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eemR
can use user-defined function to import eems data.
A new argument import_function
in the
eem_read()
function can be used to provide a custom functio
to read a speficic eem file format.
## Bracking changes
Because of the major change of eem_read()
, existing code
will brake. The user still can uses the old importing functions by
specifying the spectrofluorometer to use as follows:
eem_read(file, import_function = "cary"
eem_read(file, import_function = "aqualog"
eem_read(file, import_function = "shimadzu"
eem_read(file, import_function = "fluoromax4"
eem_peaks()
to extract user-defined
fluorescence peaks (#42).Improved plot visualization to the same look and feel as those produced in Matlab with DrEEM.
Use file name as is for the name of the eem.
Reading Cary Eclipse files is more robust at detecting correct excitation wavelengths.
eemR
can now read Fluoromax-4 files (#40).
eem_cut()
gains a logical argument
exact
. If TRUE
, only wavelengths matching
em
and/or ex
will be removed. If
FALSE
, all wavelengths in the range of em
and/or ex
will be removed.
Taking into account cuvette size to calculate the 1.5 threshold proposed by Kothawala when correcting for IFE.
Inner-filter effect correction factors are now corrected correctly. Because fluorescence is assumed to be measured in 1 cm cuvette, absorbance is now expressed per centimeter.
Better guessing the number of columns of the fluorescence matrix produced by Cary Eclipse software.
Fixed many typos.
eem_extract()
is now more intuitive to use.
remove
argument has been replace by keep
. If
TRUE
, the specified samples will be returned. If
FALSE
, they will be removed (#37).
eem_cut()
now removes specified wavelengths instead
of keeping them.
eem_cut()
gains an argument
fill_with_na
. If TRUE
fluorescence at
specified wavelengths will be replaced with NA
instead of
being removed.
File structure is now kept when performing inner-filter effect correction (#35).
Now using viridis space colors for plotting EEMs instead of color jet.
eem_remove_scattering()
no longer
tolower
absorbance names and will assume that the provided
absorbance spectra match exactly EEM’s names.
Fixing a bug that prevented the interactive plot to work properly.
summary(x)
and print(x)
now return a
data frame containing summarized information on EEMs contained in
x
. See ?summary.eemlist
.
eem_raman_normalisation()
and
eem_remove_blank()
will average blank EEMs if more than one
are provided or found in the folder (#23).
eem_raman_normalisation()
,
eem_remove_blank()
and
eem_inner_filter_effect()
will now verify if the correction
has been already performed. If so, an unmodified EEM will be
returned.
eem_raman_normalisation()
now interpolates blank EEM
to ensure that em at 350 and excitation between 371 and 428 exist
(#31).
eem_remove_blank()
and
eem_raman_normalisation()
will now keep blank samples when
automatic correction is used. When automatic correction is used, the
untransformed blank sample will be keep in the list.
An error will now occur if trying to perform blank correction after Raman normalization.
Interactive plot using a simple shiny app. Using
plot(eems, interactive = TRUE)
will lunch a shiny app that
allows to interactively browse EEMs contained in
eems
.
A vignette has been added to the package which can be viewed
using
vignette(topic = "introduction", package = "eemR")
.
An error will occur if one try to do raman normalization on a blank where scattering bands have been removed.
eem_sample_names()
has been replaced by
eem_names()
.
Reading Aqualog files is now ~20% faster (#26).
plot()
gains an argument
show_peaks = TRUE/FALSE
which can be used to display most
common fluorescence peaks used in the literature.
eem_remove_blank()
and
eem_raman_normalisation()
can now try to implicitly use a
blank eem from a eemlist
object (#20). If blank is omitted
(blank = NA
), the functions will try to extract the blank
from the eemlist
object. This is done by looking for sample
names containing one of these complete or partial strings (ignoring
case): - “nano” - “miliq” - “milliq” - “mq” - “blank”
Consider the following example where there are two folders that could
represent scans performed on two different days scans_day_1
and scans_day_2
. In each folder there are three samples and
one blank files. In that context, eem_remove_blank()
will
use the blank nano.csv
from sample1.csv
,
sample2.csv
and sample3.csv
. The same strategy
will be used for files in folder scans_day_2
but with blank
named blank.csv
.
inst/extdata/cary/
├── scans_day_1
│ ├── nano.csv
│ ├── sample1.csv
│ ├── sample2.csv
│ └── sample3.csv
└── scans_day_2
├── blank.csv
└── s1.csv
eem_extract()
has now an argument
verbose
(default = FALSE) that determine if the names of
removed or extracted eems should be printed on screen.
Implemented the generic print()
method which calls
summary()
.
Added tests to the packages to verify metrics.
Now better estimate the number of columns to read in Cary Eclipse files (#27). This also makes reading much faster.
Sample names are now exported when using the
eem_export_matlab()
function.
New function eem_bind()
implemented to merge objects
of class eem
and eemlist
.
Reading EEMs should be ~ 50% faster.
New function eem_sample_names()
implemented.
eem_sample_names(eem)
returns a vector containing the
sample names of all EEMs.eem_sample_names(eem) <- c(...)
sets the sample
names of all EEMs.eem_extract()
has now an argument
ignore_case
(#10) to specify if the regular expression
search should ignore sample name case (TRUE) or not (FALSE).
Sample names (i.e. file names) are now verified with
make.names()
(#15).
Various improvements in documentation.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.