| # Licensed to the Apache Software Foundation (ASF) under one or more |
| # contributor license agreements. See the NOTICE file distributed with |
| # this work for additional information regarding copyright ownership. |
| # The ASF licenses this file to You under the Apache License, Version 2.0 |
| # (the "License"); you may not use this file except in compliance with |
| # the License. You may obtain a copy of the License at |
| # |
| # http://www.apache.org/licenses/LICENSE-2.0 |
| # |
| # Unless required by applicable law or agreed to in writing, software |
| # distributed under the License is distributed on an "AS IS" BASIS, |
| # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| # See the License for the specific language governing permissions and |
| # limitations under the License. |
| |
| import unittest |
| from os import path |
| |
| import numpy as np |
| from nexusproto.serialization import from_shaped_array |
| from nexusproto import DataTile_pb2 as nexusproto |
| |
| import sdap.processors |
| |
| |
| class TestReadMurData(unittest.TestCase): |
| def setUp(self): |
| self.module = sdap.processors.GridReadingProcessor('analysed_sst', 'lat', 'lon', time='time') |
| |
| def test_read_empty_mur(self): |
| test_file = path.join(path.dirname(__file__), 'datafiles', 'empty_mur.nc4') |
| |
| input_tile = nexusproto.NexusTile() |
| tile_summary = nexusproto.TileSummary() |
| tile_summary.granule = "file:%s" % test_file |
| tile_summary.section_spec = "time:0:1,lat:0:10,lon:0:10" |
| input_tile.summary.CopyFrom(tile_summary) |
| |
| results = list(self.module.process(input_tile)) |
| |
| self.assertEqual(1, len(results)) |
| |
| for nexus_tile in results: |
| self.assertTrue(nexus_tile.HasField('tile')) |
| self.assertTrue(nexus_tile.tile.HasField('grid_tile')) |
| |
| tile = nexus_tile.tile.grid_tile |
| self.assertEqual(10, len(from_shaped_array(tile.latitude))) |
| self.assertEqual(10, len(from_shaped_array(tile.longitude))) |
| |
| the_data = np.ma.masked_invalid(from_shaped_array(tile.variable_data)) |
| self.assertEqual((1, 10, 10), the_data.shape) |
| self.assertEqual(0, np.ma.count(the_data)) |
| self.assertTrue(tile.time) |
| |
| def test_read_not_empty_mur(self): |
| test_file = path.join(path.dirname(__file__), 'datafiles', 'not_empty_mur.nc4') |
| |
| input_tile = nexusproto.NexusTile() |
| tile_summary = nexusproto.TileSummary() |
| tile_summary.granule = "file:%s" % test_file |
| tile_summary.section_spec = "time:0:1,lat:0:10,lon:0:10" |
| input_tile.summary.CopyFrom(tile_summary) |
| |
| results = list(self.module.process(input_tile)) |
| |
| self.assertEqual(1, len(results)) |
| |
| tile1_data = np.ma.masked_invalid(from_shaped_array(results[0].tile.grid_tile.variable_data)) |
| self.assertEqual((1, 10, 10), tile1_data.shape) |
| self.assertEqual(100, np.ma.count(tile1_data)) |
| |
| |
| class TestReadAscatbData(unittest.TestCase): |
| # for data in read_swath_data(None, |
| # "NUMROWS:0:1,NUMCELLS:0:5;NUMROWS:1:2,NUMCELLS:0:5;file:///Users/greguska/data/ascat/ascat_20130314_004801_metopb_02520_eps_o_coa_2101_ovw.l2.nc"): |
| # import sys |
| # from struct import pack |
| # sys.stdout.write(pack("!L", len(data)) + data) |
| |
| # VARIABLE=wind_speed,LATITUDE=lat,LONGITUDE=lon,TIME=time,META=wind_dir,READER=SWATHTILE,TEMP_DIR=/tmp |
| def test_read_not_empty_ascatb(self): |
| test_file = path.join(path.dirname(__file__), 'datafiles', 'not_empty_ascatb.nc4') |
| |
| swath_reader = sdap.processors.SwathReadingProcessor('wind_speed', 'lat', 'lon', time='time') |
| |
| input_tile = nexusproto.NexusTile() |
| tile_summary = nexusproto.TileSummary() |
| tile_summary.granule = "file:%s" % test_file |
| tile_summary.section_spec = "NUMROWS:0:1,NUMCELLS:0:82" |
| input_tile.summary.CopyFrom(tile_summary) |
| |
| results = list(swath_reader.process(input_tile)) |
| |
| self.assertEqual(1, len(results)) |
| |
| for nexus_tile in results: |
| self.assertTrue(nexus_tile.HasField('tile')) |
| self.assertTrue(nexus_tile.tile.HasField('swath_tile')) |
| self.assertEqual(0, len(nexus_tile.tile.swath_tile.meta_data)) |
| |
| tile = nexus_tile.tile.swath_tile |
| self.assertEqual(82, from_shaped_array(tile.latitude).size) |
| self.assertEqual(82, from_shaped_array(tile.longitude).size) |
| |
| tile1_data = np.ma.masked_invalid(from_shaped_array(results[0].tile.swath_tile.variable_data)) |
| self.assertEqual((1, 82), tile1_data.shape) |
| self.assertEqual(82, np.ma.count(tile1_data)) |
| |
| def test_read_not_empty_ascatb_meta(self): |
| # with open('./ascat_longitude_more_than_180.bin', 'w') as f: |
| # results = list(self.module.read_swath_data(None, |
| # "NUMROWS:0:1,NUMCELLS:0:82;NUMROWS:1:2,NUMCELLS:0:82;file:///Users/greguska/Downloads/ascat_longitude_more_than_180.nc4")) |
| # f.write(results[0]) |
| |
| test_file = path.join(path.dirname(__file__), 'datafiles', 'not_empty_ascatb.nc4') |
| |
| swath_reader = sdap.processors.SwathReadingProcessor('wind_speed', 'lat', 'lon', time='time', meta='wind_dir') |
| |
| input_tile = nexusproto.NexusTile() |
| tile_summary = nexusproto.TileSummary() |
| tile_summary.granule = "file:%s" % test_file |
| tile_summary.section_spec = "NUMROWS:0:1,NUMCELLS:0:82" |
| input_tile.summary.CopyFrom(tile_summary) |
| |
| results = list(swath_reader.process(input_tile)) |
| |
| self.assertEqual(1, len(results)) |
| |
| for nexus_tile in results: |
| self.assertTrue(nexus_tile.HasField('tile')) |
| self.assertTrue(nexus_tile.tile.HasField('swath_tile')) |
| self.assertLess(0, len(nexus_tile.tile.swath_tile.meta_data)) |
| |
| self.assertEqual(1, len(results[0].tile.swath_tile.meta_data)) |
| tile1_meta_data = np.ma.masked_invalid(from_shaped_array(results[0].tile.swath_tile.meta_data[0].meta_data)) |
| self.assertEqual((1, 82), tile1_meta_data.shape) |
| self.assertEqual(82, np.ma.count(tile1_meta_data)) |
| |
| |
| class TestReadSmapData(unittest.TestCase): |
| def test_read_not_empty_smap(self): |
| test_file = path.join(path.dirname(__file__), 'datafiles', 'not_empty_smap.h5') |
| |
| swath_reader = sdap.processors.SwathReadingProcessor('smap_sss', 'lat', 'lon', |
| time='row_time', |
| glblattr_day='REV_START_TIME', |
| glblattr_day_format='%Y-%jT%H:%M:%S.%f') |
| |
| input_tile = nexusproto.NexusTile() |
| tile_summary = nexusproto.TileSummary() |
| tile_summary.granule = "file:%s" % test_file |
| tile_summary.section_spec = "phony_dim_0:0:76,phony_dim_1:0:1" |
| input_tile.summary.CopyFrom(tile_summary) |
| |
| results = list(swath_reader.process(input_tile)) |
| |
| self.assertEqual(1, len(results)) |
| |
| # with open('./smap_nonempty_nexustile.bin', 'w') as f: |
| # f.write(results[0]) |
| |
| for nexus_tile in results: |
| self.assertTrue(nexus_tile.HasField('tile')) |
| self.assertTrue(nexus_tile.tile.HasField('swath_tile')) |
| self.assertEqual(0, len(nexus_tile.tile.swath_tile.meta_data)) |
| |
| tile = nexus_tile.tile.swath_tile |
| self.assertEqual(76, from_shaped_array(tile.latitude).size) |
| self.assertEqual(76, from_shaped_array(tile.longitude).size) |
| |
| tile1_data = np.ma.masked_invalid(from_shaped_array(results[0].tile.swath_tile.variable_data)) |
| self.assertEqual((76, 1), tile1_data.shape) |
| self.assertEqual(43, np.ma.count(tile1_data)) |
| self.assertAlmostEqual(-50.056, |
| np.ma.min(np.ma.masked_invalid(from_shaped_array(results[0].tile.swath_tile.latitude))), |
| places=3) |
| self.assertAlmostEqual(-47.949, |
| np.ma.max(np.ma.masked_invalid(from_shaped_array(results[0].tile.swath_tile.latitude))), |
| places=3) |
| |
| self.assertEqual(1427820162, np.ma.masked_invalid(from_shaped_array(results[0].tile.swath_tile.time))[0]) |
| |
| |
| class TestReadCcmpData(unittest.TestCase): |
| |
| def test_read_not_empty_ccmp(self): |
| test_file = path.join(path.dirname(__file__), 'datafiles', 'not_empty_ccmp.nc') |
| |
| ccmp_reader = sdap.processors.GridReadingProcessor('uwnd', 'latitude', 'longitude', time='time', meta='vwnd') |
| |
| input_tile = nexusproto.NexusTile() |
| tile_summary = nexusproto.TileSummary() |
| tile_summary.granule = "file:%s" % test_file |
| tile_summary.section_spec = "time:0:1,longitude:0:87,latitude:0:38" |
| input_tile.summary.CopyFrom(tile_summary) |
| |
| results = list(ccmp_reader.process(input_tile)) |
| |
| self.assertEqual(1, len(results)) |
| |
| # with open('./ccmp_nonempty_nexustile.bin', 'w') as f: |
| # f.write(results[0]) |
| |
| for nexus_tile in results: |
| self.assertTrue(nexus_tile.HasField('tile')) |
| self.assertTrue(nexus_tile.tile.HasField('grid_tile')) |
| self.assertEqual(1, len(nexus_tile.tile.grid_tile.meta_data)) |
| |
| tile = nexus_tile.tile.grid_tile |
| self.assertEqual(38, from_shaped_array(tile.latitude).size) |
| self.assertEqual(87, from_shaped_array(tile.longitude).size) |
| self.assertEqual((1, 38, 87), from_shaped_array(tile.variable_data).shape) |
| |
| tile1_data = np.ma.masked_invalid(from_shaped_array(results[0].tile.grid_tile.variable_data)) |
| self.assertEqual(3306, np.ma.count(tile1_data)) |
| self.assertAlmostEqual(-78.375, |
| np.ma.min(np.ma.masked_invalid(from_shaped_array(results[0].tile.grid_tile.latitude))), |
| places=3) |
| self.assertAlmostEqual(-69.125, |
| np.ma.max(np.ma.masked_invalid(from_shaped_array(results[0].tile.grid_tile.latitude))), |
| places=3) |
| |
| self.assertEqual(1451606400, results[0].tile.grid_tile.time) |
| |
| |
| class TestReadAvhrrData(unittest.TestCase): |
| def test_read_not_empty_avhrr(self): |
| test_file = path.join(path.dirname(__file__), 'datafiles', 'not_empty_avhrr.nc4') |
| |
| avhrr_reader = sdap.processors.GridReadingProcessor('analysed_sst', 'lat', 'lon', time='time') |
| |
| input_tile = nexusproto.NexusTile() |
| tile_summary = nexusproto.TileSummary() |
| tile_summary.granule = "file:%s" % test_file |
| tile_summary.section_spec = "time:0:1,lat:0:10,lon:0:10" |
| input_tile.summary.CopyFrom(tile_summary) |
| |
| results = list(avhrr_reader.process(input_tile)) |
| |
| self.assertEqual(1, len(results)) |
| |
| for nexus_tile in results: |
| self.assertTrue(nexus_tile.HasField('tile')) |
| self.assertTrue(nexus_tile.tile.HasField('grid_tile')) |
| |
| tile = nexus_tile.tile.grid_tile |
| self.assertEqual(10, from_shaped_array(tile.latitude).size) |
| self.assertEqual(10, from_shaped_array(tile.longitude).size) |
| self.assertEqual((1, 10, 10), from_shaped_array(tile.variable_data).shape) |
| |
| tile1_data = np.ma.masked_invalid(from_shaped_array(results[0].tile.grid_tile.variable_data)) |
| self.assertEqual(100, np.ma.count(tile1_data)) |
| self.assertAlmostEqual(-39.875, |
| np.ma.min(np.ma.masked_invalid(from_shaped_array(results[0].tile.grid_tile.latitude))), |
| places=3) |
| self.assertAlmostEqual(-37.625, |
| np.ma.max(np.ma.masked_invalid(from_shaped_array(results[0].tile.grid_tile.latitude))), |
| places=3) |
| |
| self.assertEqual(1462060800, results[0].tile.grid_tile.time) |
| self.assertAlmostEqual(289.71, |
| np.ma.masked_invalid(from_shaped_array(results[0].tile.grid_tile.variable_data))[ |
| 0, 0, 0], |
| places=3) |
| |
| |
| class TestReadWSWMData(unittest.TestCase): |
| |
| def test_read_not_empty_wswm(self): |
| test_file = path.join(path.dirname(__file__), 'datafiles', 'not_empty_wswm.nc') |
| |
| wswm_reader = sdap.processors.TimeSeriesReadingProcessor('Qout', 'lat', 'lon', 'time') |
| |
| input_tile = nexusproto.NexusTile() |
| tile_summary = nexusproto.TileSummary() |
| tile_summary.granule = "file:%s" % test_file |
| tile_summary.section_spec = "time:0:1,rivid:0:500" |
| input_tile.summary.CopyFrom(tile_summary) |
| |
| results = list(wswm_reader.process(input_tile)) |
| |
| self.assertEqual(1, len(results)) |
| |
| for nexus_tile in results: |
| self.assertTrue(nexus_tile.HasField('tile')) |
| self.assertTrue(nexus_tile.tile.HasField('time_series_tile')) |
| |
| tile = nexus_tile.tile.time_series_tile |
| self.assertEqual(500, from_shaped_array(tile.latitude).size) |
| self.assertEqual(500, from_shaped_array(tile.longitude).size) |
| self.assertEqual((1, 500), from_shaped_array(tile.variable_data).shape) |
| |
| tile1_data = np.ma.masked_invalid(from_shaped_array(results[0].tile.time_series_tile.variable_data)) |
| self.assertEqual(500, np.ma.count(tile1_data)) |
| self.assertAlmostEqual(41.390, |
| np.ma.min( |
| np.ma.masked_invalid(from_shaped_array(results[0].tile.time_series_tile.latitude))), |
| places=3) |
| self.assertAlmostEqual(42.071, |
| np.ma.max( |
| np.ma.masked_invalid(from_shaped_array(results[0].tile.time_series_tile.latitude))), |
| places=3) |
| |
| self.assertEqual(852098400, results[0].tile.time_series_tile.time) |
| self.assertAlmostEqual(0.009, |
| np.ma.masked_invalid(from_shaped_array(results[0].tile.time_series_tile.variable_data))[ |
| 0, 0], |
| places=3) |
| |
| |
| if __name__ == '__main__': |
| unittest.main() |