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tests/testthat/test-distance-functions.R
In GSgalgoR: An Evolutionary Framework for the Identification and Study of Prognostic Gene Expression Signatures in Cancer
context("distance-functions")
test_that("pearson distance works", {
set.seed(29042010)
library(breastCancerTRANSBIG)
data(transbig)
Train <- transbig
expression <- Biobase::exprs(Train)
clinical <- Biobase::pData(Train)
OS <- survival::Surv(time = clinical$t.rfs, event = clinical$e.rfs)
expression <- expression[sample(seq_len(nrow(expression)), 100), ]
expression <- t(scale(t(expression)))
output <- GSgalgoR::galgo(generations = 2, population = 3, prob_matrix = expression, OS = OS,
distancetype = "pearson", verbose =1 )
expect_is(output,"galgo.Obj")
})
test_that("spearman distance works", {
set.seed(29042010)
library(breastCancerTRANSBIG)
data(transbig)
Train <- transbig
expression <- Biobase::exprs(Train)
clinical <- Biobase::pData(Train)
OS <- survival::Surv(time = clinical$t.rfs, event = clinical$e.rfs)
expression <- expression[sample(seq_len(nrow(expression)), 100), ]
expression <- t(scale(t(expression)))
output <- GSgalgoR::galgo(generations = 2, population = 3, prob_matrix = expression, OS = OS,
distancetype = "spearman", verbose = 1)
expect_is(output,"galgo.Obj")
})
test_that("euclidean distance works", {
set.seed(29042010)
library(breastCancerTRANSBIG)
data(transbig)
Train <- transbig
expression <- Biobase::exprs(Train)
clinical <- Biobase::pData(Train)
OS <- survival::Surv(time = clinical$t.rfs, event = clinical$e.rfs)
expression <- expression[sample(seq_len(nrow(expression)), 100), ]
expression <- t(scale(t(expression)))
output <- GSgalgoR::galgo(generations = 2, population = 3, prob_matrix = expression, OS = OS,
distancetype = "euclidean", verbose = 1)
expect_is(output,"galgo.Obj")
})
test_that("uncentered distance works", {
set.seed(29042010)
library(breastCancerTRANSBIG)
data(transbig)
Train <- transbig
expression <- Biobase::exprs(Train)
clinical <- Biobase::pData(Train)
OS <- survival::Surv(time = clinical$t.rfs, event = clinical$e.rfs)
# We will use a reduced dataset for the example
expression <- expression[sample(seq_len(nrow(expression)), 100), ]
# Now we scale the expression matrix
expression <- t(scale(t(expression)))
# Run galgo
output <- GSgalgoR::galgo(generations = 2, population = 3, prob_matrix = expression, OS = OS,
distancetype = "uncentered", verbose = 0)
expect_is(output,"galgo.Obj")
})
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GSgalgoR documentation built on Nov. 8, 2020, 6:57 p.m.
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context("distance-functions")
test_that("pearson distance works", {
set.seed(29042010)
library(breastCancerTRANSBIG)
data(transbig)
Train <- transbig
expression <- Biobase::exprs(Train)
clinical <- Biobase::pData(Train)
OS <- survival::Surv(time = clinical$t.rfs, event = clinical$e.rfs)
expression <- expression[sample(seq_len(nrow(expression)), 100), ]
expression <- t(scale(t(expression)))
output <- GSgalgoR::galgo(generations = 2, population = 3, prob_matrix = expression, OS = OS,
distancetype = "pearson", verbose =1 )
expect_is(output,"galgo.Obj")
})
test_that("spearman distance works", {
set.seed(29042010)
library(breastCancerTRANSBIG)
data(transbig)
Train <- transbig
expression <- Biobase::exprs(Train)
clinical <- Biobase::pData(Train)
OS <- survival::Surv(time = clinical$t.rfs, event = clinical$e.rfs)
expression <- expression[sample(seq_len(nrow(expression)), 100), ]
expression <- t(scale(t(expression)))
output <- GSgalgoR::galgo(generations = 2, population = 3, prob_matrix = expression, OS = OS,
distancetype = "spearman", verbose = 1)
expect_is(output,"galgo.Obj")
})
test_that("euclidean distance works", {
set.seed(29042010)
library(breastCancerTRANSBIG)
data(transbig)
Train <- transbig
expression <- Biobase::exprs(Train)
clinical <- Biobase::pData(Train)
OS <- survival::Surv(time = clinical$t.rfs, event = clinical$e.rfs)
expression <- expression[sample(seq_len(nrow(expression)), 100), ]
expression <- t(scale(t(expression)))
output <- GSgalgoR::galgo(generations = 2, population = 3, prob_matrix = expression, OS = OS,
distancetype = "euclidean", verbose = 1)
expect_is(output,"galgo.Obj")
})
test_that("uncentered distance works", {
set.seed(29042010)
library(breastCancerTRANSBIG)
data(transbig)
Train <- transbig
expression <- Biobase::exprs(Train)
clinical <- Biobase::pData(Train)
OS <- survival::Surv(time = clinical$t.rfs, event = clinical$e.rfs)
# We will use a reduced dataset for the example
expression <- expression[sample(seq_len(nrow(expression)), 100), ]
# Now we scale the expression matrix
expression <- t(scale(t(expression)))
# Run galgo
output <- GSgalgoR::galgo(generations = 2, population = 3, prob_matrix = expression, OS = OS,
distancetype = "uncentered", verbose = 0)
expect_is(output,"galgo.Obj")
})
Try the GSgalgoR package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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