Mercurial > repos > fgiacomoni > bank_inhouse
view t/bih_managerTest.t @ 1:52798007c6b2 draft default tip
Master branch Updating - - Fxx
| author | fgiacomoni |
|---|---|
| date | Thu, 24 Jan 2019 10:02:05 -0500 |
| parents | be582bcd6585 |
| children |
line wrap: on
line source
#! perl use diagnostics; use warnings; no warnings qw/void/; use strict; no strict "refs" ; use Test::More tests => 37 ; use FindBin ; use Data::Dumper ; ## Specific Modules use lib $FindBin::Bin ; my $binPath = $FindBin::Bin ; use lib::bihTest qw( :ALL ) ; ## testing check_interval print "\n-- test whether a value is in the interval defines\n\n" ; #01 is ( check_interval_Test('test', '0', '1'), "'test' isn't a valid number!", 'Works with a value that is not a number'); #02 is ( check_interval_Test('', '0', '1'), "'' isn't a valid number!", 'Works with a value that is not a number'); #03 is ( check_interval_Test('-0.5', '-1', '0'), "OK", 'Works with a negative float'); #04 is ( check_interval_Test('-0.5', '0', '1'), "'-0.5' is below the minimum!", 'Works with a number below the minimum!'); #05 is ( check_interval_Test('2', '0', '1'), "'2' is greater than the maximum!", 'Works with a number greater than the maximum!'); print "\n--\n" ; ## testing format_manual_masses print "\n-- Test format manual list of values lib for values (ex=> masses)\n\n" ; #06 isa_ok( format_manual_list_values_Testvalues('562.0235', ' '), 'ARRAY' ); #07 is_deeply(format_manual_list_values_Testvalues('562.0235', ' '), [562.0235], 'Works with \'562.0235\' for mass'); #08 is_deeply(format_manual_list_values_Testvalues('562.0235 987.4568', ' '), [562.0235, 987.4568], 'Works with \'562.0235 987.4568\' for masses'); #09 is_deeply(format_manual_list_values_Testvalues('562.0235;987.4568', ';'), [562.0235, 987.4568], 'Works with \'562.0235;987.4568\' for masses'); print "\n--\n" ; print "\n-- Test format manual list of values lib for ids\n\n" ; #10 isa_ok( format_manual_list_values_Testids('562.0235', ' '), 'ARRAY' ); #11 is_deeply(format_manual_list_values_Testids('562.0235', ' '), ['value_1'], 'Works with \'562.0235\' for ids'); #12 is_deeply(format_manual_list_values_Testids('562.0235 987.4568', ' '), ['value_1', 'value_2'], 'Works with \'562.0235 987.4568\' for ids'); #13 is_deeply(format_manual_list_values_Testids('562.0235 987.4568 ', ' '), ['value_1', 'value_2'], 'Works with \'562.0235 987.4568 \' for ids'); #14 is_deeply(format_manual_list_values_Testids('562.0235 987.4568 52.0235 98.48 62.0235 987.68 152.05 8.48 562.0235', ' '), ['value_1', 'value_2','value_3', 'value_4','value_5', 'value_6','value_7', 'value_8', 'value_9'], 'Works with 9 masses for ids'); #15 is_deeply(format_manual_list_values_Testids('562.0235 987.4568 52.0235 98.48 62.0235 987.68 152.05 8.48 562.0235 987.4568', ' '), ['value_01', 'value_02','value_03', 'value_04','value_05', 'value_06','value_07', 'value_08', 'value_09', 'value_10'], 'Works with 10 masses for ids'); #16 is_deeply(format_manual_list_values_Testids('562.0235 987.4568 52.0235 98.48 62.0235 987.68 152.05 8.48 562.0235 987.4568 52.0235 98.48 62.0235 987.68 152.05 8.48', ' '), ['value_01', 'value_02','value_03', 'value_04','value_05', 'value_06','value_07', 'value_08', 'value_09', 'value_10', 'value_11', 'value_12', 'value_13', 'value_14', 'value_15', 'value_16'], 'Works with 16 masses for ids'); print "\n--\n" ; ## testing manage_mode #print "\n-- Test manage_mode lib\n\n" ; #09 #isa_ok( manage_mode_Testionization('positive,negative,neutral'), 'ARRAY' ); #10 #is_deeply(manage_mode_Testionization('positive,negative,neutral'), ['positive', 'negative', 'neutral'], 'Works with \'562.0235\' for ids'); #14 #isa_ok( format_manual_list_values_Testids('562.0235 987.4568'), 'ARRAY' ); #15 #is_deeply(format_manual_list_values_Testids('562.0235 987.4568'), ['mass_1', 'mass_2'], 'Works with \'562.0235 987.4568\' for ids'); #16 #is_deeply(format_manual_list_values_Testids('562.0235 987.4568 52.0235 98.48 62.0235 987.68 152.05 8.48 562.0235 987.4568 52.0235 98.48 62.0235 987.68 152.05 8.48'), ['mass_01', 'mass_02','mass_03', 'mass_04','mass_05', 'mass_06','mass_07', 'mass_08', 'mass_09', 'mass_10', 'mass_11', 'mass_12', 'mass_13', 'mass_14', 'mass_15', 'mass_16'], 'Works with 16 masses for ids'); #print "\n--\n" ; ## testing mz_delta_conversion print "\n-- Test mz_delta_conversion lib\n\n" ; #17 is ( mz_delta_conversion_Testmin(100, 'Da', 0.005), 99.995, 'Works with \'100, Da, 0.005\' for minimum'); #18 is ( mz_delta_conversion_Testmax(100, 'Da', 0.005), 100.0051, 'Works with \'100, Da, 0.005\' for maximum'); #19 is ( mz_delta_conversion_Testmin(500, 'Da', 0.005), 499.995, 'Works with \'500, Da, 0.005\' for minimum'); #20 is ( mz_delta_conversion_Testmax(500, 'Da', 0.005), 500.0051, 'Works with \'500, Da, 0.005\' for maximum'); #20.1 is ( mz_delta_conversion_Testmax(500.159989, 'Da', 0.005), 500.1649891, 'Works with \'500, Da, 0.005\' for maximum'); #21 is ( mz_delta_conversion_Testmin(100, 'ppm', 5), 99.9995, 'Works with \'100, ppm, 5\' for minimum'); #22 is ( mz_delta_conversion_Testmax(100, 'ppm', 5), 100.00051, 'Works with \'100, ppm, 5\' for maximum'); #23 is ( mz_delta_conversion_Testmin(500, 'ppm', 5), 499.9975, 'Works with \'500, ppm, 5\' for minimum'); #24 is ( mz_delta_conversion_Testmax(500, 'ppm', 5), 500.00251, 'Works with \'500, ppm, 5\' for maximum'); print "\n--\n" ; ## testing dichotomi_search print "\n-- Test dichotomi_search lib\n\n" ; #25 is ( dichotomi_search_Test(['1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11'], '0'), -1, 'Works with \'0\' smaller than the 1st element'); #26 is ( dichotomi_search_Test(['1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11'], '1'), 0, 'Works with \'1\' equal to the 1st element'); #27 is ( dichotomi_search_Test(['1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11'], '5'), 4, 'Works with \'5\' equal to the 4th element'); #28 is ( dichotomi_search_Test(['1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11'], '11'), 10, 'Works with \'11\' equal to the last (10th) element'); #29 is ( dichotomi_search_Test(['1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11'], '11.001'), 11, 'Works with \'11.001\' greater than the last (10th) element'); #30 is ( dichotomi_search_Test(['1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11'], '9.5'), 9, 'Works with \'9.5\' between the 9th and the 10th element return \'9\'(the index of the 10th)'); #31 is ( dichotomi_search_Test(['1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11'], '8.5'), 8, 'Works with \'8.5\' between the 8th and the 9th element return \'8\'(the index of the 9th)'); #32 is ( dichotomi_search_Test(['1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11'], '10.5'), 10, 'Works with \'10.5\' between the 10th and the 11th element return \'10\'(the index of the 11th)'); print "\n--\n" ; ## test of input bank parsing #print "\n-- Test bank parsing\n\n" ; #is_deeply ( parse_bank_interest_Test( # '/Users/fgiacomoni/Inra/labs/perl/galaxy_tools/tool-bank_inhouse/test_data/in_test2.tabular', 1), # { '422.0849114' => [ [ 'C19H18O11', '422.0849114' ] ], '98.952389' => [ [ 'Halothane', '98.952389' ] ], '209.987659' => [ [ 'Bismuth', '209.987659' ] ], '18.0105647' => [ [ 'H2O', '18.0105647' ] ], '199.951068' => [ [ 'Picolinic acid', '199.951068' ] ], '535.3181236' => [ [ 'C18H45N7O11', '535.3181236' ] ] }, # "Parsing a bank method works an return a well organized hash\n" ) ; # #print "\n--\n" ; ## test of rest ws of PeakForest #print "\n-- Test PeakForest WS\n\n" ; #is_deeply ( db_pforest_get_clean_range_Test( # 'https://rest.peakforest.org', '/spectra/lcms/peaks/get-range-clean', '190.0', '200.0', 'negative'), # [{ 'cpds' => [ 186 ], 'thMass' => '195.0877', 'sp' => 25, 'ri' => '100', 'deltaPPM' => '0.245', 'composition' => 'C8H11N4O2', 'attribution' => '[M+H]+', 'mz' => '195.0875' }, { 'composition' => 'C9H9O5', 'attribution' => '[M-H]-', 'ri' => '100', 'deltaPPM' => '0.271', 'cpds' => [ 360 ], 'thMass' => '197.0456', 'sp' => 37, 'mz' => '197.0452' }, { 'composition' => 'C9H12NO4', 'attribution' => '[M+H]+', 'deltaPPM' => '-0.426098891623529', 'ri' => '100', 'thMass' => '198.0760844', 'sp' => 77, 'cpds' => [ 1841 ], 'mz' => '198.076' }, { 'mz' => '196.0614', 'composition' => 'C9H10NO4', 'attribution' => '[M-H]-', 'cpds' => [ 1841 ], 'thMass' => '196.0615311', 'sp' => 78, 'ri' => '100', 'deltaPPM' => '-0.668667633415113' }, { 'cpds' => [ 1841 ], 'thMass' => '198.0760844', 'sp' => 79, 'ri' => '100', 'deltaPPM' => '-0.426098891623529', 'composition' => 'C9H12NO4', 'attribution' => '[M+H]+', 'mz' => '198.076' }], # "PForest WS call works an return a clean range og mz between 190 and 200\n" ) ; # #print "\n--\n" ; ## test of rest ws of PeakForest #print "\n-- Test PeakForest JSON Bank parsing\n\n" ; # #my ($bank, $headers) = map_pfjson_bankobject_Test([ { 'cpds' => [ 186 ], 'mz' => '195.0875' }, {'mz' => '198.076', 'cpds' => [ 190 ]} ]) ; #is_deeply ( # $bank, # { '198.076' => [ [ 190, '198.076' ] ], '195.0875' => [ [ 186, '195.0875' ] ] }, # "Parsing json bank from PeakForest works an return a well organized hash for data\n" ) ; # #is_deeply ( # $headers, # ['id', 'mz'], # "Parsing json bank from PeakForest works an return a well organized array for headers\n" ) ;