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inst/unitTests/test_MetaboSignal.R
In MetaboSignal: MetaboSignal: a network-based approach to overlay and explore metabolic and signaling KEGG pathways
######################### TEST METABOSIGNAL ###################################
library(RUnit)
#### Test MS_keggNetwork ####
### Examples of situations were MS_keggNetwork gives an error
# Attempt to build a MetaboSignal network with pathIDs from different organisms
MS_DifferentOrganism = try (MS_keggNetwork(metabo_paths = "rno00010",
signaling_paths = "hsa04922"),
silent = TRUE)
# Attempt to build a network with non-existent path IDs
MS_IncorrectPath = try (MS_keggNetwork(metabo_paths = "X"), silent = TRUE)
## Tests
test.MS_keggNetwork <- function() {
# Non-existent path ID an error
checkException(MS_DifferentOrganism, silent = TRUE)
# Path IDs from different organisms produces an error
checkException(MS_IncorrectPath, silent = TRUE)
}
test.MS_keggNetwork()
################################################################################
################################################################################
#### Test MS_distances ####
## Examples of distance_matrix generated with MS_distances
# Distance matrix generated using different modes ("SP","all","out")
distances_SP = MS_distances(MetaboSignal_table, organism_code = "rno",
mode = "SP" )
distances_all = MS_distances(MetaboSignal_table, organism_code = "rno",
mode = "all" )
distances_out = MS_distances(MetaboSignal_table, organism_code = "rno",
mode = "out")
# Distance matrix from all genes to one metabolite ("cpd:C00267")
distances_M = MS_distances(MetaboSignal_table, organism_code ="rno",
target_metabolites = "cpd:C00267")
# Distance matrix from all genes to a set of metabolites, including both mapped
#("cpd:C00267") and non-mapped("X") metabolites
distances_IncorrectMetabo = MS_distances(MetaboSignal_table, organism_code = "rno",
target_metabolites = c("cpd:C00267", "X"))
# Attempt to build a distance matrix when none of the target_metabolites can be
#onto the network
distances_IncorrectMetaboAll = try(MS_distances(MetaboSignal_table,organism_code ="rno",
target_metabolites = "X"),
silent = TRUE)
## Tests
test.MS_distances <- function() {
# MS_distances from all genes to all metabolites generates a matrix
checkTrue(is.matrix(distances_SP) & is.matrix (distances_all) & is.matrix
(distances_out))
# MS_distances from all genes to one metabolite generates a matrix
checkTrue(is.matrix(distances_M))
# MS_distances ignores source_nodes or target_metabolites not-mapped
#onto the network
checkTrue(is.matrix(distances_IncorrectMetabo))
checkTrue(identical(distances_M, distances_IncorrectMetabo))
# MS_distances produces an error when none of the source_genes or
#target_metabolites can be mapped onto the network
checkException(distances_IncorrectMetaboAll, silent=TRUE)
}
test.MS_distances()
################################################################################
################################################################################
#### Test MS_shortestPathsNetwork ####
## Examples of subnetworks generated with MS_shortestPathsNetwork
subnet_1st = MS_shortestPathsNetwork (MetaboSignal_table, organism_code = "rno",
source_nodes = c("K04456","K08074"),
target_nodes = c("cpd:C00267"),
type = "first", names = FALSE,
export_cytoscape = FALSE)
subnet_bw = MS_shortestPathsNetwork (MetaboSignal_table, organism_code = "rno",
source_nodes = c("K04456","K08074"),
target_nodes = c("cpd:C00267"),
type = "bw", names = FALSE,
export_cytoscape = FALSE)
subnet_all = MS_shortestPathsNetwork (MetaboSignal_table, organism_code = "rno",
source_nodes = c("K04456","K08074"),
target_nodes = c("cpd:C00267"),
type = "all", names = FALSE,
export_cytoscape = FALSE)
## Tests
test.MS_shortestPathsNetwork <- function() {
# MS_shortestPathsNetwork generates a matrix
checkTrue(is.matrix(subnet_1st) & is.matrix(subnet_bw) & is.matrix(subnet_all))
}
test.MS_shortestPathsNetwork()
################################################################################
################################################################################
#### Test MS_topologyFilter ####
test.MS_topologyFilter <- function() {
# MS_topologyFilter returns a matrix
checkTrue(is.matrix(MS_topologyFilter(MetaboSignal_table, type = "all",
target_node = "cpd:C00267", distance_th = 4,
bw_th = 0.00005)))
}
test.MS_topologyFilter()
################################################################################
################################################################################
#### Test MS_findMappedNodes####
test.MS_findMappedNodes <- function() {
# MS_findMappedNodes returns a list
checkTrue(is.list(MS_findMappedNodes(nodes = c("cpd:C00267","cpd:C00021"),
MetaboSignal_table)))
}
test.MS_findMappedNodes()
################################################################################
################################################################################
#### Test MS_shortestPaths####
test.MS_shortestPaths <- function() {
# MS_shortestPaths returns a vector or a matrix
checkTrue(is.vector(MS_shortestPaths(MetaboSignal_table, source_node = "K13952",
target_node = "cpd:C00469")))
checkTrue(is.matrix(MS_shortestPaths(MetaboSignal_table, source_node = "K13952",
target_node = "cpd:C05125", mode ="SP",
type = "all")))
}
test.MS_shortestPaths()
################################################################################
################################################################################
#### Test MS_NodeBW ####
test.MS_nodeBW <- function() {
# MS_nodeBW returns a vector
checkTrue(is.vector(MS_nodeBW(MetaboSignal_table)))
}
test.MS_nodeBW()
################################################################################
################################################################################
#### Test MS_removeNode ####
test.MS_removeNode <- function() {
# MS_removeNode returns a matrix
checkTrue(is.matrix(MS_removeNode(nodes = "K04465", MetaboSignal_table)))
# MS_removeNode removes the edges containing the undesired node
checkTrue(nrow(MS_removeNode(nodes = "K04465", MetaboSignal_table)) <
nrow (MetaboSignal_table))
}
test.MS_removeNode()
################################################################################
################################################################################
#### Test MS_replaceNode ####
test.MS_replaceNode <- function() {
# MS_RemoveNode returns a matrix
checkTrue(is.matrix(MS_replaceNode(node1 = "cpd:C00267", node2 = "cpd:C00031",
MetaboSignal_table)))
}
test.MS_replaceNode()
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######################### TEST METABOSIGNAL ###################################
library(RUnit)
#### Test MS_keggNetwork ####
### Examples of situations were MS_keggNetwork gives an error
# Attempt to build a MetaboSignal network with pathIDs from different organisms
MS_DifferentOrganism = try (MS_keggNetwork(metabo_paths = "rno00010",
signaling_paths = "hsa04922"),
silent = TRUE)
# Attempt to build a network with non-existent path IDs
MS_IncorrectPath = try (MS_keggNetwork(metabo_paths = "X"), silent = TRUE)
## Tests
test.MS_keggNetwork <- function() {
# Non-existent path ID an error
checkException(MS_DifferentOrganism, silent = TRUE)
# Path IDs from different organisms produces an error
checkException(MS_IncorrectPath, silent = TRUE)
}
test.MS_keggNetwork()
################################################################################
################################################################################
#### Test MS_distances ####
## Examples of distance_matrix generated with MS_distances
# Distance matrix generated using different modes ("SP","all","out")
distances_SP = MS_distances(MetaboSignal_table, organism_code = "rno",
mode = "SP" )
distances_all = MS_distances(MetaboSignal_table, organism_code = "rno",
mode = "all" )
distances_out = MS_distances(MetaboSignal_table, organism_code = "rno",
mode = "out")
# Distance matrix from all genes to one metabolite ("cpd:C00267")
distances_M = MS_distances(MetaboSignal_table, organism_code ="rno",
target_metabolites = "cpd:C00267")
# Distance matrix from all genes to a set of metabolites, including both mapped
#("cpd:C00267") and non-mapped("X") metabolites
distances_IncorrectMetabo = MS_distances(MetaboSignal_table, organism_code = "rno",
target_metabolites = c("cpd:C00267", "X"))
# Attempt to build a distance matrix when none of the target_metabolites can be
#onto the network
distances_IncorrectMetaboAll = try(MS_distances(MetaboSignal_table,organism_code ="rno",
target_metabolites = "X"),
silent = TRUE)
## Tests
test.MS_distances <- function() {
# MS_distances from all genes to all metabolites generates a matrix
checkTrue(is.matrix(distances_SP) & is.matrix (distances_all) & is.matrix
(distances_out))
# MS_distances from all genes to one metabolite generates a matrix
checkTrue(is.matrix(distances_M))
# MS_distances ignores source_nodes or target_metabolites not-mapped
#onto the network
checkTrue(is.matrix(distances_IncorrectMetabo))
checkTrue(identical(distances_M, distances_IncorrectMetabo))
# MS_distances produces an error when none of the source_genes or
#target_metabolites can be mapped onto the network
checkException(distances_IncorrectMetaboAll, silent=TRUE)
}
test.MS_distances()
################################################################################
################################################################################
#### Test MS_shortestPathsNetwork ####
## Examples of subnetworks generated with MS_shortestPathsNetwork
subnet_1st = MS_shortestPathsNetwork (MetaboSignal_table, organism_code = "rno",
source_nodes = c("K04456","K08074"),
target_nodes = c("cpd:C00267"),
type = "first", names = FALSE,
export_cytoscape = FALSE)
subnet_bw = MS_shortestPathsNetwork (MetaboSignal_table, organism_code = "rno",
source_nodes = c("K04456","K08074"),
target_nodes = c("cpd:C00267"),
type = "bw", names = FALSE,
export_cytoscape = FALSE)
subnet_all = MS_shortestPathsNetwork (MetaboSignal_table, organism_code = "rno",
source_nodes = c("K04456","K08074"),
target_nodes = c("cpd:C00267"),
type = "all", names = FALSE,
export_cytoscape = FALSE)
## Tests
test.MS_shortestPathsNetwork <- function() {
# MS_shortestPathsNetwork generates a matrix
checkTrue(is.matrix(subnet_1st) & is.matrix(subnet_bw) & is.matrix(subnet_all))
}
test.MS_shortestPathsNetwork()
################################################################################
################################################################################
#### Test MS_topologyFilter ####
test.MS_topologyFilter <- function() {
# MS_topologyFilter returns a matrix
checkTrue(is.matrix(MS_topologyFilter(MetaboSignal_table, type = "all",
target_node = "cpd:C00267", distance_th = 4,
bw_th = 0.00005)))
}
test.MS_topologyFilter()
################################################################################
################################################################################
#### Test MS_findMappedNodes####
test.MS_findMappedNodes <- function() {
# MS_findMappedNodes returns a list
checkTrue(is.list(MS_findMappedNodes(nodes = c("cpd:C00267","cpd:C00021"),
MetaboSignal_table)))
}
test.MS_findMappedNodes()
################################################################################
################################################################################
#### Test MS_shortestPaths####
test.MS_shortestPaths <- function() {
# MS_shortestPaths returns a vector or a matrix
checkTrue(is.vector(MS_shortestPaths(MetaboSignal_table, source_node = "K13952",
target_node = "cpd:C00469")))
checkTrue(is.matrix(MS_shortestPaths(MetaboSignal_table, source_node = "K13952",
target_node = "cpd:C05125", mode ="SP",
type = "all")))
}
test.MS_shortestPaths()
################################################################################
################################################################################
#### Test MS_NodeBW ####
test.MS_nodeBW <- function() {
# MS_nodeBW returns a vector
checkTrue(is.vector(MS_nodeBW(MetaboSignal_table)))
}
test.MS_nodeBW()
################################################################################
################################################################################
#### Test MS_removeNode ####
test.MS_removeNode <- function() {
# MS_removeNode returns a matrix
checkTrue(is.matrix(MS_removeNode(nodes = "K04465", MetaboSignal_table)))
# MS_removeNode removes the edges containing the undesired node
checkTrue(nrow(MS_removeNode(nodes = "K04465", MetaboSignal_table)) <
nrow (MetaboSignal_table))
}
test.MS_removeNode()
################################################################################
################################################################################
#### Test MS_replaceNode ####
test.MS_replaceNode <- function() {
# MS_RemoveNode returns a matrix
checkTrue(is.matrix(MS_replaceNode(node1 = "cpd:C00267", node2 = "cpd:C00031",
MetaboSignal_table)))
}
test.MS_replaceNode()
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