Mercurial > repos > iuc > raceid_clustering
view macros_inspectclusters.xml @ 0:4ea021bd7513 draft
planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/raceid3 commit f880060c478d42202df5b78a81329f8af56b1138
| author | iuc |
|---|---|
| date | Thu, 22 Nov 2018 04:43:57 -0500 |
| parents | |
| children |
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<macros> <macro name="inspectclusters_inputs" > <param name="inputrds" type="data" format="rdata" label="Input RaceID RDS" help="Requires the RDS output from the cluster analysis" /> <conditional name="plotgen"> <param name="do_opt" type="select" label="Plot All Clusters?" help="Generates tSNE and F-R plots" > <option value="yes" selected="true" >Yes</option> <option value="no" >No</option> </param> <when value="no" /> <when value="yes" /> </conditional> <conditional name="plotsym" > <param name="do_opt" type="select" label="Perform Subset Analysis?" > <expand macro="yesno_checkedno" /> </param> <when value="no" /> <when value="yes"> <param name="types_regex" type="text" optional="true" label="Types Regex (removal)" help="Regular expression to be used to remove portions of the cell names, in order to indicate cell type. e.g. if your cells are labelled as 'cdk5_1, cdk5_2, glow_1, glow_2', then a regex of '_\\d$' would trim off the ends and set the cell types to 'cdk5, cdk5, glow, glow'. " > <expand macro="sanitize_regex" /> </param> <expand macro="use_defaults_no" > <param name="subset_regex" type="text" optional="true" label="Subset of Types: Regex (select)" help="Regular expression to be used to select for cell types of interest. e.g. if we are only interested in 'cdk5' positive cells, then we would simply put 'cdk5' here. "> <expand macro="sanitize_regex" /> </param> <param name="fr" type="boolean" checked="false" label="Output FR map instead of tSNE" help="Performs a Fruchterman-Rheingold projection instead of tSNE" /> </expand> </when> </conditional> <conditional name="gois" > <param name="do_opt" type="select" label="Examine Genes of Interest" > <expand macro="yesno_checkedno" /> </param> <when value="no" /> <when value="yes"> <param name="inspect_goi_genes" type="text" value="" label="Genes to Examine" > <expand macro="sanitize_string_vector" /> </param> <param name="inspect_goi_cells" type="text" optional="true" label="Cells to Examine" help="Leave blank to examine all" ><!-- "":NULL --> <expand macro="sanitize_string_vector" /> </param> <expand macro="use_defaults_no" > <!-- Yes, examine genes of interest, but no do not use defaults... --> <param name="inspect_goi_imputed" type="boolean" checked="false" label="Impute Genes" help="Only works if k-nearest neighbours was used in the clustering" /> <param name="plotexp_n" type="text" optional="true" label="Title of plot" help="If blank, the list of genes are used" > <expand macro="sanitize_title" /> </param> <param name="plotmarkg_cthr" type="integer" min="0" value="0" label="Cluster Threshold" help="Include only clusters with cells greater than this" /> <param name="plotmarkg_cl" type="text" optional="true" label="Cluster List" help="List of cluster numbers to include. Leave blank to include all" > <expand macro="sanitize_numeric_vector" /> </param><!-- "":NULL --> <param name="plotmarkg_order_cells" type="boolean" checked="false" label="Order Cells" help="Order heatmap by cell names, not by cluster" /> <param name="plotmarkg_aggr" type="boolean" checked="false" label="Average Expression" help="Show only average expression for each cluster" /> <param name="plotmarkg_norm" type="boolean" checked="false" label="Normalise Gene Expression " help="Normalise gene expression to 1 to depict genes on the same scale" /> <param name="plotmarkg_flo" type="integer" max="-5" optional="true" label="Lower-bound for Gene Expression" /><!-- negative or null vals only for this seem to work--> <param name="plotmarkg_cap" type="integer" min="1" optional="true" label="Upper-bound for Gene Expression" /> <param name="plotmarkg_samples" type="text" optional="true" label="Regex to Select Sample Names For Each cell" > <expand macro="sanitize_regex" /> </param> <param name="plotmarkg_cluster_cols" type="boolean" checked="false" label="Cluster columns" /> <param name="plotmarkg_cluster_rows" type="boolean" checked="true" label="Cluster rows" /> <param name="plotmarkg_cluster_set" type="boolean" checked="false" label="Order Clusters by Heirarchal Clustering of Cluster Medoids." /> </expand> </when> </conditional> <conditional name="diffgtest" > <param name="do_opt" type="select" label="Differential Gene Testing" > <expand macro="yesno_checkedno" /> </param> <when value="no" /> <when value="yes" > <expand macro="select_cells" sectionname="set_a" sectiontitle="Cells in Set A" /> <expand macro="select_cells" sectionname="set_b" sectiontitle="Cells in Set B" /> <expand macro="use_defaults_no" > <param name="plotdiffg_pthr" type="float" min="0" max="1" value="0.05" label="P-value cutoff" help="Cutoff for displaying differentially expressed genes" /> <param name="plotdiffg_padj" type="boolean" checked="true" label="Apply B-H Correction" help="Display genes with a Benjamini-Hochberg corrected false discovery rate lower than the above P-value threshold" /> <param name="plotdiffg_lthr" type="float" min="0" value="0" label="Log2-Fold Threshold" help="Differentially expressed genes are displayed only for log2 fold-changes higher than this" /> <param name="plotdiffg_mthr" type="float" optional="true" label="Log2 Mean Threshold" help="Differentially expressed genes are displayed only for log2 mean expression greater than this" /><!-- opt:-Inf --> <param name="plotdiffg_show_names" type="boolean" checked="false" label="Display Gene Names" /> </expand> </when> </conditional> </macro> <macro name="inspectclusters_tests" > <test><!-- general plots, plotgen --> <param name="inputrds" value="out_cluster_default.rdat" /> <conditional name="plotgen" > <param name="do_opt" value="yes" /> </conditional> <output name="outpdf" value="out_cluster_general_default.pdf" /> </test> <test><!-- default test, plotsym --> <param name="inputrds" value="out_cluster_default.rdat" /> <conditional name="plotsym" > <param name="do_opt" value="yes" /> <param name="types_regex" value="\\_\\d+" /> <expand macro="test_nondef" > <param name="subset_regex" value="IV|V" /> </expand> </conditional> <conditional name="gois" > <param name="do_opt" value="yes" /> <param name="inspect_goi_genes" value="Apoa1,Apoa1bp,Apoa2,Apoa4,Apoa5" /> </conditional> <output name="outpdf" value="out_cluster_inspect_default.pdf" /> </test> <test><!-- Advanced 1 --> <param name="inputrds" value="out_cluster_default.rdat" /> <conditional name="plotsym" > <param name="do_opt" value="yes" /> <param name="types_regex" value="\\_\\d+" /> <expand macro="test_nondef" > <param name="subset_regex" value="IV|V" /> <param name="fr" value="true" /> </expand> </conditional> <conditional name="gois" > <param name="do_opt" value="yes" /> <param name="inspect_goi_genes" value="Apoa1,Apoa1bp,Apoa2,Apoa4,Apoa5" /> <expand macro="test_nondef" > <param name="inspect_goi_imputed" value="false" /> <param name="plotexp_n" value="Test Title" /> <param name="plotmarkg_order_cells" value="true" /> <param name="plotmarkg_aggr" value="true" /> <param name="plotmarkg_norm" value="true" /> <param name="plotmarkg_flo" value="-10" /> <param name="plotmarkg_cap" value="100" /> <param name="plotmarkg_samples" value="(\\_\\d+)$" /> <param name="plotmarkg_cluster_cols" value="true" /> <param name="plotmarkg_cluster_rows" value="false" /> <param name="plotmarkg_cluster_set" value="true" /> </expand> </conditional> <conditional name="diffgtest" > <param name="do_opt" value="yes" /> <section name="set_a" > <param name="name_set" value="Test set A" /> <conditional name="meth" > <param name="type" value="regex" /> <param name="selector" value="^V5.*" /> </conditional> </section> <section name="set_b" > <param name="name_set" value="Test set B" /> <conditional name="meth" > <param name="type" value="manual" /> <param name="selector" value="I5d_3,I5d_4,I5d_6,I5d_8,I5d_9,I5d_10,I5d_11,I5d_12,I5d_13,I5d_14" /> </conditional> </section> <expand macro="test_nondef" > <param name="plotdiffg_pthr" value="0.1" /> <param name="plotdiffg_padj" value="false" /> <param name="plotdiffg_lthr" value="0.2" /> <param name="plotdiffg_mthr" value="0.2" /> <param name="plotdiffg_show_names" value="true" /> </expand> </conditional> <output name="outpdf" value="out_cluster_inspect_advanced1.pdf" /> </test> <test><!-- Advanced 2 --> <param name="inputrds" value="out_cluster_default.rdat" /> <conditional name="plotsym" > <param name="do_opt" value="yes" /> <expand macro="test_nondef" > <param name="fr" value="false" /> </expand> </conditional> <conditional name="gois" > <param name="do_opt" value="yes" /> <param name="inspect_goi_genes" value="Sp1,Spc24,Spcs1,Spcs2,Spcs3" /> <expand macro="test_nondef" > <param name="plotexp_n" value="Test Title 2" /> <param name="plotmarkg_order_cells" value="true" /> <param name="plotmarkg_aggr" value="true" /> <param name="plotmarkg_norm" value="false" /> <param name="plotmarkg_flo" value="-10" /> <param name="plotmarkg_cap" value="10" /> <param name="plotmarkg_cluster_cols" value="true" /> <param name="plotmarkg_cluster_rows" value="true" /> <param name="plotmarkg_cluster_set" value="true" /> </expand> </conditional> <conditional name="diffgtest" > <param name="do_opt" value="yes" /> <section name="set_a" > <param name="name_set" value="Test set A" /> <conditional name="meth" > <param name="type" value="regex" /> <param name="selector" value="^IV.*" /> </conditional> </section> <section name="set_b" > <param name="name_set" value="Test set B" /> <conditional name="meth" > <param name="type" value="cln" /> <param name="selector" value="3" /> </conditional> </section> <expand macro="test_nondef" > <param name="plotdiffg_pthr" value="0.8" /> <param name="plotdiffg_padj" value="true" /> <param name="plotdiffg_lthr" value="0.8" /> <param name="plotdiffg_mthr" value="0.8" /> <param name="plotdiffg_show_names" value="false" /> </expand> </conditional> <output name="outpdf" value="out_cluster_inspect_advanced2.pdf" /> </test> </macro> <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 #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($diffgtest.set_a.meth.type) == "cln": gfdat.A.use\$cln = c( '$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($diffgtest.set_b.meth.type) == "cln": gfdat.B.use\$cln = c( '$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> </macros>