## ----include = FALSE---------------------------------------------------------- knitr::opts_chunk$set( collapse = TRUE, comment = "#>" ) ## ----setup, eval=FALSE-------------------------------------------------------- # devtools::install_github("KevinHZhao/TriLLIEM") ## ----load_package------------------------------------------------------------- library(TriLLIEM) ## ----simplesim---------------------------------------------------------------- set.seed(123) # setting random seed for reproducibility matdat <- simulateData( nCases = 1000, maf = 0.3, mtCoef = c(1,1,1), S = c(1, 1.2, 1.2^2) ) ## ----complexsim--------------------------------------------------------------- impdat <- simulateData( nCases = 2000, nControl = 1000, maf = 0.3, S = c(1, 1.2, 1.2^2), V = c(1, 1.5, 1.5^2), mtCoef = c(0.5, 0.5, 0.5), Im = 1.4, propE = 0.3, Einteraction = "Im" ) ## ----simpleres---------------------------------------------------------------- matres <- TriLLIEM( mtmodel = "HWE", effects = c("M"), dat = matdat ) ## ----simpleinterp------------------------------------------------------------- matres |> summary() |> coef() ## ----complexres--------------------------------------------------------------- impres <- TriLLIEM( mtmodel = "MaS", effects = c("M", "Im", "E:Im"), dat = impdat, includeE = TRUE, includeD = TRUE ) impres |> summary() |> coef() ## ----complexres_strat--------------------------------------------------------- impres_strat <- TriLLIEM( mtmodel = "MaS", effects = c("M", "Im", "E:Im"), dat = impdat, includeE = TRUE, Estrat = TRUE, includeD = TRUE ) impres_strat |> summary() |> coef() ## ----model_compare_fit-------------------------------------------------------- model_1 <- TriLLIEM(dat = example_dat4R, effects = c("C", "M")) model_2 <- TriLLIEM(dat = example_dat4R, effects = c("C", "M", "Im")) ## ----model_anova-------------------------------------------------------------- anova(model_1, model_2)