Mercurial > repos > fgiacomoni > hr2
view lib/hr.pm @ 1:e2cbcf6fa22e draft
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author | fgiacomoni |
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date | Sun, 11 Dec 2022 17:16:43 +0000 |
parents | 86296c048e46 |
children | 23970530a518 |
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package lib::hr ; use strict; no strict "refs" ; use warnings ; use Exporter ; use threads ; use HTML::Template ; use Carp ; use Data::Dumper ; use vars qw($VERSION @ISA @EXPORT %EXPORT_TAGS); our $VERSION = "1.0"; our @ISA = qw(Exporter); our @EXPORT = qw( manage_atoms_and_ranges manage_atoms check_hr_exe manage_atom_and_range manage_tolerance manage_mode config_hr_exe ); our %EXPORT_TAGS = ( ALL => [qw(manage_atoms_and_ranges manage_atoms check_hr_exe manage_atom_and_range manage_tolerance manage_mode config_hr_exe )] ); =head1 NAME lib::hr - A module for managing / launching hr binary (structure elucidation c++ progr) =head1 SYNOPSIS use lib::hr; my $object = lib::hr->new(); print $object->as_string; =head1 DESCRIPTION This module does not really exist, it was made for the sole purpose of demonstrating how POD works. =head1 METHODS Methods are : =head2 METHOD new ## Description : new ## Input : $self ## Ouput : bless $self ; ## Usage : new() ; =cut sub new { ## Variables my $self={}; bless($self) ; return $self ; } ### END of SUB =head2 METHOD manage_atoms_and_ranges ## Description : allow from an initial config to add or delete atoms and their range ## Input : $atomsconfig, $atombasic, $atomsupp ## Output : $atomcleanconfig ## Usage : my ( $atomcleanconfig ) = manage_atoms_and_ranges ( $atomsconfig, $atombasic, $atomsupp ) ; =cut ## START of SUB sub manage_atoms_and_ranges { ## Retrieve Values my $self = shift ; my ( $atomsconfig, $CONF, $atombasic, $atomsupp ) = @_; my ( $atomcleanconfig ) = ( undef ) ; # basic atoms case: foreach my $atom ( (split(",", $atombasic )) ) { if ( exists $CONF->{$atom} ) { $atomsconfig->{$atom}{'max'} = $CONF->{$atom} ; } else { print "*** $atom not recognized***\n" ; } } # suppl. atoms case foreach my $atom ( (split(",", $atomsupp )) ) { print "*** $atom***\n" ; if ( exists $atomsconfig->{$atom} ) { $atomsconfig->{$atom}{'max'} = $CONF->{'DEFAULT_MAX'} ; } else { print "*** $atom not recognized***\n" ; } } # Create atoms and range parameters: foreach my $selectedAtom ( keys %{$atomsconfig} ) { $atomcleanconfig .= ' -'.$selectedAtom.' '.$atomsconfig->{$selectedAtom}{'min'}.'-'.$atomsconfig->{$selectedAtom}{'max'} ; } return ($atomcleanconfig) ; } ### END of SUB =head2 METHOD manage_atoms ### DEPRECATED ## Description : controles atoms input list and prepare it like hr binary parameter ## Input : $input_atoms, $conf_atoms ## Output : $hr_atoms_param ## Usage : my ( $hr_atoms_param ) = manage_atoms( $input_atoms, $conf_atoms ) ; ### DEPRECATED =cut ## START of SUB sub manage_atoms { ### DEPRECATED ## Retrieve Values my $self = shift ; my ( $input_atoms, $conf_atoms ) = @_ ; my $hr_atoms_param = undef ; if ( ( defined $$input_atoms ) and ( defined $$conf_atoms ) ) { if ( ( $$input_atoms eq 'None' ) or ( $$input_atoms eq '' ) or ( $$input_atoms eq ' ' ) ) { $hr_atoms_param = $$conf_atoms ; } elsif ( $$input_atoms =~ /[P|S|F|L|K|B|A|1|,]+/ ) { $hr_atoms_param = $$conf_atoms.','.$$input_atoms ; } else { $hr_atoms_param = $$conf_atoms ; } } ## END IF elsif ( !defined $$input_atoms ) { $hr_atoms_param = $$conf_atoms ; } elsif ( !defined $$conf_atoms ) { warn "hr module can't manage any atom list (undef values in conf)\n" ; } else { warn "hr module musn't manage any atom list\n" ; } return(\$hr_atoms_param) ; } ## END of SUB =head2 METHOD manage_atom_and_range ### DEPRECATED ## Description : build atom range with defined value in conf file ## Input : $atom, $min, $max ## Output : $hr_range ## Usage : my ( ) = manage_atom_and_range( $atom, $min, $max ) ; ### DEPRECATED =cut ## START of SUB sub manage_atom_and_range { ### DEPRECATED ## Retrieve Values my $self = shift ; my ( $atom, $min, $max ) = @_ ; my $hr_range = undef ; if ( ( defined $$atom ) and ( defined $$min ) and ( defined $$max ) ) { ## manage ragne like "-C 0-200" $hr_range = ' -'.$$atom.' '.$$min.'-'.$$max ; } ## END IF else { warn "Some argvts are missing to build the current atom range line\n" ; } return(\$hr_range) ; } ## END of SUB =head2 METHOD manage_tolerance ## Description : check range and format of tolerance ## Input : $tolerance, $default_value ## Output : $set_tol ## Usage : my ( $set_tol ) = manage_tolerance( $tolerance, $default_value ) ; =cut ## START of SUB sub manage_tolerance { ## Retrieve Values my $self = shift ; my ( $tolerance, $default_value ) = @_ ; my ($set_tol, $tmp_tol ) = (undef, undef) ; if ( ( defined $$tolerance ) and ( defined $$default_value )) { $tmp_tol = $$tolerance ; $tmp_tol =~ tr/,/./; ## tolerance doit etre >0 et <10 if ( $tmp_tol <= 0 || $tmp_tol >= 10 ){ $set_tol = $$default_value ; warn "The used tolerance is set to $$default_value (out of authorized range)\n" ; } else{ $set_tol = $tmp_tol ; } } else { warn "Your tolerance or the default tol are not defined\n" ; } return(\$set_tol) ; } ## END of SUB =head2 METHOD manage_mode ## Description : manage mode and apply mass correction (positive/negative/neutral) ## Input : $mode, $charge, $electron, $proton, $mass ## Output : $exact_mass ## Usage : my ( $exact_mass ) = manage_mode( $mode, $charge, $electron, $proton, $mass ) ; =cut ## START of SUB sub manage_mode { ## Retrieve Values my $self = shift ; my ( $mode, $charge, $electron, $proton, $mass ) = @_ ; my ($exact_mass, $tmp_mass) = ( undef, undef ) ; ## some explanations : # MS in + mode = adds H+ (proton) and molecule is positive : el+ => $charge = "positive" # For HR, need to subtrack proton mz and to add electron mz (1 electron per charge) to the input mass which comes neutral! if ( ( defined $$electron ) and ( defined $$proton ) ) { # check mass if ( defined $$mass ) { $tmp_mass = $$mass ; $tmp_mass =~ tr/,/./ ; } # manage . and , in case of... else { warn "No mass is defined\n" } # manage charge if ( ( !defined $$charge ) || ($$charge < 0) ){ warn "Charge is not defined or value is less than zero\n" ; } # set neutral mass in function of ms mode if($$mode eq 'positive') { $exact_mass = ( $tmp_mass - $$proton + $$electron) * $$charge ; } elsif($$mode eq 'negative') { $exact_mass = ( $tmp_mass + $$proton - $$electron) * $$charge ; } elsif($$mode eq "neutral") { $exact_mass = $tmp_mass ; } else { warn "This mode doesn't exist : please select positive/negative or neutral mode\n" ; } } else { warn "Missing some parameter values (electron, neutron masses), please check your conf file\n" ; } return(\$exact_mass) ; } ## END of SUB =head2 METHOD check_hr_exe ## Description : permit to check the path of hr.exe and its full availability ## Input : $hr_path, $hr_version ## Output : true/false ## Usage : my ( $res ) = check_hr_exe( $hr_path, $hr_version ) ; =cut ## START of SUB sub check_hr_exe { ## Retrieve Values my $self = shift ; my ( $hr_path, $hr_version ) = @_ ; my $success = undef ; my $check_res = undef ; ## test path : if ( ( defined $$hr_path ) and ( defined $$hr_version ) ) { if ( defined $$hr_path ) { $success = `$$hr_path -version`; print "$success\n" ; if ($success !~/^$$hr_version/) { warn "You do not use the expected version of hr2 ($$hr_version)\n" ; } else { $check_res = 1 ; } } else { warn "Can't use HR because the binary file doesn't exist at the specified path ($$hr_path)\n" ; } } ## END IF else { warn "No HR path or Hr version defined\n" ; } return($check_res) ; } ## END of SUB =head2 METHOD config_hr_exe ## Description : builds hr execute line with needed params ## Input : $hr_path, $hr_delta, $mass, $has_goldenrules, $atoms_and_ranks ## Output : var2 ## Usage : my ( var2 ) = config_hr_exe( $hr_path, $hr_delta, $mass, $has_goldenrules, $atoms_and_ranks ) ; =cut ## START of SUB sub config_hr_exe { ## Retrieve Values my $self = shift ; my ( $hr_path, $hr_delta, $mass, $has_goldenrules, $atoms_and_ranks ) = @_ ; my $hr_cmd = undef ; if ( ( defined $$hr_path ) and ( defined $$hr_delta ) and ( defined $$mass ) and ( defined $$atoms_and_ranks ) ) { $hr_cmd = $$hr_path.' -t '.$$hr_delta.' -m '.$$mass.' '.$$atoms_and_ranks ; if ( defined $$has_goldenrules ) { $$hr_cmd .= ' -g ' ; } } ## END IF else { warn "Some argvts are missing to build the current hr exec line\n" ; } return(\$hr_cmd) ; } ## END of SUB =head2 METHOD threading_hr_exe ## Description : prepare 5 threads for hr executing ## Input : $method, $list ## Output : $results ## Usage : my ( $results ) = threading_hr_exe( $method, $list ) ; =cut ## START of SUB sub threading_hr_exe { ## Retrieve Values my $self = shift ; my ( $method, $list ) = @_ ; my @results = () ; if ( ( defined $list ) and ( defined $method )) { for (my $i = 0; $i < (scalar @{$list}); $i+=6 ) { my $thr1 = threads->create($method, $self, $list->[$i]) if $list->[$i] ; my $thr2 = threads->create($method, $self, $list->[$i+1]) if $list->[$i+1] ; my $thr3 = threads->create($method, $self, $list->[$i+2]) if $list->[$i+2] ; my $thr4 = threads->create($method, $self, $list->[$i+3]) if $list->[$i+3] ; my $thr5 = threads->create($method, $self, $list->[$i+4]) if $list->[$i+4] ; my $thr6 = threads->create($method, $self, $list->[$i+5]) if $list->[$i+5] ; push ( @results, $thr1->join ) if $list->[$i] ; push ( @results, $thr2->join ) if $list->[$i+1] ; push ( @results, $thr3->join ) if $list->[$i+2] ; push ( @results, $thr4->join ) if $list->[$i+3] ; push ( @results, $thr5->join ) if $list->[$i+4] ; push ( @results, $thr6->join ) if $list->[$i+5] ; } } else { warn "Your input list or your method is undefined\n" ; } return(\@results) ; } ## END of SUB =head2 METHOD hr_exe ## Description : hr_exe launches hr and catches result ## Input : $cmd ## Output : $res ## Usage : my ( $res ) = hr_exe( $cmd ) ; =cut ## START of SUB sub hr_exe { ## Retrieve Values my $self = shift ; my ( $cmd ) = @_ ; my $res = undef ; if (defined $cmd){ #print "\n--CMD used : $cmd\n" ; $res = `$cmd` ; sleep(0.5) ; #print "Results : $res\n" ; } return (\$res) ; } ## END of SUB =head2 METHOD hr_out_parser ## Description : parse output of hr and return a hash of features ## Input : $res ## Output : $parsed_res ## Usage : my ( $parsed_res ) = hr_out_parser( $res ) ; =cut ## START of SUB sub hr_out_parser { ## Retrieve Values my $self = shift ; my ( $res ) = @_ ; my %parsed_res = () ; my ( @formula, @rings_and_double_bond_equivalents, @formula_mz, @mmus ) = ( (), (), (), () ) ; my ( $formula_nb, $formula_total, $time ) = ( undef, undef, undef ) ; if ( defined $$res ) { # foreach line foreach my $line (split(/\n/,$$res)){ ## v1.02 - parse result line "C7.H17.N5. 2.0 171.1484 +17.2 mmu" ## v1.03 - parse result line "C10.H25.N5.O5.P2.S2. C10H25N5O5P2S2 8.00 421.0772333 0 0 +0.40" ## $1 = "C10.H25.N5.O5.P2.S2. " $2 = "C10H25N5O5P2S2" $3 = "8.00" $4="421.0772333" $5="0" $6="0" $7="+0.40" ## if ( $line =~ /([\w|\.]+)\s+(\d+.?\d*)\s+(\d+.?\d*)\s+([+|-]\d+.?\d*)\s+(.*)/ ) { ## for hr2 1.02 if ( $line =~ /([\w|\.]+)\s+(\w+)\s+(\d+.?\d*)\s+(\d+.?\d*)\s+(\d+.?\d*)\s+(\d+.?\d*)\s+([+|-]\d+.?\d*)/ ) { # for hr2 1.03 my ( $formula, $cleanformula, $rings_and_double_bond_equivalent, $formula_mz, $abscharge, $nadd, $mmu_value ) = ( $1, $2, $3, $4, $5, $6, $7 ) ; if (defined $formula ) { $formula =~ s/\.//g ; push (@formula, $formula) ; } # clean \. if (defined $rings_and_double_bond_equivalent ) { push (@rings_and_double_bond_equivalents, $rings_and_double_bond_equivalent) ; } # if (defined $formula_mz ) { push (@formula_mz, $formula_mz) ; } if (defined $mmu_value ) { $mmu_value =~ s/\+// ; push (@mmus, $mmu_value) ; } # clean (+) } elsif ( $line =~ /(\d+)\s+formulas.+\s+(\d+)\s+seconds.+\s+(\d+)\s+formulae/ ) { ( $formula_nb, $time, $formula_total ) = ( $1, $2, $3 ) ; } else { next; } } # build parser if ( scalar(@formula) > 0 ){ $parsed_res{'ENTRY_FORMULA'} = \@formula ; $parsed_res{'rings_and_double_bond_equivalents'} = \@rings_and_double_bond_equivalents ; $parsed_res{'ENTRY_CPD_MZ'} = \@formula_mz ; $parsed_res{'ENTRY_DELTA'} = \@mmus ; $parsed_res{'MASSES_TOTAL'} = \$formula_nb ; $parsed_res{'time'} = \$time ; } } return(\%parsed_res) ; } ## END of SUB =head2 METHOD set_html_tbody_object ## Description : initializes and build the tbody object (perl array) need to html template ## Input : $nb_pages, $nb_items_per_page ## Output : $tbody_object ## Usage : my ( $tbody_object ) = set_html_tbody_object($nb_pages, $nb_items_per_page) ; =cut ## START of SUB sub set_html_tbody_object { my $self = shift ; my ( $nb_pages, $nb_items_per_page ) = @_ ; my ( @tbody_object ) = ( ) ; for ( my $i = 1 ; $i <= $nb_pages ; $i++ ) { my %pages = ( # tbody feature PAGE_NB => $i, MASSES => [], ## end MASSES ) ; ## end TBODY N push (@tbody_object, \%pages) ; } return(\@tbody_object) ; } ## END of SUB =head2 METHOD add_mz_to_tbody_object ## Description : initializes and build the mz object (perl array) need to html template ## Input : $tbody_object, $nb_items_per_page, $mz_list ## Output : $tbody_object ## Usage : my ( $tbody_object ) = add_mz_to_tbody_object( $tbody_object, $nb_items_per_page, $mz_list ) ; =cut ## START of SUB sub add_mz_to_tbody_object { my $self = shift ; my ( $tbody_object, $nb_items_per_page, $mz_list, $ids_list, $totals ) = @_ ; my ( $current_page, $mz_index ) = ( 0, 0 ) ; foreach my $page ( @{$tbody_object} ) { my @colors = ('white', 'green') ; my ( $current_index, , $icolor ) = ( 0, 0 ) ; for ( my $i = 1 ; $i <= $nb_items_per_page ; $i++ ) { # if ( $current_index > $nb_items_per_page ) { ## manage exact mz per html page $current_index = 0 ; last ; ## } else { $current_index++ ; if ( $icolor > 1 ) { $icolor = 0 ; } if ( exists $mz_list->[$mz_index] ) { my $total = \0 ; if ( $totals->[$mz_index]{'MASSES_TOTAL'} ) { $total = $totals->[$mz_index]{'MASSES_TOTAL'} } my %mz = ( # mass feature MASSES_ID_QUERY => $ids_list->[$mz_index], MASSES_MZ_QUERY => $mz_list->[$mz_index], MZ_COLOR => $colors[$icolor], MASSES_NB => $mz_index+1, MASSES_TOTAL => $$total , ENTRIES => [] , ) ; push ( @{ $tbody_object->[$current_page]{MASSES} }, \%mz ) ; # Html attr for mass $icolor++ ; } } $mz_index++ ; } ## foreach mz $current_page++ ; } return($tbody_object) ; } ## END of SUB =head2 METHOD add_entries_to_tbody_object ## Description : initializes and build the mz object (perl array) need to html template ## Input : $tbody_object, $nb_items_per_page, $mz_list, $entries ## Output : $tbody_object ## Usage : my ( $tbody_object ) = add_entries_to_tbody_object( $tbody_object, $nb_items_per_page, $mz_list, $entries ) ; =cut ## START of SUB sub add_entries_to_tbody_object { ## Retrieve Values my $self = shift ; my ( $tbody_object, $results ) = @_ ; my $index_page = 0 ; my $index_mz_continous = 0 ; foreach my $page (@{$tbody_object}) { my $index_mz = 0 ; foreach my $mz (@{ $tbody_object->[$index_page]{MASSES} }) { my $index_res = 0 ; if ( $results->[$index_mz_continous]{ENTRY_FORMULA} ){ my $entry_nb = scalar( @{ $results->[$index_mz_continous]{ENTRY_FORMULA} } ) ; for( my $i = 0 ; $i<$entry_nb; $i++ ) { my %entry = ( ENTRY_COLOR => $tbody_object->[$index_page]{MASSES}[$index_mz]{MZ_COLOR}, ENTRY_FORMULA => $results->[$index_mz_continous]->{ENTRY_FORMULA}[$i], ENTRY_CPD_MZ => $results->[$index_mz_continous]->{ENTRY_CPD_MZ}[$i], ENTRY_DELTA => $results->[$index_mz_continous]->{ENTRY_DELTA}[$i] ) ; push ( @{ $tbody_object->[$index_page]{MASSES}[$index_mz]{ENTRIES} }, \%entry) ; } $index_res++ ; } $index_mz ++ ; $index_mz_continous ++ ; } $index_page++ ; } return($tbody_object) ; } ## END of SUB =head2 METHOD write_html_skel ## Description : prepare and write the html output file ## Input : $html_file_name, $html_object, $html_template ## Output : $html_file_name ## Usage : my ( $html_file_name ) = write_html_skel( $html_file_name, $html_object ) ; =cut ## START of SUB sub write_html_skel { ## Retrieve Values my $self = shift ; my ( $html_file_name, $html_object, $pages , $search_condition, $html_template, $js_path, $css_path ) = @_ ; my $html_file = $$html_file_name ; if ( defined $html_file ) { open ( HTML, ">$html_file" ) or die "Can't create the output file $html_file " ; if (-e $html_template) { my $ohtml = HTML::Template->new(filename => $html_template); $ohtml->param( JS_GALAXY_PATH => $js_path, CSS_GALAXY_PATH => $css_path ) ; $ohtml->param( CONDITIONS => $search_condition ) ; $ohtml->param( PAGES_NB => $pages ) ; $ohtml->param( PAGES => $html_object ) ; print HTML $ohtml->output ; } else { croak "Can't fill any html output : No template available ($html_template)\n" ; } close (HTML) ; } else { croak "No output file name available to write HTML file\n" ; } return(\$html_file) ; } ## END of SUB =head2 METHOD write_csv_one_mass ## Description : print a csv file ## Input : $masses, $ids, $results, $file ## Output : N/A ## Usage : write_csv_one_mass( $ids, $results, $file ) ; =cut ## START of SUB sub write_csv_one_mass { ## Retrieve Values my $self = shift ; my ( $masses, $ids, $results, $file, ) = @_ ; open(CSV, '>:utf8', "$file") or die "Cant' create the file $file\n" ; print CSV "ID\tMASS_SUBMIT\tCPD_FORMULA\tCPD_MW\tDELTA\n" ; my $i = 0 ; foreach my $id (@{$ids}) { my $mass = $masses->[$i] ; if ( $results->[$i] ) { ## an requested id has a result in the list of hashes $results. my $entry_nb = 0 ; ## in case of no results -- Hr_parsed Results : $VAR1 = [ { 'ENTRY_FORMULA' => [] } ]; if ( !$results->[$i]{'ENTRY_FORMULA'} ) { print CSV "$id\t$mass\tN/A\t0.0\t0.0\n" ; } foreach (@{$results->[$i]{'ENTRY_FORMULA'}}) { print CSV "$id\t$mass\t" ; ## print cpd formula if ( $results->[$i]{'ENTRY_FORMULA'}[$entry_nb] ) { print CSV "$results->[$i]{'ENTRY_FORMULA'}[$entry_nb]\t" ; } else { print CSV "N/A\t" ; } ## print cpd name if ( $results->[$i]{'ENTRY_CPD_MZ'}[$entry_nb] ) { print CSV "$results->[$i]{'ENTRY_CPD_MZ'}[$entry_nb]\t" ; } else { print CSV "0.0\t" ; } ## print delta if ( $results->[$i]{'ENTRY_DELTA'}[$entry_nb] ) { print CSV "$results->[$i]{'ENTRY_DELTA'}[$entry_nb]\n" ; } else { print CSV "0.0\n" ; } $entry_nb++ ; } } else { print CSV "$id\t$mass\tN/A\t0.0\t0.0\n" ; } $i++ ; } close(CSV) ; return() ; } ## END of SUB =head2 METHOD add_hr_matrix_to_input_matrix ## Description : build a full matrix (input + lm column) ## Input : $input_matrix_object, $lm_matrix_object ## Output : $output_matrix_object ## Usage : my ( $output_matrix_object ) = add_hr_matrix_to_input_matrix( $input_matrix_object, $hr_matrix_object ) ; =cut ## START of SUB sub add_hr_matrix_to_input_matrix { ## Retrieve Values my $self = shift ; my ( $input_matrix_object, $hr_matrix_object ) = @_ ; my @output_matrix_object = () ; my $index_row = 0 ; foreach my $row ( @{$input_matrix_object} ) { my @init_row = @{$row} ; if ( $hr_matrix_object->[$index_row] ) { my $dim = scalar(@{$hr_matrix_object->[$index_row]}) ; if ($dim > 1) { warn "the add method can't manage more than one column\n" ;} my $lm_col = $hr_matrix_object->[$index_row][$dim-1] ; push (@init_row, $lm_col) ; $index_row++ ; } push (@output_matrix_object, \@init_row) ; } return(\@output_matrix_object) ; } ## END of SUB =head2 METHOD write_csv_skel ## Description : prepare and write csv output file ## Input : $csv_file, $rows ## Output : $csv_file ## Usage : my ( $csv_file ) = write_csv_skel( $csv_file, $rows ) ; =cut ## START of SUB sub write_csv_skel { ## Retrieve Values my $self = shift ; my ( $csv_file, $rows ) = @_ ; my $ocsv = lib::csv::new() ; my $csv = $ocsv->get_csv_object("\t") ; $ocsv->write_csv_from_arrays($csv, $$csv_file, $rows) ; return($csv_file) ; } ## END of SUB =head2 METHOD set_hr_matrix_object ## Description : build the hr_row under its ref form ## Input : $header, $init_mzs, $entries ## Output : $hr_matrix ## Usage : my ( $hmdb_matrix ) = set_hr_matrix_object( $header, $init_mzs, $entries ) ; =cut ## START of SUB sub set_hr_matrix_object { ## Retrieve Values my $self = shift ; my ( $header, $init_mzs, $entries ) = @_ ; my @hr_matrix = () ; if ( defined $header ) { my @headers = () ; push @headers, $header ; push @hr_matrix, \@headers ; } my $index_mz = 0 ; foreach my $mz ( @{$init_mzs} ) { my $index_entries = 0 ; my @clusters = () ; my $cluster_col = undef ; my $nb_entries = $entries->[$index_mz]{MASSES_TOTAL} ; foreach (@{$entries->[$index_mz]{'ENTRY_FORMULA'}}) { my $delta = $entries->[$index_mz]{'ENTRY_DELTA'}[$index_entries] ; my $hr_formula = $entries->[$index_mz]{'ENTRY_FORMULA'}[$index_entries] ; my $hr_mz = $entries->[$index_mz]{'ENTRY_CPD_MZ'}[$index_entries] ; ## METLIN data display model ## entry1=VAR1::VAR2::VAR3::VAR4|entry2=VAR1::VAR2::VAR3::VAR4|... # manage final pipe if ($index_entries < $$nb_entries-1 ) { $cluster_col .= $delta.'::('.$hr_formula.')::'.$hr_mz.'|' ; } else { $cluster_col .= $delta.'::('.$hr_formula.')::'.$hr_mz ; } $index_entries++ ; } ## end foreach if ( !defined $cluster_col ) { $cluster_col = 'No_result_found_with HR' ; } push (@clusters, $cluster_col) ; push (@hr_matrix, \@clusters) ; $index_mz++ ; } return(\@hr_matrix) ; } ## END of SUB 1 ; __END__ =head1 SUPPORT You can find documentation for this module with the perldoc command. perldoc hr.pm =head1 Exports =over 4 =item :ALL is manage_atoms, check_hr_exe, manage_tolerance =back =head1 AUTHOR Franck Giacomoni E<lt>franck.giacomoni@clermont.inra.frE<gt> =head1 LICENSE This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =head1 VERSION version 1 : 02 / 20 / 2014 version 2 : ?? =cut