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R/convertToGeneAnswers.R
In InterMineR: R Interface with InterMine-Powered Databases
Defines functions
convertToGeneAnswers
Documented in
convertToGeneAnswers
#' @export
convertToGeneAnswers = function(
enrichmentResult,
geneInput,
geneInputType,
geneExprProfile,
annLib = "org.Hs.eg.db",
categoryType,
enrichCategoryChildName
){
if(requireNamespace('GeneAnswers')){
# get InterMine instance
im = enrichmentResult[["im"]]
# replace factors with characters
#j = sapply(geneInput, is.factor)
j = vapply(geneInput, is.factor, logical(1))
geneInput[j] = lapply(geneInput[j], as.character)
# check if expression profile exists
if(missing(geneExprProfile)){
geneExprProfile.value = NULL
} else {
geneExprProfile.value = geneExpProfile
}
# check if enrichCategoryChildName exist in widgets
g = as.data.frame(getWidgets(enrichmentResult[["im"]]))
if("enrichIdentifier" %in% colnames(g)){
#ind.widget = which(g$name == enrichmentResult$parameters['widget'])
ind.widget = g$name == enrichmentResult[["parameters"]]['widget']
if(
missing(enrichCategoryChildName) &
is.na(g[ind.widget,"enrichIdentifier"])
){
stop("'enrichIdentifier' from getWidgets function is missing.",
"\n Assign enrichCategoryChildName with the appropriate identifier.")
} else if(missing(enrichCategoryChildName)){
enrichCategoryChildName = paste(
as.character(g[ind.widget, "targets"]),
as.character(g[ind.widget,"enrichIdentifier"]),
sep = "."
)
}
} else if(
!"enrichIdentifier" %in% colnames(g) & missing(enrichCategoryChildName)
){
stop("'enrichIdentifier' from getWidgets function is missing.",
"\n Assign enrichCategoryChildName with the appropriate identifier.")
}
# set query for geneInput using type and categoryType
# (the latter defined by the user)
# set constraints
constraints = setConstraints(
paths = "Gene",
operators = "LOOKUP",
values = list(as.character(geneInput[,1]))
)
# set query
q = setQuery(
select = c(geneInputType,
enrichCategoryChildName),
where = constraints
)
# run query
res = runQuery(
im,
qry = q
)
# construct genesInCategory list
if(!any(enrichmentResult[["data"]]$identifier %in% res[,2])){
stop("enrichmentResult identifiers do not match categoryType child_name!",
"\n Check the available identifiers with getModel(im).")
}
genesInCategory = list(NULL)
for(i in seq(length(enrichmentResult[["data"]]$identifier))){
# iterate through each identifier (category)
id = enrichmentResult[["data"]]$identifier[i]
# index
#ind.identifier = which(res[,2] == id)
ind.identifier = res[,2] == id
# save matching input values
v = as.character(res[ind.identifier,1])
genesInCategory[[i]] = v
}
# delete res
rm(res)
# assign the repective category name to each vector
names(genesInCategory) = enrichmentResult[["data"]]$identifier
# build enrichmentInfo data.frame
percent_in_list = (
as.numeric(enrichmentResult[["data"]]$count)/nrow(geneInput)
)
percent_in_genome = (
as.numeric(enrichmentResult[["data"]]$populationAnnotationCount)/
enrichmentResult[["populationCount"]]
)
p1 = percent_in_list/(1-percent_in_list)
p2 = percent_in_genome/(1-percent_in_genome)
odds_ratio = p1/p2
# get p-values before correction algorithm
#for(p in c("genelist", "ids", "widget", "population",
# "maxp", "correction", "filter")){
# if(p %in% names(enrichmentResult[["parameters"]])){
# assign(p, enrichmentResult[["parameters"]][p])
# } else {
# assign(p, NULL)
# }
#}
#uncorrected_res = doEnrichment(
# im = enrichmentResult[["im"]],
# genelist = genelist,
# ids = ids,
# widget = widget,
# population = population,
# maxp = as.numeric(maxp),
# correction = "None",
# filter = filter
#)
# define list with arguments
args_list = list(im = enrichmentResult[["im"]],
maxp = as.numeric(
enrichmentResult[["parameters"]]["maxp"]
),
correction = "None")
for(p in c("genelist", "ids", "widget", "population", "correction","filter")
){
if(p %in% names(enrichmentResult[["parameters"]])){
args_list[[p]] = enrichmentResult[["parameters"]][p]
}
}
uncorrected_res = do.call(
what = doEnrichment,
args = args_list
)
initial_p_value = c()
#go.test = c()
for(j in seq(nrow(enrichmentResult[["data"]]))){
#ind.GO = which(
#uncorrected_res$data$identifier %in% enrichmentResult$data$identifier[j]
# )
ind.GO = uncorrected_res[["data"]]$identifier %in%
enrichmentResult[["data"]]$identifier[j]
initial_p_value = c(initial_p_value,
uncorrected_res[["data"]]$pValue[ind.GO])
#go.test = c(go.test,
# uncorrected_res$data$identifier[ind.GO])
}
enrichmentInfo = data.frame(
as.numeric(enrichmentResult[["data"]]$count),
percent_in_list,
percent_in_genome,
percent_in_list/percent_in_genome,
odds_ratio,
as.numeric(initial_p_value),
as.numeric(enrichmentResult[["data"]]$pValue),
stringsAsFactors = FALSE
)
names(enrichmentInfo) = c("genes in Category",
"percent in the observed List",
"percent in the genome",
"fold of overrepresents",
"odds ratio",
"p value",
"fdr p value")
rownames(enrichmentInfo) = enrichmentResult$data$identifier
answer = new(
"GeneAnswers",
geneInput = geneInput,
testType = "hyperG",
pvalueT = as.numeric(enrichmentResult[["parameters"]]["maxp"]),
genesInCategory = genesInCategory,
geneExprProfile = geneExprProfile.value,
annLib = annLib,
categoryType = categoryType,
enrichmentInfo = enrichmentInfo)
}
}
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InterMineR documentation built on Nov. 8, 2020, 5:58 p.m.
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Defines functions convertToGeneAnswers
Documented in convertToGeneAnswers
#' @export
convertToGeneAnswers = function(
enrichmentResult,
geneInput,
geneInputType,
geneExprProfile,
annLib = "org.Hs.eg.db",
categoryType,
enrichCategoryChildName
){
if(requireNamespace('GeneAnswers')){
# get InterMine instance
im = enrichmentResult[["im"]]
# replace factors with characters
#j = sapply(geneInput, is.factor)
j = vapply(geneInput, is.factor, logical(1))
geneInput[j] = lapply(geneInput[j], as.character)
# check if expression profile exists
if(missing(geneExprProfile)){
geneExprProfile.value = NULL
} else {
geneExprProfile.value = geneExpProfile
}
# check if enrichCategoryChildName exist in widgets
g = as.data.frame(getWidgets(enrichmentResult[["im"]]))
if("enrichIdentifier" %in% colnames(g)){
#ind.widget = which(g$name == enrichmentResult$parameters['widget'])
ind.widget = g$name == enrichmentResult[["parameters"]]['widget']
if(
missing(enrichCategoryChildName) &
is.na(g[ind.widget,"enrichIdentifier"])
){
stop("'enrichIdentifier' from getWidgets function is missing.",
"\n Assign enrichCategoryChildName with the appropriate identifier.")
} else if(missing(enrichCategoryChildName)){
enrichCategoryChildName = paste(
as.character(g[ind.widget, "targets"]),
as.character(g[ind.widget,"enrichIdentifier"]),
sep = "."
)
}
} else if(
!"enrichIdentifier" %in% colnames(g) & missing(enrichCategoryChildName)
){
stop("'enrichIdentifier' from getWidgets function is missing.",
"\n Assign enrichCategoryChildName with the appropriate identifier.")
}
# set query for geneInput using type and categoryType
# (the latter defined by the user)
# set constraints
constraints = setConstraints(
paths = "Gene",
operators = "LOOKUP",
values = list(as.character(geneInput[,1]))
)
# set query
q = setQuery(
select = c(geneInputType,
enrichCategoryChildName),
where = constraints
)
# run query
res = runQuery(
im,
qry = q
)
# construct genesInCategory list
if(!any(enrichmentResult[["data"]]$identifier %in% res[,2])){
stop("enrichmentResult identifiers do not match categoryType child_name!",
"\n Check the available identifiers with getModel(im).")
}
genesInCategory = list(NULL)
for(i in seq(length(enrichmentResult[["data"]]$identifier))){
# iterate through each identifier (category)
id = enrichmentResult[["data"]]$identifier[i]
# index
#ind.identifier = which(res[,2] == id)
ind.identifier = res[,2] == id
# save matching input values
v = as.character(res[ind.identifier,1])
genesInCategory[[i]] = v
}
# delete res
rm(res)
# assign the repective category name to each vector
names(genesInCategory) = enrichmentResult[["data"]]$identifier
# build enrichmentInfo data.frame
percent_in_list = (
as.numeric(enrichmentResult[["data"]]$count)/nrow(geneInput)
)
percent_in_genome = (
as.numeric(enrichmentResult[["data"]]$populationAnnotationCount)/
enrichmentResult[["populationCount"]]
)
p1 = percent_in_list/(1-percent_in_list)
p2 = percent_in_genome/(1-percent_in_genome)
odds_ratio = p1/p2
# get p-values before correction algorithm
#for(p in c("genelist", "ids", "widget", "population",
# "maxp", "correction", "filter")){
# if(p %in% names(enrichmentResult[["parameters"]])){
# assign(p, enrichmentResult[["parameters"]][p])
# } else {
# assign(p, NULL)
# }
#}
#uncorrected_res = doEnrichment(
# im = enrichmentResult[["im"]],
# genelist = genelist,
# ids = ids,
# widget = widget,
# population = population,
# maxp = as.numeric(maxp),
# correction = "None",
# filter = filter
#)
# define list with arguments
args_list = list(im = enrichmentResult[["im"]],
maxp = as.numeric(
enrichmentResult[["parameters"]]["maxp"]
),
correction = "None")
for(p in c("genelist", "ids", "widget", "population", "correction","filter")
){
if(p %in% names(enrichmentResult[["parameters"]])){
args_list[[p]] = enrichmentResult[["parameters"]][p]
}
}
uncorrected_res = do.call(
what = doEnrichment,
args = args_list
)
initial_p_value = c()
#go.test = c()
for(j in seq(nrow(enrichmentResult[["data"]]))){
#ind.GO = which(
#uncorrected_res$data$identifier %in% enrichmentResult$data$identifier[j]
# )
ind.GO = uncorrected_res[["data"]]$identifier %in%
enrichmentResult[["data"]]$identifier[j]
initial_p_value = c(initial_p_value,
uncorrected_res[["data"]]$pValue[ind.GO])
#go.test = c(go.test,
# uncorrected_res$data$identifier[ind.GO])
}
enrichmentInfo = data.frame(
as.numeric(enrichmentResult[["data"]]$count),
percent_in_list,
percent_in_genome,
percent_in_list/percent_in_genome,
odds_ratio,
as.numeric(initial_p_value),
as.numeric(enrichmentResult[["data"]]$pValue),
stringsAsFactors = FALSE
)
names(enrichmentInfo) = c("genes in Category",
"percent in the observed List",
"percent in the genome",
"fold of overrepresents",
"odds ratio",
"p value",
"fdr p value")
rownames(enrichmentInfo) = enrichmentResult$data$identifier
answer = new(
"GeneAnswers",
geneInput = geneInput,
testType = "hyperG",
pvalueT = as.numeric(enrichmentResult[["parameters"]]["maxp"]),
genesInCategory = genesInCategory,
geneExprProfile = geneExprProfile.value,
annLib = annLib,
categoryType = categoryType,
enrichmentInfo = enrichmentInfo)
}
}
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