Function that converts transmittance (fraction) into absorptance (fraction). If reflectance (fraction) is available, it allows conversions between internal and total absorptance.
T2Afr(x, action, byref, clean, ...)# S3 method for default
T2Afr(x, action = NULL, byref = FALSE, clean = FALSE, ...)
# S3 method for numeric
T2Afr(x, action = NULL, byref = FALSE, clean = FALSE, Rfr = NA_real_, ...)
# S3 method for filter_spct
T2Afr(x, action = "add", byref = FALSE, clean = FALSE, ...)
# S3 method for object_spct
T2Afr(x, action = "add", byref = FALSE, clean = FALSE, ...)
# S3 method for filter_mspct
T2Afr(
x,
action = "add",
byref = FALSE,
clean = FALSE,
...,
.parallel = FALSE,
.paropts = NULL
)
# S3 method for object_mspct
T2Afr(
x,
action = "add",
byref = FALSE,
clean = FALSE,
...,
.parallel = FALSE,
.paropts = NULL
)
an R object
character Allowed values "replace" and "add"
logical indicating if new object will be created by reference or by copy of x
logical replace off-boundary values before conversion
not used in current version
numeric vector. Spectral reflectance o reflectance factor.
Set to zero if x
is internal reflectance,
if TRUE, apply function in parallel, using parallel backend provided by foreach
a list of additional options passed into the foreach function when parallel computation is enabled. This is important if (for example) your code relies on external data or packages: use the .export and .packages arguments to supply them so that all cluster nodes have the correct environment set up for computing.
A copy of x
with a column Afr
added and other columns
possibly deleted except for w.length
. If action = "replace"
,
in all cases, the additional columns are removed, even if no column needs
to be added.
default
: Default method for generic function
numeric
: Default method for generic function
filter_spct
: Method for filter spectra
object_spct
: Method for object spectra
filter_mspct
: Method for collections of filter spectra
object_mspct
: Method for collections of object spectra
Other quantity conversion functions:
A2T()
,
Afr2T()
,
T2A()
,
any2T()
,
as_quantum()
,
e2qmol_multipliers()
,
e2quantum_multipliers()
,
e2q()
,
q2e()
# NOT RUN {
T2Afr(Ler_leaf.spct)
# }
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