Mercurial > repos > galaxyp > cardinal_combine
view combine.xml @ 2:129cddd02600 draft
planemo upload for repository https://github.com/galaxyproteomics/tools-galaxyp/tree/master/tools/cardinal commit f127be2141cf22e269c85282d226eb16fe14a9c1
| author | galaxyp |
|---|---|
| date | Fri, 15 Feb 2019 10:24:53 -0500 |
| parents | 65245dc812c3 |
| children | 48c07268f341 |
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<tool id="cardinal_combine" name="MSI combine" version="@VERSION@.2"> <description> combine several mass spectrometry imaging datasets into one </description> <macros> <import>macros.xml</import> </macros> <expand macro="requirements"> <requirement type="package" version="3.0">r-ggplot2</requirement> </expand> <command detect_errors="exit_code"> <![CDATA[ #for $i, $infile in enumerate($infiles): #if $infile.ext == 'imzml' ln -s '${infile.extra_files_path}/imzml' infile_${i}.imzML && ln -s '${infile.extra_files_path}/ibd' infile_${i}.ibd && #elif $infile.ext == 'analyze75' ln -s '${infile.extra_files_path}/hdr' infile_${i}.hdr && ln -s '${infile.extra_files_path}/img' infile_${i}.img && ln -s '${infile.extra_files_path}/t2m' infile_${i}.t2m && #else ln -s '$infile' infile_${i}.RData && #end if #end for #if $annotation_cond.annotation_tabular == 'annotation' #for $i, $annotation_file in enumerate($annotation_cond.annotation_files): ln -s '$annotation_file' annotation_file_${i}.tabular && #end for #end if cat '${msi_combine}' && Rscript '${msi_combine}' && #if str($imzml_output) == "imzml_format": mkdir $outfile_imzml.files_path && mv ./out.imzML "${os.path.join($outfile_imzml.files_path, 'imzml')}" | true && mv ./out.ibd "${os.path.join($outfile_imzml.files_path, 'ibd')}" | true && #end if echo "imzML file:" > $outfile_imzml && ls -l "$outfile_imzml.files_path" >> $outfile_imzml ]]> </command> <configfiles> <configfile name="msi_combine"><![CDATA[ #import re ################ load libraries and some preparations ################# library(Cardinal) library(ggplot2) ## read tabular file for xy_shift option #if str( $combine_conditional.combine_method ) == 'xy_shifts': input_list = read.delim("$combine_conditional.coordinates_file", header = $combine_conditional.xy_header, stringsAsFactors = FALSE) #end if ## function to load RData and store with new variable name loadRData <- function(fileName){ load(fileName) get(ls()[ls() != "fileName"]) } ## preparations for reading files one by one with for loop pixel_vector = numeric() x_shifts = 0 y_shifts = 0 max_y = numeric() valid_dataset = logical() #set $msidata = [] #set $pixelcoords = [] #set $num_infiles = len($infiles) all_files = $num_infiles ############## reading files and changing pixel coordinates ################### #for $i, $infile in enumerate($infiles): ## read and manipulate MSI data #if $infile.ext == 'imzml' #if str($processed_cond.processed_file) == "processed": msidata_$i <- readImzML('infile_${i}', mass.accuracy=$processed_cond.accuracy, units.accuracy = "$processed_cond.units", attach.only=TRUE) centroided(msidata_$i) = $centroids #else msidata_$i <- readImzML('infile_${i}', attach.only=TRUE) centroided(msidata_$i) = $centroids #end if #elif $infile.ext == 'analyze75' msidata_$i <- readAnalyze('infile_${i}', attach.only=TRUE) centroided(msidata_$i) = $centroids #else msidata_$i = loadRData('infile_${i}.RData') #end if ## remove duplicated coordinates, otherwise combine will fail print(paste0(sum(duplicated(coord(msidata_$i))), " duplicated coordinates were removed from input file")) msidata_${i} <- msidata_${i}[,!duplicated(coord(msidata_${i}))] ## same name for MSI data files necessary to combine data in one single coordinate system sampleNames(msidata_$i) = "msidata" ## read and process annotation tabular or automatically use name of infile as annotation ## set all pixel annotations to NA, necessary in case files were combined before with different annotations msidata_$i\$column1 = rep(NA, ncol(msidata_$i)) msidata_$i\$column2 = rep(NA, ncol(msidata_$i)) msidata_$i\$column3 = rep(NA, ncol(msidata_$i)) msidata_$i\$column4 = rep(NA, ncol(msidata_$i)) msidata_$i\$column5 = rep(NA, ncol(msidata_$i)) msidata_$i\$combined_sample = rep(NA, ncol(msidata_$i)) #if str($annotation_cond.annotation_tabular) == 'annotation' print("annotations") ## read annotation tabular, set first two columns as x and y, merge with coordinates dataframe and order according to pixelorder in msidata input_annotation = read.delim("annotation_file_${i}.tabular", header = $annotation_cond.tabular_header, stringsAsFactors = FALSE) colnames(input_annotation)[1:2] = c("x", "y") msidata_coordinates = cbind(coord(msidata_$i)[,1:2], 1:ncol(msidata_$i)) colnames(msidata_coordinates)[3] = "pixel_index" ## only first 5 annotation columns are kept if (ncol(input_annotation) > 7){ input_annotation = input_annotation[,1:7]} annotation_df = merge(msidata_coordinates, input_annotation, by=c("x", "y"), all.x=TRUE) annotation_df_8 = cbind(annotation_df, data.frame(matrix(NA,ncol=8-ncol(annotation_df), nrow=ncol(msidata_$i)))) annotation_df_8_sorted = annotation_df_8[order(annotation_df_8\$pixel_index),]## orders pixel according to msidata ## each annotation column is assigned to the pixel in the pData slot of the MSIdata msidata_$i\$column1 = annotation_df_8_sorted[,4] msidata_$i\$column2 = annotation_df_8_sorted[,5] msidata_$i\$column3 = annotation_df_8_sorted[,6] msidata_$i\$column4 = annotation_df_8_sorted[,7] msidata_$i\$column5 = annotation_df_8_sorted[,8] ## extract columnnames from (last) annotation tabular (for QC plot names) annotation_colnames = colnames(input_annotation)[-c(1,2)] #end if ################### preparation xy shifts ########################## #if str( $combine_conditional.combine_method ) == 'xy_shifts': ## shift coordinates according to input tabular file and store file names coord(msidata_$i)\$x = as.integer(coord(msidata_$i)\$x + input_list[$i+1,$combine_conditional.column_x]) ## shifts x coordinates according to tabular file coord(msidata_$i)\$y = as.integer(coord(msidata_$i)\$y + input_list[$i+1,$combine_conditional.column_y]) ## shifts y coordinates according to tabular file pixel_vector = append(pixel_vector, rep(paste($i+1, input_list[$i+1,$combine_conditional.column_names], sep="_"),times=ncol(msidata_$i))) ## stores file name for each pixel msidata_$i\$combined_sample = rep(paste($i+1, input_list[$i+1,$combine_conditional.column_names], sep="_"),times=ncol(msidata_$i)) pixelcoords_$i = cbind(coord(msidata_$i)[,1:2], rep($i+1,ncol(msidata_$i))) #silent $pixelcoords.append('pixelcoords_'+str($i)) colnames(pixelcoords_$i)[3] = "file_number" ################### preparation automatic combination ########################## #elif str( $combine_conditional.combine_method ) == 'automatic_combine': ## use name of Galaxy inputfile as combined sample annotation names_vector = character() #set escaped_element_identifier = re.sub('[^\w\-\s\[/]]', '_', str($infile.element_identifier)) if (ncol(msidata_$i)>0 & nrow(msidata_$i) >0) { if (is.null(levels(msidata_$i\$combined_sample))) { names_vector = append(names_vector, rep(paste($i+1, "$escaped_element_identifier", sep="_"),ncol(msidata_$i))) msidata_$i\$combined_sample = as.factor(names_vector) } } ## Number of input files define grid which is row-wise filled with files coord(msidata_$i)\$x = as.integer(coord(msidata_$i)\$x - (min(coord(msidata_$i)\$x-1)) + x_shifts) coord(msidata_$i)\$y = as.integer(coord(msidata_$i)\$y - (min(coord(msidata_$i)\$y-1)) + y_shifts) x_shifts = max(coord(msidata_$i)\$x) + 5 max_y = append(max_y, max(coord(msidata_$i)\$y)) all_files = $num_infiles new_row = ($i+1)/ceiling(sqrt(all_files)) new_row%%1==0 if (new_row%%1==0) {x_shifts = 0 ### when row is filled: x values start again at zero y_shifts = max(max_y) + 5 ### when row is filled: y value increases to start a new row max_y = numeric()} #end if ## store files to combine them later and for each file check if it is valid #silent $msidata.append('msidata_'+str($i)) valid_dataset = append(valid_dataset, ncol(msidata_$i)>0 & nrow(msidata_$i)>0) ## file with no intensities is considered valid #end for ###################### automatic combination ################################### ################################################################################ #if str( $combine_conditional.combine_method ) == 'automatic_combine': print("automatic_combine") ## combine only valid datasets valid_data = list(#echo ','.join($msidata)#)[valid_dataset] msidata_combined = do.call(combine, valid_data) print("Valid datasets in order of input bottom to top:") print(valid_dataset) ## create dataframe with x,y,sample_name and show all pixels in PDF as QC position_df = cbind(coord(msidata_combined)[,1:2], msidata_combined\$combined_sample) colnames(position_df)[3] = "sample_name" msidata = msidata_combined ## save msidata as imzML file #if str($imzml_output) == "imzml_format": writeImzML(msidata, "out") #elif str($imzml_output) == "rdata_format": ## save as (.RData) iData(msidata) = iData(msidata)[] save(msidata, file="$outfile_rdata") #end if ################################## xy shifts ################################### ################################################################################ #elif str( $combine_conditional.combine_method ) == 'xy_shifts': print("xy_shifts") ## in case user made mistake with xy shifts: find duplicated coordinates all_coordinates = do.call(rbind, list(#echo ','.join($pixelcoords)#)) duplicated_coordinates= duplicated(all_coordinates[,1:2])| duplicated(all_coordinates[,1:2], fromLast=TRUE) print(paste0("Number of removed duplicated coordinates after combination: ", sum(duplicated_coordinates)/2)) unique_coordinates = all_coordinates[!duplicated_coordinates,] ## remove duplicated coordinates datasetlist = list() count = 1 for (usable_dataset in list(#echo ','.join($msidata)#)){ pixelsofinterest = pixels(usable_dataset)[names(pixels(usable_dataset)) %in% rownames(unique_coordinates)] filtered_dataset = usable_dataset[,pixelsofinterest] if (ncol(filtered_dataset) > 0 ){ datasetlist[[count]] = filtered_dataset} count = count +1} msidata_combined = do.call(combine, datasetlist) msidata = msidata_combined ## save msidata as imzML file #if str($imzml_output) == "imzml_format": writeImzML(msidata, "out") #elif str($imzml_output) == "rdata_format": ## save as (.RData) iData(msidata) = iData(msidata)[] save(msidata, file="$outfile_rdata") #end if ## create x,y,sample_name dataframe for QC pdf position_df = cbind(coord(msidata)[,1:2], msidata\$combined_sample) colnames(position_df)[3] = "sample_name" #end if ################################## outputs #################################### ################################################################################ ########### QC with pixels and their annotations ################################ pdf("Combined_qc.pdf", width=15, height=15) ## combined plot combine_plot = ggplot(position_df, aes(x=x, y=y, fill=sample_name))+ geom_tile() + coord_fixed()+ ggtitle("Spatial orientation of combined data")+ theme_bw()+ theme(text=element_text(family="ArialMT", face="bold", size=15))+ theme(legend.position="bottom",legend.direction="vertical")+ guides(fill=guide_legend(ncol=4,byrow=TRUE)) coord_labels = aggregate(cbind(x,y)~sample_name, data=position_df, mean) coord_labels\$file_number = gsub( "_.*$", "", coord_labels\$sample_name) for(file_count in 1:nrow(coord_labels)) {combine_plot = combine_plot + annotate("text",x=coord_labels[file_count,"x"], y=coord_labels[file_count,"y"],label=toString(coord_labels[file_count,4]))} print(combine_plot) #if str($annotation_cond.annotation_tabular) == 'annotation' ## annotation plots ## plot 1 column1_df = cbind(coord(msidata)[,1:2], msidata\$column1) colnames(column1_df)[3] = "column1" if (sum(is.na(column1_df[3])) < nrow(column1_df)){ column1_plot = ggplot(column1_df, aes(x=x, y=y, fill=column1))+ geom_tile() + coord_fixed()+ ggtitle(paste0(annotation_colnames[1]))+ theme_bw()+ theme(text=element_text(family="ArialMT", face="bold", size=15))+ theme(legend.position="bottom",legend.direction="vertical")+ guides(fill=guide_legend(ncol=4,byrow=TRUE, title=annotation_colnames[1])) print(column1_plot)} ##rename columnname for output tabular file colnames(column1_df)[3] = annotation_colnames[1] ## plot 2 column2_df = cbind(coord(msidata)[,1:2], msidata\$column2) colnames(column2_df)[3] = "column2" if (sum(is.na(column2_df[3])) < nrow(column2_df)){ column2_plot = ggplot(column2_df, aes(x=x, y=y, fill=column2))+ geom_tile() + coord_fixed()+ ggtitle(paste0(annotation_colnames[2]))+ theme_bw()+ theme(text=element_text(family="ArialMT", face="bold", size=15))+ theme(legend.position="bottom",legend.direction="vertical")+ guides(fill=guide_legend(ncol=4,byrow=TRUE, title=annotation_colnames[2])) print(column2_plot)} ##rename columnname for output tabular file colnames(column2_df)[3] = annotation_colnames[2] ## plot 3 column3_df = cbind(coord(msidata)[,1:2], msidata\$column3) colnames(column3_df)[3] = "column3" if (sum(is.na(column3_df[3])) < nrow(column3_df)){ column3_plot = ggplot(column3_df, aes(x=x, y=y, fill=column3))+ geom_tile() + coord_fixed()+ ggtitle(paste0(annotation_colnames[3]))+ theme_bw()+ theme(text=element_text(family="ArialMT", face="bold", size=15))+ theme(legend.position="bottom",legend.direction="vertical")+ guides(fill=guide_legend(ncol=4,byrow=TRUE, title=annotation_colnames[3])) print(column3_plot)} ##rename columnname for output tabular file colnames(column3_df)[3] = annotation_colnames[3] ## plot 4 column4_df = cbind(coord(msidata)[,1:2], msidata\$column4) colnames(column4_df)[3] = "column4" if (sum(is.na(column4_df[3])) < nrow(column4_df)){ column4_plot = ggplot(column4_df, aes(x=x, y=y, fill=column4))+ geom_tile() + coord_fixed()+ ggtitle(paste0(annotation_colnames[4]))+ theme_bw()+ theme(text=element_text(family="ArialMT", face="bold", size=15))+ theme(legend.position="bottom",legend.direction="vertical")+ guides(fill=guide_legend(ncol=4,byrow=TRUE, title=annotation_colnames[4])) print(column4_plot)} ##rename columnname for output tabular file colnames(column4_df)[3] = annotation_colnames[4] ## plot5 column5_df = cbind(coord(msidata)[,1:2], msidata\$column5) colnames(column5_df)[3] = "column5" if (sum(is.na(column5_df[3])) < nrow(column5_df)){ column5_plot = ggplot(column5_df, aes(x=x, y=y, fill=column5))+ geom_tile() + coord_fixed()+ ggtitle(paste0(annotation_colnames[5]))+ theme_bw()+ theme(text=element_text(family="ArialMT", face="bold", size=15))+ theme(legend.position="bottom",legend.direction="vertical")+ guides(fill=guide_legend(ncol=4,byrow=TRUE, title=annotation_colnames[5])) print(column5_plot)} ##rename columnname for output tabular file colnames(column5_df)[3] = annotation_colnames[5] #end if dev.off() ##################### annotation tabular output ################################ if (length(features(msidata))> 0 & length(pixels(msidata)) > 0){ position_df\$sample_name = gsub("^[^_]*_","",position_df\$sample_name) #if str($annotation_cond.annotation_tabular) == 'no_annotation': write.table(position_df, file="$pixel_annotations", quote = FALSE, row.names = FALSE, col.names=TRUE, sep = "\t") #else annotation_df_list = list(position_df, column1_df, column2_df, column3_df, column4_df, column5_df) combined_annotations = Reduce(function(...) merge(..., by=c("x", "y"), all=TRUE), annotation_df_list) write.table(combined_annotations, file="$pixel_annotations", quote = FALSE, row.names = FALSE, col.names=TRUE, sep = "\t") #end if }else{ print("No annotation tabular output because file has no features or pixels left") } ]]></configfile> </configfiles> <inputs> <param name="infiles" type="data" multiple="true" format="imzml,rdata,analyze75" label="MSI data as imzml, analyze7.5 or Cardinal MSImageSet saved as RData" help="load imzml and ibd file by uploading composite datatype imzml"/> <param name="centroids" type="boolean" label="Is the input data centroided (picked)" help="Choose Yes if peak detection has already been done." truevalue="TRUE" falsevalue="FALSE"/> <conditional name="processed_cond"> <param name="processed_file" type="select" label="Is the input file a processed imzML file "> <option value="no_processed" selected="True">not a processed imzML</option> <option value="processed">processed imzML</option> </param> <when value="no_processed"/> <when value="processed"> <param name="accuracy" type="float" value="50" label="Mass accuracy to which the m/z values will be binned" help="This should be set to the native accuracy of the mass spectrometer, if known"/> <param name="units" display="radio" type="select" label="Unit of the mass accuracy" help="either m/z or ppm"> <option value="mz" >mz</option> <option value="ppm" selected="True" >ppm</option> </param> </when> </conditional> <conditional name="annotation_cond"> <param name="annotation_tabular" type="select" label="Optional annotation of pixels with tabular files"> <option value="no_annotation" selected="True">no annotation</option> <option value="annotation">pixel annotations</option> </param> <when value="no_annotation"/> <when value="annotation"> <param name="annotation_files" type="data" multiple="true" format="tabular" label="Pixel annotations tabular files" help="Same number and order of files as input files. First column x values, second column y values. Up to 5 columns with pixel annotations"/> <param name="tabular_header" type="boolean" label="Tabular files contain a header line" truevalue="TRUE" falsevalue="FALSE"/> </when> </conditional> <conditional name="combine_conditional"> <param name="combine_method" type="select" label="Way of combining multiple files"> <option value="automatic_combine" selected="True" >automatic combination</option> <option value="xy_shifts">shift xy coordinates with a tabular file</option> </param> <when value="automatic_combine"/> <when value="xy_shifts"> <param name="coordinates_file" type="data" format="tabular" label="Datasetnames, x and y values to shift pixel coordinates before combining" help="Tabular file with three columns: 1 for the filename, 1 for the x-coordinate shift and 1 for the y-coordinate shift. Pixels with the same coordinates after shifting will be deleted."/> <param name="column_x" data_ref="coordinates_file" label="Column with values for shift in x direction" type="data_column"/> <param name="column_y" data_ref="coordinates_file" label="Column with values for shift in y direction" type="data_column"/> <param name="column_names" data_ref="coordinates_file" label="Column with dataset names" type="data_column"/> <param name="xy_header" type="boolean" label="Tabular files contain a header line" truevalue="TRUE" falsevalue="FALSE"/> </when> </conditional> <param name="imzml_output" type="select" display = "radio" optional = "False" label="Output format" help= "Choose the output format"> <option value="imzml_format" selected="True">imzML</option> <option value="rdata_format">RData</option> </param> </inputs> <outputs> <data format="imzml" name="outfile_imzml" label="${tool.name} on ${on_string}: imzML"> <filter>imzml_output=='imzml_format'</filter> </data> <data format="rdata" name="outfile_rdata" label="${tool.name} on ${on_string}: RData"> <filter>imzml_output == 'rdata_format'</filter> </data> <data format="pdf" name="QC_overview" from_work_dir="Combined_qc.pdf" label = "${tool.name} on ${on_string}: QC"/> <data format="tabular" name="pixel_annotations" label="${tool.name} on ${on_string}: annotations"/> </outputs> <tests> <test> <param name="infiles" value="msidata_1.RData,msidata_2.RData,msidata_3.RData" ftype="rdata"/> <conditional name="annotation_cond"> <param name="annotation_tabular" value="annotation"/> <param name="annotation_files" value="annotations_file1.tabular,annotations_file2.tabular,annotations_file3.tabular" ftype="tabular"/> <param name="tabular_header" value="TRUE"/> </conditional> <param name="combine_method" value="xy_shifts"/> <param name="coordinates_file" ftype="tabular" value="xy_coordinates.tabular"/> <param name="column_x" value="1"/> <param name="column_y" value="2"/> <param name="column_names" value="3"/> <param name="imzml_output" value="rdata_format"/> <output name="pixel_annotations" file="123_annotation_output.tabular"/> <output name="outfile_rdata" file="123_combined.RData" compare="sim_size" /> <output name="QC_overview" file="123_combined_QC.pdf" compare="sim_size"/> </test> <test> <param name="infiles" value="msidata_1.RData,msidata_2.RData,msidata_3.RData" ftype="rdata"/> <conditional name="annotation_cond"> <param name="annotation_tabular" value="no_annotation"/> </conditional> <param name="combine_method" value="automatic_combine"/> <param name="imzml_output" value="imzml_format"/> <output name="QC_overview" file="123_combined_auto.pdf" compare="sim_size"/> <output name="pixel_annotations" file="123_combined_auto.tabular"/> <output name="outfile_imzml" ftype="imzml" file="123_combined_auto.imzml.txt" compare="sim_size"> <extra_files type="file" file="123_combined_auto.imzml" name="imzml" lines_diff="4"/> <extra_files type="file" file="123_combined_auto.ibd" name="ibd" compare="sim_size"/> </output> </test> <test> <param name="infiles" value="msidata_1.RData,msidata_2.RData" ftype="rdata"/> <conditional name="annotation_cond"> <param name="annotation_tabular" value="annotation"/> <param name="annotation_files" value="annotations_file1.tabular,annotations_file2.tabular" ftype="tabular"/> <param name="tabular_header" value="TRUE"/> </conditional> <param name="combine_method" value="automatic_combine"/> <param name="imzml_output" value="rdata_format"/> <output name="pixel_annotations" file="12_annotation_output.tabular"/> <output name="outfile_rdata" file="12_combined.RData" compare="sim_size" /> <output name="QC_overview" file="12_combined_QC.pdf" compare="sim_size"/> </test> <test> <param name="infiles" value="msidata_1.RData,123_combined.RData" ftype="rdata"/> <conditional name="annotation_cond"> <param name="annotation_tabular" value="annotation"/> <param name="annotation_files" value="annotations_file1.tabular,123_annotation.tabular" ftype="tabular"/> <param name="tabular_header" value="TRUE"/> </conditional> <param name="combine_method" value="automatic_combine"/> <param name="imzml_output" value="imzml_format"/> <output name="pixel_annotations" file="112_annotation_output.tabular"/> <output name="QC_overview" file="112_auto_combined_QC.pdf" compare="sim_size"/> <output name="outfile_imzml" ftype="imzml" file="112_auto_combined.imzml.txt" compare="sim_size"> <extra_files type="file" file="112_auto_combined.imzml" name="imzml" lines_diff="4"/> <extra_files type="file" file="112_auto_combined.ibd" name="ibd" compare="sim_size"/> </output> </test> <test> <param name="infiles" value="msidata_2.RData,123_combined.RData" ftype="rdata"/> <conditional name="annotation_cond"> <param name="annotation_tabular" value="no_annotation"/> </conditional> <param name="combine_method" value="automatic_combine"/> <param name="imzml_output" value="rdata_format"/> <output name="pixel_annotations" file="2123_annotation_output.tabular"/> <output name="outfile_rdata" file="2123_auto_combined.RData" compare="sim_size" /> <output name="QC_overview" file="2123_auto_combined_QC.pdf" compare="sim_size"/> </test> </tests> <help> <![CDATA[ @CARDINAL_DESCRIPTION@ ----- This tool uses the Cardinal combine function to combine several mass spectrometry imaging data. @MSIDATA_INPUT_DESCRIPTION@ - MSI data files must have the same m/z values (to obtain same m/z values for different files: filtering tool same m/z range and preprocessing tool same binning width) - Coordinates stored as decimals rather than integers will be rounded to obtain a regular pixel grid. This might lead to duplicated coordinates which will be automatically removed before the tools analysis starts. @SPECTRA_TABULAR_INPUT_DESCRIPTION@ - For xy shifts with tabular file: Tabular file with x and y coordinates shift and file name - Each input file is shifted in x and y direction according to this tabular file. In the example the files have about the same pixel dimensions which is smaller than 510x260. - The file can have any column names as header (in this case set "Tabular file contains a header line" to yes) or no header at all :: x_shift y_shift file name 0 0 file1 510 0 file2 0 260 file3 510 260 file4 ... ... **Options** - "automatic combination": files are automatically arranged in a grid (duplicated pixels are allowed), subfiles are named according to the input file name - "xy shifts": each file can be moved in x and y direction according to the users need (define one tabular file in the order in which the files are loaded in the history (bottom to top) and define for each file the x and y coordinates shifts in separate columns and the file name in a third column as shown above). The xy shift option combines all datasets and removes all duplicated pixels (same x and y coordinates). **Tips** - The combine tools puts all samples into a common x-y-grid, therefore pixel coordinates will change. In case the pixels are already annotated, the annotations should be provided as tabular files and the tool will return an annotation file with the new pixel coordinates. This annotation file can then be used together with the combined MSI data for tools in which the annotation is required (e.g. 'MSI classification') or useful (e.g. 'MSI spectra plots'). - In case more annotations are required: The annotation input file should have an identifier column, for example the patient_ID. A second tabular file that contains more annotations and also one column with the identifier column (e.g. 'patient_ID') can be merged to the annotation output file of this tool with the tool 'join two files' and then set the 'Column to use' parameters for both files to the identifier column. **Output** - MSI data as imzML file or .RData (can be read with the Cardinal package in R) - pdf that shows the pixel positions and annotations of the combined files - Tabular file with pixel annotations (x,y,column with input file names and up to five annotation columns) ]]> </help> <expand macro="citations"/> </tool>