## ----include = FALSE---------------------------------------------------------- knitr::opts_chunk$set( collapse = TRUE, comment = "#>" ) ## ----setup-------------------------------------------------------------------- library(gpyramid) library(ape) library(dplyr) ## ----------------------------------------------------------------------------- line_df <- data.frame(line = c("x1", "x2", "x3", "x4"), gene1 = c("A", "B", "B", "B"), gene2 = c("B", "A", "B", "B"), gene3 = c("B", "B", "A", "B"), gene4 = c("B", "B", "B", "A")) line_df ## ----------------------------------------------------------------------------- position_df <- data.frame(Gene = c("g1", "g2", "g3", "g4"), Chr = c("1A", "1A", "1A", "1A"), cM = c(0, 20, 40, 60)) position_df ## ----------------------------------------------------------------------------- gene_dat <- util_haplo(line_df, target = "A", non_target = "B", hetero = "H", line_cul = "line") gene_df1 <- gene_dat[[1]] gene_df2 <- gene_dat[[2]] line_id <- gene_dat[[3]] colnames(gene_df1) <- line_id colnames(gene_df2) <- line_id gene_df1 gene_df2 ## ----------------------------------------------------------------------------- recom_mat <- util_recom_mat(position_df, "cM") recom_mat ## ----------------------------------------------------------------------------- line_comb_lis <- findPset(gene_df1, gene_df2, line_id) line_comb_lis ## ----------------------------------------------------------------------------- rslt <- calcCostAll(line_comb_lis, gene_df1, gene_df2, recom_mat, prob_total = 0.99, last_cross = T, last_selfing = T) rslt$cost_all ## ----fig.width=4, fig.height=4------------------------------------------------ rslt_one <- getFromAll(rslt, cross_id = 15) summary(rslt_one) plot(rslt_one$topolo) nodelabels() ## ----fig.width=4, fig.height=4------------------------------------------------ rslt_one <- getFromAll(rslt, cross_id = 6) summary(rslt_one) plot(rslt_one$topolo) nodelabels() ## ----fig.width=4, fig.height=4------------------------------------------------ rslt_one <- getFromAll(rslt, cross_id = 13) summary(rslt_one) plot(rslt_one$topolo) nodelabels()