Mercurial > repos > galaxyp > msi_ion_images
diff msi_ion_images.xml @ 2:b2ad54eabcca draft
planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/msi_ion_images commit ed7d3e6f1a09c78c8f71cc1bdc1a20249767f646
author | galaxyp |
---|---|
date | Sun, 11 Mar 2018 10:38:24 -0400 |
parents | 845fee459824 |
children | 616b98c235fb |
line wrap: on
line diff
--- a/msi_ion_images.xml Thu Mar 01 08:25:18 2018 -0500 +++ b/msi_ion_images.xml Sun Mar 11 10:38:24 2018 -0400 @@ -1,4 +1,4 @@ -<tool id="mass_spectrometry_imaging_ion_images" name="MSI ion images" version="1.7.0.1"> +<tool id="mass_spectrometry_imaging_ion_images" name="MSI ion images" version="1.7.0.2"> <description> mass spectrometry imaging heatmaps </description> @@ -104,25 +104,28 @@ peakpickinginfo=processinginfo@peakPicking } -#if $massfile: - ### Read tabular file with peptide masses for plots and heatmap images: - input_list = read.delim("$massfile", header = FALSE, stringsAsFactors = FALSE) - if (ncol(input_list) == 1) - { - input_list = cbind(input_list, input_list) - } - ### calculate how many input masses are valid: - inputmasses = input_list[input_list[,1]>minmz & input_list[,1]<maxmz,] + +### Read tabular file with peptide masses for heatmap images: + +input_list = read.delim("$massfile", header = FALSE, stringsAsFactors = FALSE) + if (ncol(input_list) == 1) + { + input_list = cbind(input_list, input_list) + } - inputmz = inputmasses[,1] - inputnames = inputmasses[,2] -#else - input_list = data.frame(0, 0) - inputmz = 0 -#end if + ### calculate how many input masses are valid: + inputmasses = input_list[input_list[,1]>minmz & input_list[,1]<maxmz,] + + inputmz = inputmasses[,1] + inputnames = inputmasses[,2] + if (nrow(input_list) == 1) + { + countpixels = sum(spectra(msidata)[features(msidata, mz = inputmz), ] >0) + }else { + countpixels = rowSums(spectra(msidata)[features(msidata, mz=inputmz),] >0) + } -countpixels = rowSums(spectra(msidata)[features(msidata, mz=inputmz),]>0) percentpixels = round(countpixels/pixelcount*100, digits=1) valuesdataframe = cbind(inputmz, cbind(countpixels, percentpixels)) @@ -145,7 +148,7 @@ "Baseline reduction", "Peak picking", "Centroided", - paste0("# valid masses in ", "$massfile.display_name")) + paste0("# valid masses in \n", "$massfile.display_name")) values = c(paste0(maxfeatures), paste0(minmz, " - ", maxmz), @@ -213,15 +216,15 @@ <inputs> <param name="infile" type="data" format="imzml,rdata,analyze75" label="Inputfile as imzML, Analyze7.5 or Cardinal MSImageSet saved as RData" help="Upload composite datatype imzml (ibd+imzML) or analyze75 (hdr+img+t2m) or regular upload .RData (Cardinal MSImageSet)"/> - <param name="filename" type="text" value="" label="Title" help="will appear in the quality report. If nothing given it will take the dataset name."/> + <param name="filename" type="text" value="" label="Title" help="will appear in the quality report. If nothing given it will take the dataset name"/> <param name="massfile" type="data" format="tabular" label="Text file with masses and names" help="first column mass (m/z), second column mass name, tab separated file"/> - <param name="image_contrast" type="select" label="Select a contrast enhancement function for the heatmap images." help="The 'histogram' equalization method flatterns the distribution of intensities. The hotspot 'suppression' method uses thresholding to reduce the intensities of hotspots"> + <param name="image_contrast" type="select" label="Select a contrast enhancement function for the heatmap images" help="The 'histogram' equalization method flatterns the distribution of intensities. The hotspot 'suppression' method uses thresholding to reduce the intensities of hotspots"> <option value="none" selected="True">none</option> <option value="suppression">suppression</option> <option value="histogram">histogram</option> </param> - <param name="image_smoothing" type="select" label="Select an image smoothing function for the heatmap images." help="The 'gaussian' smoothing method smooths images with a simple gaussian kernel. The 'adaptive' method uses bilateral filtering to preserve edges."> + <param name="image_smoothing" type="select" label="Select an image smoothing function for the heatmap images" help="The 'gaussian' smoothing method smooths images with a simple gaussian kernel. The 'adaptive' method uses bilateral filtering to preserve edges"> <option value="none" selected="True">none</option> <option value="gaussian">gaussian</option> <option value="adaptive">adaptive</option> @@ -243,8 +246,8 @@ <param name="filename" value="Testfile_imzml"/> <param name="image_contrast" value="histogram"/> <output name="plots" file="Heatmaps_imzml.pdf" compare="sim_size" delta="20000"/> + <output name="pixel_count" file="tabular_imzml.tabular"/> </test> - <test> <param name="infile" value="" ftype="analyze75"> <composite_data value="Analyze75.hdr"/> @@ -256,6 +259,7 @@ <param name="filename" value="Testfile_analyze75"/> <param name="image_smoothing" value="gaussian"/> <output name="plots" file="Heatmaps_analyze75.pdf" compare="sim_size" delta="20000"/> + <output name="pixel_count" file="tabular_analyze75.tabular"/> </test> <test> <param name="infile" value="preprocessing_results1.RData" ftype="rdata"/> @@ -263,6 +267,7 @@ <param name="plusminus_dalton" value="0.1"/> <param name="filename" value="Testfile_rdata"/> <output name="plots" file="Heatmaps_rdata.pdf" compare="sim_size" delta="20000"/> + <output name="pixel_count" file="tabular_rdata.tabular"/> </test> <test> <param name="infile" value="LM8_file16.rdata" ftype="rdata"/> @@ -270,6 +275,7 @@ <param name="plusminus_dalton" value="0.1"/> <param name="filename" value="Testfile_rdata"/> <output name="plots" file="Heatmaps_LM8_file16.pdf" compare="sim_size" delta="20000"/> + <output name="pixel_count" file="tabular_LM8file16.tabular"/> </test> </tests> <help><![CDATA[ @@ -286,8 +292,9 @@ tabular file with masses: - tab separated file (.tabular), datatype in Galaxy must be tabular (if Galaxy auto-detection was wrong, datatype can be changed by pressing the pen button) +- first column must contain masses (separate point numbers by point, not comma) +- optionally a second column with names for the masses can be provided - no empty fields or letters are allowed (tool crashes with empty fields and a single letter prohibits generation of images) -- separate point numbers by point (a single number with comma prohibits generation of images) Trouble shooting: - no heatmaps are plotted when tabular file contains letters or point numbers with commas or when the input MSI file had no intensities > 0