Mercurial > repos > fgiacomoni > downloader_bank_hmdb
view t/downloader_bank_hmdb.t @ 0:7c9269bded0e draft
Init repository for [downloader_bank_hmdb]
author | fgiacomoni |
---|---|
date | Tue, 14 Jan 2020 05:21:23 -0500 |
parents | |
children |
line wrap: on
line source
#! perl use diagnostics; use warnings; no warnings qw/void/; use strict; no strict "refs" ; use Test::More qw( no_plan ); #use Test::More tests => 8 ; ## with MAPPER SEQUENCE use FindBin ; use Carp ; ## Specific Modules use lib $FindBin::Bin.'/lib' ; my $binPath = $FindBin::Bin ; use utilsTest qw( :ALL ) ; use hmdb_apiTest qw( :ALL ) ; ## If needed to launch parallele test sequences : SEQ01, SEQ02, SEQ03, ... my $sequence = 'SEQ02' ; my $current_test = 1 ; #### #### ##### ###### ################################################ ###### ##### ##### ###### ###### ## START of SEQ01 SEQUENCE ## #### #### ##### ###### ################################################ ###### ##### ##### ###### ###### if ($sequence eq "SEQ01") { print "\n\t\t\t\t * * * * * * \n" ; print "\t * * * - - - Test module utils - - - * * * \n\n" ; ## - - - - - - - - - - - - - - - - - - NEXT - - - - - - - - - - - - - - - - - - - - # ARGVTS : $argt1, ... sleep 1 ; print "\n** Test $current_test getHttpFileVersion with a valid url **\n" ; $current_test++ ; is_deeply( getHttpFileVersionTest ( ## input parameters : here only one argt 'http://www.hmdb.ca/system/downloads/current/urine_metabolites.zip', ), 'v2018Jul09', 'Method \'getHttpFileVersion\' works with a valid url and return the attended output'); ## - - - - - - - - - - - - - - - - - - - NEXT - - - - - - - - - - - - - - - - - - - # ARGVTS : $argt1, ... sleep 1 ; print "\n** Test $current_test getHttpFile with a valid url and fileName **\n" ; $current_test++ ; is_deeply( getHttpFileTest ( ## input parameters : here only one argt 'http://www.hmdb.ca/system/downloads/current/csf_metabolites.zip', '/tmp/CSF_v2018Jul09/CSF_v2018Jul09.zip' ), 1, 'Method \'getHttpFile\' works with a valid url and a file name and return the attended output (a file)'); ## - - - - - - - - - - - - - - - - - - - NEXT - - - - - - - - - - - - - - - - - - - # ARGVTS : $argt1, ... sleep 1 ; print "\n** Test $current_test unzipFile with a valid url, a dir and fileName **\n" ; $current_test++ ; is_deeply( unzipFileTest ( ## input parameters : here only one argt '/tmp/CSF_v2018Jul09/CSF_v2018Jul09.zip', '/tmp/CSF_v2018Jul09/csf_metabolites.xml', 'csf_metabolites.xml' ), 1, 'Method \'unzipFile\' works with a valid url and a file name and return the attended output (1)'); #### #### ##### ###### ################################################ ###### ##### ##### ###### ###### ## END of SEQ01 SEQUENCE ## #### #### ##### ###### ################################################ ###### ##### ##### ###### ###### } #### #### ##### ###### ################################################ ###### ##### ##### ###### ###### ## START of SEQ02 SEQUENCE ## #### #### ##### ###### ################################################ ###### ##### ##### ###### ###### elsif ($sequence eq "SEQ02") { print "\n\t\t\t\t * * * * * * \n" ; print "\t * * * - - - Test SEQ02 Main script - - - * * * \n\n" ; ## - - - - - - - - - - - - - - - - - - - NEXT - - - - - - - - - - - - - - - - - - - # ARGVTS : $argt1, ... # sleep 1 ; print "\n** Test $current_test getMetaboliteFeatures with a valid xml file **\n" ; $current_test++ ; # is_deeply( getMetaboliteFeaturesTest ( ## input parameters : here only one argt # '/Users/fgiacomoni/Inra/labs/perl/downloader-bank-hmdb/banks/CSF_v2018Jul09/csf_metabolites.xml', # ), # 450, # 'Method \'getMetaboliteFeatures\' works with a valid xml and return the attended output (HASH)'); ## - - - - - - - - - - - - - - - - - - - NEXT - - - - - - - - - - - - - - - - - - - # ARGVTS : $argt1, ... sleep 1 ; print "\n** Test $current_test buildMetabolitesArray with a hash of metabolites **\n" ; $current_test++ ; is_deeply( buildMetabolitesArrayTest ( ## input parameters : here only one argt { 'HMDB0001565' => { 'metabolite_name' => 'Phosphorylcholine', 'monisotopic_molecular_weight' => '184.073869485', '[M+H]+' => '185.081145885', '[M-H]-' => '183.066593085', 'chemical_formula' => 'C5H15NO4P', 'inchikey' => 'YHHSONZFOIEMCP-UHFFFAOYSA-O' }, 'HMDB0006088' => { 'monisotopic_molecular_weight' => '180.063388116', '[M+H]+' => '181.070664516', '[M-H]-' => '179.056111716', 'inchikey' => 'CDAISMWEOUEBRE-CDRYSYESSA-N', 'chemical_formula' => 'C6H12O6', 'metabolite_name' => 'scyllo-Inositol' } }, ['HMDB_ID','MzBank', '[M+H]+', '[M-H]-','MetName', 'ChemFormula', 'INChIkey'] ), [ [ 'HMDB_ID', 'MzBank', '[M+H]+', '[M-H]-', 'MetName', 'ChemFormula', 'INChIkey' ], [ 'HMDB0001565', '184.073869485', '185.081145885', '183.066593085', 'Phosphorylcholine', 'C5H15NO4P', 'YHHSONZFOIEMCP-UHFFFAOYSA-O' ], [ 'HMDB0006088', '180.063388116', '181.070664516', '179.056111716', 'scyllo-Inositol', 'C6H12O6', 'CDAISMWEOUEBRE-CDRYSYESSA-N' ] ], 'Method \'buildMetabolitesArray\' works with a valid metabolites list and return the attended output (Array)'); ## - - - - - - - - - - - - - - - - - - - NEXT - - - - - - - - - - - - - - - - - - - # ARGVTS : $argt1, ... sleep 1 ; print "\n** Test $current_test setMetaboliteAcurrateMzToModesMz with a hash of metabolites **\n" ; $current_test++ ; is_deeply( setMetaboliteAcurrateMzToModesMzTest ( ## input parameters : here only one argt 'CARD', [ { 'COMMON_NAME' => 'SM(d18:0/24:1(15Z)(OH))', 'LOCATION' => 'Rumen', 'MZ_AVERAGE' => '829.224', 'INCHI' => 'InChI=1/C47H93N2O7P/c1-6-8-10-12-14-16-18-20-21-22-23-24-25-27-28-30-32-34-36-38-44(50)42-47(52)48-45(43-56-57(53,54)55-41-40-49(3,4)5)46(51)39-37-35-33-31-29-26-19-17-15-13-11-9-7-2/h20-21,37,39,44-46,50-51H,6-19,22-36,38,40-43H2,1-5H3,(H-,48,52,53,54)/b21-20-,39-37+/t44?,45-,46+/m0/s1', 'FORMULA' => 'C47H93N2O7P', 'TAXONOMY' => 'Lipids', 'HMDB_ID' => 'HMDB13469', 'KEGG_ID' => 'C00550', 'BIOCYC_ID' => 'Not Available', 'IUPAC' => 'Not Available', 'CAS' => 'Not Available', 'MZ_MONO' => '828.672058' } ] ), [ { 'MZ_[M-H]-' => '827.6647816', 'COMMON_NAME' => 'SM(d18:0/24:1(15Z)(OH))', 'LOCATION' => 'Rumen', 'MZ_[M+H]+' => '829.6793344', 'MZ_AVERAGE' => '829.224', 'INCHI' => 'InChI=1/C47H93N2O7P/c1-6-8-10-12-14-16-18-20-21-22-23-24-25-27-28-30-32-34-36-38-44(50)42-47(52)48-45(43-56-57(53,54)55-41-40-49(3,4)5)46(51)39-37-35-33-31-29-26-19-17-15-13-11-9-7-2/h20-21,37,39,44-46,50-51H,6-19,22-36,38,40-43H2,1-5H3,(H-,48,52,53,54)/b21-20-,39-37+/t44?,45-,46+/m0/s1', 'FORMULA' => 'C47H93N2O7P', 'TAXONOMY' => 'Lipids', 'HMDB_ID' => 'HMDB13469', 'KEGG_ID' => 'C00550', 'BIOCYC_ID' => 'Not Available', 'IUPAC' => 'Not Available', 'CAS' => 'Not Available', 'MZ_MONO' => '828.672058' } ], 'Method \'setMetaboliteAcurrateMzToModesMz\' works with XML FORMAT AND a valid metabolites list and return the attended output (Array)'); ## - - - - - - - - - - - - - - - - - - - NEXT - - - - - - - - - - - - - - - - - - - # ARGVTS : $argt1, ... sleep 1 ; print "\n** Test $current_test setMetaboliteAcurrateMzToModesMz with a hash of metabolites **\n" ; $current_test++ ; is_deeply( setMetaboliteAcurrateMzToModesMzTest ( ## input parameters : here only one argt 'XML', { 'HMDB0001565' => { 'metabolite_name' => 'Phosphorylcholine', 'monisotopic_molecular_weight' => '184.073869485', 'chemical_formula' => 'C5H15NO4P', 'inchikey' => 'YHHSONZFOIEMCP-UHFFFAOYSA-O' }, 'HMDB0006088' => { 'monisotopic_molecular_weight' => '180.063388116', 'inchikey' => 'CDAISMWEOUEBRE-CDRYSYESSA-N', 'chemical_formula' => 'C6H12O6', 'metabolite_name' => 'scyllo-Inositol' } } ), { 'HMDB0001565' => { 'metabolite_name' => 'Phosphorylcholine', 'monisotopic_molecular_weight' => '184.073869485', '[M+H]+' => '185.081145885', '[M-H]-' => '183.066593085', 'chemical_formula' => 'C5H15NO4P', 'inchikey' => 'YHHSONZFOIEMCP-UHFFFAOYSA-O' }, 'HMDB0006088' => { 'monisotopic_molecular_weight' => '180.063388116', '[M+H]+' => '181.070664516', '[M-H]-' => '179.056111716', 'inchikey' => 'CDAISMWEOUEBRE-CDRYSYESSA-N', 'chemical_formula' => 'C6H12O6', 'metabolite_name' => 'scyllo-Inositol' } }, 'Method \'setMetaboliteAcurrateMzToModesMz\' works with XML FORMAT AND a valid metabolites list and return the attended output (Array)'); } ## END ELSIF SEQ02 #### #### ##### ###### ################################################ ###### ##### ##### ###### ###### ## END of SEQ02 SEQUENCE ## #### #### ##### ###### ################################################ ###### ##### ##### ###### ###### else { croak "Can\'t launch any test : no sequence clearly defined !!!!\n" ; }