R/runMagic.R
In r3fang/SnapATAC: Single Nucleus Analysis Package for ATAC-Seq
Defines functions
runMagic
Documented in
runMagic
#' Affinity Graph-based Smoothing
#'
#' This function takes a snap object as input with bmat/pmat/gmat/mmat slot
#' and run magic - an affinity graph-based method - to smooth the signal.
#'
#' @param obj A snap obj
#' @param input.mat Input matrix c("bmat", "pmat", "gmat", "mmat").
#' @param step.size Number of steps for diffusion [3].
#'
#' @import Matrix
#' @export
runMagic <- function(
obj,
input.mat=c("gmat", "pmat", "bmat", "mmat"),
step.size=3
){
message("Epoch: checking the inputs ...");
if(missing(obj)){
stop("obj is missing");
}else{
if(!is(obj, "snap")){
stop("obj is not a snap obj")
}
}
ncell = nrow(obj);
# 2. check if input matrix exists
input.mat = match.arg(input.mat);
if(input.mat == "bmat"){
data.use = obj@bmat;
peak.use = obj@feature;
}else if(input.mat == "pmat"){
data.use = obj@pmat;
peak.use = obj@peak;
}else if(input.mat == "gmat"){
data.use = obj@gmat;
peak.use = GenomicRanges::GRanges();
}else{
data.use = obj@mmat;
peak.use = GenomicRanges::GRanges();
}
if((x=nrow(data.use)) == 0L){
stop("input matrix is empty")
}else{
if((x=nrow(data.use)) != ncell){
stop("input matrix has wrong number of rows with number of barcodes")
}
}
# 3. check if the KNN graph exists
A = obj@graph@mat;
if((x=nrow(A)) != ncell){
stop("affnity graph is empty, runKNN first!")
}
# 4. smooth
A = A + t(A);
A = A / Matrix::rowSums(A);
step.size = 3;
if(step.size > 1){
for(i in 1:step.size){
A = A %*% A;
}
}
data.use.smooth = A %*% data.use;
slot(obj, input.mat) = data.use.smooth;
return(obj)
}
r3fang/SnapATAC documentation built on March 29, 2022, 4:33 p.m.
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Defines functions runMagic
Documented in runMagic
#' Affinity Graph-based Smoothing
#'
#' This function takes a snap object as input with bmat/pmat/gmat/mmat slot
#' and run magic - an affinity graph-based method - to smooth the signal.
#'
#' @param obj A snap obj
#' @param input.mat Input matrix c("bmat", "pmat", "gmat", "mmat").
#' @param step.size Number of steps for diffusion [3].
#'
#' @import Matrix
#' @export
runMagic <- function(
obj,
input.mat=c("gmat", "pmat", "bmat", "mmat"),
step.size=3
){
message("Epoch: checking the inputs ...");
if(missing(obj)){
stop("obj is missing");
}else{
if(!is(obj, "snap")){
stop("obj is not a snap obj")
}
}
ncell = nrow(obj);
# 2. check if input matrix exists
input.mat = match.arg(input.mat);
if(input.mat == "bmat"){
data.use = obj@bmat;
peak.use = obj@feature;
}else if(input.mat == "pmat"){
data.use = obj@pmat;
peak.use = obj@peak;
}else if(input.mat == "gmat"){
data.use = obj@gmat;
peak.use = GenomicRanges::GRanges();
}else{
data.use = obj@mmat;
peak.use = GenomicRanges::GRanges();
}
if((x=nrow(data.use)) == 0L){
stop("input matrix is empty")
}else{
if((x=nrow(data.use)) != ncell){
stop("input matrix has wrong number of rows with number of barcodes")
}
}
# 3. check if the KNN graph exists
A = obj@graph@mat;
if((x=nrow(A)) != ncell){
stop("affnity graph is empty, runKNN first!")
}
# 4. smooth
A = A + t(A);
A = A / Matrix::rowSums(A);
step.size = 3;
if(step.size > 1){
for(i in 1:step.size){
A = A %*% A;
}
}
data.use.smooth = A %*% data.use;
slot(obj, input.mat) = data.use.smooth;
return(obj)
}
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