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R/model.R
In RnaSeqSampleSize: RnaSeqSampleSize
Defines functions
generateModel
modelPower
est_power_model
# TODO: Add comment
#
# Author: zhaos
###############################################################################
est_power_model<-function(n, w=1,k=1, rho=2, lambda0=5, phi0=1, beta=0.2, alpha=0.05, error=0.001){
model<-generateModel(lambda0=c(1,5,10),n=n, w=w,k=k, rho=rho, phi0=phi0,showMessage=FALSE,alpha=alpha)
a<-modelPower(model,n=n,w=w,lambda0=lambda0,rho=rho, phi0=phi0)
return(a-(1-beta))
}
modelPower<-function(model, n=10,w=1, rho=2, lambda0=5, phi0=1, error=0.001) {
mu0<-lambda0
mu1<-mu0*(rho*w)
phi1<-phi0
modelX1<-model[1]
modelIntercept1<-model[2]
modelX2<-model[3]
modelIntercept2<-model[4]
a<-0
q0_u<-qnbinom(1-error, size=n/phi0, mu=n*mu0)
q0_l<-qnbinom(error, size=n/phi0, mu=n*mu0)
q1_u<-qnbinom(1-error, size=n/phi1, mu=n*mu1)
q1_l<-qnbinom(error, size=n/phi1, mu=n*mu1)
# dnbinomQ1<-dnbinom(q1_l:q1_u, mu=(n*mu1), size=n/phi_1)
pnbinomQ1<-pnbinom((q1_l-1):q1_u, mu=(n*mu1), size=n/phi1)
dnbinomQ0<-dnbinom(q0_l:q0_u, mu=(n*mu0), size=n/phi0)
# pnbinomQ0<-pnbinom((q0_l-1):q0_u, mu=(n*mu0), size=n/phi_0)
aNRow<-q1_u-q1_l+1
aNCol<-q0_u-q0_l+1
if (!is.na(modelX1)) {
if (modelX1==Inf) {#all elements (including count==1) significant in building model, return power=1
return(1)
}
y<-round(modelX1*(q0_l:q0_u)+modelIntercept1)
y[y<q1_l]<-q1_l
y[y>q1_u]<-aNRow+q1_l-1
i<-1:aNCol
a<-a+sum((pnbinomQ1[aNRow]-pnbinomQ1[(y[i]-q1_l+1)])*dnbinomQ0[i])
}
if (!is.na(modelX2)) {
if (modelX2==Inf) {#all elements (including count==1) significant in building model, return power=1
return(1)
}
y<-round(modelX2*(q0_l:q0_u)+modelIntercept2)
y[y>q1_u]<-q1_u
y[y<q1_l]<-aNRow+q1_l-1
i<-1:aNCol
a<-a+sum((pnbinomQ1[aNRow]-pnbinomQ1[(y[i]-q1_l+1)])*dnbinomQ0[i])
}
return(a)
}
generateModel<-function(lambda0=c(1,5,10,20),n, w=1,k=1, rho=2.0, phi0=1, alpha=0.05, error=0.001,showMessage=FALSE) {
result<-NULL
X1<-NULL
X2<-NULL
Y1<-NULL
Y2<-NULL
minEstimatedPowerWithLambda0=1
for (i in 1:length(lambda0)) {
temp<-est_power_root(n=n, w=w,k=k, rho=rho, lambda0=lambda0[i], phi0=phi0, alpha=alpha, error=error,returnDetail=TRUE)
result[[i]]<-temp[["matrix"]]
X1<-c(X1,temp[["X1"]])
X2<-c(X2,temp[["X2"]])
Y1<-c(Y1,temp[["Y1"]])
Y2<-c(Y2,temp[["Y2"]])
minEstimatedPowerWithLambda0=min(minEstimatedPowerWithLambda0,temp$power)
}
if (showMessage) {
#maxRange<-max(c(X1,X2,Y1,Y2),na.rm=TRUE)
maxRange<-max(as.integer(c(colnames(temp$matrix),row.names(temp$matrix))))
maxRange<-maxRange+maxRange/5
plot(c(0,maxRange),c(0,maxRange),type="l",xlab="q0",ylab="q1",main=paste("n=",n,"; rho=",rho,"; phi=",phi0,sep=""),lty=2)
for (i in 1:length(result)) {
temp1<-range(as.integer(colnames(result[[i]])))[c(1,2,2,1)]
temp2<-range(as.integer(row.names(result[[i]])))[c(2,2,1,1)]
temp3<-which(result[[i]]<=alpha,arr.ind=TRUE)
temp3[,1]<-as.integer(temp3[,2])+as.integer(colnames(result[[i]])[1])
temp3[,2]<-as.integer(row.names(temp3))
points((temp3),pch=16,cex=0.2,col="grey")
polygon(temp1,temp2,border=rainbow(length(result))[i],lwd=2)
}
legend("bottomright",legend=c(paste("Counts=",lambda0,sep="")),lwd=2,col=rainbow(length(result)),bty="n")
}
if (minEstimatedPowerWithLambda0>=0.96) { #all elements in all lambda0 matirx are significant, return Inf so modelPower function will return power=1
modelX1<-Inf
modelIntercept1<-Inf
} else if (length(X1)>3) {
model<-lm(Y1~X1)
modelIntercept1<-model$coefficients[1]
modelX1<-model$coefficients[2]
if (showMessage) {
message("Model1 summary:")
print(summary(model))
abline(modelIntercept1,modelX1,col="red")
}
} else {
modelX1<-NA
modelIntercept1<-NA
}
if (minEstimatedPowerWithLambda0>=0.96) { #all elements in all lambda0 matirx are significant, return Inf so modelPower function will return power=1
modelX2<-Inf
modelIntercept2<-Inf
} else if (length(X2)>3) {
model<-lm(Y2~X2)
modelIntercept2<-model$coefficients[1]
modelX2<-model$coefficients[2]
if (showMessage) {
message("Model2 summary:")
print(summary(model))
abline(modelIntercept2,modelX2,col="green")
}
} else {
modelX2<-NA
modelIntercept2<-NA
}
return(c(modelX1=as.numeric(modelX1),modelIntercept1=as.numeric(modelIntercept1),modelX2=as.numeric(modelX2),modelIntercept2=as.numeric(modelIntercept2)))
}
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RnaSeqSampleSize documentation built on Nov. 8, 2020, 6:54 p.m.
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Defines functions generateModel modelPower est_power_model
# TODO: Add comment
#
# Author: zhaos
###############################################################################
est_power_model<-function(n, w=1,k=1, rho=2, lambda0=5, phi0=1, beta=0.2, alpha=0.05, error=0.001){
model<-generateModel(lambda0=c(1,5,10),n=n, w=w,k=k, rho=rho, phi0=phi0,showMessage=FALSE,alpha=alpha)
a<-modelPower(model,n=n,w=w,lambda0=lambda0,rho=rho, phi0=phi0)
return(a-(1-beta))
}
modelPower<-function(model, n=10,w=1, rho=2, lambda0=5, phi0=1, error=0.001) {
mu0<-lambda0
mu1<-mu0*(rho*w)
phi1<-phi0
modelX1<-model[1]
modelIntercept1<-model[2]
modelX2<-model[3]
modelIntercept2<-model[4]
a<-0
q0_u<-qnbinom(1-error, size=n/phi0, mu=n*mu0)
q0_l<-qnbinom(error, size=n/phi0, mu=n*mu0)
q1_u<-qnbinom(1-error, size=n/phi1, mu=n*mu1)
q1_l<-qnbinom(error, size=n/phi1, mu=n*mu1)
# dnbinomQ1<-dnbinom(q1_l:q1_u, mu=(n*mu1), size=n/phi_1)
pnbinomQ1<-pnbinom((q1_l-1):q1_u, mu=(n*mu1), size=n/phi1)
dnbinomQ0<-dnbinom(q0_l:q0_u, mu=(n*mu0), size=n/phi0)
# pnbinomQ0<-pnbinom((q0_l-1):q0_u, mu=(n*mu0), size=n/phi_0)
aNRow<-q1_u-q1_l+1
aNCol<-q0_u-q0_l+1
if (!is.na(modelX1)) {
if (modelX1==Inf) {#all elements (including count==1) significant in building model, return power=1
return(1)
}
y<-round(modelX1*(q0_l:q0_u)+modelIntercept1)
y[y<q1_l]<-q1_l
y[y>q1_u]<-aNRow+q1_l-1
i<-1:aNCol
a<-a+sum((pnbinomQ1[aNRow]-pnbinomQ1[(y[i]-q1_l+1)])*dnbinomQ0[i])
}
if (!is.na(modelX2)) {
if (modelX2==Inf) {#all elements (including count==1) significant in building model, return power=1
return(1)
}
y<-round(modelX2*(q0_l:q0_u)+modelIntercept2)
y[y>q1_u]<-q1_u
y[y<q1_l]<-aNRow+q1_l-1
i<-1:aNCol
a<-a+sum((pnbinomQ1[aNRow]-pnbinomQ1[(y[i]-q1_l+1)])*dnbinomQ0[i])
}
return(a)
}
generateModel<-function(lambda0=c(1,5,10,20),n, w=1,k=1, rho=2.0, phi0=1, alpha=0.05, error=0.001,showMessage=FALSE) {
result<-NULL
X1<-NULL
X2<-NULL
Y1<-NULL
Y2<-NULL
minEstimatedPowerWithLambda0=1
for (i in 1:length(lambda0)) {
temp<-est_power_root(n=n, w=w,k=k, rho=rho, lambda0=lambda0[i], phi0=phi0, alpha=alpha, error=error,returnDetail=TRUE)
result[[i]]<-temp[["matrix"]]
X1<-c(X1,temp[["X1"]])
X2<-c(X2,temp[["X2"]])
Y1<-c(Y1,temp[["Y1"]])
Y2<-c(Y2,temp[["Y2"]])
minEstimatedPowerWithLambda0=min(minEstimatedPowerWithLambda0,temp$power)
}
if (showMessage) {
#maxRange<-max(c(X1,X2,Y1,Y2),na.rm=TRUE)
maxRange<-max(as.integer(c(colnames(temp$matrix),row.names(temp$matrix))))
maxRange<-maxRange+maxRange/5
plot(c(0,maxRange),c(0,maxRange),type="l",xlab="q0",ylab="q1",main=paste("n=",n,"; rho=",rho,"; phi=",phi0,sep=""),lty=2)
for (i in 1:length(result)) {
temp1<-range(as.integer(colnames(result[[i]])))[c(1,2,2,1)]
temp2<-range(as.integer(row.names(result[[i]])))[c(2,2,1,1)]
temp3<-which(result[[i]]<=alpha,arr.ind=TRUE)
temp3[,1]<-as.integer(temp3[,2])+as.integer(colnames(result[[i]])[1])
temp3[,2]<-as.integer(row.names(temp3))
points((temp3),pch=16,cex=0.2,col="grey")
polygon(temp1,temp2,border=rainbow(length(result))[i],lwd=2)
}
legend("bottomright",legend=c(paste("Counts=",lambda0,sep="")),lwd=2,col=rainbow(length(result)),bty="n")
}
if (minEstimatedPowerWithLambda0>=0.96) { #all elements in all lambda0 matirx are significant, return Inf so modelPower function will return power=1
modelX1<-Inf
modelIntercept1<-Inf
} else if (length(X1)>3) {
model<-lm(Y1~X1)
modelIntercept1<-model$coefficients[1]
modelX1<-model$coefficients[2]
if (showMessage) {
message("Model1 summary:")
print(summary(model))
abline(modelIntercept1,modelX1,col="red")
}
} else {
modelX1<-NA
modelIntercept1<-NA
}
if (minEstimatedPowerWithLambda0>=0.96) { #all elements in all lambda0 matirx are significant, return Inf so modelPower function will return power=1
modelX2<-Inf
modelIntercept2<-Inf
} else if (length(X2)>3) {
model<-lm(Y2~X2)
modelIntercept2<-model$coefficients[1]
modelX2<-model$coefficients[2]
if (showMessage) {
message("Model2 summary:")
print(summary(model))
abline(modelIntercept2,modelX2,col="green")
}
} else {
modelX2<-NA
modelIntercept2<-NA
}
return(c(modelX1=as.numeric(modelX1),modelIntercept1=as.numeric(modelIntercept1),modelX2=as.numeric(modelX2),modelIntercept2=as.numeric(modelIntercept2)))
}
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