Mercurial > repos > ebi-gxa > anndata_ops
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"planemo upload for repository https://github.com/ebi-gene-expression-group/container-galaxy-sc-tertiary/tree/develop/tools/tertiary-analysis/scanpy commit 9748fb7ca203206ecac97461f60ce75890d00fa4-dirty"
author | ebi-gxa |
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date | Fri, 15 Oct 2021 15:01:47 +0000 |
parents | 31e5e6d606ef |
children | 825dfd66e3fb |
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<?xml version="1.0" encoding="utf-8"?> <tool id="anndata_ops" name="AnnData Operations" version="@TOOL_VERSION@+galaxy0" profile="@PROFILE@"> <description>modifies metadata and flags genes</description> <macros> <import>scanpy_macros2.xml</import> </macros> <expand macro="requirements"/> <command detect_errors="exit_code"><![CDATA[ ln -s '${input_obj_file}' input.h5 && #if $copy_r.default: ln -s '${copy_r.r_source}' r_source.h5 && #end if #if $copy_x.default: #for $i, $xs in enumerate($copy_x.xlayers): ln -s '${xs.x_source}' x_source_${i}.h5 && #end for #end if #if $copy_l.default: #for $i, $ls in enumerate($copy_l.layer_sources): ln -s '${ls}' layer_source_${i}.h5 && #end for #end if #if $copy_o.default: #for $i, $os in enumerate($copy_o.obs_sources): ln -s '${os}' obs_source_${i}.h5 && #end for #end if #if $copy_e.default: #for $i, $es in enumerate($copy_e.embedding_sources): ln -s '${es}' embedding_source_${i}.h5 && #end for #end if #if $copy_u.default: #for $i, $us in enumerate($copy_u.uns_sources): ln -s '${us}' uns_source_${i}.h5 && #end for #end if python $operations ]]></command> <configfiles> <configfile name="operations"> import scanpy as sc import anndata from numpy import all import logging adata = sc.read('input.h5') #if $copy_adata_to_raw: adata.raw = adata #end if gene_name = '${gene_symbols_field}' qc_vars = list() #for $i, $s in enumerate($modifications) adata.obs['${s.to_obs}'] = adata.obs['${s.from_obs}'] #if not $s.keep_original: del adata.obs['${s.from_obs}'] #end if #end for #for $i, $s in enumerate($var_modifications) adata.var['${s.to_var}'] = adata.var['${s.from_var}'] #if not $s.keep_original: del adata.var['${s.from_var}'] #end if #end for gene_names = getattr(adata.var, gene_name) #for $i, $flag in enumerate($gene_flags) k_cat = gene_names.str.startswith('${flag.startswith}') if k_cat.sum() > 0: adata.var['${flag.flag}'] = k_cat qc_vars.append('${flag.flag}') else: logging.warning('No genes starting with {} found, skip calculating expression of {} genes'.format('${flag.startswith}', '${flag.flag}')) #end for #if $copy_r.default and $copy_r.r_source: ad_s = sc.read('r_source.h5') if not all(adata.obs.index.isin(ad_s.obs.index)): logging.error("Specified object for .raw must contain all .obs from main object.") sys.exit(1) else: adata.raw = ad_s[adata.obs.index] del ad_s #end if #if $copy_x.default and len($copy_x.xlayers) > 0: #for $i, $x_s in enumerate($copy_x.xlayers): ad_s = sc.read('x_source_${i}.h5') if adata.n_obs == ad_s.n_obs and all(adata.obs_names == ad_s.obs_names): #set xs=$copy_x.xlayers[$i] if "${xs.dest}" == '': logging.error("%sth destination layer for %sth X source not specified" % ("${i}", "${i}")) sys.exit(1) adata.layers["${xs.dest}"] = ad_s.X else: logging.error("X source ${i} AnnData file is not compatible to be merged to main AnnData file, different cell names.") sys.exit(1) del ad_s #end for #end if #if $copy_l.default and len($copy_l.layers) > 0: #for $i, $layer_s in enumerate($copy_l.layer_sources): ad_s = sc.read('layer_source_${i}.h5') if adata.n_obs == ad_s.n_obs and all(adata.obs_names == ad_s.obs_names): #for $j, $l_key in enumerate($copy_l.layers): layers_to_copy = (k for k in ad_s.layers.keys() if "${l_key.contains}" in k) for l_to_copy in layers_to_copy: suffix='' if l_to_copy in adata.layers: suffix = "_${i}" adata.layers[l_to_copy+suffix] = ad_s.layers[l_to_copy] #end for else: logging.error("Layer source ${i} AnnData file is not compatible to be merged to main AnnData file, different cell names.") sys.exit(1) del ad_s #end for #end if #if $copy_o.default and len($copy_o.obs_keys) > 0: #for $i, $obs_s in enumerate($copy_o.obs_sources): ad_s = sc.read('obs_source_${i}.h5') if adata.n_obs == ad_s.n_obs and all(adata.obs_names == ad_s.obs_names): #for $j, $o_key in enumerate($copy_o.obs_keys): keys_to_copy = (k for k in ad_s.obs.keys() if "${o_key.contains}" in k) for k_to_copy in keys_to_copy: suffix='' if k_to_copy in adata.obs: suffix = "_${i}" adata.obs[[k_to_copy+suffix]] = ad_s.obs[[k_to_copy]] if k_to_copy in ad_s.uns.keys(): adata.uns[k_to_copy+suffix] = ad_s.uns[k_to_copy] #end for else: logging.error("Observation source ${i} AnnData file is not compatible to be merged to main AnnData file, different cell names.") sys.exit(1) del ad_s #end for #end if #if $copy_e.default and len($copy_e.embedding_keys) > 0: #for $i, $obs_s in enumerate($copy_e.embedding_sources): ad_s = sc.read('embedding_source_${i}.h5') if adata.n_obs == ad_s.n_obs and all(adata.obs_names == ad_s.obs_names): #for $j, $e_key in enumerate($copy_e.embedding_keys): keys_to_copy = (k for k in ad_s.obsm.keys() if "${e_key.contains}" in k) for k_to_copy in keys_to_copy: suffix = '' if k_to_copy in adata.obsm: suffix = "_${i}" adata.obsm[k_to_copy+suffix] = ad_s.obsm[k_to_copy] #end for else: logging.error("Embedding source ${i} AnnData file is not compatible to be merged to main AnnData file, different cell names.") sys.exit(1) del ad_s #end for #end if #if $copy_u.default and len($copy_u.uns_keys) > 0: #for $i, $uns_s in enumerate($copy_u.uns_sources): ad_s = sc.read('uns_source_${i}.h5') if adata.n_obs == ad_s.n_obs and all(adata.obs_names == ad_s.obs_names): #for $j, $u_key in enumerate($copy_u.uns_keys): keys_to_copy = (k for k in ad_s.uns.keys() if "${u_key.contains}" in k) for k_to_copy in keys_to_copy: suffix='' if k_to_copy in adata.uns: suffix="_${i}" adata.uns[k_to_copy+suffix] = ad_s.uns[k_to_copy] #end for else: logging.error("Uns source ${i} AnnData file is not compatible to be merged to main AnnData file, different cell names.") sys.exit(1) del ad_s #end for #end if #if $sanitize_varm: if hasattr(adata, 'raw') and hasattr(adata.raw, 'X') and hasattr(adata.raw, 'var'): new_ad = anndata.AnnData(X=adata.raw.X, obs=adata.obs, var=adata.raw.var) adata.raw = new_ad #end if if len(qc_vars) > 0: pct_top = [${top_genes}] sc.pp.calculate_qc_metrics(adata, qc_vars=qc_vars, percent_top=pct_top, inplace=True) if 'n_genes' not in adata.obs.columns: sc.pp.filter_cells(adata, min_genes=0) if 'n_counts' not in adata.obs.columns: sc.pp.filter_cells(adata, min_counts=0) if 'n_cells' not in adata.var.columns: sc.pp.filter_genes(adata, min_cells=0) if 'n_counts' not in adata.var.columns: sc.pp.filter_genes(adata, min_counts=0) adata.write('output.h5', compression='gzip') </configfile> </configfiles> <inputs> <param name="input_obj_file" argument="input-object-file" type="data" format="h5,h5ad" label="Input object in hdf5 AnnData format"/> <expand macro="output_object_params_no_loom"/> <param name="copy_adata_to_raw" type="boolean" label="Copy AnnData to .raw" help="If activated, it will do 'adata.raw = adata'" checked="false"/> <repeat name="modifications" title="Change field names in AnnData observations" min="0"> <param name="from_obs" type="text" label="Original name" help="Name in observations that you want to change"> <sanitizer> <valid initial="string.printable"/> </sanitizer> </param> <param name="to_obs" type="text" label="New name" help="New name in observations that you want to change"/> <param name="keep_original" type="boolean" label="Keep original" help="If activated, it will also keep the original column" checked="false"/> </repeat> <repeat name="var_modifications" title="Change field names in AnnData var" min="0"> <param name="from_var" type="text" label="Original name" help="Name in var that you want to change"> <sanitizer> <valid initial="string.printable"/> </sanitizer> </param> <param name="to_var" type="text" label="New name" help="New name in var that you want to change"/> <param name="keep_original" type="boolean" label="Keep original" help="If activated, it will also keep the original column" checked="false"/> </repeat> <param name="gene_symbols_field" value='index' type="text" label="Gene symbols field in AnnData" help="Field inside var.params where the gene symbols are, normally 'index' or 'gene_symbols'"/> <repeat name="gene_flags" title="Flag genes that start with these names"> <param name="startswith" type="text" label="Starts with" help="Text that you expect the genes to be flagged to start with, such as 'MT-' for mito genes"/> <param name="flag" type="text" label="Var name" help="Name of the column in var.names where this boolean flag is stored, for example 'mito' for mitochondrial genes."/> </repeat> <param name="top_genes" label="Number of top genes" value='50' help="to calculate percentage of the flagged genes in that number of top genes. Used by sc.pp.calculate_qc_metrics (integer)." type="integer"/> <conditional name="copy_r"> <param name="default" type="boolean" checked="false" label="Copy adata.X to adata.raw"/> <when value="true"> <param name="r_source" type="data" label="AnnData object .X with to copy to .raw" help="Copies adata (subset to matching obs) from this AnnData object into the main input as .raw. Make sure to use an AnnData object containing all .obs in the main input." format="h5,h5ad" /> </when> <when value="false"/> </conditional> <conditional name="copy_x"> <param name="default" type="boolean" checked="false" label="Copy .X to layers"/> <when value="true"> <repeat name="xlayers" title="Source objects for .X and paired destination layers in the main AnnData object" help="make sure to use AnnData objects that are compatible in terms of genes, cells and expression data." min="1"> <param name="x_source" type="data" label="AnnData objects with .X to copy" help="Extracts .X from these AnnData objects and merges them into the main input as layers. Make sure to use AnnData objects that are compatible in terms of genes, cells and expression data." format="h5,h5ad" /> <param name="dest" type="text" label="Destination layer" /> </repeat> </when> <when value="false"/> </conditional> <conditional name="copy_l"> <param name="default" type="boolean" checked="false" label="Copy layers"/> <when value="true"> <repeat name="layers" title="Layers from which matrices will be copied" help="will copy all layers in the given AnnData object to the main AnnData object. Make sure to use AnnData objects that are compatible in terms of genes, cells and expression data." min="1"> <param name="contains" type="text" label="Key contains" help="Keys to be copied need to contain the text set here."/> </repeat> <param name="layer_sources" type="data" label="AnnData objects with layers to copy" help="Extracts layers from these AnnData objects and merges them into the main input. Make sure to use AnnData objects that are compatible in terms of genes, cells and expression data." format="h5,h5ad" multiple="true"/> </when> <when value="false"/> </conditional> <conditional name="copy_o"> <param name="default" type="boolean" checked="false" label="Copy observations (such as clusters)"/> <when value="true"> <repeat name="obs_keys" title="Keys from obs to copy" help="will copy all obs keys in the given AnnData object to the main AnnData object. Make sure to use AnnData objects that are compatible in terms of genes, cells and expression data. You can use this to copy clusters. Uns elements with the same name will be also transferred." min="1"> <param name="contains" type="text" label="Key contains" help="Keys to be copied need to contain the text set here."/> </repeat> <param name="obs_sources" type="data" label="AnnData objects with obs to copy" help="Extracts obs (such as clusters) from these AnnData objects and merges them into the main input. Make sure to use AnnData objects that are compatible in terms of genes, cells and expression data." format="h5,h5ad" multiple="true"/> <!-- <param name="check_o" type="boolean" label="Check compatibility" help="checks if the provided AnnData objects are compatible (same genes and cells) for merging." checked="true"/> --> </when> <when value="false"/> </conditional> <conditional name="copy_e"> <param name="default" type="boolean" checked="false" label="Copy embeddings (such as UMAP, tSNE)"/> <when value="true"> <repeat name="embedding_keys" title="Keys from embeddings to copy" help="will copy all embedding keys in the given AnnData object to the main AnnData object. Make sure to use AnnData objects that are compatible in terms of genes, cells and expression data. You can use this to copy tSNE, UMAP, etc." min="1"> <param name="contains" type="text" label="Key contains" help="Keys to be copied need to contain the text set here."/> </repeat> <param name="embedding_sources" type="data" label="AnnData objects with embeddings to copy" help="Extracts embeddings (tSNE, UMAP) from these AnnData objects and merges them into the main input. Make sure to use AnnData objects that are compatible in terms of genes, cells and expression data." format="h5,h5ad" multiple="true"/> <!-- <param name="check_e" type="boolean" label="Check compatibility" help="checks if the provided AnnData objects are compatible (same genes and cells) for merging." checked="true"/> --> </when> <when value="false"/> </conditional> <conditional name="copy_u"> <param name="default" type="boolean" checked="false" label="Copy uns"/> <when value="true"> <repeat name="uns_keys" title="Keys from uns to copy" help="will copy all uns keys in the given AnnData object to the main AnnData object. Make sure to use AnnData objects that are compatible in terms of genes, cells and expression data. You can use this to copy rank_genes_groups for instance." min="1"> <param name="contains" type="text" label="Key contains" help="Keys to be copied need to contain the text set here."/> </repeat> <param name="uns_sources" type="data" label="AnnData objects with uns to copy" help="Extracts uns (such as ranked_genes_groups) from these AnnData objects and merges them into the main input. Make sure to use AnnData objects that are compatible in terms of genes, cells and expression data." format="h5,h5ad" multiple="true"/> </when> </conditional> <param name="sanitize_varm" type="boolean" checked="false" label="Sanitise any null raw.varm objects if any" help="This might be relevant for interfacing with newer versions of AnnData, that might complain if .raw includes a varm null object."/> </inputs> <outputs> <expand macro="output_data_obj_no_loom" description="metadata changes on"/> </outputs> <tests> <test> <param name="input_obj_file" value="find_cluster.h5"/> <param name="input_format" value="anndata"/> <param name="color_by" value="louvain"/> <output name="output_h5ad" file="anndata_ops.h5" ftype="h5ad" compare="sim_size"/> </test> <test> <param name="input_obj_file" value="anndata_ops.h5"/> <param name="from_var" value = "gene_symbols" /> <param name="to_var" value = "hello_all" /> <output name="output_h5ad" ftype="h5ad"> <assert_contents> <has_h5_keys keys="var/hello_all" /> </assert_contents> </output> </test> <test> <param name="input_obj_file" value="find_cluster.h5"/> <param name="input_format" value="anndata"/> <conditional name="copy_r"> <param name="default" value="true"/> <param name="r_source" value="read_10x.h5"/> </conditional> <output name="output_h5ad" file="anndata_ops_raw.h5" ftype="h5ad" compare="sim_size"> <assert_contents> <has_h5_keys keys="raw/X" /> </assert_contents> </output> </test> <test> <param name="input_obj_file" value="normalise_data.h5"/> <param name="input_format" value="anndata"/> <conditional name="copy_x"> <param name="default" value="true"/> <repeat name="xlayers"> <param name="x_source" value='filter_genes.h5'/> <param name="dest" value='filtered'/> </repeat> </conditional> <output name="output_h5ad" file="anndata_ops_xlayer.h5" ftype="h5ad" compare="sim_size"> <assert_contents> <has_h5_keys keys="layers/filtered" /> </assert_contents> </output> </test> <test> <param name="input_obj_file" value="find_cluster.h5"/> <param name="input_format" value="anndata"/> <conditional name="copy_l"> <param name="default" value="true"/> <repeat name="layers"> <param name="contains" value='filtered'/> </repeat> <param name="layer_sources" value='anndata_ops_xlayer.h5'/> </conditional> <output name="output_h5ad" file="anndata_ops_layer.h5" ftype="h5ad" compare="sim_size"> <assert_contents> <has_h5_keys keys="layers/filtered" /> </assert_contents> </output> </test> </tests> <help><![CDATA[ ============================= Operations on AnnData objects ============================= Performs the following operations: * Change observation/var fields, mostly for downstreaming processes convenience. Multiple fields can be changed as one. * Flag genes that start with a certain text: useful for flagging mitochondrial, spikes or other groups of genes. * For the flags created, calculates qc metrics (pct_<flag>_counts). * Calculates `n_genes`, `n_counts` for cells and `n_cells`, `n_counts` for genes. * For top <N> genes specified, calculate qc metrics (pct_counts_in_top_<N>_genes). * Copy from a set of compatible AnnData objects (same cells and genes): * Observations, such as clustering results. * Embeddings, such as tSNE or UMAPs. * Unstructure annotations, like gene markers. This functionality will probably be added in the future to a larger package. History ------- 1.6.0+galaxy0: Moves to Scanpy Scripts 0.3.0 (Scanpy 1.6.0), versioning switched to track Scanpy as other tools. 0.0.3+galaxy0: Adds ability to merge AnnData objects (Scanpy 1.4.3). ]]></help> <expand macro="citations"/> </tool>