View source: R/adp.nortek.ad2cp.R
read.adp.ad2cp | R Documentation |
This function is under active development and may change without notice. In
contrast with other oce
reading functions, read.adp.ad2cp()
focusses just
on one data type within the source file. Another difference is that it can
either return an object holding the data or just a data frame holding a
description of the data types in the file; indeed, the latter is the default.
See “Details” for more on the reasons for these departures from the
usual oce
pattern.
read.adp.ad2cp(
file,
from = 1L,
to = 0L,
by = 1L,
dataType = NULL,
dataSet = 1L,
tz = getOption("oceTz"),
longitude = NA,
latitude = NA,
plan,
TOC = FALSE,
debug = getOption("oceDebug"),
orientation,
distance,
monitor,
despike,
...
)
file |
a connection or a character string giving the name of the file to load. |
from |
an integer indicating the index number of the first record to
read. This must equal 1, for this version of |
to |
an integer indicating the final record to read. If |
by |
ignored. |
dataType |
an indication of the data type to be extracted. If this is
NULL (the default) then |
dataSet |
a positive integer that indicates which of the possibly
several data sets stored within a file is to be focussed upon. By
default, the first data set is chosen. Note that data sets are found
by trying to match each text data chunk against the regular expression
|
tz |
a character value indicating time zone. This is used in interpreting times stored in the file. |
longitude , latitude |
numerical values indicating the observation location. |
plan |
optional integer specifying which 'plan' to focus on (see |
TOC |
a logical value. If this is FALSE (the default) then
the other parameters of the function are used to select data from
the indicated |
debug |
an integer value indicating the level of debugging. Set to 1 to get a moderate amount of debugging information, from the R code only, to 2 to get some debugging information from the C++ code that is used to parse the data chunks, or to 3 for intensive debugging at both levels. |
orientation , distance , monitor , despike |
ignored, provided only for
calling compatibility with other functions that read adp
files. A warning is issued if any of these is supplied in a call
to |
... |
ignored parameters that might be passed to |
Why does read.adp.ad2cp()
focus only on parts of the data file? The answer
lies in the AD2CP format itself, which may combine data subsets of such
differing natures as to break with the oce
system of pairing a metadata
slot with a data
slot. For example, in a conventional ADP dataset, the
metadata
slot has items for the sampling times, the number of beams, the
blanking distance, the cell size, the number of cells, etc. Such items have
a natural pairing with elements of the data
slot, and oce
uses this
pairing in constructing plots and other items. However, an AD2CP file might
combine such data with echosounder measurements, and these will have
different values for number of beams and so forth. This poses a challenge
in naming conventions within the oce
object, with ripple effects for
plotting and data access. Those ripple effects would extend beyond oce
itself to user code. To avoid such problems, read.adp.ad2cp()
is designed to focus on one data type at a time, relying on users to
keep track of the resultant object, perhaps to combine it with other objects
from within the AD2CP file or other files, in the normal R manner.
The permitted values for dataType
are shown in the table below;
the dataType
argument of read.adp.ad2cp()
may be chosen from any
of the three columns in this table.
code (raw) | code (integer) | oce name |
---------- | -------------- | ----------------- |
0x15 | 21 | burst |
0x16 | 22 | average |
0x17 | 23 | bottomTrack |
0x18 | 24 | interleavedBurst |
0x1a | 26 | burstAltimeterRaw |
0x1b | 27 | DVLBottomTrack |
0x1c | 28 | echosounder |
0x1d | 29 | DVLWaterTrack |
0x1e | 30 | altimeter |
0x1f | 31 | averageAltimeter |
0x23 | 35 | echosounderRaw |
0xa0 | 160 | text |
read.adp.ad2cp()
returns either an adp object or
the number of data sets within the file, according to the value
of TOC
.
d <- read.adp.ad2cp("~/test.ad2cp", to=100) # or read.oce()
This file type, like other acoustic-Doppler types, is read with a hybrid R/C++ system, for efficiency. The processing steps are sketched below, for users who want to inspect the code or build upon it.
In R, readBin()
is used to insert the file contents into
a vector of type raw
.
In C++, this raw vector is scanned byte by byte,
to find the starting indices of data "chunks", or subsections of
the data that correspond to individual sampling times.
Checksum computations are also done at this stage, to detect
possible data corruption. Warnings are issued for any bad chunks,
and they are skipped in further processing. The valid
starting points are then passed back to R as a vector of
type integer
.
In R, readBin()
is used to read the components of each chunk.
For speed, this is done in a vectorized fashion. For example,
all the velocities in the whole file are read in a single call
to readBin()
. This process is done for each of the data
fields that are to be handled. Importantly, these readBin()
calls are tailored to the data, using values of
the size
, endian
and signed
parameters that are tailored
to the structure of the given component.
Scaling factors are then applied as required, to convert the
components to physical units.
Finally, in R, the acquired items are inserted into the data
or
metadata
slot of the return value, according to oce convention.
Dan Kelley
Nortek AS. “Signature Integration 55|250|500|1000kHz.” Nortek AS, 2017.
Nortek AS. “Signature Integration 55|250|500|1000kHz.” Nortek AS, 2018.
Nortek AS. “Signature Integration 55|250|500|1000kHz.” Nortek AS, March 31, 2022.
Other things related to adp data:
[[,adp-method
,
[[<-,adp-method
,
ad2cpCodeToName()
,
ad2cpHeaderValue()
,
adp
,
adp-class
,
adpAd2cpFileTrim()
,
adpConvertRawToNumeric()
,
adpEnsembleAverage()
,
adpFlagPastBoundary()
,
adpRdiFileTrim()
,
adp_rdi.000
,
applyMagneticDeclination,adp-method
,
as.adp()
,
beamName()
,
beamToXyz()
,
beamToXyzAdp()
,
beamToXyzAdpAD2CP()
,
beamToXyzAdv()
,
beamUnspreadAdp()
,
binmapAdp()
,
enuToOther()
,
enuToOtherAdp()
,
handleFlags,adp-method
,
is.ad2cp()
,
plot,adp-method
,
read.adp()
,
read.adp.nortek()
,
read.adp.rdi()
,
read.adp.sontek()
,
read.adp.sontek.serial()
,
read.aquadopp()
,
read.aquadoppHR()
,
read.aquadoppProfiler()
,
rotateAboutZ()
,
setFlags,adp-method
,
subset,adp-method
,
subtractBottomVelocity()
,
summary,adp-method
,
toEnu()
,
toEnuAdp()
,
velocityStatistics()
,
xyzToEnu()
,
xyzToEnuAdp()
,
xyzToEnuAdpAD2CP()
Other things related to ad2cp data:
ad2cpCodeToName()
,
ad2cpHeaderValue()
,
adpAd2cpFileTrim()
,
is.ad2cp()
Other functions that read adp data:
read.adp()
,
read.adp.nortek()
,
read.adp.rdi()
,
read.adp.sontek()
,
read.adp.sontek.serial()
,
read.aquadopp()
,
read.aquadoppHR()
,
read.aquadoppProfiler()
library(oce)
# You can run this within the oce directory, if you clone from github.
file <- "tests/testthat/local_data/ad2cp/S102791A002_Barrow_v2.ad2cp"
if (file.exists(file)) {
library(oce)
d <- read.oce(file)
}
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