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forwardGenomics_fullAnalysis.R
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forwardGenomics_fullAnalysis.R
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# Xavier Prudent, 2015
## Functions for the global analysis (perfect match, GLS)
source(paste(scriptDir, "/forwardGenomics_globalAnalysis.R", sep=""))
## Functions for the local analysis (branch method, the experimental subTree method)
source(paste(scriptDir, "/forwardGenomics_localAnalysis.R", sep=""))
#######################################################
## Loop over the elements
#######################################################
loopElements = function(){
cat(style("\nLoop over the genomic elements...\n",fg="red",font.style=c("bold") ) )
## Loop over the elements
for( elID in in_elements$V1 )
{
## Element ID
elID =as.character( elID )
cat(style( paste("Element", elID, "\n"),fg="blue",font.style="bold" ) )
## Check if there are enough species with data
if( in_analysis == "GLS" || in_analysis == "all" ) if( enoughSpecies( elID ) == FALSE ) next
## Local analysis
if( in_analysis == "branch" || in_analysis == "all" )
{
## Does every leaf have percent id data
anyMissing = missingData( elID )
## If percent id is missing for some branches
if( anyMissing == 2 ) next
if( anyMissing == 1 ){
if( verbose ) cat("Missing data (genome gaps) were found for that element\n")
## Remove branches with missing data from the tree
prunedTree <<- removeBranches()
## Get phenotypes and loss nodes
prunedLosses <<- propagatePheno( prunedTree )
## Fill the corresponding branch catalog
treePreparationOutput = prepareTree( prunedTree, prunedLosses )
prunedvcvClade <<- treePreparationOutput[[1]]
prunedCatalog <<- treePreparationOutput[[2]]
prunedvcvCladeSel <<- treePreparationOutput[[3]]
## Run the tree based analysis
treeBased.res = treeBased_analysis( elID, prunedCatalog, prunedTree, prunedvcvClade, prunedvcvCladeSel )
}
## If no missing data
if( anyMissing == 0 ) treeBased.res = treeBased_analysis( elID, branchCatalog, tree, vcvClade, vcvCladeSel )
## Return false for no data
#if( treeBased.res == FALSE ) next
}
## Global analysis
if( in_analysis == "GLS" || in_analysis == "all" ){
## GLS analysis
GLS_analysis( elID )
## Perfect match analysis
perfectMatch_analysis( elID )
}
## Save the result in a text file
saveResult( elID )
}
}
######################################################
## Are there missing datapoints in the local percent ID values ?
## 0: no missing data
## 1: missing data
## 2: too much missing data
######################################################
missingData = function( elID ){
## Local percentID data for that element
el.branch = subset( in_localPid, id == elID )
## Keep only the leaves
el.branch = subset( el.branch, br %in% tree$tip.label )
## Which leaves don't have data
missingTips <<- tree$tip[ which( ! tree$tip.label %in% el.branch$br ) ]
if( length( missingTips ) == 0 ) return( 0 ) else
{
if( verbose ){
cat("\nNo local percent id found for the following leaves:\n")
print(missingTips)
}
## Number of loss and conserved species missing
nLossMissing = 0
nConsMissing = 0
for( spc in missingTips ){
phenoValue = listPheno$pheno[ listPheno$species == spc ]
if( phenoValue == 0 ) nLossMissing = nLossMissing + 1
if( phenoValue == 1 ) nConsMissing = nConsMissing + 1
}
## At least 2 loss species and 2 conserved species should remain
nLossRemain = nLoss - nLossMissing
nConsRemain = nCons - nConsMissing
if( nLossRemain >= 2 && nConsRemain >= 2 )
return( 1 )
else{
if( verbose ) cat("\nNot enough species left to proceed\n")
return( 2 )
}
}
}
######################################################
## Use tree_doctor from the phast package to remove branches with missing data
######################################################
removeBranches = function(){
## Use tree_doctor to
## (1) remove the leaves with missing data
## (2) update the nodes names accordingly
cmd = "tree_doctor -n -a -p "
for( spc in missingTips ){
if( spc != tail(missingTips,n=1) ) cmd = paste( cmd, spc, ",", sep="" )
else cmd = paste( cmd, spc, sep="" )
}
cmd = paste( cmd, in_tree, sep=" " )
## Command system
prunedTree.newick = system( cmd, intern = TRUE )
## New pruned tree
prunedTree = read.tree( text = prunedTree.newick )
return( prunedTree )
}
######################################################
## Global analysis: are there enough species?
######################################################
enoughSpecies = function( elID ){
## Index of the element
if( (elID %in% rownames(in_globalPid_pheno)) == FALSE ){
cat(" > Not found\n")
return( FALSE )
}
el = which( rownames(in_globalPid_pheno) == elID )
## At least 4 species with not NA pheno or phenotype
remSpecies <<- colnames(in_globalPid_pheno)[which( !is.na(in_globalPid_pheno["pheno",]) & !is.na(in_globalPid_pheno[el,]) )]
if( verbose ) cat(paste("Number of species:", length(remSpecies), "\n"))
if( length(remSpecies) < 2 )
{
cat(paste(" > Only", length(remSpecies), "species left, element skipped\n") )
return( FALSE )
}else
{
## Remove from the tree the species with NA pheno or phenotype
noPercentID = colnames(in_globalPid_pheno)[which( is.na(in_globalPid_pheno["pheno",]) || is.na(in_globalPid_pheno[el,]) )]
finalTree <<- drop.tip( tree, noPercentID )
## (ranked) Dataset with not NA pheno or phenotype
subData <<- as.data.frame( t( in_globalPid_pheno[ c("pheno",elID), which( !is.na(in_globalPid_pheno["pheno",]) & !is.na(in_globalPid_pheno[el,]) )]))
subData[ ,"pheno" ] <<- as.numeric(as.character(subData[ ,"pheno" ]))
subData[ ,elID ] <<- as.numeric(as.character(subData[ ,elID ]))
## (raw) Dataset with not NA pheno or phenotype
subData.raw <<- as.data.frame( t( in_rawGlobalPid_pheno[ c("pheno",elID), which( !is.na(in_rawGlobalPid_pheno["pheno",]) & !is.na(in_rawGlobalPid_pheno[el,]) )]))
subData.raw[ ,"pheno" ] <<- as.numeric(as.character(subData.raw[ ,"pheno" ]))
subData.raw[ ,elID ] <<- as.numeric(as.character(subData.raw[ ,elID ]))
## Add the species as an additional column
subData$species <<- rownames(subData)
row.names(subData) <<- NULL
subData.raw$species <<- rownames(subData.raw)
row.names(subData.raw) <<- NULL
if( verbose ) print(subData.raw)
## At least 1 species in each group (lost/conserved)
grp1 <<- subset(subData.raw, pheno == 1 )
n1.spec <<- nrow( grp1 )
grp0 <<- subset(subData.raw, pheno == 0 )
n0.spec <<- nrow( grp0 )
if( n1.spec == 0 || n0.spec == 0 ){
if( n1.spec == 0 ) cat(" > No species with phenotype 1 left\n", sep="" )
if( n0.spec == 0 ) cat(" > No species with phenotype 0 left\n", sep="" )
return( FALSE )
}
## Does the element have data for all required loss events
nIndepLoss = 0
for( i in unique(branchCatalog$subTree) )
{
if( i < 0 ) next
if( length(which( subset( branchCatalog, subTree == i )$br %in% subData$species )) != 0 ) nIndepLoss = nIndepLoss + 1
else cat(paste(" > Sub loss tree ", i, " missing\n", sep="" ))
}
if( nIndepLoss < indepLoss ) return( FALSE )
}
## If no problem
return(TRUE)
}
######################################################
## Save all the results for that element
######################################################
saveResult = function ( elID ){
## Basic info on the element
if( in_analysis == "GLS" ) basicInfo = c( elID, n0.spec, n1.spec )
if( in_analysis == "branch" ) basicInfo = c( elID, n0.branch, n1.branch )
if( in_analysis == "all" ) basicInfo = c( elID, n0.spec, n1.spec, n0.branch, n1.branch )
## Tree-based method
if( in_analysis == "branch" || in_analysis == "all" ){
if( in_collapseClades != "no" ) Res = c( wPearson, wPearsonPval )
BpB.Res = c( BpB.wPearson, BpB.wPearsonPval )
if( in_collapseClades != "no" ) localRes = c( Res, BpB.Res ) else localRes = c( BpB.Res )
}
## Global method
if( in_analysis == "GLS" || in_analysis == "all" ) globalRes = c( perfectMatch, slopePval )
## Write the result
if( in_analysis == "GLS" ) RES = c( basicInfo, globalRes )
if( in_analysis == "branch" ) RES = c( basicInfo, localRes )
if( in_analysis == "all" ) RES = c( basicInfo, globalRes, localRes )
write( RES, file=as.character(nameOutput), ncolumns=length(RES), append=TRUE )
}