Nothing
#####################################################################################
#' Plots the CI estimation of the exact method
#' @param n - Number of trials
#' @param x - Number of sucess
#' @param alp - Alpha value (significance level required)
#' @param e - Exact method indicator in [0, 1] {1: Clopper Pearson, 0.5: Mid P}
#' @details Plot of the Confidence interval for exact method
#' @family Base methods of CI estimation given x & n
#' @examples
#' x=5; n=5; alp=0.05;e=0.5
#' PlotciEXx(x,n,alp,e) #Mid-p
#' x=5; n=5; alp=0.05;e=1 #Clopper Pearson
#' PlotciEXx(x,n,alp,e)
#' x=5; n=5; alp=0.05;e=c(0.1,0.5,0.95,1) #Range including Mid-p and Clopper-Pearson
#' PlotciEXx(x,n,alp,e)
#' @export
#10. Plot all methods
PlotciEXx<-function(x,n,alp,e)
{
if (missing(x)) stop("'x' is missing")
if (missing(n)) stop("'n' is missing")
if (missing(alp)) stop("'alpha' is missing")
if (missing(e)) stop("'e' is missing")
if (((class(x) != "integer") & (class(x) != "numeric")) || (x<0) || x>n || length(x)>1) stop("'x' has to be a positive integer between 0 and n")
if ((class(n) != "integer") & (class(n) != "numeric") || length(n) >1|| n<=0 ) stop("'n' has to be greater than 0")
if (alp>1 || alp<0 || length(alp)>1) stop("'alpha' has to be between 0 and 1")
if (e>1 || e<0) stop("'e' has to be between 0 and 1")
if (length(e)>10 ) stop("Plot of only 10 interavals of 'e' is possible")
Abberation=ID=method=Value=LowerLimit=UpperLimit=LowerAbb=UpperAbb=ZWI=NULL
ss1=ciEXx(x,n,alp,e)
id=1:nrow(ss1)
ss= data.frame(ID=id,x=x,LowerLimit=ss1$LEXx,UpperLimit=ss1$UEXx,
LowerAbb=ss1$LABB,UpperAbb=ss1$UABB,ZWI=ss1$ZWI,e=ss1$e)
ss$e = as.factor(ss$e)
ll=subset(ss, LowerAbb=="YES")
ul=subset(ss, UpperAbb=="YES")
zl=subset(ss, ZWI=="YES")
if (nrow(ll)>0) {
ll=ll[,c(1,3)];
ll$Abberation="Lower";
colnames(ll)<-c("ID","Value","Abberation")}
if (nrow(ul)>0){
ul=ul[,c(1,4)]
ul$Abberation="Upper"
colnames(ul)<-c("ID","Value","Abberation")
}
if (nrow(zl)>0){
zl=zl[,c(1,3)]
zl$Abberation="ZWI"
colnames(zl)<-c("ID","Value","Abberation")
}
ldf= rbind(ll,ul,zl)
if(nrow(ldf)>0){
oo= ggplot2::ggplot()+
ggplot2::labs(x = "Lower and Upper limits") +
ggplot2::labs(y = "x values") +
ggplot2::labs(title = "Exact method given x") +
ggplot2::geom_errorbarh(data= ss,
ggplot2::aes(x = UpperLimit,y = ID,
xmin = LowerLimit,
xmax = UpperLimit,
color= e),
size = 0.5)+
ggplot2::geom_point(data=ldf,
ggplot2::aes(x=Value, y=ID,
group = Abberation,shape=Abberation),
size = 4, fill = "red") +
ggplot2::scale_fill_manual(values=c("blue", "cyan4", "red",
"black", "orange","brown","chartreuse4",
"blueviolet" , "deeppink", "darksalmon", "tan1" )) +
ggplot2::scale_colour_manual(values=c("red", "black", "blue", "cyan4", "orange",
"deeppink","chartreuse4",
"blueviolet" , "brown", "darksalmon", "tan1")) +
ggplot2::scale_shape_manual(values=c(21,22,23)) # Change shapes
}
else {
oo= ggplot2::ggplot()+
ggplot2::labs(x = "Lower and Upper limits") +
ggplot2::labs(y = "x values") +
ggplot2::labs(title = "Exact method given x") +
ggplot2::geom_errorbarh(data= ss,
ggplot2::aes(x = UpperLimit,y = ID,
xmin = LowerLimit,
xmax = UpperLimit, color= e),
size = 0.5) +
ggplot2::scale_fill_manual(values=c("blue", "cyan4", "red",
"black", "orange","brown","chartreuse4",
"blueviolet" , "deeppink", "darksalmon", "tan1" )) +
ggplot2::scale_colour_manual(values=c("red", "black", "blue", "cyan4", "orange",
"deeppink","chartreuse4",
"blueviolet" , "brown", "darksalmon", "tan1"))
}
oo
}
#####################################################################################
#' Plots the CI estimation of 6 base methods (Wald, Wald-T, Likelihood, Score, Logit-Wald, ArcSine)
#' @param x - Number of sucess
#' @param n - Number of trials
#' @param alp - Alpha value (significance level required)
#' @details Plots of the Confidence Intervals of 6 base methods (Wald, Wald-T, Likelihood, Score, Logit-Wald, ArcSine) for \code{n} given \code{alp} and \code{x}
#' @family Base methods of CI estimation given x & n
#' @examples
#' x=5; n=5; alp=0.05;
#' PlotciAllx(x,n,alp)
#' @export
#10. Plot all methods
PlotciAllx<-function(x,n,alp)
{
if (missing(x)) stop("'x' is missing")
if (missing(n)) stop("'n' is missing")
if (missing(alp)) stop("'alpha' is missing")
if (((class(x) != "integer") & (class(x) != "numeric")) || (x<0) || x>n || length(x)>1) stop("'x' has to be a positive integer between 0 and n")
if ((class(n) != "integer") & (class(n) != "numeric") || length(n) >1|| n<=0 ) stop("'n' has to be greater than 0")
if (alp>1 || alp<0 || length(alp)>1) stop("'alpha' has to be between 0 and 1")
Abberation=ID=method=Value=LowerLimit=UpperLimit=LowerAbb=UpperAbb=ZWI=NULL
ss1=ciAllx(x,n,alp)
id=1:nrow(ss1)
ss= data.frame(ID=id,ss1)
ll=subset(ss, LowerAbb=="YES")
ul=subset(ss, UpperAbb=="YES")
zl=subset(ss, ZWI=="YES")
if (nrow(ll)>0) {
ll=ll[,c(1,4)];
ll$Abberation="Lower";
colnames(ll)<-c("ID","Value","Abberation")}
if (nrow(ul)>0){
ul=ul[,c(1,5)]
ul$Abberation="Upper"
colnames(ul)<-c("ID","Value","Abberation")
}
if (nrow(zl)>0){
zl=zl[,c(1,4)]
zl$Abberation="ZWI"
colnames(zl)<-c("ID","Value","Abberation")
}
ldf= rbind(ll,ul,zl)
if(nrow(ldf)>0){
oo= ggplot2::ggplot()+
ggplot2::ggtitle("Confidence interval for base methods") +
ggplot2::labs(x = "Lower and Upper limits") +
ggplot2::geom_errorbarh(data= ss,
ggplot2::aes(x = UpperLimit,y = ID,
xmin = LowerLimit,
xmax = UpperLimit,
color= method),
size = 0.5)+
ggplot2::geom_point(data=ldf,
ggplot2::aes(x=Value, y=ID,
group = Abberation,shape=Abberation),
size = 4, fill = "red") +
ggplot2::scale_fill_manual(values=c("blue", "cyan4", "red", "black", "orange","brown")) +
ggplot2::scale_colour_manual(values=c("brown", "black", "blue", "cyan4", "red", "orange")) +
ggplot2::scale_shape_manual(values=c(21,22,23))
}
else {
oo= ggplot2::ggplot()+
ggplot2::ggtitle("Confidence interval for base methods") +
ggplot2::labs(x = "Lower and Upper limits") +
ggplot2::geom_errorbarh(data= ss,
ggplot2::aes(x = UpperLimit,y = ID,
xmin = LowerLimit,
xmax = UpperLimit, color= method),
size = 0.5)
}
oo
}
#############################################
#' Plots the CI estimation of 6 base methods (Wald, Wald-T, Likelihood, Score, Logit-Wald, ArcSine) grouped by x value
#' @param x - Number of sucess
#' @param n - Number of trials
#' @param alp - Alpha value (significance level required)
#' @details Plots of the Confidence Interval of 6 base methods (Wald, Wald-T, Likelihood, Score, Logit-Wald, ArcSine) for \code{n} given \code{alp} and \code{x} grouped by x
#' @family Base methods of CI estimation given x & n
#' @examples
#' x=5; n=5; alp=0.05;
#' PlotciAllxg(x,n,alp)
#' @export
#12.All methods plots with grouping
PlotciAllxg<-function(x,n,alp)
{
if (missing(x)) stop("'x' is missing")
if (missing(n)) stop("'n' is missing")
if (missing(alp)) stop("'alpha' is missing")
if (((class(x) != "integer") & (class(x) != "numeric")) || (x<0) || x>n || length(x)>1) stop("'x' has to be a positive integer between 0 and n")
if ((class(n) != "integer") & (class(n) != "numeric") || length(n) >1|| n<=0 ) stop("'n' has to be greater than 0")
if (alp>1 || alp<0 || length(alp)>1) stop("'alpha' has to be between 0 and 1")
Abberation=ID=method=Value=val1=val2=LowerLimit=UpperLimit=LowerAbb=UpperAbb=ZWI=NULL
ss1=ciAllx(x,n,alp)
nss= ss1[order(ss1$x, (ss1$UpperLimit-ss1$LowerLimit)),]
id=1:nrow(ss1)
ss= data.frame(ID=id,nss)
ll=subset(ss, LowerAbb=="YES")
ul=subset(ss, UpperAbb=="YES")
zl=subset(ss, ZWI=="YES")
if (nrow(ll)>0) {
ll=ll[,c(1,4)];
ll$Abberation="Lower";
colnames(ll)<-c("ID","Value","Abberation")}
if (nrow(ul)>0){
ul=ul[,c(1,5)]
ul$Abberation="Upper"
colnames(ul)<-c("ID","Value","Abberation")
}
if (nrow(zl)>0){
zl=zl[,c(1,4)]
zl$Abberation="ZWI"
colnames(zl)<-c("ID","Value","Abberation")
}
ldf= rbind(ll,ul,zl)
if((max(as.numeric(unique(ss$method)))-nrow(ss))==0){
if(nrow(ldf)>0){
oo= ggplot2::ggplot()+
ggplot2::ggtitle("Confidence interval for Base methods of CI estimation sorted by x") +
ggplot2::labs(x = "Lower and Upper limits") +
ggplot2::geom_errorbarh(data= ss,
ggplot2::aes(x = UpperLimit,y = ID,
xmin = LowerLimit,
xmax = UpperLimit,
color= method),
size = 0.5)+
ggplot2::geom_point(data=ldf,
ggplot2::aes(x=Value, y=ID,
group = Abberation,shape=Abberation),
size = 4, fill = "red") +
ggplot2::scale_fill_manual(values=c("blue", "cyan4", "red", "black", "orange","brown")) +
ggplot2::scale_colour_manual(values=c("brown", "black", "blue", "cyan4", "red", "orange")) +
ggplot2::scale_shape_manual(values=c(21,22,23))
}
else {
oo= ggplot2::ggplot()+
ggplot2::ggtitle("Confidence interval for Base methods of CI estimation sorted by x") +
ggplot2::labs(x = "Lower and Upper limits") +
ggplot2::geom_errorbarh(data= ss,
ggplot2::aes(x = UpperLimit,y = ID,
xmin = LowerLimit,
xmax = UpperLimit, color= method),
size = 0.5)
}
oo
}
else {
ff= data.frame(val1=seq(0.5,max(ss$ID),by=(max(ss$ID)/(max(ss$x)+1))),val2=(0:max(ss$x)))
if(nrow(ldf)>0){
oo= ggplot2::ggplot()+
ggplot2::ggtitle("Confidence interval for Base methods of CI estimation sorted by x") +
ggplot2::labs(x = "Lower and Upper limits") +
ggplot2::geom_errorbarh(data= ss,
ggplot2::aes(x = UpperLimit,y = ID,
xmin = LowerLimit,
xmax = UpperLimit,
color= method),
size = 0.5)+
ggplot2::geom_point(data=ldf,
ggplot2::aes(x=Value, y=ID,
group = Abberation,shape=Abberation),
size = 4, fill = "red") +
ggplot2::scale_fill_manual(values=c("blue", "cyan4", "red", "black", "orange","brown")) +
ggplot2::scale_colour_manual(values=c("brown", "black", "blue", "cyan4", "red", "orange")) +
ggplot2::scale_shape_manual(values=c(21,22,23)) +
ggplot2::geom_hline(ggplot2::aes(yintercept=val1),data=ff) +
ggplot2::geom_text(ggplot2::aes(0,val1,label = paste("x=", sep="", val2),hjust=1.1, vjust = -1), data=ff)
}
else {
oo= ggplot2::ggplot()+
ggplot2::ggtitle("Confidence interval for Base methods of CI estimation sorted by x") +
ggplot2::labs(x = "Lower and Upper limits") +
ggplot2::geom_errorbarh(data= ss,
ggplot2::aes(x = UpperLimit,y = ID,
xmin = LowerLimit,
xmax = UpperLimit, color= method),
size = 0.5) +
ggplot2::geom_hline(ggplot2::aes(yintercept=val1),data=ff) +
ggplot2::geom_text(ggplot2::aes(0,val1,label = paste("x=", sep="", val2),hjust=1.1, vjust = -1), data=ff)
}
oo
}
}
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