Mercurial > repos > iuc > raceid_inspectclusters
view macros_cheetah.xml @ 5:37a47c4fd84d draft
"planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/raceid3 commit 1ad3837c2251aba8bd997386c3c27f6cd5b1c9e7"
author | iuc |
---|---|
date | Wed, 29 Jan 2020 17:17:19 -0500 |
parents | 20f522154663 |
children | 41f34e925bd5 |
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<macros> <token name="@FILTNORM_CHEETAH@"><![CDATA[ ## Perform do.filter use.filtnormconf = TRUE ## Perform do.cluster, do.outlier, do.clustmap, mkgenelist use.cluster = FALSE in.table = read.table( '${intable}', stringsAsFactors = F, na.strings=c("NA", "-", "?", "."), sep='\t', header=TRUE, row.names=1 ) ## Hidden flag to use test data instead ## see: test-data/use.intestinal use.test.data = (names(in.table)[1] == "test") sc = NULL if (use.test.data) { sc = SCseq(intestinalData) message("Loading test data from library") } else { sc = SCseq(in.table) } filt = formals(filterdata) filt.ccc = formals(CCcorrect) filt.use.ccorrect = FALSE filt.lbatch.regexes = NULL filt.geqone = as.logical( '$filt.hist_geq_one' ) filt\$mintotal = as.integer( '$filt.mintotal' ) filt\$minexpr = as.integer( '$filt.minexpr' ) filt\$minnumber = as.integer( '$filt.minnumber' ) #if str($filt.use.def) == "no": filt\$knn = as.integer( '$filt.use.knn' ) filt\$ccor = as.numeric( '$filt.use.ccor' ) filt\$bmode = as.character( '$filt.use.bmode' ) #if $filt.use.LBatch_regexes: filt.lbatch.regexes = string2textvector( '$filt.use.LBatch_regexes' ) #end if #if $filt.use.CGenes: filt\$CGenes = string2textvector( '$filt.use.CGenes' ) #end if #if $filt.use.FGenes: filt\$FGenes = string2textvector( '$filt.use.FGenes' ) #end if #if str($filt.use.ccc.use) == "yes" filt.use.ccorrect = TRUE #if $filt.use.ccc.vset: filt.ccc\$vset = string2textvector( '$filt.use.ccc.vset' ) #end if #if $filt.use.ccc.ncomp: filt.ccc\$nComp = as.integer( '$filt.use.ccc.ncomp' ) #end if filt.ccc\$pvalue = as.numeric( '$filt.use.ccc.pvalue' ) filt.ccc\$quant = as.numeric( '$filt.use.ccc.quant' ) filt.ccc\$dimR = as.logical( '$filt.use.ccc.dimr' ) filt.ccc\$mode = as.character( '$filt.use.ccc.mode.value' ) filt.ccc\$logscale = as.logical( '$filt.use.ccc.logscale' ) #end if #end if out.pdf = '${outpdf}' out.rdat = '${outrdat}' out.table = '${outtable}' ]]></token> <token name="@CLUSTER_CHEETAH@"><![CDATA[ in.rdat = readRDS('${inputrds}') sc = in.rdat ## Perform do.filter use.filtnormconf = FALSE ## Perform do.cluster, do.outlier, do.clustmap, mkgenelist use.cluster = TRUE clust.compdist = formals(compdist) clust.clustexp = formals(clustexp) clust.compdist\$metric = as.character( '$clust.metric' ) clust.clustexp\$FUNcluster = as.character( '$clust.funcluster' ) #if str($clust.use.def) == "no": clust.compdist\$FSelect = as.logical( '$clust.use.fselect' ) #if $clust.use.knn: clust.compdist\$knn = as.integer( '$clust.use.knn' ) #end if clust.clustexp\$sat = as.logical( '$clust.use.sat' ) #if $clust.use.samp: clust.clustexp\$samp = as.integer( '$clust.use.samp' ) #end if #if $clust.use.cln: clust.clustexp\$cln = as.integer( '$clust.use.cln' ) clust.clustexp\$clustnr = as.integer( '$clust.use.clustnr' ) clust.clustexp\$bootnr = as.integer( '$clust.use.bootnr' ) ##clust.clustexp\$rseed = as.integer( '$clust.use.rseed' ) #end if #end if outlier.use.randomforest = FALSE outlier.findoutliers = formals(findoutliers) outlier.clustheatmap = formals(clustheatmap) outlier.rfcorrect = formals(rfcorrect) outlier.findoutliers\$outminc = as.integer( '$outlier.outminc' ) outlier.findoutliers\$outlg = as.integer( '$outlier.outlg' ) outlier.rfcorrect\$final = as.logical( '$outlier.final' ) #if str($outlier.use.def) == "no": #if $outlier.use.nbtree: outlier.rfcorrect\$nbtree = as.integer( '$outlier.use.nbtree' ) #end if outlier.findoutliers\$probthr = as.numeric( '$outlier.use.probthr' ) outlier.findoutliers\$outdistquant = as.numeric( '$outlier.use.outdistquant' ) ##outlier.rfcorrect\$rfseed = as.integer( '$outlier.use.rfseed' ) outlier.rfcorrect\$nbfactor = as.integer( '$outlier.use.nbfactor' ) #end if cluster.comptsne = formals(comptsne) cluster.compfr = formals(compfr) cluster.comptsne\$perplexity = as.integer( '$tsne.perplexity' ) cluster.compfr\$knn = as.integer( '$tsne.knn' ) #if str($tsne.use.def) == "no": cluster.comptsne\$initial_cmd = as.logical( '$tsne.use.initial_cmd' ) cluster.comptsne\$rseed = as.integer( '$tsne.use.rseed_tsne' ) cluster.compfr\$rseed = as.integer( '$tsne.use.rseed_fr' ) #end if genelist.tablelim = as.integer( '$extra.tablelim' ) genelist.plotlim = as.integer( '$extra.plotlim' ) genelist.foldchange = as.integer( '$extra.foldchange' ) genelist.pvalue = as.numeric( '$extra.pvalue' ) out.pdf = '${outpdf}' out.rdat = '${outrdat}' out.genelist = '${outgenelist}' out.assignments = '${outassignments}' out.log = '${outlog}' ]]> </token> <token name="@INSPECTCLUSTERS_CHEETAH@"><![CDATA[ in.rdat = readRDS('${inputrds}') perform.plotting = FALSE perform.symbolmap = FALSE perform.genesofinterest = FALSE perform.diffgene = FALSE #if str($plotgen.do_opt) == "yes": perform.plotting = TRUE plotting.cln = string2numericvector( '$plotgen.clusts_plot' ) #end if #if str($plotsym.do_opt) == "yes": perform.symbolmap = TRUE plotsym = formals(plotsymbolsmap) plotsym.use.typeremoveregex = NULL plotsym.use.typeremoveregex.subselect = NULL plotsym.use.typeremoveregex = as.character( '$plotsym.types_regex' ) #if str($plotsym.use.def) == "no": plotsym\$fr = as.logical( '$plotsym.use.fr' ) #if $plotsym.use.subset_regex: plotsym.use.typeremoveregex.subselect = as.character( '$plotsym.use.subset_regex' ) #end if #end if #end if #if str($gois.do_opt) == "yes": perform.genesofinterest = TRUE plotexp = formals(plotexpmap) plotmarkg = formals(plotmarkergenes) inspect.goi.use.genes = string2textvector( '$gois.inspect_goi_genes' ) plotexp\$g = inspect.goi.use.genes plotmarkg\$genes = inspect.goi.use.genes #if $gois.inspect_goi_cells: inspect.goi.use.cells = as.character( '$gois.inspect_goi_cells' ) plotexp\$cells = inspect.goi.use.cells plotmarkg\$cells = inspect.goi.use.cells #end if #if str($gois.use.def) == "no": inspect.goi.use.imputed = as.logical( '$gois.use.inspect_goi_imputed' ) plotexp\$imputed = inspect.goi.use.imputed plotmarkg\$imputed = inspect.goi.use.imputed #if $gois.use.plotmarkg_cl plotmarkg\$cl = string2numericvector( '$gois.use.plotmarkg_cl' ) #end if #if $gois.use.plotmarkg_cap plotmarkg\$cap = as.integer( '$gois.use.plotmarkg_cap' ) #end if #if $gois.use.plotmarkg_flo plotmarkg\$flo = as.integer( '$gois.use.plotmarkg_flo' ) #end if #if $gois.use.plotmarkg_samples plotmarkg\$samples = as.character( '$gois.use.plotmarkg_samples' ) #end if #if $gois.use.plotexp_n plotexp\$n = as.character( '$gois.use.plotexp_n' ) #end if plotmarkg\$cthr = as.integer( '$gois.use.plotmarkg_cthr' ) plotmarkg\$order.cells = as.logical( '$gois.use.plotmarkg_order_cells' ) plotmarkg\$aggr = as.logical( '$gois.use.plotmarkg_aggr' ) plotmarkg\$norm = as.logical( '$gois.use.plotmarkg_norm' ) plotmarkg\$cluster_cols = as.logical( '$gois.use.plotmarkg_cluster_cols' ) plotmarkg\$cluster_rows = as.logical( '$gois.use.plotmarkg_cluster_rows' ) plotmarkg\$cluster_set = as.logical( '$gois.use.plotmarkg_cluster_set' ) #end if #end if #if str($diffgtest.do_opt) == "yes": plotdiffg = formals(plotdiffgenesnb) perform.diffgene = TRUE plotdiffg\$Aname = '$diffgtest.set_a.name_set' plotdiffg\$Bname = '$diffgtest.set_b.name_set' gfdat.A.use = list() gfdat.B.use = list() gfdat.A.use\$manual = NULL gfdat.A.use\$regex = NULL gfdat.A.use\$cln = NULL gfdat.B.use\$manual = NULL gfdat.B.use\$regex = NULL gfdat.B.use\$cln = NULL #if str($diffgtest.set_a.meth.type) == "cln": gfdat.A.use\$cln = string2numericvector( '$diffgtest.set_a.meth.selector' ) #else if str($diffgtest.set_a.meth.type) == "regex": gfdat.A.use\$regex = as.character( '$diffgtest.set_a.meth.selector' ) #else if str($diffgtest.set_a.meth.type) == "manual": gfdat.A.use\$manual = string2textvector( '$diffgtest.set_a.meth.selector' ) #end if #if str($diffgtest.set_b.meth.type) == "cln": gfdat.B.use\$cln = string2numericvector( '$diffgtest.set_b.meth.selector' ) #else if str($diffgtest.set_b.meth.type) == "regex": gfdat.B.use\$regex = as.character( '$diffgtest.set_b.meth.selector' ) #else if str($diffgtest.set_b.meth.type) == "manual": gfdat.B.use\$manual = string2textvector( '$diffgtest.set_b.meth.selector' ) #end if #if str($diffgtest.use.def) == "no": plotdiffg\$pthr = as.numeric( '$diffgtest.use.plotdiffg_pthr' ) plotdiffg\$padj = as.logical( '$diffgtest.use.plotdiffg_padj' ) plotdiffg\$lthr = as.integer( '$diffgtest.use.plotdiffg_lthr' ) plotdiffg\$show_names = as.logical( '$diffgtest.use.plotdiffg_show_names' ) #if $diffgtest.use.plotdiffg_mthr plotdiffg\$mthr = as.numeric( '$diffgtest.use.plotdiffg_mthr' ) #end if #end if #end if out.pdf='${outpdf}' ]]></token> <token name="@TRAJECTORY_CHEETAH@"><![CDATA[ in.rdat = readRDS('${inputrds}') pstc.projc = formals(projcells) pstc.projc\$knn = as.integer( '$projcell.knn' ) pstc.projc\$cthr = as.integer( '$projcell.cthr' ) #if str($projcell.use.def) == "no": pstc.projc\$nmode = as.logical( '$projcell.use.nmode' ) pstc.projc\$fr = as.logical( '$projcell.use.fr' ) #end if pstc.projb = formals(projback) pstc.projb\$pdishuf = as.integer( '$projback.pdishuf' ) #if str($projback.use.def) == "no": pstc.projb\$fast = as.logical( '$projback.use.fast' ) pstc.projb\$rseed = as.integer( '$projback.use.rseed' ) #end if pstc.comppval = formals(comppvalue) pstc.comppval\$pthr = as.numeric( '$comppval.pthr' ) pstc.comppval\$sensitive = as.logical( '$comppval.sensitive' ) pstc.plotgraph = formals(plotgraph) pstc.plotgraph\$showCells = as.logical( '$plotgraph.showcells' ) pstc.plotgraph\$scthr = as.numeric( '$plotgraph.scthr' ) #if str($plotgraph.use.def) == "no": pstc.plotgraph\$showTsne = as.logical( '$plotgraph.use.showtsne' ) pstc.plotgraph\$tp = as.numeric( '$plotgraph.use.tp' ) #end if pstc.compscore = formals(compscore) pstc.compscore\$nn = as.integer( '$compscore.nn' ) pstc.compscore\$scthr = as.numeric( '$compscore.scthr' ) out.pdf='${outpdf}' out.rdat='${outrdat}' ]]></token> <token name="@INSPECTTRAJECTORIES_CHEETAH@"><![CDATA[ in.rdat = readRDS('${inputrds}') perform.stemID = FALSE perform.fateID = FALSE perform.fateID.sominspect = FALSE #if str($trjsid.basic.doit) == "yes" perform.stemID = TRUE trjsid.getproj = formals(getproj) trjsid.numdiffgenes = 10 trjsid.getproj\$i = as.integer( '$trjsid.basic.i' ) trjsid.branchcells.ijk = string2numericvector( '$trjsid.basic.br' ) #if str($trjsid.basic.use.def) == "no": trjsid.getproj\$zscore = as.logical( '$trjsid.basic.use.zscore' ) trjsid.numdiffgenes = as.integer( '$trjsid.basic.use.ndiffgenes' ) #end if #end if #if str($trjfid.basic.doit) == "yes": perform.fateID = TRUE trjfid.cellsfrom = formals(cellsfromtree) trjfid.filterset = formals(filterset) trjfid.getsom = formals(getsom) trjfid.procsom = formals(procsom) trjfid.plotheat = list() trjfid.cellsfrom\$z = string2numericvector( '$trjfid.basic.cellsfromz' ) #if str($trjfid.basic.use.def) == "no": trjfid.filterset\$minexpr = as.integer( '$trjfid.basic.use.filterset_minexpr' ) trjfid.filterset\$minnumber = as.integer( '$trjfid.basic.use.filterset_minnumber' ) trjfid.getsom\$nb = as.numeric( '$trjfid.basic.use.getsom_nb' ) trjfid.getsom\$alpha = as.numeric( '$trjfid.basic.use.getsom_alpha' ) trjfid.procsom\$corthr = as.numeric( '$trjfid.basic.use.procsom_corthr' ) trjfid.procsom\$minsom = as.integer( '$trjfid.basic.use.procsom_minsom' ) trjfid.plotheat\$xgrid = as.logical( '$trjfid.basic.use.plotheat_xgrid' ) trjfid.plotheat\$ygrid = as.logical( '$trjfid.basic.use.plotheat_ygrid' ) trjfid.plotheat\$xlab = as.logical( '$trjfid.basic.use.plotheat_xlab' ) #end if #if str($trjfid.basic.som.doit) == "yes": perform.fateID.sominspect = TRUE trjfidsomi = list() #if str($trjfid.basic.som.use_genes.typer) == "genelist": trjfidsomi.use.genes = string2textvector( '$trjfid.basic.som.use_genes.use_genes' ) #else if str($trjfid.basic.som.use_genes.typer) == "cln": trjfidsomi.use.genes = as.integer( '$trjfid.basic.som.use_genes.use_genes' ) #end if trjfidsomi.use.types = '$trjfid.basic.som.use_types' trjfidsomi\$name = '$trjfid.basic.som.title' #if str($trjfid.basic.som.use.def) == "no": trjfidsomi\$cluster = as.logical( '$trjfid.basic.som.use.cluster' ) trjfidsomi\$alpha = as.numeric( '$trjfid.basic.som.use.alpha' ) #end if #end if #end if out.pdf = '${outpdf}' out.diffgenes = '${outdiffgenes}' ]]></token> </macros>