Previous changeset 2:e8650cdf092f (2020-10-31) Next changeset 4:9bbaab36a5d4 (2022-01-20) |
Commit message:
"planemo upload for repository https://github.com/galaxyecology/tools-ecology/tree/master/tools/data_manipulation/xarray/ commit 57b6d23e3734d883e71081c78e77964d61be82ba" |
modified:
xarray_metadata_info.xml xarray_tool.py |
added:
macros.xml test-data/all.netcdf test-data/dataset-ibi-reanalysis-bio-005-003-monthly-regulargrid_1510914389133_time0.png test-data/dataset-ibi-reanalysis-bio-005-003-monthly-regulargrid_1510914389133_time1.png test-data/dataset-ibi-reanalysis-bio-005-003-monthly-regulargrid_1510914389133_time50.png test-data/depth.tabular test-data/latitude.tabular test-data/longitude.tabular test-data/small.netcdf test-data/time.tabular test-data/version.tabular xarray_mapplot.py xarray_netcdf2netcdf.py |
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diff -r e8650cdf092f -r 663268794710 macros.xml --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/macros.xml Sun Jun 06 08:49:43 2021 +0000 |
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b'@@ -0,0 +1,185 @@\n+<macros>\n+ <token name="@TOOL_VERSION@">0.18.2</token>\n+ <token name="@VERSION_SUFFIX@">0</token>\n+ <xml name="edam_ontology">\n+ <edam_topics>\n+ <edam_topic>topic_0610</edam_topic>\n+ <edam_topic>topic_3050</edam_topic>\n+ </edam_topics>\n+ </xml>\n+ <xml name="citations">\n+ <citations>\n+ <citation type="bibtex">\n+ @article{hoyer2017xarray,\n+ title = {xarray: {N-D} labeled arrays and datasets in {Python}},\n+ author = {Hoyer, S. and J. Hamman},\n+ journal = {Journal of Open Research Software},\n+ volume = {5},\n+ number = {1},\n+ year = {2017},\n+ publisher = {Ubiquity Press},\n+ doi = {10.5334/jors.148},\n+ url = {http://doi.org/10.5334/jors.148}\n+ }\n+ </citation>\n+ </citations>\n+ </xml>\n+ <xml name="customize_appearance_plots">\n+ <param name="borders" type="float" optional="true" label="Add country borders with alpha value [0-1] (optional)" />\n+ <param name="coastline" type="float" optional="true" label="Add coastline with alpha value [0-1] (optional)" />\n+ <param name="ocean" type="float" optional="true" label="Add ocean with alpha value [0-1] (optional)" />\n+ <param name="land" type="float" optional="true" label="Add land with alpha value [0-1] (optional)" />\n+ <param name="title" type="text" optional="true" label="Specify plot title (optional)" />\n+ <param name="colorbar_label" type="text" optional="true" label="Set a label for colormap (optional)" />\n+ <param name="cmap" type="select" optional="true" label="Specify which colormap to use for plotting (optional)">\n+ <option value="cm.batlow">batlow</option>\n+ <option value="cm.batlowW">batlowW</option>\n+ <option value="cm.batlowK">batlowK</option>\n+ <option value="cm.devon">devon</option>\n+ <option value="cm.davos">davos</option>\n+ <option value="cm.oslo">oslo</option>\n+ <option value="cm.lapaz">lapaz</option>\n+ <option value="cm.acton">acton</option>\n+ <option value="cm.lajolla">lajolla</option>\n+ <option value="cm.bilbao">bilbao</option>\n+ <option value="cm.grayC">grayC</option>\n+ <option value="cm.tokyo">tokyo</option>\n+ <option value="cm.turku">turku</option>\n+ <option value="cm.bamako">bamako</option>\n+ <option value="cm.nuuk">nuuk</option>\n+ <option value="cm.hawaii">hawaii</option>\n+ <option value="cm.buda">buda</option>\n+ <option value="cm.imola">imola</option>\n+ <option value="cm.broc">broc</option>\n+ <option value="cm.lisbon">lisbon</option>\n+ <option value="cm.roma">roma</option>\n+ <option value="cm.cork">cork</option>\n+ <option value="cm.tofino">tofino</option>\n+ <option value="cm.bam">bam</option>\n+ <option value="cm.vik">vik</option>\n+ <option value="cm.berlin">berlin</option>\n+ <option value="cm.vanimo">vanimo</option>\n+ <option value="cm.oleron">oleron</option>\n+ <option value="cm.bukavu">bukavu</option>\n+ <option value="cm.fes">fes</option>\n+ <option value="cm.romaO">romaO</option>\n+ <option value="cm.bamO">bamO</option>\n+ <option value="cm.brocO">brocO</option>\n+ <option value="cm.corkO">corkO</option>\n+ <option value="cm.vikO">vikO</option>\n+ <option value="cm.batlow_r">batlow_r</option>\n+ <option value="cm.batlowW_r">batlowW_r</option>\n+ <option value="cm.batlowK_r">batlowK_r</option>\n+ <option value="cm.devon_r">devon_r</option>\n+ <option value'..b'="Blues">Blues</option>\n+ <option value="BrBG">BrBG</option>\n+ <option value="BuGn">BuGn</option>\n+ <option value="BuPu">BuPu</option>\n+ <option value="CMRmap">CMRmap</option>\n+ <option value="Dark2">Dark2</option>\n+ <option value="GnBu">GnBu</option>\n+ <option value="Greens">Greens</option>\n+ <option value="Greys">Greys</option>\n+ <option value="OrRd">OrRd</option>\n+ <option value="Oranges">Oranges</option>\n+ <option value="PRGn">PRGn</option>\n+ <option value="Paired">Paired</option>\n+ <option value="Pastel1">Pastel1</option>\n+ <option value="Pastel2">Pastel2</option>\n+ <option value="PiYG">PiYG</option>\n+ <option value="PuBu">PuBu</option>\n+ <option value="PuBuGn">PuBuGn</option>\n+ <option value="PuOr">PuOr</option>\n+ <option value="PuRd">PuRd</option>\n+ <option value="Purples">Purples</option>\n+ <option value="RdBu">RdBu</option>\n+ <option value="RdGy">RdGy</option>\n+ <option value="RdPu">RdPu</option>\n+ <option value="RdBu_r">RdBu_r</option>\n+ <option value="RdGy_r">RdGy_r</option>\n+ <option value="RdPu_r">RdPu_r</option>\n+ <option value="RdYlBu">RdYlBu</option>\n+ <option value="RdYlGn">RdYlGn</option>\n+ <option value="Reds">Reds</option>\n+ <option value="Set1">Set1</option>\n+ <option value="Set2">Set2</option>\n+ <option value="Set3">Set3</option>\n+ <option value="Spectral">Spectral</option>\n+ <option value="Wistia">Wistia</option>\n+ <option value="YlGn">YlGn</option>\n+ <option value="YlGnBu">YlGnBu</option>\n+ <option value="YlOrBr">YlOrBr</option>\n+ <option value="YlOrRd">YlOrRd</option>\n+ <option value="afmhot">afmhot</option>\n+ <option value="autumn">autumn</option>\n+ <option value="binary">binary</option>\n+ <option value="bone">bone</option>\n+ <option value="brg">brg</option>\n+ <option value="bwr">bwr</option>\n+ <option value="cool">cool</option>\n+ <option value="coolwarm" selected="true">coolwarm</option>\n+ <option value="copper">copper</option>\n+ <option value="cubehelix">cubehelix</option>\n+ <option value="flag">flag</option>\n+ <option value="gist_earth">gist_earth</option>\n+ <option value="gist_gray">gist_gray</option>\n+ <option value="gist_heat">gist_heat</option>\n+ <option value="gist_ncar">gist_ncar</option>\n+ <option value="gist_rainbow">gist_rainbow</option>\n+ <option value="gist_stern">gist_stern</option>\n+ <option value="gist_yarg">gist_yarg</option>\n+ <option value="gnuplot">gnuplot</option>\n+ <option value="gnuplot2">gnuplot2</option>\n+ <option value="gray">gray</option>\n+ <option value="hot">hot</option>\n+ <option value="hsv">hsv</option>\n+ <option value="jet">jet</option>\n+ <option value="nipy_spectral">nipy_spectral</option>\n+ <option value="ocean">ocean</option>\n+ <option value="pink">pink</option>\n+ <option value="prism">prism</option>\n+ <option value="rainbow">rainbow</option>\n+ <option value="seismic">seismic</option>\n+ <option value="spring">spring</option>\n+ <option value="summer">summer</option>\n+ <option value="tab10">tab10</option>\n+ <option value="tab20">tab20</option>\n+ <option value="tab20b">tab20b</option>\n+ <option value="tab20c">tab20c</option>\n+ <option value="terrain">terrain</option>\n+ <option value="winter">winter</option>\n+ </param>\n+ </xml>\n+</macros>\n' |
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diff -r e8650cdf092f -r 663268794710 test-data/depth.tabular --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/depth.tabular Sun Jun 06 08:49:43 2021 +0000 |
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@@ -0,0 +1,1 @@ +0 0.50576 |
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diff -r e8650cdf092f -r 663268794710 test-data/latitude.tabular --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/latitude.tabular Sun Jun 06 08:49:43 2021 +0000 |
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@@ -0,0 +1,97 @@ +0 43.0 +1 43.083332 +2 43.166664 +3 43.25 +4 43.333332 +5 43.416664 +6 43.5 +7 43.583332 +8 43.666664 +9 43.75 +10 43.833332 +11 43.916664 +12 44.0 +13 44.083332 +14 44.166664 +15 44.25 +16 44.333332 +17 44.416664 +18 44.5 +19 44.583332 +20 44.666664 +21 44.75 +22 44.833332 +23 44.916664 +24 45.0 +25 45.083332 +26 45.166664 +27 45.25 +28 45.333332 +29 45.416664 +30 45.5 +31 45.583332 +32 45.666664 +33 45.75 +34 45.833332 +35 45.916664 +36 46.0 +37 46.083332 +38 46.166664 +39 46.25 +40 46.333332 +41 46.416664 +42 46.5 +43 46.583332 +44 46.666664 +45 46.75 +46 46.833332 +47 46.916664 +48 47.0 +49 47.083332 +50 47.166664 +51 47.25 +52 47.333332 +53 47.416664 +54 47.5 +55 47.583332 +56 47.666664 +57 47.75 +58 47.833332 +59 47.916664 +60 48.0 +61 48.083332 +62 48.166664 +63 48.25 +64 48.333332 +65 48.416664 +66 48.5 +67 48.583332 +68 48.666664 +69 48.75 +70 48.833332 +71 48.916664 +72 49.0 +73 49.083332 +74 49.166664 +75 49.25 +76 49.333332 +77 49.416664 +78 49.5 +79 49.583332 +80 49.666664 +81 49.75 +82 49.833332 +83 49.916664 +84 50.0 +85 50.083332 +86 50.166664 +87 50.25 +88 50.333332 +89 50.416664 +90 50.5 +91 50.583332 +92 50.666664 +93 50.75 +94 50.833332 +95 50.916664 +96 51.0 |
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diff -r e8650cdf092f -r 663268794710 test-data/longitude.tabular --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/longitude.tabular Sun Jun 06 08:49:43 2021 +0000 |
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@@ -0,0 +1,103 @@ +0 -6.0000005 +1 -5.916667 +2 -5.833334 +3 -5.7500005 +4 -5.666667 +5 -5.583334 +6 -5.5000005 +7 -5.416667 +8 -5.333334 +9 -5.2500005 +10 -5.166667 +11 -5.083334 +12 -5.0000005 +13 -4.9166675 +14 -4.833334 +15 -4.7500005 +16 -4.6666675 +17 -4.583334 +18 -4.5000005 +19 -4.4166675 +20 -4.333334 +21 -4.2500005 +22 -4.1666675 +23 -4.083334 +24 -4.0000005 +25 -3.9166672 +26 -3.833334 +27 -3.7500007 +28 -3.6666672 +29 -3.583334 +30 -3.5000007 +31 -3.4166672 +32 -3.333334 +33 -3.2500007 +34 -3.1666672 +35 -3.083334 +36 -3.0000007 +37 -2.9166672 +38 -2.833334 +39 -2.7500007 +40 -2.6666672 +41 -2.583334 +42 -2.5000007 +43 -2.4166672 +44 -2.333334 +45 -2.2500007 +46 -2.1666672 +47 -2.083334 +48 -2.0000007 +49 -1.9166673 +50 -1.833334 +51 -1.7500007 +52 -1.6666673 +53 -1.5833341 +54 -1.5000007 +55 -1.4166673 +56 -1.3333341 +57 -1.2500007 +58 -1.1666673 +59 -1.0833341 +60 -1.0000007 +61 -0.9166674 +62 -0.8333341 +63 -0.7500007 +64 -0.6666674 +65 -0.5833341 +66 -0.5000007 +67 -0.4166674 +68 -0.3333341 +69 -0.25000075 +70 -0.16666742 +71 -0.08333409 +72 -7.6e-07 +73 0.08333257 +74 0.1666659 +75 0.24999923 +76 0.33333257 +77 0.41666588 +78 0.49999923 +79 0.58333254 +80 0.66666585 +81 0.7499992 +82 0.83333254 +83 0.91666585 +84 0.9999992 +85 1.0833325 +86 1.1666659 +87 1.2499992 +88 1.3333325 +89 1.4166658 +90 1.4999992 +91 1.5833325 +92 1.6666658 +93 1.7499992 +94 1.8333325 +95 1.9166658 +96 1.9999992 +97 2.0833325 +98 2.1666658 +99 2.249999 +100 2.3333325 +101 2.4166658 +102 2.499999 |
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diff -r e8650cdf092f -r 663268794710 test-data/time.tabular --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/time.tabular Sun Jun 06 08:49:43 2021 +0000 |
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diff -r e8650cdf092f -r 663268794710 test-data/version.tabular --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/version.tabular Sun Jun 06 08:49:43 2021 +0000 |
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@@ -0,0 +1,1 @@ +Galaxy xarray version 0.18.2 |
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diff -r e8650cdf092f -r 663268794710 xarray_mapplot.py --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/xarray_mapplot.py Sun Jun 06 08:49:43 2021 +0000 |
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b'@@ -0,0 +1,457 @@\n+#!/usr/bin/env python3\n+#\n+#\n+# usage: xarray_mapplot.py [-h] [--proj PROJ]\n+# [--cmap CMAP]\n+# [--output OUTPUT]\n+# [--time TIMES]\n+# [--nrow NROW]\n+# [--ncol NCOL]\n+# [--title title]\n+# [--latitude LATITUDE]\n+# [--longitude LONGITUDE]\n+# [--land ALPHA-LAND]\n+# [--ocean ALPHA-OCEAN]\n+# [--coastline ALPHA-COASTLINE]\n+# [--borders ALPHA-BORDERS]\n+# [--xlim "x1,x2"]\n+# [--ylim "y1,y2"]\n+# [--range "valmin,valmax"]\n+# [--threshold VAL]\n+# [--label label-colorbar]\n+# [--shift]\n+# [-v]\n+# input varname\n+#\n+# positional arguments:\n+# input input filename with geographical coordinates (netCDF\n+# format)\n+# varname Specify which variable to plot (case sensitive)\n+#\n+# optional arguments:\n+# -h, --help show this help message and exit\n+# --proj PROJ Specify the projection on which we draw\n+# --cmap CMAP Specify which colormap to use for plotting\n+# --output OUTPUT output filename to store resulting image (png format)\n+# --time TIMES time index from the file for multiple plots ("0 1 2 3")\n+# --title plot or subplot title\n+# --latitude variable name for latitude\n+# --longitude variable name for longitude\n+# --land add land on plot with alpha value [0-1]\n+# --ocean add oceans on plot with alpha value [0-1]\n+# --coastline add coastline with alpha value [0-1]\n+# --borders add country borders with alpha value [0-1]\n+# --xlim limited geographical area longitudes "x1,x2"\n+# --ylim limited geographical area latitudes "y1,y2"\n+# --range "valmin,valmax" for plotting\n+# --threshold do not plot values below threshold\n+# --label set a label for colormap\n+# --shift shift longitudes if specified\n+# -v, --verbose switch on verbose mode\n+#\n+\n+import argparse\n+import ast\n+import warnings\n+from pathlib import Path\n+\n+import cartopy.crs as ccrs\n+import cartopy.feature as feature\n+\n+from cmcrameri import cm\n+\n+import matplotlib as mpl\n+mpl.use(\'Agg\')\n+from matplotlib import pyplot # noqa: I202,E402\n+\n+import xarray as xr # noqa: E402\n+\n+\n+class MapPlotXr ():\n+ def __init__(self, input, proj, varname, cmap, output, verbose=False,\n+ time=[], title="", latitude="latitude",\n+ longitude="longitude", land=0, ocean=0,\n+ coastline=0, borders=0, xlim=[], ylim=[],\n+ threshold="", label="", shift=False,\n+ range_values=[]):\n+ self.input = input\n+ print("PROJ", proj)\n+ if proj != "" and proj is not None:\n+ self.proj = proj.replace(\'X\', \':\')\n+ else:\n+ self.proj = proj\n+ self.varname = varname\n+ self.get_cmap(cmap)\n+ self.time = time\n+ self.latitude = latitude\n+ self.longitude = longitude\n+ self.land = land\n+ self.ocean = ocean\n+ self.coastline = coastline\n+ self.borders = borders\n+ self.xlim = xlim\n+ self.ylim = ylim\n+ self.range = range_values\n+ self.threshold = threshold\n+ self.shift = shift\n+ self.xylim_supported = False\n+ self.colorbar = True\n+ self.title = title\n+ if output is None:\n+ self.output = Path(input).stem + \'.png\'\n+ else:\n+ self.output = output\n+ self.verbose = ve'..b't filename with geographical coordinates (netCDF format)\'\n+ )\n+\n+ parser.add_argument(\n+ \'--proj\',\n+ help=\'Specify the projection on which we draw\'\n+ )\n+ parser.add_argument(\n+ \'varname\',\n+ help=\'Specify which variable to plot (case sensitive)\'\n+ )\n+ parser.add_argument(\n+ \'--cmap\',\n+ help=\'Specify which colormap to use for plotting\'\n+ )\n+ parser.add_argument(\n+ \'--output\',\n+ help=\'output filename to store resulting image (png format)\'\n+ )\n+ parser.add_argument(\n+ \'--time\',\n+ help=\'list of times to plot for multiple plots\'\n+ )\n+ parser.add_argument(\n+ \'--title\',\n+ help=\'plot title\'\n+ )\n+ parser.add_argument(\n+ \'--latitude\',\n+ help=\'variable name for latitude\'\n+ )\n+ parser.add_argument(\n+ \'--longitude\',\n+ help=\'variable name for longitude\'\n+ )\n+ parser.add_argument(\n+ \'--land\',\n+ help=\'add land on plot with alpha value [0-1]\'\n+ )\n+ parser.add_argument(\n+ \'--ocean\',\n+ help=\'add oceans on plot with alpha value [0-1]\'\n+ )\n+ parser.add_argument(\n+ \'--coastline\',\n+ help=\'add coastline with alpha value [0-1]\'\n+ )\n+ parser.add_argument(\n+ \'--borders\',\n+ help=\'add country borders with alpha value [0-1]\'\n+ )\n+ parser.add_argument(\n+ \'--xlim\',\n+ help=\'limited geographical area longitudes "x1,x2"\'\n+ )\n+ parser.add_argument(\n+ \'--ylim\',\n+ help=\'limited geographical area latitudes "y1,y2"\'\n+ )\n+ parser.add_argument(\n+ \'--range\',\n+ help=\'min and max values for plotting "minval,maxval"\'\n+ )\n+ parser.add_argument(\n+ \'--threshold\',\n+ help=\'do not plot values below threshold\'\n+ )\n+ parser.add_argument(\n+ \'--label\',\n+ help=\'set a label for colorbar\'\n+ )\n+ parser.add_argument(\n+ \'--shift\',\n+ help=\'shift longitudes if specified\',\n+ action="store_true"\n+ )\n+ parser.add_argument(\n+ "-v", "--verbose",\n+ help="switch on verbose mode",\n+ action="store_true")\n+ args = parser.parse_args()\n+\n+ if args.time is None:\n+ time = []\n+ else:\n+ time = list(map(int, args.time.split(",")))\n+ if args.xlim is None:\n+ xlim = []\n+ else:\n+ xlim = list(map(float, args.xlim.split(",")))\n+ if args.ylim is None:\n+ ylim = []\n+ else:\n+ ylim = list(map(float, args.ylim.split(",")))\n+ if args.range is None:\n+ range_values = []\n+ else:\n+ range_values = list(map(float, args.range.split(",")))\n+ if args.latitude is None:\n+ latitude = "latitude"\n+ else:\n+ latitude = args.latitude\n+ if args.longitude is None:\n+ longitude = "longitude"\n+ else:\n+ longitude = args.longitude\n+ if args.land is None:\n+ land = 0\n+ else:\n+ land = float(args.land)\n+ if args.ocean is None:\n+ ocean = 0\n+ else:\n+ ocean = float(args.ocean)\n+ if args.coastline is None:\n+ coastline = 0\n+ else:\n+ coastline = float(args.coastline)\n+ if args.borders is None:\n+ borders = 0\n+ else:\n+ borders = float(args.borders)\n+\n+ dset = MapPlotXr(input=args.input, proj=args.proj, varname=args.varname,\n+ cmap=args.cmap, output=args.output, verbose=args.verbose,\n+ time=time, title=args.title,\n+ latitude=latitude, longitude=longitude, land=land,\n+ ocean=ocean, coastline=coastline, borders=borders,\n+ xlim=xlim, ylim=ylim, threshold=args.threshold,\n+ label=args.label, shift=args.shift,\n+ range_values=range_values)\n+\n+ if dset.time == []:\n+ dset.plot()\n+ else:\n+ for t in dset.time:\n+ dset.plot(t)\n+ dset.shift = False # only shift once\n+ dset.colorbar = True\n' |
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diff -r e8650cdf092f -r 663268794710 xarray_metadata_info.xml --- a/xarray_metadata_info.xml Sat Oct 31 11:00:53 2020 +0000 +++ b/xarray_metadata_info.xml Sun Jun 06 08:49:43 2021 +0000 |
[ |
@@ -1,11 +1,15 @@ -<tool id="xarray_metadata_info" name="NetCDF xarray Metadata Info" version="0.15.1"> +<tool id="xarray_metadata_info" name="NetCDF xarray Metadata Info" version="@TOOL_VERSION@+galaxy@VERSION_SUFFIX@"> <description>summarize content of a Netcdf file</description> + <macros> + <import>macros.xml</import> + </macros> + <expand macro="edam_ontology"/> <requirements> <requirement type="package" version="3">python</requirement> - <requirement type="package" version="1.5.3">netcdf4</requirement> - <requirement type="package" version="0.15.1">xarray</requirement> - <requirement type="package" version="0.7.0">geopandas</requirement> - <requirement type="package" version="1.7.0">shapely</requirement> + <requirement type="package" version="1.5.6">netcdf4</requirement> + <requirement type="package" version="@TOOL_VERSION@">xarray</requirement> + <requirement type="package" version="0.9.0">geopandas</requirement> + <requirement type="package" version="1.7.1">shapely</requirement> </requirements> <command detect_errors="exit_code"><![CDATA[ python3 '$__tool_directory__/xarray_tool.py' '$input' --info '$info' --summary '$output' @@ -43,10 +47,6 @@ </output> </test> </tests> - <edam_topics> - <edam_topic>topic_0610</edam_topic> - <edam_topic>topic_3050</edam_topic> - </edam_topics> <help><![CDATA[ **What it does** @@ -82,5 +82,5 @@ Run this tool before considering using Netcdf Read. ]]></help> - + <expand macro="citations"/> </tool> |
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diff -r e8650cdf092f -r 663268794710 xarray_netcdf2netcdf.py --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/xarray_netcdf2netcdf.py Sun Jun 06 08:49:43 2021 +0000 |
[ |
@@ -0,0 +1,133 @@ +#!/usr/bin/env python3 +# +# Apply operations on selected variables +# - scale +# one can also select the range of time (for timeseries) +# to apply these operations over the range only +# when a range of time is selected and when scaling, one +# can choose to save the entire timeseries or +# the selected range only. +# when scaling, one can add additional filters on dimensions +# (typically used to filter over latitudes and longitudes) + + +import argparse +import warnings + +import xarray as xr # noqa: E402 + + +class netCDF2netCDF (): + def __init__(self, infile, varname, scale="", + output="output.netcdf", + write_all=False, + filter_list="", + verbose=False): + self.infile = infile + self.verbose = verbose + self.varname = varname + self.write_all = write_all + self.filter = filter_list + self.selection = {} + if scale == "" or scale is None: + self.scale = 1 + else: + self.scale = float(scale) + if output is None: + self.output = "output.netcdf" + else: + self.output = output + # initialization + self.dset = None + self.subset = None + if self.verbose: + print("infile: ", self.infile) + print("varname: ", self.varname) + print("filter_list: ", self.filter) + print("scale: ", self.scale) + print("write_all: ", self.write_all) + print("output: ", self.output) + + def dimension_selection(self, single_filter): + split_filter = single_filter.split('#') + dimension_varname = split_filter[0] + op = split_filter[1] + ll = int(split_filter[2]) + if (op == 'sl'): + rl = int(split_filter[3]) + self.selection[dimension_varname] = slice(ll, rl) + elif (op == 'to'): + self.selection[dimension_varname] = slice(None, ll) + elif (op == 'from'): + self.selection[dimension_varname] = slice(ll, None) + elif (op == 'is'): + self.selection[dimension_varname] = ll + + def filter_selection(self): + for single_filter in self.filter: + self.dimension_selection(single_filter) + if self.write_all: + self.ds[self.varname] = \ + self.ds[self.varname].isel(self.selection)*self.scale + else: + self.dset = \ + self.ds[self.varname].isel(self.selection)*self.scale + + def compute(self): + if self.dset is None: + self.ds = xr.open_dataset(self.infile) + if self.filter: + self.filter_selection() + if self.verbose: + print(self.selection) + elif self.write_all is not None: + self.dset = self.ds[self.varname] + + def save(self): + if self.write_all: + self.ds.to_netcdf(self.output) + else: + self.dset.to_netcdf(self.output) + + +if __name__ == '__main__': + warnings.filterwarnings("ignore") + parser = argparse.ArgumentParser() + parser.add_argument( + 'input', + help='input filename in netCDF format' + ) + parser.add_argument( + 'varname', + help='Specify which variable to plot (case sensitive)' + ) + parser.add_argument( + '--filter', + nargs="*", + help='Filter list variable#operator#value_s#value_e' + ) + parser.add_argument( + '--output', + help='Output filename to store the resulting netCDF file' + ) + parser.add_argument( + '--scale', + help='scale factor to apply to selection (float)' + ) + parser.add_argument( + "--write_all", + help="write all data to netCDF", + action="store_true") + parser.add_argument( + "-v", "--verbose", + help="switch on verbose mode", + action="store_true") + args = parser.parse_args() + + dset = netCDF2netCDF(infile=args.input, varname=args.varname, + scale=args.scale, output=args.output, + filter_list=args.filter, + write_all=args.write_all, + verbose=args.verbose) + dset.compute() + dset.save() |
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diff -r e8650cdf092f -r 663268794710 xarray_tool.py --- a/xarray_tool.py Sat Oct 31 11:00:53 2020 +0000 +++ b/xarray_tool.py Sun Jun 06 08:49:43 2021 +0000 |
[ |
@@ -4,6 +4,7 @@ import argparse import csv +import os import warnings import geopandas as gdp @@ -21,8 +22,8 @@ select="", outfile="", outputdir="", latname="", latvalN="", latvalS="", lonname="", lonvalE="", lonvalW="", filter_list="", coords="", time="", - verbose=False - ): + verbose=False, no_missing=False, coords_info=None, + tolerance=None): self.infile = infile self.outfile_info = outfile_info self.outfile_summary = outfile_summary @@ -30,6 +31,10 @@ self.outfile = outfile self.outputdir = outputdir self.latname = latname + if tolerance != "" and tolerance is not None: + self.tolerance = float(tolerance) + else: + self.tolerance = -1 if latvalN != "" and latvalN is not None: self.latvalN = float(latvalN) else: @@ -51,9 +56,11 @@ self.time = time self.coords = coords self.verbose = verbose + self.no_missing = no_missing # initialization self.dset = None self.gset = None + self.coords_info = coords_info if self.verbose: print("infile: ", self.infile) print("outfile_info: ", self.outfile_info) @@ -71,6 +78,7 @@ print("filter: ", self.filter) print("time: ", self.time) print("coords: ", self.coords) + print("coords_info: ", self.coords_info) def info(self): f = open(self.outfile_info, 'w') @@ -113,7 +121,9 @@ if filter_varname == self.select: # filter on values of the selected variable if op == 'bi': - self.dset = self.dset.where((self.dset <= rl) & (self.dset >= ll)) + self.dset = self.dset.where( + (self.dset <= rl) & (self.dset >= ll) + ) elif op == 'le': self.dset = self.dset.where(self.dset <= ll) elif op == 'ge': @@ -141,9 +151,21 @@ self.filter_selection() self.area_selection() - # convert to dataframe - self.gset = self.gset.to_dataframe().dropna(how='all').reset_index() - self.gset.to_csv(self.outfile, header=True, sep='\t') + if self.gset.count() > 1: + # convert to dataframe if several rows and cols + self.gset = self.gset.to_dataframe().dropna(how='all'). \ + reset_index() + self.gset.to_csv(self.outfile, header=True, sep='\t') + else: + data = { + self.latname: [self.gset[self.latname].values], + self.lonname: [self.gset[self.lonname].values], + self.select: [self.gset.values] + } + + df = pd.DataFrame(data, columns=[self.latname, self.lonname, + self.select]) + df.to_csv(self.outfile, header=True, sep='\t') def datetime_selection(self): split_filter = self.time.split('#') @@ -165,6 +187,7 @@ self.rowfilter(single_filter) def area_selection(self): + if self.latvalS != "" and self.lonvalW != "": # Select geographical area self.gset = self.dset.sel({self.latname: @@ -173,10 +196,21 @@ slice(self.lonvalW, self.lonvalE)}) elif self.latvalN != "" and self.lonvalE != "": # select nearest location - self.nearest_location() # find nearest location without NaN values - self.gset = self.dset.sel({self.latname: self.nearest_latvalN, - self.lonname: self.nearest_lonvalE}, - method='nearest') + if self.no_missing: + self.nearest_latvalN = self.latvalN + self.nearest_lonvalE = self.lonvalE + else: + # find nearest location without NaN values + self.nearest_location() + if self.tolerance > 0: + self.gset = self.dset.sel({self.latname: self.nearest_latvalN, + self.lonname: self.nearest_lonvalE}, + method='nearest', + tolerance=self.tolerance) + else: + self.gset = self.dset.sel({self.latname: self.nearest_latvalN, + self.lonname: self.nearest_lonvalE}, + method='nearest') else: self.gset = self.dset @@ -206,9 +240,21 @@ for row in fcoords.itertuples(): self.latvalN = row[0] self.lonvalE = row[1] - self.outfile = (self.outputdir + '/' + self.select + '_' + str(row.Index) + '.tabular') + self.outfile = (os.path.join(self.outputdir, + self.select + '_' + + str(row.Index) + '.tabular')) self.selection() + def get_coords_info(self): + ds = xr.open_dataset(self.infile) + for c in ds.coords: + filename = os.path.join(self.coords_info, + c.strip() + + '.tabular') + pd = ds.coords[c].to_pandas() + pd.index = range(len(pd)) + pd.to_csv(filename, header=False, sep='\t') + if __name__ == '__main__': warnings.filterwarnings("ignore") @@ -255,11 +301,21 @@ help='West longitude value' ) parser.add_argument( + '--tolerance', + help='Maximum distance between original and selected value for ' + ' inexact matches e.g. abs(index[indexer] - target) <= tolerance' + ) + parser.add_argument( '--coords', help='Input file containing Latitude and Longitude' 'for geographical selection' ) parser.add_argument( + '--coords_info', + help='output-folder where for each coordinate, coordinate values ' + ' are being printed in the corresponding outputfile' + ) + parser.add_argument( '--filter', nargs="*", help='Filter list variable#operator#value_s#value_e' @@ -283,13 +339,20 @@ help="switch on verbose mode", action="store_true" ) + parser.add_argument( + "--no_missing", + help="""Do not take into account possible null/missing values + (only valid for single location)""", + action="store_true" + ) args = parser.parse_args() p = XarrayTool(args.infile, args.info, args.summary, args.select, args.outfile, args.outputdir, args.latname, args.latvalN, args.latvalS, args.lonname, args.lonvalE, args.lonvalW, args.filter, - args.coords, args.time, args.verbose) + args.coords, args.time, args.verbose, + args.no_missing, args.coords_info, args.tolerance) if args.info: p.info() if args.summary: @@ -298,3 +361,5 @@ p.selection_from_coords() elif args.select: p.selection() + elif args.coords_info: + p.get_coords_info() |