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R/Kernel.R
In SKAT: SNP-Set (Sequence) Kernel Association Test
Defines functions
lskmTest.GetKernel
call_Kernel_2wayIX
call_Kernel_IBS_Weight
call_Kernel_IBS
K1_Help
K1_Help= function(x,y){
# Helper function for 2 way interaction kernel
p = length(x)
a = x*y
b = cumsum(a)
return(sum(a[-1]*b[-p]))
}
call_Kernel_IBS<-function(Z,n,p){
#Kernel_IBS(double * Z, int * pn, int * pp, double * Kernel)
K<- matrix(rep(0,n*n),nrow = n, ncol = n)
temp<-.C("Kernel_IBS",as.integer(as.vector(t(Z))),as.integer(n), as.integer(p),as.double(as.vector(K)))[[4]]
matrix(temp,nrow=n)
}
call_Kernel_IBS_Weight<-function(Z,n,p,weights){
#Kernel_IBS_Weight(int * Z, int * pn, int * pp, int *UseGivenWeight , double * weight, double * Kernel)
given_weight = 1;
if( is.null(weights)){
weights = rep(0,p);
given_weight = 0;
} else {
# change!!
weights<-weights^2;
}
K<- matrix(rep(0,n*n),nrow = n, ncol = n)
temp<-.C("Kernel_IBS_Weight",as.integer(as.vector(t(Z))),as.integer(n), as.integer(p),as.integer(given_weight),
as.double(weights),as.double(as.vector(K)))[[6]]
matrix(temp,nrow=n)
}
call_Kernel_2wayIX<-function(Z,n,p){
#Kernel_IBS(double * Z, int * pn, int * pp, double * Kernel)
K<- matrix(rep(0,n*n),nrow = n, ncol = n)
temp<-.C("Kernel_2wayIX",as.integer(as.vector(t(Z))),as.integer(n), as.integer(p),as.double(as.vector(K)))[[4]]
matrix(temp,nrow=n)
}
lskmTest.GetKernel = function(Z, kernel, weights,n,m){
if (kernel == "quadratic") {
K = (Z%*%t(Z)+1)**2
}
if (kernel == "IBS") {
K = call_Kernel_IBS(Z,n,m)
}
if (kernel == "IBS.weighted") {
K = call_Kernel_IBS_Weight(Z,n,m,weights)
}
if (kernel == "2wayIX") {
K = call_Kernel_2wayIX(Z,n,m)
}
if (kernel == "IBS.weighted_OLD") {
#K = matrix(nrow = n, ncol = n)
if (is.null(weights)) {
qs = apply(Z, 2, mean)/(2)
weights = 1/sqrt(qs)
} else {
weights<-weights^2
}
K1 = matrix(nrow =n, ncol = n)
for (i in 1:n) {
K1[i,] = apply(abs(t(Z)-Z[i,])*weights,2, sum)
}
K= 1-(K1)/(2*sum(weights))
}
if (kernel == "IBS_OLD") {
K1=matrix(nrow=n,ncol=n)
for (i in 1:n) {
K1[i,] = apply(abs(t(Z)-Z[i,]),2, sum)
}
K = (2*m-K1)/(2*m)
}
if (kernel == "2wayIX_OLD") {
K = 1+Z%*%t(Z)
N1= matrix(nrow = n, ncol = n)
for (i in 1:n){
for (j in i:n){
N1[j,i] = N1[i,j] = K1_Help(Z[i,], Z[j,])
}
}
K = K+N1
}
return(K)
}
#.First.lib <- function(lib, pkg) { library.dynam('SKAT', pkg, lib) }
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SKAT documentation built on Jan. 15, 2023, 5:10 p.m.
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Defines functions lskmTest.GetKernel call_Kernel_2wayIX call_Kernel_IBS_Weight call_Kernel_IBS K1_Help
K1_Help= function(x,y){
# Helper function for 2 way interaction kernel
p = length(x)
a = x*y
b = cumsum(a)
return(sum(a[-1]*b[-p]))
}
call_Kernel_IBS<-function(Z,n,p){
#Kernel_IBS(double * Z, int * pn, int * pp, double * Kernel)
K<- matrix(rep(0,n*n),nrow = n, ncol = n)
temp<-.C("Kernel_IBS",as.integer(as.vector(t(Z))),as.integer(n), as.integer(p),as.double(as.vector(K)))[[4]]
matrix(temp,nrow=n)
}
call_Kernel_IBS_Weight<-function(Z,n,p,weights){
#Kernel_IBS_Weight(int * Z, int * pn, int * pp, int *UseGivenWeight , double * weight, double * Kernel)
given_weight = 1;
if( is.null(weights)){
weights = rep(0,p);
given_weight = 0;
} else {
# change!!
weights<-weights^2;
}
K<- matrix(rep(0,n*n),nrow = n, ncol = n)
temp<-.C("Kernel_IBS_Weight",as.integer(as.vector(t(Z))),as.integer(n), as.integer(p),as.integer(given_weight),
as.double(weights),as.double(as.vector(K)))[[6]]
matrix(temp,nrow=n)
}
call_Kernel_2wayIX<-function(Z,n,p){
#Kernel_IBS(double * Z, int * pn, int * pp, double * Kernel)
K<- matrix(rep(0,n*n),nrow = n, ncol = n)
temp<-.C("Kernel_2wayIX",as.integer(as.vector(t(Z))),as.integer(n), as.integer(p),as.double(as.vector(K)))[[4]]
matrix(temp,nrow=n)
}
lskmTest.GetKernel = function(Z, kernel, weights,n,m){
if (kernel == "quadratic") {
K = (Z%*%t(Z)+1)**2
}
if (kernel == "IBS") {
K = call_Kernel_IBS(Z,n,m)
}
if (kernel == "IBS.weighted") {
K = call_Kernel_IBS_Weight(Z,n,m,weights)
}
if (kernel == "2wayIX") {
K = call_Kernel_2wayIX(Z,n,m)
}
if (kernel == "IBS.weighted_OLD") {
#K = matrix(nrow = n, ncol = n)
if (is.null(weights)) {
qs = apply(Z, 2, mean)/(2)
weights = 1/sqrt(qs)
} else {
weights<-weights^2
}
K1 = matrix(nrow =n, ncol = n)
for (i in 1:n) {
K1[i,] = apply(abs(t(Z)-Z[i,])*weights,2, sum)
}
K= 1-(K1)/(2*sum(weights))
}
if (kernel == "IBS_OLD") {
K1=matrix(nrow=n,ncol=n)
for (i in 1:n) {
K1[i,] = apply(abs(t(Z)-Z[i,]),2, sum)
}
K = (2*m-K1)/(2*m)
}
if (kernel == "2wayIX_OLD") {
K = 1+Z%*%t(Z)
N1= matrix(nrow = n, ncol = n)
for (i in 1:n){
for (j in i:n){
N1[j,i] = N1[i,j] = K1_Help(Z[i,], Z[j,])
}
}
K = K+N1
}
return(K)
}
#.First.lib <- function(lib, pkg) { library.dynam('SKAT', pkg, lib) }
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