tests/testthat/test-funcRIVER.R
In ipw012/RIVERpkg: R package for RIVER (RNA-Informed Variant Effect on Regulation)
library(RIVER)
context("Basic functions for RIVER")
test_that("Basic functions work as expected", {
## getData
dataInput <- getData(filename=system.file("extdata", "simulation_RIVER.gz",
package = "RIVER"), ZscoreThrd=1.5)
FeatAll <- t(exprs(dataInput)) # all genomic features
OutAll <- as.numeric(unlist(dataInput$Outlier))-1 # all outlier status
expect_equal(inherits(FeatAll,"matrix"),TRUE)
expect_equal(inherits(OutAll,"numeric"),TRUE)
expect_equal(length(unique(OutAll)),2) # either outlier or nonoutlier
# training G data
FeatTrng <- t(exprs(dataInput[,is.na(dataInput$N2pair)]))
# training E data
OutTrng <-
as.numeric(unlist(dataInput$Outlier[is.na(dataInput$N2pair)]))-1
expect_equal(inherits(FeatTrng,"matrix"),TRUE)
expect_equal(inherits(OutTrng,"numeric"),TRUE)
# Test G data
FeatTest <-
t(cbind(exprs(dataInput[,!is.na(dataInput$N2pair)])
[,seq(from=1,to=sum(!is.na(dataInput$N2pair)),by=2)],
exprs(dataInput[,!is.na(dataInput$N2pair)])
[,seq(from=2,to=sum(!is.na(dataInput$N2pair)),by=2)]))
# Test E data (indiv1 and then indiv2 from N2 pairs)
OutTest1 <-
as.numeric(unlist(
c(dataInput$Outlier[!is.na(dataInput$N2pair)]
[seq(from=1,to=sum(!is.na(dataInput$N2pair)),by=2)],
dataInput$Outlier[!is.na(dataInput$N2pair)]
[seq(from=2,to=sum(!is.na(dataInput$N2pair)),by=2)])))-1
# Test E data (indiv2 and then indiv1 from N2 pairs)
OutTest2 <-
as.numeric(unlist(
c(dataInput$Outlier[!is.na(dataInput$N2pair)]
[seq(from=2,to=sum(!is.na(dataInput$N2pair)),by=2)],
dataInput$Outlier[!is.na(dataInput$N2pair)]
[seq(from=1,to=sum(!is.na(dataInput$N2pair)),by=2)])))-1
expect_equal(inherits(FeatTest,"matrix"),TRUE)
expect_identical(
rownames(FeatTest),
c(sampleNames(dataInput[,!is.na(dataInput$N2pair)])
[seq(from=1,to=sum(!is.na(dataInput$N2pair)),by=2)],
sampleNames(dataInput[,!is.na(dataInput$N2pair)])
[seq(from=2,to=sum(!is.na(dataInput$N2pair)),by=2)]))
expect_equal(length(unique(OutTest1)),2)
expect_equal(length(unique(OutTest2)),2)
# N2 pairs should have same genomic features
expect_equivalent(
sum(diag(cor(exprs(dataInput[,!is.na(dataInput$N2pair)])
[,seq(from=1,to=sum(!is.na(dataInput$N2pair)),by=2)],
exprs(dataInput[,!is.na(dataInput$N2pair)])
[,seq(from=2,to=sum(!is.na(dataInput$N2pair)),by=2)]))),
sum(!is.na(dataInput$N2pair))/2)
theta_init <- matrix(c(.99, .01, .3, .7), nrow=2)
costs <- c(100, 10, 1, .1, .01, 1e-3, 1e-4)
## check experimental setup
expect_equal(sum(unique(OutAll)),1)
expect_equal(colSums(theta_init),c(1,1))
logisticAllCV <-
glmnet::cv.glmnet(FeatAll, OutAll, lambda=costs,
family="binomial", alpha=0, nfolds=10)
probFuncRvFeat <-
getFuncRvFeat(FeatAll, logisticAllCV$glmnet.fit,
logisticAllCV$lambda.min)
temp_val <-
predict(logisticAllCV$glmnet.fit, FeatAll,
s=logisticAllCV$lambda.min, type="response")
## getFuncRv_Feat works as expected
expect_is(probFuncRvFeat, "matrix")
expect_equal(dim(probFuncRvFeat)[1], dim(FeatAll)[1])
expect_equal(probFuncRvFeat, temp_val)
posteriors <-
getFuncRvPosteriors(OutAll, probFuncRvFeat, theta=theta_init)
## getFuncRvPosteriors works as expected
expect_is(posteriors, "list")
expect_equal(rowSums(posteriors$posterior), rep(1,dim(FeatAll)[1]))
theta.cur <- mleTheta(OutAll, posteriors$posterior, pseudoc=50)
## mleTheta works as expected
expect_equal(dim(theta_init),dim(theta.cur))
expect_equal(colSums(theta.cur),c(1,1))
logistic.cur <- mleBeta(FeatAll, posteriors$posterior, costs)
## mleBeta works as expected
beta.cur <-
logistic.cur$beta[,which(logistic.cur$lambda == logisticAllCV$lambda.min)]
temp_coeff <-
glmnet::glmnet(FeatAll, posteriors$posterior,
lambda=logisticAllCV$lambda.min,
family="binomial", alpha=0)
expect_true(all.equal(as.vector(beta.cur),
as.vector(temp_coeff$beta), tol=1e-04))
logisticModelAll <-
integratedEM(FeatAll, OutAll, logisticAllCV$lambda.min,
logisticAllCV$glmnet.fit, pseudoc=50, theta_init, costs)
## integratedEM works as expected
expect_is(logisticModelAll, "list")
expect_equal(logisticModelAll$lambda, logisticAllCV$lambda.min)
postprobRIVER <- testPosteriors(FeatAll, OutAll, logisticModelAll)
## testPosteriors works as expected
expect_equal(rowSums(postprobRIVER$posterior),rep(1,dim(FeatAll)[1]))
})
ipw012/RIVERpkg documentation built on March 8, 2020, 7:54 p.m.
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library(RIVER)
context("Basic functions for RIVER")
test_that("Basic functions work as expected", {
## getData
dataInput <- getData(filename=system.file("extdata", "simulation_RIVER.gz",
package = "RIVER"), ZscoreThrd=1.5)
FeatAll <- t(exprs(dataInput)) # all genomic features
OutAll <- as.numeric(unlist(dataInput$Outlier))-1 # all outlier status
expect_equal(inherits(FeatAll,"matrix"),TRUE)
expect_equal(inherits(OutAll,"numeric"),TRUE)
expect_equal(length(unique(OutAll)),2) # either outlier or nonoutlier
# training G data
FeatTrng <- t(exprs(dataInput[,is.na(dataInput$N2pair)]))
# training E data
OutTrng <-
as.numeric(unlist(dataInput$Outlier[is.na(dataInput$N2pair)]))-1
expect_equal(inherits(FeatTrng,"matrix"),TRUE)
expect_equal(inherits(OutTrng,"numeric"),TRUE)
# Test G data
FeatTest <-
t(cbind(exprs(dataInput[,!is.na(dataInput$N2pair)])
[,seq(from=1,to=sum(!is.na(dataInput$N2pair)),by=2)],
exprs(dataInput[,!is.na(dataInput$N2pair)])
[,seq(from=2,to=sum(!is.na(dataInput$N2pair)),by=2)]))
# Test E data (indiv1 and then indiv2 from N2 pairs)
OutTest1 <-
as.numeric(unlist(
c(dataInput$Outlier[!is.na(dataInput$N2pair)]
[seq(from=1,to=sum(!is.na(dataInput$N2pair)),by=2)],
dataInput$Outlier[!is.na(dataInput$N2pair)]
[seq(from=2,to=sum(!is.na(dataInput$N2pair)),by=2)])))-1
# Test E data (indiv2 and then indiv1 from N2 pairs)
OutTest2 <-
as.numeric(unlist(
c(dataInput$Outlier[!is.na(dataInput$N2pair)]
[seq(from=2,to=sum(!is.na(dataInput$N2pair)),by=2)],
dataInput$Outlier[!is.na(dataInput$N2pair)]
[seq(from=1,to=sum(!is.na(dataInput$N2pair)),by=2)])))-1
expect_equal(inherits(FeatTest,"matrix"),TRUE)
expect_identical(
rownames(FeatTest),
c(sampleNames(dataInput[,!is.na(dataInput$N2pair)])
[seq(from=1,to=sum(!is.na(dataInput$N2pair)),by=2)],
sampleNames(dataInput[,!is.na(dataInput$N2pair)])
[seq(from=2,to=sum(!is.na(dataInput$N2pair)),by=2)]))
expect_equal(length(unique(OutTest1)),2)
expect_equal(length(unique(OutTest2)),2)
# N2 pairs should have same genomic features
expect_equivalent(
sum(diag(cor(exprs(dataInput[,!is.na(dataInput$N2pair)])
[,seq(from=1,to=sum(!is.na(dataInput$N2pair)),by=2)],
exprs(dataInput[,!is.na(dataInput$N2pair)])
[,seq(from=2,to=sum(!is.na(dataInput$N2pair)),by=2)]))),
sum(!is.na(dataInput$N2pair))/2)
theta_init <- matrix(c(.99, .01, .3, .7), nrow=2)
costs <- c(100, 10, 1, .1, .01, 1e-3, 1e-4)
## check experimental setup
expect_equal(sum(unique(OutAll)),1)
expect_equal(colSums(theta_init),c(1,1))
logisticAllCV <-
glmnet::cv.glmnet(FeatAll, OutAll, lambda=costs,
family="binomial", alpha=0, nfolds=10)
probFuncRvFeat <-
getFuncRvFeat(FeatAll, logisticAllCV$glmnet.fit,
logisticAllCV$lambda.min)
temp_val <-
predict(logisticAllCV$glmnet.fit, FeatAll,
s=logisticAllCV$lambda.min, type="response")
## getFuncRv_Feat works as expected
expect_is(probFuncRvFeat, "matrix")
expect_equal(dim(probFuncRvFeat)[1], dim(FeatAll)[1])
expect_equal(probFuncRvFeat, temp_val)
posteriors <-
getFuncRvPosteriors(OutAll, probFuncRvFeat, theta=theta_init)
## getFuncRvPosteriors works as expected
expect_is(posteriors, "list")
expect_equal(rowSums(posteriors$posterior), rep(1,dim(FeatAll)[1]))
theta.cur <- mleTheta(OutAll, posteriors$posterior, pseudoc=50)
## mleTheta works as expected
expect_equal(dim(theta_init),dim(theta.cur))
expect_equal(colSums(theta.cur),c(1,1))
logistic.cur <- mleBeta(FeatAll, posteriors$posterior, costs)
## mleBeta works as expected
beta.cur <-
logistic.cur$beta[,which(logistic.cur$lambda == logisticAllCV$lambda.min)]
temp_coeff <-
glmnet::glmnet(FeatAll, posteriors$posterior,
lambda=logisticAllCV$lambda.min,
family="binomial", alpha=0)
expect_true(all.equal(as.vector(beta.cur),
as.vector(temp_coeff$beta), tol=1e-04))
logisticModelAll <-
integratedEM(FeatAll, OutAll, logisticAllCV$lambda.min,
logisticAllCV$glmnet.fit, pseudoc=50, theta_init, costs)
## integratedEM works as expected
expect_is(logisticModelAll, "list")
expect_equal(logisticModelAll$lambda, logisticAllCV$lambda.min)
postprobRIVER <- testPosteriors(FeatAll, OutAll, logisticModelAll)
## testPosteriors works as expected
expect_equal(rowSums(postprobRIVER$posterior),rep(1,dim(FeatAll)[1]))
})
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