#' @title Example 5.2 from Experimental Design and Analysis for Tree Improvement
#' @name Exam5.2
#' @description Exam5.2 presents the height of 37 seedlots from 6 sites.
#'
#' @author
#' \enumerate{
#' \item Muhammad Yaseen (\email{myaseen208@@gmail.com})
#' \item Sami Ullah (\email{samiullahuos@@gmail.com})
#' }
#'
#' @references
#' \enumerate{
#' \item E.R. Williams, C.E. Harwood and A.C. Matheson (2023). \emph{Experimental Design and Analysis for Tree Improvement}.
#' CSIRO Publishing (\href{https://www.publish.csiro.au/book/3145/}{https://www.publish.csiro.au/book/3145/}).
#' }
#'
#' @seealso
#' \code{\link{DataExam5.2}}
#'
#' @importFrom car Anova
#' @import dae
#' @import dplyr
#' @importFrom emmeans emmeans emmip
#' @import ggplot2
#' @importFrom lmerTest lmer
#' @importFrom magrittr %>%
#' @import predictmeans
#' @importFrom stats lm anova model.tables
#' @importFrom supernova supernova
#'
#' @examples
#' library(car)
#' library(dae)
#' library(dplyr)
#' library(emmeans)
#' library(ggplot2)
#' library(lmerTest)
#' library(magrittr)
#' library(predictmeans)
#' library(supernova)
#'
#' data(DataExam5.2)
#'
# # Pg. 75
#' fm5.7 <- lm(formula = Ht ~ Site*SeedLot, data = DataExam5.2)
#'
#' # Pg. 77
#' anova(fm5.7)
#'
#' fm5.9 <- lm(formula = Ht ~ Site*SeedLot, data = DataExam5.2)
#' # Pg. 77
#' anova(fm5.9)
#'
#' ANOVAfm5.9 <- anova(fm5.9)
#'
#' ANOVAfm5.9[4, 1:3] <- c(384, 384*964, 964)
#' ANOVAfm5.9[3, 4] <- ANOVAfm5.9[3, 3]/ANOVAfm5.9[4, 3]
#' ANOVAfm5.9[3, 5] <- pf(
#' q = ANOVAfm5.9[3, 4]
#' , df1 = ANOVAfm5.9[3, 1]
#' , df2 = ANOVAfm5.9[4, 1]
#' , lower.tail = FALSE
#' )
#' # Pg. 77
#' ANOVAfm5.9
#'
#'
#' Tab5.14 <-
#' DataExam5.2 %>%
#' summarise(Mean = mean(Ht, na.rm = TRUE), .by = SeedLot) %>%
#' left_join(
#' DataExam5.2 %>%
#' nest_by(SeedLot) %>%
#' mutate(fm2 = list(lm(Ht ~ SiteMean, data = data))) %>%
#' summarise(Slope = coef(fm2)[2])
#' , by = "SeedLot"
#' )
#'
#' # Pg. 81
#' Tab5.14
#'
#'
#' DevSS2 <-
#' DataExam5.2 %>%
#' nest_by(SeedLot) %>%
#' mutate(fm2 = list(lm(Ht ~ SiteMean, data = data))) %>%
#' summarise(SSE = anova(fm2)[2, 2]) %>%
#' ungroup() %>%
#' summarise(Dev = sum(SSE)) %>%
#' as.numeric()
#'
#'
#' ANOVAfm5.9.1 <-
#' rbind(
#' ANOVAfm5.9[1:3, ]
#' , c(
#' ANOVAfm5.9[2, 1]
#' , ANOVAfm5.9[3, 2] - DevSS2
#' , (ANOVAfm5.9[3, 2] - DevSS2)/ANOVAfm5.9[2, 1]
#' , NA
#' , NA
#' )
#' , c(
#' ANOVAfm5.9[3, 1]-ANOVAfm5.9[2, 1]
#' , DevSS2
#' , DevSS2/(ANOVAfm5.9[3, 1]-ANOVAfm5.9[2, 1])
#' , DevSS2/(ANOVAfm5.9[3, 1]-ANOVAfm5.9[2, 1])/ANOVAfm5.9[4, 3]
#' , pf(
#' q = DevSS2/(ANOVAfm5.9[3, 1]-ANOVAfm5.9[2, 1])/ANOVAfm5.9[4, 3]
#' , df1 = ANOVAfm5.9[3, 1]-ANOVAfm5.9[2, 1]
#' , df2 = ANOVAfm5.9[4, 1]
#' , lower.tail = FALSE
#' )
#' )
#' , ANOVAfm5.9[4, ]
#' )
#' rownames(ANOVAfm5.9.1) <-
#' c("Site", "SeedLot", "Site:SeedLot", " regressions", " deviations", "Residuals")
#' # Pg. 82
#' ANOVAfm5.9.1
#'
#' Code <- c("a","a","a","a","b","b","b","b","c","d","d","d","d","e","f","g",
#' "h","h","i","i","j","k","l","m","n","n","n","o","p","p","q","r",
#' "s","t","t","u","v")
#'
#' Tab5.14$Code <- Code
#'
#' ggplot(data = Tab5.14, mapping = aes(x = Mean, y = Slope))+
#' geom_point(size = 2) +
#' geom_text(aes(label = Code), hjust = -0.5, vjust = -0.5)+
#' theme_bw() +
#' labs(
#' x = "SeedLot Mean"
#' , y = "Regression Coefficient"
#' )
#'
NULL
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