Generally, the [[
method lets users extract information from oce
objects, without having to know the details of the internal storage. For
many oce
sub-classes, [[
can also return quantities that are computed
from the object's contents.
# S4 method for adv
[[(x, i, j, ...)
an adv object.
character value indicating the name of an item to extract.
optional additional information on the i
item.
ignored.
If i
is "?"
, then the return value is a list
containing four items, each of which is a character vector
holding the names of things that can be accessed with [[
.
The data
and metadata
items hold the names of
entries in the object's data and metadata
slots, respectively, while dataDerived
and
metadataDerived
hold the names of related
things that can be derived from the object's contents.
If i
is "u1"
then the return value is v[,1]
,
and similarly for "u2"
and "u3"
.
If i
is "a1"
then signal amplitude is returned, and similarly
for "a2"
and "a3"
. The results can be in raw()
or numeric form,
as illustrated in the “Examples”.
If i
is "q1"
then signal quality is returned, and similarly
for "q2"
and "q3"
. As with amplitude, the result can be in raw()
or numeric form.
If i
is "heading"
, "pitch"
or "roll"
, then
these values are extracted from the
"slow" form in the object (e.g. in headingSlow
within
the data
slot). In that case, accessing by full name, e.g.
x[["headingSlow"]]
retrieves the item as expected, but
x[["heading"]]
interpolates to the faster timescale, using
approx
(timeSlow,headingSlow,time)
.
Note: the text of this section is identical for all oce
subclasses, and so
some of what you read here may not be relevant to the class being described
in this help page.
If the specialized method produces no matches, the following generalized
method is applied. As with the specialized method, the procedure hinges first
on the values of i
and, optionally, j
. The work proceeds in steps, by
testing a sequence of possible conditions in sequence.
A check is made as to whether i
names one of the standard oce
slots.
If so, [[
returns the slot contents of that slot. Thus, x[["metadata"]]
will retrieve the metadata
slot, while x[["data"]]
and
x[["processingLog"]]
return those slots.
If i
is a string ending in the "Unit"
, then the characters preceding
that string are taken to be the name of an item in the data object, and a
list containing the unit is returned (or NULL
if there is no such unit).
This list consists of an item named unit
, which is an expression()
, and
an item named scale
, which is a string describing the measurement scale.
If the string ends in " unit"
, e.g. x[["temperature unit"]]
(note the
space), then just the expression is returned, and if it ends in " scale"
,
then just the scale is returned.
If i
is a string ending in "Flag"
, then the corresponding data-quality
flag is returned (or NULL
if there is no such flag).
If the object holds hydrographic information (pressure, salinity,
temperature, longitude and latitude) then another set of possibilities
arises. If i
is "sigmaTheta"
, then the value of swSigmaTheta()
is
called with x
as the sole argument, and the results are returned.
Similarly, swSigma0()
is used if i="sigma0"
, and swSpice()
is used if
i="spice"
. Of course, these actions only make sense for objects that
contain the relevant items within their data
slot.
After these possibilities are eliminated, the action depends on whether
j
has been provided. If j
is not provided, or is the string ""
, then
i
is sought in the metadata
slot, and then in the data
slot, returning
whichever is found first. In other words, if j
is not provided, the
metadata
slot takes preference over the data
slot. However, if j
is
provided, then it must be either the string "metadata"
or "data"
, and it
directs where to look.
If none of the above-listed conditions holds, then NULL
is returned.
Dan Kelley
A two-step process is used to try to find the requested information. First, a
class-specific function is used (see “Details of the Specialized
Method”). If this yields nothing, then a general method is used (see
“Details of the General Method”). If both methods fail, then [[
returns NULL.
Some understanding of the subclass is required to know what can be retrieved
with [[
. When dealing with an unfamiliar subclass, it can be useful to
first use x[["?"]]
to get a listing of the retrievable items. See
“Details of the Specialized Method” for more information.
Other functions that extract parts of oce objects:
[[,adp-method
,
[[,amsr-method
,
[[,argo-method
,
[[,bremen-method
,
[[,cm-method
,
[[,coastline-method
,
[[,ctd-method
,
[[,echosounder-method
,
[[,g1sst-method
,
[[,gps-method
,
[[,ladp-method
,
[[,landsat-method
,
[[,lisst-method
,
[[,lobo-method
,
[[,met-method
,
[[,oce-method
,
[[,odf-method
,
[[,rsk-method
,
[[,sealevel-method
,
[[,section-method
,
[[,tidem-method
,
[[,topo-method
,
[[,windrose-method
,
[[,xbt-method
,
[[<-,adv-method
Other things related to adv data:
[[<-,adv-method
,
adv-class
,
advSontekAdrFileTrim()
,
adv
,
applyMagneticDeclination,adv-method
,
beamName()
,
beamToXyz()
,
enuToOtherAdv()
,
enuToOther()
,
plot,adv-method
,
read.adv.nortek()
,
read.adv.sontek.adr()
,
read.adv.sontek.serial()
,
read.adv.sontek.text()
,
read.adv()
,
rotateAboutZ()
,
subset,adv-method
,
summary,adv-method
,
toEnuAdv()
,
toEnu()
,
velocityStatistics()
,
xyzToEnuAdv()
,
xyzToEnu()
data(adv)
head(adv[["q"]]) # in raw form
head(adv[["q", "numeric"]]) # in numeric form
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