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## Generic code to createAnnObjs for bimaps of NCBIORG packages
## This file will define what it means to be MOUSE_DB or HUMAN_DB etc. as a
## series of functions named like createAnnObjs.MOUSE_DB() etc.
## Start with a huge named list of all the possible mappings.
NCBIORG_DB_SeedGenerator <- function(orgPkg){
NCBIORG_DB_L2Rlink1 <- list(tablename="genes", Lcolname="gene_id", Rcolname="_id")
NCBIORG_DB_AnnDbBimap_seeds <- list(
list(
objName="ACCNUM",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="accessions",
Lcolname="_id",
Rcolname="accession"
)
)
),
list(
objName="ALIAS2EG",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="alias",
Lcolname="_id",
Rcolname="alias_symbol"
)
),
direction=-1L
),
list(
objName="CHR",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="chromosomes",
Lcolname="_id",
Rcolname="chromosome"
)
)
),
list(
objName="ENZYME",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="ec",
Lcolname="_id",
Rcolname="ec_number"
)
)
),
list(
objName="GENENAME",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="gene_info",
Lcolname="_id",
Rcolname="gene_name"
)
)
),
list(
objName="MAP",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="cytogenetic_locations",
Lcolname="_id",
Rcolname="cytogenetic_location"
)
)
),
list(
objName="OMIM",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="omim",
Lcolname="_id",
Rcolname="omim_id"
)
)
),
list(
objName="PATH",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="kegg",
Lcolname="_id",
Rcolname="path_id"
)
)
),
list(
objName="PMID",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="pubmed",
Lcolname="_id",
Rcolname="pubmed_id"
)
)
),
list(
objName="REFSEQ",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="refseq",
Lcolname="_id",
Rcolname="accession"
)
)
),
list(
objName="SYMBOL",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="gene_info",
Lcolname="_id",
Rcolname="symbol"
)
)
),
list(
objName="UNIGENE",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="unigene",
Lcolname="_id",
Rcolname="unigene_id"
)
)
),
list(
objName="CHRLOC",
Class="AnnDbMap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="chromosome_locations",
Lcolname="_id",
tagname=c(Chromosome="{seqname}"),
Rcolname="start_location"
)
),
rightColType="integer"
),
list(
objName="CHRLOCEND",
Class="AnnDbMap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="chromosome_locations",
Lcolname="_id",
tagname=c(Chromosome="{seqname}"),
Rcolname="end_location"
)
),
rightColType="integer"
),
list(
objName="PFAM",
Class="IpiAnnDbMap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="pfam",
Lcolname="_id",
Rcolname="ipi_id",
Rattribnames=c(PfamId="{pfam_id}")
)
)
),
list(
objName="PROSITE",
Class="IpiAnnDbMap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="prosite",
Lcolname="_id",
Rcolname="ipi_id",
Rattribnames=c(PrositeId="{prosite_id}")
)
)
),
list(
objName="ENSEMBL",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="ensembl",
Lcolname="_id",
Rcolname="ensembl_id"
)
)
),
list(
objName="ENSEMBLPROT",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="ensembl_prot",
Lcolname="_id",
Rcolname="prot_id"
)
)
),
list(
objName="ENSEMBLTRANS",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="ensembl_trans",
Lcolname="_id",
Rcolname="trans_id"
)
)
),
list(
objName="UNIPROT",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="uniprot",
Lcolname="_id",
Rcolname="uniprot_id"
)
)
),
list(
objName="UCSCKG",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="ucsc",
Lcolname="_id",
Rcolname="ucsc_id"
)
)
),
list(
objName="FLYBASE",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="flybase",
Lcolname="_id",
Rcolname="flybase_id"
)
)
),
list(
objName="FLYBASECG",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="flybase_cg",
Lcolname="_id",
Rcolname="flybase_cg_id"
)
)
),
list(
objName="FLYBASEPROT",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="flybase_prot",
Lcolname="_id",
Rcolname="prot_id"
)
)
),
list(
objName="MGI",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="mgi",
Lcolname="_id",
Rcolname="mgi_id"
)
)
),
list(
objName="WORMBASE",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="wormbase",
Lcolname="_id",
Rcolname="wormbase_id"
)
)
),
list(
objName="ZFIN",
Class="AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
tablename="zfin",
Lcolname="_id",
Rcolname="zfin_id"
)
)
),
list(
objName="GO",
Class="Go3AnnDbBimap",
L2Rchain=list(
NCBIORG_DB_L2Rlink1,
list(
#tablename="go_term", # no rightmost table for a Go3AnnDbBimap
Lcolname="_id",
tagname=c(Evidence="{evidence}"),
Rcolname="go_id",
Rattribnames=c(Ontology="NULL")
)
),
rightTables=Go3tablenames()
)
)
## return this
NCBIORG_DB_AnnDbBimap_seeds
}
## Then some helper functions to take a list of arguments and convert them into the ann_objs object that is returned by each function
## helper to make MOUSE_DB_AnnDbBimap_seeds from the big list and a list of mappings that are needed
## helper to translate schema to species name
getSpeciesFromSchema <- function(schema){
species <- switch(EXPR = schema,
"ANOPHELES_DB"="Anopheles gambiae",
"ARABIDOPSISCHIP_DB"="Arabidopsis thaliana",
"ARABIDOPSIS_DB"="Arabidopsis thaliana",
"BOVINECHIP_DB"="Bos taurus",
"BOVINE_DB"="Bos taurus",
"CANINECHIP_DB"="Canis familiaris",
"CANINE_DB"="Canis familiaris",
"CHICKENCHIP_DB"="Gallus gallus",
"CHICKEN_DB"="Gallus gallus",
"CHIMP_DB"="Pan troglodytes",
"COELICOLOR_DB"="Streptomyces coelicolor",
"ECOLICHIP_DB"="Escherichia coli",
"ECOLI_DB"="Escherichia coli",
"FLYCHIP_DB"="Drosophila melanogaster",
"FLY_DB"="Drosophila melanogaster",
"GO_DB"=NA,
"HUMANCHIP_DB"="Homo sapiens",
"HUMAN_DB"="Homo sapiens",
"INPARANOID_DB"=NA,
"KEGG_DB"=NA,
"MALARIA_DB"="Plasmodium falciparum",
"MOUSECHIP_DB"="Mus musculus",
"MOUSE_DB"="Mus musculus",
"ORGANISM_DB"=NA,
"PFAM_DB"=NA,
"PIGCHIP_DB"="Sus scrofa",
"PIG_DB"="Sus scrofa",
"RATCHIP_DB"="Rattus norvegicus",
"RAT_DB"="Rattus norvegicus",
"RHESUSCHIP_DB"="Macaca mulatta",
"RHESUS_DB"="Macaca mulatta",
"WORMCHIP_DB"="Caenorhabditis elegans",
"WORM_DB"="Caenorhabditis elegans",
"XENOPUSCHIP_DB"="Xenopus laevis",
"XENOPUS_DB"="Xenopus laevis",
"YEASTCHIP_DB"="Saccharomyces cerevisiae",
"YEAST_DB"="Saccharomyces cerevisiae",
"YEASTNCBI_DB"="Saccharomyces cerevisiae",
"ZEBRAFISHCHIP_DB"="Danio rerio",
"ZEBRAFISH_DB"="Danio rerio")
species
}
## helper to translate schema to assoicated org package
getOrgPkgForSchema <- function(schema){
species <- switch(EXPR = schema,
"ANOPHELESCHIP_DB" = "org.Ag.eg.db",
"ARABIDOPSISCHIP_DB"="org.At.tair",
"BOVINECHIP_DB"="org.Bt.eg",
"CANINECHIP_DB"="org.Cf.eg",
"CHICKENCHIP_DB"="org.Gg.eg",
"CHIMPCHIP_DB" = "org.Pt.eg.db",
"COELICOLORCHIP_DB" = "org.Sco.eg.db",
"ECOLICHIP_DB"="org.EcK12.eg",
"FLYCHIP_DB"="org.Dm.eg",
"HUMANCHIP_DB"="org.Hs.eg",
"MALARIACHIP_DB" = "org.Pf.plasmo.db",
"MOUSECHIP_DB"="org.Mm.eg",
"PIGCHIP_DB"="org.Ss.eg",
"RATCHIP_DB"="org.Rn.eg",
"RHESUSCHIP_DB"="org.Mmu.eg",
"WORMCHIP_DB"="org.Ce.eg",
"XENOPUSCHIP_DB"="org.Xl.eg",
"YEASTCHIP_DB"="org.Sc.sgd",
"ZEBRAFISHCHIP_DB"="org.Dr.eg")
species
}
## helper to filter seeds above based on the schema
filterSeeds <- function(allSeeds, schema, class){
## logic to decide what to leave and what to keep:
## 1st get the schema name
species <- getSpeciesFromSchema(schema)
## then call .definePossibleTables to get detailed schema info.
schemaDet <- .definePossibleTables(class, species)
classNames <- names(schemaDet)
names <- sapply(allSeeds, function(x){x$objName})
## if you are in both lists, then we want you as a seed
idx <- match(classNames,names)
idx <- idx[!is.na(idx)]
seeds <- allSeeds[idx]
names(seeds) <- NULL ## clean out names
## return filtered seeds
seeds
}
.revmapper <-function(name, ann_objs, class){
if(class=="OrgDb"){
name2<- paste0(name,"2EG")
}else if (class=="ChipDb"){
name2<- paste0(name,"2PROBE")
}
ann_objs[[name2]] <- revmap(ann_objs[[name]], objName=name2)
}
## helper to add the revmaps (based on that same list and the maps that are
## sometimes reversed) and also to put things together.
.addRevMapSeeds <- function(ann_objs, class){
## We have a list of things we would like to add revmaps for, but we can
## only do that if they exist.
if(class=="OrgDb"){
revMapables <- c("ACCNUM","ENZYME","MAP","OMIM","PATH","PMID","REFSEQ",
"SYMBOL","UNIGENE","ENSEMBL","ENSEMBLPROT", "ENSEMBLTRANS",
"MGI","FLYBASE","FLYBASECG","FLYBASEPROT","GO")
}else if (class=="ChipDb"){
revMapables <- c("ENZYME","PATH","PMID","ENSEMBL","MGI","FLYBASE",
"FLYBASECG","GO")
}
## now filter so that rMapNames is only the names that we actually have
mapNames <- ls(ann_objs)
idx <- match(revMapables, mapNames)
idx <- idx[!is.na(idx)]
rMapNames <- mapNames[idx]
## then loop through the rMapNames to call revmap and assign values in.
lapply(rMapNames, .revmapper, ann_objs, class)
## After we make our revmaps, we need to do some special work for GO (always)
## BUT the following still has to be customized for either 2EG or 2PROBE...
if(class=="OrgDb"){
map <- ann_objs$GO2EG
map@rightTables <- Go3tablenames(all=TRUE)
map@objName <- "GO2ALLEGS"
ann_objs$GO2ALLEGS <- map
}else if (class=="ChipDb"){
map <- ann_objs$GO2PROBE
map@rightTables <- Go3tablenames(all=TRUE)
map@objName <- "GO2ALLPROBES"
ann_objs$GO2ALLPROBES <- map
}
## return the objects
ann_objs
}
## 1st three arguments for this are all hard coded below for each case
createAnnObjs.NCBI_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema,
class){
checkDBSCHEMA(dbconn, schema)
## AnnDbBimap objects
seed0 <- list(
objTarget=objTarget,
datacache=datacache
)
## Get allSeeds
if(class=="OrgDb"){
allSeeds <- NCBIORG_DB_SeedGenerator()
}else if (class=="ChipDb"){
dbname <- getOrgPkgForSchema(schema)
allSeeds <- NCBICHIP_DB_SeedGenerator(dbname)
}
## filter the seeds to match the schema
seeds <- filterSeeds(allSeeds, schema, class)
## now make the bimaps
ann_objs <- createAnnDbBimaps(seeds, seed0)
## Then add reversemaps
ann_objs <- .addRevMapSeeds(ann_objs, class)
## 2 special maps that are not AnnDbBimap objects (just named integer vectors)
if(class=="OrgDb"){
if(!any(c("ECOLI_DB","XENOPUS_DB","PIG_DB") %in% schema)){ ## CHRLENGTHS exceptions.
ann_objs$CHRLENGTHS <- createCHRLENGTHS(dbconn)
}
}else if (class=="ChipDb"){
attachDBs(dbconn, ann_objs)
if(!any(c("ECOLICHIP_DB","XENOPUSCHIP_DB","PIGCHIP_DB") %in% schema)){ ## more exceptions
ann_objs$CHRLENGTHS <- createCHRLENGTHS(dbconn, dbname="")
}
ann_objs$ORGPKG <- dbname
}
ann_objs$MAPCOUNTS <- createMAPCOUNTS(dbconn, prefix)
## Some pre-caching
Lkeys(ann_objs$GO)
prefixAnnObjNames(ann_objs, prefix)
}
## Then define each function briefly like this:
createAnnObjs.ANOPHELES_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="ANOPHELES_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.BOVINE_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="BOVINE_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.CANINE_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="CANINE_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.CHICKEN_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="CHICKEN_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.CHIMP_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="CHIMP_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.ECOLI_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="ECOLI_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.FLY_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="FLY_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.HUMAN_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="HUMAN_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.MOUSE_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="MOUSE_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.PIG_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="PIG_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.RAT_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="RAT_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.RHESUS_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="RHESUS_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.WORM_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="WORM_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.XENOPUS_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="XENOPUS_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
createAnnObjs.ZEBRAFISH_DB <- function(prefix,
objTarget,
dbconn,
datacache,
schema="ZEBRAFISH_DB",
class="OrgDb"){
createAnnObjs.NCBI_DB(prefix,objTarget,dbconn,datacache,schema,class)
}
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