ydrunsd: Determine multi-year daily running standard deviations
In cmsafops: Tools for CM SAF NetCDF Data
ydrunsd R Documentation
Determine multi-year daily running standard deviations
Description
The function determines multi-year daily running standard deviation values from
data of a single CM SAF NetCDF input file.
Usage
ydrunsd(
var,
nts = 6,
infile,
outfile,
nc34 = 4,
overwrite = FALSE,
verbose = FALSE,
nc = NULL
)
Arguments
var
Name of NetCDF variable (character).
nts
Number of consecutive timesteps. Computes running statistical values over a
selected number of timesteps.
infile
Filename of input NetCDF file. This may include the directory
(character).
outfile
Filename of output NetCDF file. This may include the directory
(character).
nc34
NetCDF version of output file. If nc34 = 3 the output file
will be in NetCDFv3 format (numeric). Default output is NetCDFv4.
overwrite
logical; should existing output file be overwritten?
verbose
logical; if TRUE, progress messages are shown
nc
Alternatively to infile you can specify the input as an
object of class ncdf4 (as returned from ncdf4::nc_open).
Value
A NetCDF file including a time series of multi-year daily running
standard deviations is written.
See Also
Other running statistics:
runmax(),
runmean(),
runmin(),
runrange(),
runsd(),
runsum(),
ydrunmean(),
ydrunsum()
Examples
## Create an example NetCDF file with a similar structure as used by CM
## SAF. The file is created with the ncdf4 package. Alternatively
## example data can be freely downloaded here: <https://wui.cmsaf.eu/>
library(ncdf4)
## create some (non-realistic) example data
lon <- seq(10, 15, 0.5)
lat <- seq(50, 55, 0.5)
time <- seq(as.Date("2000-01-01"), as.Date("2010-12-31"), "month")
origin <- as.Date("1983-01-01 00:00:00")
time <- as.numeric(difftime(time, origin, units = "hour"))
data <- array(250:350, dim = c(11, 11, 132))
## create example NetCDF
x <- ncdim_def(name = "lon", units = "degrees_east", vals = lon)
y <- ncdim_def(name = "lat", units = "degrees_north", vals = lat)
t <- ncdim_def(name = "time", units = "hours since 1983-01-01 00:00:00",
vals = time, unlim = TRUE)
var1 <- ncvar_def("SIS", "W m-2", list(x, y, t), -1, prec = "short")
vars <- list(var1)
ncnew <- nc_create(file.path(tempdir(),"CMSAF_example_file.nc"), vars)
ncvar_put(ncnew, var1, data)
ncatt_put(ncnew, "lon", "standard_name", "longitude", prec = "text")
ncatt_put(ncnew, "lat", "standard_name", "latitude", prec = "text")
nc_close(ncnew)
## Determine the multi-year daily running standard deviations of the example
## CM SAF NetCDF file and write the output to a new file.
ydrunsd(var = "SIS", nts = 10, infile = file.path(tempdir(),"CMSAF_example_file.nc"),
outfile = file.path(tempdir(),"CMSAF_example_file_ydrunsd.nc"))
unlink(c(file.path(tempdir(),"CMSAF_example_file.nc"),
file.path(tempdir(),"CMSAF_example_file_ydrunsd.nc")))
cmsafops documentation built on Sept. 18, 2023, 5:16 p.m.
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| ydrunsd | R Documentation |
Determine multi-year daily running standard deviations
Description
The function determines multi-year daily running standard deviation values from data of a single CM SAF NetCDF input file.
Usage
ydrunsd(
var,
nts = 6,
infile,
outfile,
nc34 = 4,
overwrite = FALSE,
verbose = FALSE,
nc = NULL
)
Arguments
var |
Name of NetCDF variable (character). |
nts |
Number of consecutive timesteps. Computes running statistical values over a selected number of timesteps. |
infile |
Filename of input NetCDF file. This may include the directory (character). |
outfile |
Filename of output NetCDF file. This may include the directory (character). |
nc34 |
NetCDF version of output file. If |
overwrite |
logical; should existing output file be overwritten? |
verbose |
logical; if TRUE, progress messages are shown |
nc |
Alternatively to |
Value
A NetCDF file including a time series of multi-year daily running standard deviations is written.
See Also
Other running statistics:
runmax(),
runmean(),
runmin(),
runrange(),
runsd(),
runsum(),
ydrunmean(),
ydrunsum()
Examples
## Create an example NetCDF file with a similar structure as used by CM
## SAF. The file is created with the ncdf4 package. Alternatively
## example data can be freely downloaded here: <https://wui.cmsaf.eu/>
library(ncdf4)
## create some (non-realistic) example data
lon <- seq(10, 15, 0.5)
lat <- seq(50, 55, 0.5)
time <- seq(as.Date("2000-01-01"), as.Date("2010-12-31"), "month")
origin <- as.Date("1983-01-01 00:00:00")
time <- as.numeric(difftime(time, origin, units = "hour"))
data <- array(250:350, dim = c(11, 11, 132))
## create example NetCDF
x <- ncdim_def(name = "lon", units = "degrees_east", vals = lon)
y <- ncdim_def(name = "lat", units = "degrees_north", vals = lat)
t <- ncdim_def(name = "time", units = "hours since 1983-01-01 00:00:00",
vals = time, unlim = TRUE)
var1 <- ncvar_def("SIS", "W m-2", list(x, y, t), -1, prec = "short")
vars <- list(var1)
ncnew <- nc_create(file.path(tempdir(),"CMSAF_example_file.nc"), vars)
ncvar_put(ncnew, var1, data)
ncatt_put(ncnew, "lon", "standard_name", "longitude", prec = "text")
ncatt_put(ncnew, "lat", "standard_name", "latitude", prec = "text")
nc_close(ncnew)
## Determine the multi-year daily running standard deviations of the example
## CM SAF NetCDF file and write the output to a new file.
ydrunsd(var = "SIS", nts = 10, infile = file.path(tempdir(),"CMSAF_example_file.nc"),
outfile = file.path(tempdir(),"CMSAF_example_file_ydrunsd.nc"))
unlink(c(file.path(tempdir(),"CMSAF_example_file.nc"),
file.path(tempdir(),"CMSAF_example_file_ydrunsd.nc")))
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