo()
are low-level functions that interface
directly with the C
routines in the src/
directory and
are not intended for the end-user.
Function inv()
is defined only for freealg objects with a
single term. If x
has a single term we have
inv(x)*x=x*inv(x)=1
. There is no corresponding division in the
package because a/b
may be either a*inv(b)
or
inv(b)*a
.
Robin K. S. Hankin
rfalg()
as.freealg("1+x+xy+yx") # variables are non-commutative
as.freealg("x") * as.freealg("X") # upper-case letters are lower-case inverses
constant(as.freealg("x+y+X+Y")^6) # OEIS sequence A035610
inv(as.freealg("2aaabAAAAx"))
as.freealg("a")^(1:7)
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