context("basic HMM functions in Diversity Outcross F1 (crossed to a 9th inbred strain)") test_that("DOF1 nalleles works", { expect_equal(nalleles("dof1"), 8) }) test_that("DOF1 check_geno works", { # observed genotypes for(i in 0:5) { # Autosome expect_true(test_check_geno("dof1", i, TRUE, FALSE, FALSE, 8)) # Female X expect_true(test_check_geno("dof1", i, TRUE, TRUE, TRUE, 20)) # Male X expect_true(test_check_geno("dof1", i, TRUE, TRUE, FALSE, 20)) } for(i in c(-1, 6)) { # Autosome expect_false(test_check_geno("dof1", i, TRUE, FALSE, FALSE, 20)) # Female X expect_false(test_check_geno("dof1", i, TRUE, TRUE, TRUE, 20)) # Male X expect_false(test_check_geno("dof1", i, TRUE, TRUE, FALSE, 20)) } # true genotypes, autosome and female X for(i in 1:8) { # Autosome expect_true(test_check_geno("dof1", i, FALSE, FALSE, FALSE, 20)) # Female X expect_true(test_check_geno("dof1", i, FALSE, TRUE, TRUE, 20)) } for(i in c(0, 9)) { # Autosome expect_false(test_check_geno("dof1", i, FALSE, FALSE, FALSE, 20)) # Female X expect_false(test_check_geno("dof1", i, FALSE, TRUE, TRUE, 20)) } # true genotypes, male X for(i in c(0, 9:18)) { expect_false(test_check_geno("dof1", i, FALSE, TRUE, FALSE, 20)) } for(i in c(1:8)) { expect_true(test_check_geno("dof1", i, FALSE, TRUE, FALSE, 20)) } }) test_that("DOF1 n_gen works", { expect_equal(test_ngen("dof1", FALSE), 8) expect_equal(test_ngen("dof1", TRUE), 8) }) test_that("DOF1 possible_gen works", { # autosome expect_equal(test_possible_gen("dof1", FALSE, FALSE, 20), 1:8) # X female expect_equal(test_possible_gen("dof1", TRUE, TRUE, 20), 1:8) # X male expect_equal(test_possible_gen("dof1", TRUE, FALSE, 20), 1:8) }) test_that("DOF1 init works", { hom <- 1:8 male <- 8 + (1:8) for(i in hom) { # autosome and female X expect_equal(test_init("dof1", i, FALSE, FALSE, 20), log(1/8)) expect_equal(test_init("dof1", i, TRUE, TRUE, 20), log(1/8)) } for(i in male) expect_equal(test_init("dof1", i, TRUE, FALSE, 20), log(1/8)) }) test_that("DOF1 emit works", { fgen <- c(1,3,0,1,3,0,1,3,1) # founder genotypes; 0=missing, 1=AA, 3=BB err <- 0.01 expected <- log(c(1-err, err/2, err/2, 1-err/2, err)) for(trueg in c(1,4,7)) { # A, D, G for(obsg in 1:5) { expect_equal(test_emit("dof1", obsg, trueg, err, fgen, FALSE, FALSE, 20), expected[obsg]) expect_equal(test_emit("dof1", obsg, trueg, err, fgen, TRUE, TRUE, 20), expected[obsg]) expect_equal(test_emit("dof1", obsg, trueg, err, fgen, TRUE, FALSE, 20), expected[obsg]) } } expected <- log(c(err/2, 1-err, err/2, 1-err/2, 1-err/2)) expected_male <- log(c(err/2, err/2, 1-err, err, 1-err/2)) for(trueg in c(2,5,8)) { # B, E, H for(obsg in 1:5) { expect_equal(test_emit("dof1", obsg, trueg, err, fgen, FALSE, FALSE, 20), expected[obsg]) expect_equal(test_emit("dof1", obsg, trueg, err, fgen, TRUE, TRUE, 20), expected[obsg]) expect_equal(test_emit("dof1", obsg, trueg, err, fgen, TRUE, FALSE, 20), expected_male[obsg]) } } expected <- log(c(1-err, 1, err, 1-err, err)) expected_male <- log(c(1, 1, 1, 1, 1)) for(trueg in c(3,6)) { for(obsg in 1:5) { expect_equal(test_emit("dof1", obsg, trueg, err, fgen, FALSE, FALSE, 20), expected[obsg]) expect_equal(test_emit("dof1", obsg, trueg, err, fgen, TRUE, TRUE, 20), expected[obsg]) expect_equal(test_emit("dof1", obsg, trueg, err, fgen, TRUE, FALSE, 20), expected_male[obsg]) } } }) test_that("DOF1 step works", { ng <- 8 trmat <- matrix(nrow=ng, ncol=ng) # autosome for(rf in c(0.01, 0.001, 0.0001)) { for(ngen in c(6, 12, 50)) { for(gl in 1:ng) for(gr in 1:ng) trmat[gl,gr] <- test_step("dof1", gl, gr, rf, FALSE, FALSE, ngen) # no missing values expect_true(all(!is.na(trmat))) # all in (-Inf, 0] expect_true(all(trmat > -Inf & trmat <= 0)) # rows sum to 1 expect_equal( rowSums(exp(trmat)), rep(1, ng)) # maximum value on the diagonal expect_equal( apply(trmat, 1, which.max), 1:ng) } } # female X for(rf in c(0.01, 0.001, 0.0001)) { for(ngen in c(6, 12, 50)) { for(gl in 1:ng) for(gr in 1:ng) trmat[gl,gr] <- test_step("dof1", gl, gr, rf, TRUE, TRUE, ngen) # no missing values expect_true(all(!is.na(trmat))) # all in (-Inf, 0] expect_true(all(trmat > -Inf & trmat <= 0)) # rows sum to 1 expect_equal( rowSums(exp(trmat)), rep(1, ng)) # maximum value on the diagonal expect_equal( apply(trmat, 1, which.max), 1:ng) } } # male X ng <- 8 trmat <- matrix(nrow=ng, ncol=ng) for(rf in c(0.01, 0.001, 0.0001)) { for(ngen in c(6, 12, 50)) { for(gl in 1:ng) for(gr in 1:ng) trmat[gl,gr] <- test_step("dof1", 8+gl, 8+gr, rf, TRUE, FALSE, ngen) # no missing values expect_true(all(!is.na(trmat))) # all in (-Inf, 0] expect_true(all(trmat > -Inf & trmat <= 0)) # rows sum to 1 expect_equal( rowSums(exp(trmat)), rep(1, ng)) # maximum value on the diagonal expect_equal( apply(trmat, 1, which.max), 1:ng) } } }) test_that("geno_names works", { auto <- LETTERS[1:8] expect_equal(geno_names("dof1", LETTERS[1:8], FALSE), auto) expect_equal(geno_names("dof1", LETTERS[1:8], TRUE), auto) })