R/FourierTransform.R
In ManonMartin/PEPSNMR: Pre-process 1H-NMR FID signals
Defines functions
FourierTransform
Documented in
FourierTransform
#' @export FourierTransform
FourierTransform <- function(Fid_data, Fid_info = NULL, SW_h = NULL, SW = NULL,
O1 = NULL, reverse.axis = TRUE,verbose = FALSE) {
# Data initialisation and checks ----------------------------------------------
checkArg(verbose, c("bool"))
begin_info <- beginTreatment("FourierTransform", Fid_data, Fid_info,verbose = verbose)
Fid_data <- begin_info[["Signal_data"]]
Fid_info <- begin_info[["Signal_info"]]
m <- ncol(Fid_data)
n <- nrow(Fid_data)
if (is.null(SW_h)) {
SW_h <- getArg(SW_h, Fid_info, "SW_h")
}
if (is.null(SW)) {
SW <- getArg(SW, Fid_info, "SW") # Sweep Width in ppm (semi frequency scale in ppm)
}
if (is.null(O1)) {
O1 <- getArg(O1, Fid_info, "O1")
}
checkArg(reverse.axis, c("bool"))
# Fourier Transformation ----------------------------------------------
# mvfft does the unnormalized fourier transform (see ?mvfft), so we need divide
# by m. It does not matter a lot in our case since the spectrum will be
# normalized.
# FT
RawSpect_data <- fftshift1D2D(t(stats::mvfft(t(Fid_data))))
# recover the frequencies values
f <- ((0:(m - 1)) - floor(m/2)) * Fid_info[1, "SW_h"]/(m-1)
if(reverse.axis == TRUE) {
revind <- rev(1:m)
RawSpect_data <- RawSpect_data[,revind] # reverse the spectrum
}
RawSpect_data <- matrix(RawSpect_data, nrow = n, ncol = m)
colnames(RawSpect_data) <- f
rownames(RawSpect_data) <- rownames(Fid_data)
# PPM conversion ----------------------------------------------
# The Sweep Width has to be the same since the column names are the same
ppmInterval <- SW/(m-1)
O1index = round((m+1)/2+O1*(m - 1) / SW_h)
end <- O1index - m
start <- O1index -1
ppmScale <- (start:end) * ppmInterval
RawSpect_data <- matrix(RawSpect_data, nrow = n, ncol = -(end - start) + 1, dimnames =
list(rownames(RawSpect_data), ppmScale))
# Data finalisation ----------------------------------------------
return(endTreatment("FourierTransform", begin_info, RawSpect_data,verbose = verbose))
}
ManonMartin/PEPSNMR documentation built on Nov. 26, 2021, 8:45 p.m.
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Defines functions FourierTransform
Documented in FourierTransform
#' @export FourierTransform
FourierTransform <- function(Fid_data, Fid_info = NULL, SW_h = NULL, SW = NULL,
O1 = NULL, reverse.axis = TRUE,verbose = FALSE) {
# Data initialisation and checks ----------------------------------------------
checkArg(verbose, c("bool"))
begin_info <- beginTreatment("FourierTransform", Fid_data, Fid_info,verbose = verbose)
Fid_data <- begin_info[["Signal_data"]]
Fid_info <- begin_info[["Signal_info"]]
m <- ncol(Fid_data)
n <- nrow(Fid_data)
if (is.null(SW_h)) {
SW_h <- getArg(SW_h, Fid_info, "SW_h")
}
if (is.null(SW)) {
SW <- getArg(SW, Fid_info, "SW") # Sweep Width in ppm (semi frequency scale in ppm)
}
if (is.null(O1)) {
O1 <- getArg(O1, Fid_info, "O1")
}
checkArg(reverse.axis, c("bool"))
# Fourier Transformation ----------------------------------------------
# mvfft does the unnormalized fourier transform (see ?mvfft), so we need divide
# by m. It does not matter a lot in our case since the spectrum will be
# normalized.
# FT
RawSpect_data <- fftshift1D2D(t(stats::mvfft(t(Fid_data))))
# recover the frequencies values
f <- ((0:(m - 1)) - floor(m/2)) * Fid_info[1, "SW_h"]/(m-1)
if(reverse.axis == TRUE) {
revind <- rev(1:m)
RawSpect_data <- RawSpect_data[,revind] # reverse the spectrum
}
RawSpect_data <- matrix(RawSpect_data, nrow = n, ncol = m)
colnames(RawSpect_data) <- f
rownames(RawSpect_data) <- rownames(Fid_data)
# PPM conversion ----------------------------------------------
# The Sweep Width has to be the same since the column names are the same
ppmInterval <- SW/(m-1)
O1index = round((m+1)/2+O1*(m - 1) / SW_h)
end <- O1index - m
start <- O1index -1
ppmScale <- (start:end) * ppmInterval
RawSpect_data <- matrix(RawSpect_data, nrow = n, ncol = -(end - start) + 1, dimnames =
list(rownames(RawSpect_data), ppmScale))
# Data finalisation ----------------------------------------------
return(endTreatment("FourierTransform", begin_info, RawSpect_data,verbose = verbose))
}
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