Mercurial > repos > pieterlukasse > prims_metabolomics
view test/test_library_lookup.py @ 43:eb0e25d06060
updated dependency
| author | pieter.lukasse@wur.nl |
|---|---|
| date | Fri, 07 Nov 2014 15:55:06 +0100 |
| parents | 60b53f2aa48a |
| children |
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''' Created on Mar 6, 2012 @author: marcelk ''' from GCMS import library_lookup, match_library from pkg_resources import resource_filename # @UnresolvedImport # pylint: disable=E0611 import os import shutil import tempfile import unittest class Test(unittest.TestCase): ''' Tests the 'library_lookup' Galaxy tool ''' def setUp(self): self.ri_database = resource_filename(__name__, "data/RIDB_subset.txt") self.nist_output = resource_filename(__name__, "data/NIST_tabular.txt") self.ridb_poly_regress = resource_filename(__name__, "data/ridb_poly_regression.txt") self.ridb_linear_regress = resource_filename(__name__, "data/ridb_linear_regression.txt") def test_create_lookup_table(self): ''' Tests the 'create_lookup_table' function ''' column_type = 'Capillary' polarity = 'Semi-standard non-polar6' lookup_dict = library_lookup.create_lookup_table(self.ri_database, column_type, polarity) self.assertFalse(False in [res[4] == 'Capillary' for res in lookup_dict['4177166']]) self.assertEqual(['C51276336', '2,6-Dimethyl-octa-1,7-dien-3,6-diol', 'C10H18O2', '1277', 'Capillary', 'Semi-standard non-polar', 'DB-5MS', '1', 'C51276336_DB-5MS', '', '', ''], lookup_dict['51276336'][1]) def test_read_model(self): ''' Tests reading the regression model data containing the parameters required for converting retention indices between GC-columns ''' model, _ = library_lookup._read_model(self.ridb_poly_regress) # Order of values: coefficient 1 through 4, left limit, right limit # Polynomial model self.assertEqual([20.6155874639486, 0.945187096379008, 3.96480787567566e-05, -9.04377237159287e-09, 628.0, 2944.0, 405.0, 0, 0.998685262365514], model['HP-5']['SE-54']) self.assertEqual([-92.3963391356951, 1.26116176393346, -0.000191991657547972, 4.15387371263164e-08, 494.0, 2198.0, 407.0, 0, 0.996665023122993], model['Apiezon L']['Squalane']) # Linear model model, _ = library_lookup._read_model(self.ridb_linear_regress) self.assertEqual([2.81208738561543, 0.99482475526584, 628.0, 2944.0, 405.0, 0, 0.998643883946458], model['HP-5']['SE-54']) self.assertEqual([19.979922768462, 0.993741869298272, 494.0, 2198.0, 407.0, 0, 0.99636062891041], model['Apiezon L']['Squalane']) def test_apply_regression(self): ''' Tests the regression model on some arbitrary retention indices ''' poly_model, _ = library_lookup._read_model(self.ridb_poly_regress) linear_model, _ = library_lookup._read_model(self.ridb_linear_regress) retention_indices = [1000, 1010, 1020, 1030, 1040, 1050] converted_poly = [] converted_linear = [] for ri in retention_indices: converted_poly.append(library_lookup._apply_poly_regression('HP-5', 'DB-5', ri, poly_model)) converted_linear.append(library_lookup._apply_linear_regression('HP-5', 'DB-5', ri, linear_model)) self.assertEqual([1003.0566541860778, 1013.0979459524663, 1023.1358645806529, 1033.170466241159, 1043.2018071045052, 1053.2299433412131], converted_poly) self.assertEqual([1001.8127584915925, 1011.830140783027, 1021.8475230744615, 1031.864905365896, 1041.8822876573306, 1051.899669948765], converted_linear) # Test polynomial limit detection, the following RI falls outside of the possible limits ri = 3400 converted_poly = library_lookup._apply_poly_regression('HP-5', 'DB-5', ri, poly_model) self.assertEqual(False, converted_poly) def test_preferred_hit(self): ''' Tests the matching of the hits with the preferred column, including regression ''' model, method = library_lookup._read_model(self.ridb_poly_regress) column_type = 'Capillary' polarity = 'Semi-standard non-polar' lookup_dict = library_lookup.create_lookup_table(self.ri_database, column_type, polarity) hits = lookup_dict['150867'] # No regression, should however consider order of given preference match = library_lookup._preferred(hits, ['SE-52', 'DB-5', 'HP-5'], column_type, polarity, model, method) expected = (['C150867', '(E)-phytol', 'C20H40O', '2110', 'Capillary', 'Semi-standard non-polar', 'SE-52', '', 'C150867_SE-52', '', '', ''], False) self.assertEqual(expected, match) # Perform regression by looking for 'OV-101' which isn't there. 'SE-52' has the best regression model # of the available columns match = library_lookup._preferred(hits, ['OV-101'], column_type, polarity, model, method) expected = (['C150867', '(E)-phytol', 'C20H40O', 2158.5769891569125, 'Capillary', 'Semi-standard non-polar', 'SE-52', '', 'C150867_SE-52', '', '', ''], 'SE-52') self.assertEqual(expected, match) def test_format_result(self): ''' Tests the 'format_result' function ''' column_type = 'Capillary' polarity = 'Semi-standard non-polar' # Look for DB-5 pref_column = ['DB-5'] model, method = library_lookup._read_model(self.ridb_poly_regress) lookup_dict = library_lookup.create_lookup_table(self.ri_database, column_type, polarity) data = library_lookup.format_result(lookup_dict, self.nist_output, pref_column, column_type, polarity, model, method)#False, None) # remove non-hits from set: data = _get_hits_only(data) self.assertEqual(['C544354', 'Ethyl linoleate', 'C20H36O2', '2155', 'Capillary', 'Semi-standard non-polar', 'DB-5', '1', 'C544354_DB-5', '1810', 'None', '', '', '0'], data[20]) self.assertEqual(111, len(data)) # Look for both DB-5 and HP-5 pref_column = ['DB-5', 'HP-5'] data = library_lookup.format_result(lookup_dict, self.nist_output, pref_column, column_type, polarity, False, None) # remove non-hits from set: data = _get_hits_only(data) self.assertEqual(['C502614', '.beta.-(E)-Farnesene', 'C15H24', '1508', 'Capillary', 'Semi-standard non-polar', 'DB-5', '1', 'C502614_DB-5', '942', 'None', '1482', '1522', '22'], data[50]) self.assertEqual(106, len(data)) def test_save_data(self): ''' Tests the creation of the output tabular file ''' temp_folder = tempfile.mkdtemp(prefix='gcms_combine_output_') saved_data = '{0}/{1}'.format(temp_folder, 'output.tsv') column_type = 'Capillary' polarity = 'Semi-standard non-polar' pref_column = ['DB-5'] lookup_dict = library_lookup.create_lookup_table(self.ri_database, column_type, polarity) data = library_lookup.format_result(lookup_dict, self.nist_output, pref_column, column_type, polarity, False, None) library_lookup._save_data(data, saved_data) self.failUnless(os.path.exists(saved_data)) shutil.rmtree(temp_folder) def test_match_library_get_lib_files(self): ''' Tests the match_library.py functionality ''' riqc_libs_dir = resource_filename(__name__, "../repositories/PRIMS-metabolomics/RI_DB_libraries") get_library_files_output = match_library.get_directory_files(riqc_libs_dir) self.assertEqual(2, len(get_library_files_output)) self.assertEqual("Library_RI_DB_capillary_columns-noDuplicates", get_library_files_output[0][0]) #TODO change assert below to assert that the result is a file, so the test can run on other dirs as well: #self.assertEqual("E:\\workspace\\PRIMS-metabolomics\\python-tools\\tools\\GCMS\\test\\data\\riqc_libs\\RI DB library (capillary columns) Dec.2012.txt", get_library_files_output[0][1]) #self.assertEqual("RI DB library (capillary columns) Jan.2013", get_library_files_output[1][0]) try: get_library_files_output = match_library.get_directory_files("/blah") # should not come here self.assertTrue(False) except: # should come here self.assertTrue(True) def _get_hits_only(data): ''' removes items that have RI == 0.0 and Name == '' (these are dummy lines just for the output ''' result = [] for item_idx in xrange(len(data)): item = data[item_idx] if item[1] != '' and item[3] > 0.0 : result.append(item) return result if __name__ == "__main__": #import sys;sys.argv = ['', 'Test.testName'] unittest.main()