Nothing
R/AllClasses.R
In GSEABase: Gene set enrichment data structures and methods
Defines functions
.CollectionClasses
AnnoOrEntrezIdentifier
.IdentifierClasses
Documented in
AnnoOrEntrezIdentifier
## Information; hgu95av2ORGANISM, hgu95av2CHRLENGTHS
##
## Primary identifier: hgu95av2ACCNUM
##
## Gene identifiers: hgu95av2ENTREZID hgu95av2ENZYME hgu95av2GENENAME
## hgu95av2PFAM hgu95av2PROSITE hgu95av2REFSEQ hgu95av2SYMBOL
## hgu95av2UNIGENE
##
## Collections: hgu95av2OMIM hgu95av2PMID hgu95av2GO hgu95av2CHR
## hgu95av2CHRLOC hgu95av2MAP hgu95av2PATH
##
## Reverse maps: hgu95av2ENZYME2PROBE hgu95av2GO2ALLPROBES
## hgu95av2GO2PROBE hgu95av2PATH2PROBE hgu95av2PMID2PROBE
##
## Quality control: hgu95av2QC hgu95av2MAPCOUNTS
## Deprecated: hgu95av2LOCUSID
## GeneIdentifierType
.IdentifierClasses <- function(where) {
setSimpleClass <- function(class, contains) {
classId <- paste(class, "Identifier", sep="")
setClass(classId,
contains = contains,
prototype = prototype(type = mkScalar(class)),
where = where)
}
setClass("GeneIdentifierType",
contains="VIRTUAL",
representation=representation(
type = "character",
annotation = "character"),
prototype=prototype(
type="",
annotation=""),
where=where)
.getters("GeneIdentifierType", c(geneIdType="type"), where=where)
.setters("GeneIdentifierType", "annotation", where=where)
## Straight derivation from GeneIdentifierType
annoIdentifiers <- c("Null", "Enzyme", "Genename", "Refseq",
"Symbol", "Unigene", "Uniprot", "ENSEMBL")
for (class in annoIdentifiers)
setSimpleClass(class, "GeneIdentifierType")
## More complicated derviation from GeneIdentifierType:
setClass("AnnotationIdentifier", # 'annotation' slot
contains = c("GeneIdentifierType"),
prototype = prototype(
type = mkScalar("Annotation")),
where = where)
setClass("EntrezIdentifier", # special 'type'
contains = "GeneIdentifierType",
prototype = prototype(
type = mkScalar("EntrezId")),
where = where)
idTypes <- names(slot(getClass("GeneIdentifierType"), "subclasses"))
.constructors_Simple(idTypes, optional="annotation", where=where)
}
.IdentifierClasses(topenv())
AnnoOrEntrezIdentifier <-
function(annotation, ...)
{
nm <- annPkgName(annotation)
.requireQ(nm)
cls <- tryCatch(class(get(nm)), error=function(...) "unknown")
fun <- switch(cls, ChipDb=AnnotationIdentifier,
OrgDb=EntrezIdentifier,
## default is original behavior
AnnotationIdentifier)
fun(annotation, ...)
}
## Special class of Identifier for GOAllFrames
setClass("GOAllFrameIdentifier",
contains="GeneIdentifierType",
representation=representation(organism="character"),
prototype=prototype(organism=mkScalar("")))
## Special class of Identifier for KEGGFrames
setClass("KEGGFrameIdentifier",
contains="GeneIdentifierType",
representation=representation(organism="character"),
prototype=prototype(organism=mkScalar("")))
## CollectionType
.CollectionClasses <- function(where) {
setSimpleCollection <- function(class, contains) {
classCollection <- paste(class, "Collection", sep="")
setClass(classCollection,
contains = contains,
prototype = prototype(type = mkScalar(class)),
where = where)
}
## simple collections
setClass("CollectionType",
contains = "VIRTUAL",
representation = representation(type = "character"),
prototype=prototype(type = mkScalar("")),
where = where)
simpleCollections <- c("Null", "ExpressionSet", "Computed")
for (class in simpleCollections)
setSimpleCollection(class, "CollectionType")
## collections with ids
setClass("CollectionIdType",
contains=c("CollectionType", "VIRTUAL"),
representation = representation(
ids = "character"),
where = where)
idCollections <- c("KEGG", "OMIM", "PMID", "Chr", "Chrloc",
"Map", "Pfam", "Prosite")
for (class in idCollections)
setSimpleCollection(class, "CollectionIdType")
## other collections
setClass("GOCollection",
contains = "CollectionIdType",
representation=representation(
evidenceCode="character",
ontology="character"),
prototype = prototype(
type = mkScalar("GO"),
evidenceCode = NA_character_,
ontology = NA_character_),
where = where)
setClass("OBOCollection",
contains="GOCollection",
representation=representation(
.stanza="data.frame",
.subset="data.frame",
.kv="data.frame"),
prototype=prototype(
type=mkScalar("OBO"),
.stanza=data.frame(id=character(0),
value=character(0), row.names="id"),
.subset=data.frame(id=character(0),
value=character(0), row.names="id"),
.kv=data.frame(stanza_id=character(0),
key=character(0), value=character(0))
),
where=where)
setClass("BroadCollection",
contains = "CollectionType",
representation = representation(
category = "character",
subCategory = "character"),
prototype = prototype(
type = mkScalar("Broad"),
category = mkScalar("c1"),
subCategory = mkScalar(NA_character_)),
where = where)
## constructors / getters / setters
## (GOCollection and BroadCollection in methods-CollectionType.R)
## (OBOCollection in methods-OBOCollection.R)
simpleCollections <- paste(simpleCollections, "Collection", sep="")
.constructors_Simple(simpleCollections, where=where)
.getters("CollectionType", c(collectionType="type"), where=where)
idCollections <- paste(idCollections, "Collection", sep="")
.constructors_Simple(idCollections, optional="ids", where=where)
.getters("CollectionIdType", c("ids"), where=where)
.setters("CollectionIdType", c("ids"), where=where)
}
.CollectionClasses(topenv())
## GeneSet
setClass("GeneSet",
representation = representation(
## Gene set representation
geneIdType = "GeneIdentifierType",
geneIds = "character",
## Descriptive metadata
setName = "character",
setIdentifier = "character",
shortDescription = "character",
longDescription = "character",
organism = "character",
pubMedIds = "character",
urls = "character",
contributor = "character",
version = "Versions",
creationDate = "character",
collectionType = "CollectionType"),
prototype = prototype(
setName = mkScalar(NA_character_),
setIdentifier = mkScalar(NA_character_),
shortDescription = mkScalar(""),
longDescription = mkScalar(""),
organism = mkScalar(""),
geneIdType = new("NullIdentifier"),
version = new("Versions", "0.0.1"),
collectionType = new("NullCollection")),
validity = function(object) {
if (anyDuplicated(geneIds(object)))
"gene symbols must be unique"
else
TRUE
})
setClass("GeneColorSet",
contains = "GeneSet",
representation = representation(
phenotype = "character",
geneColor = "factor",
phenotypeColor = "factor"),
prototype=prototype(
phenotype=mkScalar("")),
validity = function(object) {
msg <- NULL
clen <- c(length(geneColor(object)),
length(phenotypeColor(object)))
if (any(clen > 0) &
any(clen != length(geneIds(object))))
msg <- c(msg,"gene and color lengths differ")
if (!("factor" %in% class(geneColor(object))) ||
!("factor" %in% class(phenotypeColor(object))))
msg <- c(msg, "gene- and phenotypeColor must be 'factor'")
if (!is.null(msg))
msg
else TRUE
})
## GeneSetCollection
setClass("GeneSetCollection",
contains="list",
validity = function(object) {
msg <- NULL
if (!all(sapply(object, is, "GeneSet")))
msg <- c(msg, "members must all be 'GeneSet' classes")
tryCatch({
if (anyDuplicated(names(object)))
msg <- c(msg, "each setName must be distinct")
}, error=function(err) {
msg <<- c(msg, conditionMessage(err))
})
if (!is.null(msg))
msg
else
TRUE
})
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Defines functions .CollectionClasses AnnoOrEntrezIdentifier .IdentifierClasses
Documented in AnnoOrEntrezIdentifier
## Information; hgu95av2ORGANISM, hgu95av2CHRLENGTHS
##
## Primary identifier: hgu95av2ACCNUM
##
## Gene identifiers: hgu95av2ENTREZID hgu95av2ENZYME hgu95av2GENENAME
## hgu95av2PFAM hgu95av2PROSITE hgu95av2REFSEQ hgu95av2SYMBOL
## hgu95av2UNIGENE
##
## Collections: hgu95av2OMIM hgu95av2PMID hgu95av2GO hgu95av2CHR
## hgu95av2CHRLOC hgu95av2MAP hgu95av2PATH
##
## Reverse maps: hgu95av2ENZYME2PROBE hgu95av2GO2ALLPROBES
## hgu95av2GO2PROBE hgu95av2PATH2PROBE hgu95av2PMID2PROBE
##
## Quality control: hgu95av2QC hgu95av2MAPCOUNTS
## Deprecated: hgu95av2LOCUSID
## GeneIdentifierType
.IdentifierClasses <- function(where) {
setSimpleClass <- function(class, contains) {
classId <- paste(class, "Identifier", sep="")
setClass(classId,
contains = contains,
prototype = prototype(type = mkScalar(class)),
where = where)
}
setClass("GeneIdentifierType",
contains="VIRTUAL",
representation=representation(
type = "character",
annotation = "character"),
prototype=prototype(
type="",
annotation=""),
where=where)
.getters("GeneIdentifierType", c(geneIdType="type"), where=where)
.setters("GeneIdentifierType", "annotation", where=where)
## Straight derivation from GeneIdentifierType
annoIdentifiers <- c("Null", "Enzyme", "Genename", "Refseq",
"Symbol", "Unigene", "Uniprot", "ENSEMBL")
for (class in annoIdentifiers)
setSimpleClass(class, "GeneIdentifierType")
## More complicated derviation from GeneIdentifierType:
setClass("AnnotationIdentifier", # 'annotation' slot
contains = c("GeneIdentifierType"),
prototype = prototype(
type = mkScalar("Annotation")),
where = where)
setClass("EntrezIdentifier", # special 'type'
contains = "GeneIdentifierType",
prototype = prototype(
type = mkScalar("EntrezId")),
where = where)
idTypes <- names(slot(getClass("GeneIdentifierType"), "subclasses"))
.constructors_Simple(idTypes, optional="annotation", where=where)
}
.IdentifierClasses(topenv())
AnnoOrEntrezIdentifier <-
function(annotation, ...)
{
nm <- annPkgName(annotation)
.requireQ(nm)
cls <- tryCatch(class(get(nm)), error=function(...) "unknown")
fun <- switch(cls, ChipDb=AnnotationIdentifier,
OrgDb=EntrezIdentifier,
## default is original behavior
AnnotationIdentifier)
fun(annotation, ...)
}
## Special class of Identifier for GOAllFrames
setClass("GOAllFrameIdentifier",
contains="GeneIdentifierType",
representation=representation(organism="character"),
prototype=prototype(organism=mkScalar("")))
## Special class of Identifier for KEGGFrames
setClass("KEGGFrameIdentifier",
contains="GeneIdentifierType",
representation=representation(organism="character"),
prototype=prototype(organism=mkScalar("")))
## CollectionType
.CollectionClasses <- function(where) {
setSimpleCollection <- function(class, contains) {
classCollection <- paste(class, "Collection", sep="")
setClass(classCollection,
contains = contains,
prototype = prototype(type = mkScalar(class)),
where = where)
}
## simple collections
setClass("CollectionType",
contains = "VIRTUAL",
representation = representation(type = "character"),
prototype=prototype(type = mkScalar("")),
where = where)
simpleCollections <- c("Null", "ExpressionSet", "Computed")
for (class in simpleCollections)
setSimpleCollection(class, "CollectionType")
## collections with ids
setClass("CollectionIdType",
contains=c("CollectionType", "VIRTUAL"),
representation = representation(
ids = "character"),
where = where)
idCollections <- c("KEGG", "OMIM", "PMID", "Chr", "Chrloc",
"Map", "Pfam", "Prosite")
for (class in idCollections)
setSimpleCollection(class, "CollectionIdType")
## other collections
setClass("GOCollection",
contains = "CollectionIdType",
representation=representation(
evidenceCode="character",
ontology="character"),
prototype = prototype(
type = mkScalar("GO"),
evidenceCode = NA_character_,
ontology = NA_character_),
where = where)
setClass("OBOCollection",
contains="GOCollection",
representation=representation(
.stanza="data.frame",
.subset="data.frame",
.kv="data.frame"),
prototype=prototype(
type=mkScalar("OBO"),
.stanza=data.frame(id=character(0),
value=character(0), row.names="id"),
.subset=data.frame(id=character(0),
value=character(0), row.names="id"),
.kv=data.frame(stanza_id=character(0),
key=character(0), value=character(0))
),
where=where)
setClass("BroadCollection",
contains = "CollectionType",
representation = representation(
category = "character",
subCategory = "character"),
prototype = prototype(
type = mkScalar("Broad"),
category = mkScalar("c1"),
subCategory = mkScalar(NA_character_)),
where = where)
## constructors / getters / setters
## (GOCollection and BroadCollection in methods-CollectionType.R)
## (OBOCollection in methods-OBOCollection.R)
simpleCollections <- paste(simpleCollections, "Collection", sep="")
.constructors_Simple(simpleCollections, where=where)
.getters("CollectionType", c(collectionType="type"), where=where)
idCollections <- paste(idCollections, "Collection", sep="")
.constructors_Simple(idCollections, optional="ids", where=where)
.getters("CollectionIdType", c("ids"), where=where)
.setters("CollectionIdType", c("ids"), where=where)
}
.CollectionClasses(topenv())
## GeneSet
setClass("GeneSet",
representation = representation(
## Gene set representation
geneIdType = "GeneIdentifierType",
geneIds = "character",
## Descriptive metadata
setName = "character",
setIdentifier = "character",
shortDescription = "character",
longDescription = "character",
organism = "character",
pubMedIds = "character",
urls = "character",
contributor = "character",
version = "Versions",
creationDate = "character",
collectionType = "CollectionType"),
prototype = prototype(
setName = mkScalar(NA_character_),
setIdentifier = mkScalar(NA_character_),
shortDescription = mkScalar(""),
longDescription = mkScalar(""),
organism = mkScalar(""),
geneIdType = new("NullIdentifier"),
version = new("Versions", "0.0.1"),
collectionType = new("NullCollection")),
validity = function(object) {
if (anyDuplicated(geneIds(object)))
"gene symbols must be unique"
else
TRUE
})
setClass("GeneColorSet",
contains = "GeneSet",
representation = representation(
phenotype = "character",
geneColor = "factor",
phenotypeColor = "factor"),
prototype=prototype(
phenotype=mkScalar("")),
validity = function(object) {
msg <- NULL
clen <- c(length(geneColor(object)),
length(phenotypeColor(object)))
if (any(clen > 0) &
any(clen != length(geneIds(object))))
msg <- c(msg,"gene and color lengths differ")
if (!("factor" %in% class(geneColor(object))) ||
!("factor" %in% class(phenotypeColor(object))))
msg <- c(msg, "gene- and phenotypeColor must be 'factor'")
if (!is.null(msg))
msg
else TRUE
})
## GeneSetCollection
setClass("GeneSetCollection",
contains="list",
validity = function(object) {
msg <- NULL
if (!all(sapply(object, is, "GeneSet")))
msg <- c(msg, "members must all be 'GeneSet' classes")
tryCatch({
if (anyDuplicated(names(object)))
msg <- c(msg, "each setName must be distinct")
}, error=function(err) {
msg <<- c(msg, conditionMessage(err))
})
if (!is.null(msg))
msg
else
TRUE
})
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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