molecule
dwt.molecule
cp.molecule
wp.molecule
cp.atom
wp.atom
Objects of classes
"molecule", "cp.molecule", "wp.molecule" are returned from
top.atoms(), matching.pursuit()
or subscripting a
"cp.crystal" or
"wp.crystal"
object.
Objects of class
"dwt.molecule" are returned from
top.atoms(),
when the atoms are selected from a
"dwt" object.
Objects of class
"cp.atom" are returned from calling function
cp.atom()
or
[[ subscripting an object of
"cp.crystal" or
"molecule".
Objects of class
"wp.atom" are returned from calling function
wp.atom()
or [[ subscripting an object of
"wp.crystal" or
"molecule".
The class
"molecule" has methods for the following generic functions:
`[, [<-, [[, [[<-, crystal.names, plot, print, reconstruct, eda.plot'.
The classes
"cp.molecule" and
"wp.molecule" have methods for the following
generic functions:
decompose, time.freq.plot.
The class
"dwt.molecule" has methods for the following generic functions:
reconstruct, eda.plot.
The class
"cp.atom" has methods for the following generic functions:
bandwidth, center, freq.bandwidth, freq.center,
plot, print, summary
.
The class
"wp.atom" has methods for the following generic functions:
bandwidth, center, fourier.transform.plot, freq.bandwidth, freq.center,
plot, print, summary, wavelet.name
.
Class
"dwt.molecule" inherits from class
"wp.molecule"; both
"cp.molecule" and
"wp.molecule"
inherit from class
"molecule".
Class
"cp.atom" inherits from classes
"cp.molecule", "molecule".
Class
"wp.atom" inherits from classes
"wp.molecule", "molecule".
The
"molecule" object is a numerical vector with the following attributes:
cp.dict or
wp.dict object containing all relevant information.
top.atoms method only, the original orthogonal basis.
molecule:
top.atoms, matching.pursuit or
subscript
.