// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
//
// Contact: phylosoft @ gmail . com
-// WWW: www.phylosoft.org/forester
+// WWW: https://sites.google.com/site/cmzmasek/home/software/forester
package org.forester.surfacing;
import org.forester.go.GoId;
import org.forester.go.GoNameSpace;
import org.forester.go.GoTerm;
+import org.forester.phylogeny.Phylogeny;
+import org.forester.species.Species;
import org.forester.surfacing.DomainSimilarityCalculator.Detailedness;
import org.forester.util.DescriptiveStatistics;
import org.forester.util.ForesterUtil;
public class PairwiseGenomeComparator {
private List<DistanceMatrix> _domain_distance_scores_means;
- private List<DistanceMatrix> _shared_domains_based_distances;
private List<DistanceMatrix> _shared_binary_combinations_based_distances;
+ private List<DistanceMatrix> _shared_domains_based_distances;
- //private List<HistogramData> _histogram_datas;
public PairwiseGenomeComparator() {
init();
}
return _domain_distance_scores_means;
}
- //public List<HistogramData> getHistogramDatas() {
- // return _histogram_datas;
- //}
public List<DistanceMatrix> getSharedBinaryCombinationsBasedDistances() {
return _shared_binary_combinations_based_distances;
}
return _shared_domains_based_distances;
}
- private void init() {
- //_histogram_datas = new ArrayList<HistogramData>();
- _domain_distance_scores_means = new ArrayList<DistanceMatrix>();
- _shared_domains_based_distances = new ArrayList<DistanceMatrix>();
- _shared_binary_combinations_based_distances = new ArrayList<DistanceMatrix>();
- }
-
public void performPairwiseComparisons( final StringBuilder html_desc,
final boolean sort_by_species_count_first,
final Detailedness detailedness,
final boolean ignore_domains_without_combs_in_all_spec,
final boolean ignore_domains_specific_to_one_species,
final DomainSimilarity.DomainSimilaritySortField domain_similarity_sort_field,
- final PrintableDomainSimilarity.PRINT_OPTION domain_similarity_print_option,
+ final DomainSimilarity.PRINT_OPTION domain_similarity_print_option,
final DomainSimilarity.DomainSimilarityScoring scoring,
- final Map<DomainId, List<GoId>> domain_id_to_go_ids_map,
+ final Map<String, List<GoId>> domain_id_to_go_ids_map,
final Map<GoId, GoTerm> go_id_to_term_map,
final GoNameSpace go_namespace_limit,
final Species[] species,
final String automated_pairwise_comparison_prefix,
final String command_line_prg_name,
final File out_dir,
- final boolean write_pairwise_comparisons ) {
+ final boolean write_pairwise_comparisons,
+ final Map<String, Integer> tax_code_to_id_map,
+ final boolean calc_similarity_scores,
+ final Phylogeny phy ) {
init();
final BasicSymmetricalDistanceMatrix domain_distance_scores_means = new BasicSymmetricalDistanceMatrix( number_of_genomes );
final BasicSymmetricalDistanceMatrix shared_domains_based_distances = new BasicSymmetricalDistanceMatrix( number_of_genomes );
}
final DomainSimilarityCalculator calc = new BasicDomainSimilarityCalculator( domain_similarity_sort_field,
sort_by_species_count_first,
+ true,
+ calc_similarity_scores,
true );
final SortedSet<DomainSimilarity> similarities = calc
.calculateSimilarities( pw_calc,
genome_pair,
ignore_domains_without_combs_in_all_spec,
ignore_domains_specific_to_one_species );
- SurfacingUtil.decoratePrintableDomainSimilarities( similarities,
- detailedness,
- go_annotation_output,
- go_id_to_term_map,
- go_namespace_limit );
+ SurfacingUtil.decoratePrintableDomainSimilarities( similarities, detailedness );
final DescriptiveStatistics stats = SurfacingUtil
.calculateDescriptiveStatisticsForMeanValues( similarities );
final String species_j = species[ j ].getSpeciesId();
}
break;
}
- DescriptiveStatistics pw_stats = null;
if ( write_pairwise_comparisons ) {
try {
final Writer writer = new BufferedWriter( new FileWriter( out_dir == null ? pairwise_similarities_output_file_str
: out_dir + ForesterUtil.FILE_SEPARATOR + pairwise_similarities_output_file_str ) );
- pw_stats = SurfacingUtil.writeDomainSimilaritiesToFile( html_desc,
- new StringBuilder( species_i + "-"
- + species_j ),
- writer,
- similarities,
- true,
- null,
- domain_similarity_print_option,
- domain_similarity_sort_field,
- scoring,
- false );
+ SurfacingUtil.writeDomainSimilaritiesToFile( html_desc,
+ new StringBuilder( species_i + "-" + species_j ),
+ null,
+ writer,
+ null,
+ similarities,
+ true,
+ null,
+ domain_similarity_print_option,
+ scoring,
+ false,
+ tax_code_to_id_map,
+ phy,
+ null );
}
catch ( final IOException e ) {
ForesterUtil.fatalError( command_line_prg_name, "Failed to write similarites to: \""
+ pairwise_similarities_output_file_str + "\" [" + e.getMessage() + "]" );
}
}
- if ( pw_stats != null ) {
- if ( pw_stats.getMin() >= pw_stats.getMax() ) {
- ForesterUtil
- .printWarningMessage( command_line_prg_name, "for [" + species_i + "-" + species_j
- + "] score minimum is [" + pw_stats.getMin() + "] while score maximum is ["
- + pw_stats.getMax()
- + "], possibly indicating that a genome is compared to itself" );
- }
- }
}
}
getDomainDistanceScoresMeans().add( domain_distance_scores_means );
else if ( jacknife_ratio >= 1.0 ) {
throw new IllegalArgumentException( "attempt to perform jacknife resampling with jacknife ratio 1.0 or more" );
}
- final DomainId[] all_unique_domain_ids = getAllUniqueDomainIdAsArray( list_of_genome_wide_combinable_domains );
+ final String[] all_unique_domain_ids = getAllUniqueDomainIdAsArray( list_of_genome_wide_combinable_domains );
if ( verbose ) {
System.out.println();
System.out.println( "Jacknife: total of domains: " + all_unique_domain_ids.length );
if ( verbose ) {
System.out.print( " " + r );
}
- final SortedSet<DomainId> domain_ids_to_ignore = randomlyPickDomainIds( all_unique_domain_ids,
- jacknife_ratio,
- generator );
+ final SortedSet<String> domain_ids_to_ignore = randomlyPickDomainIds( all_unique_domain_ids,
+ jacknife_ratio,
+ generator );
final BasicSymmetricalDistanceMatrix shared_domains_based_distances = new BasicSymmetricalDistanceMatrix( number_of_genomes );
final BasicSymmetricalDistanceMatrix shared_binary_combinations_based_distances = new BasicSymmetricalDistanceMatrix( number_of_genomes );
for( int i = 0; i < number_of_genomes; ++i ) {
}
}
- static private DomainId[] getAllUniqueDomainIdAsArray( final List<GenomeWideCombinableDomains> list_of_genome_wide_combinable_domains ) {
- DomainId[] all_domain_ids_array;
- final SortedSet<DomainId> all_domain_ids = new TreeSet<DomainId>();
+ private void init() {
+ _domain_distance_scores_means = new ArrayList<DistanceMatrix>();
+ _shared_domains_based_distances = new ArrayList<DistanceMatrix>();
+ _shared_binary_combinations_based_distances = new ArrayList<DistanceMatrix>();
+ }
+
+ static private String[] getAllUniqueDomainIdAsArray( final List<GenomeWideCombinableDomains> list_of_genome_wide_combinable_domains ) {
+ String[] all_domain_ids_array;
+ final SortedSet<String> all_domain_ids = new TreeSet<String>();
for( final GenomeWideCombinableDomains genome_wide_combinable_domains : list_of_genome_wide_combinable_domains ) {
- final SortedSet<DomainId> all_domains = genome_wide_combinable_domains.getAllDomainIds();
- for( final DomainId domain : all_domains ) {
+ final SortedSet<String> all_domains = genome_wide_combinable_domains.getAllDomainIds();
+ for( final String domain : all_domains ) {
all_domain_ids.add( domain );
}
}
- all_domain_ids_array = new DomainId[ all_domain_ids.size() ];
+ all_domain_ids_array = new String[ all_domain_ids.size() ];
int n = 0;
- for( final DomainId domain_id : all_domain_ids ) {
+ for( final String domain_id : all_domain_ids ) {
all_domain_ids_array[ n++ ] = domain_id;
}
return all_domain_ids_array;
}
- static private SortedSet<DomainId> randomlyPickDomainIds( final DomainId[] all_domain_ids_array,
- final double jacknife_ratio,
- final Random generator ) {
+ static private SortedSet<String> randomlyPickDomainIds( final String[] all_domain_ids_array,
+ final double jacknife_ratio,
+ final Random generator ) {
final int size = all_domain_ids_array.length;
- final SortedSet<DomainId> random_domain_ids = new TreeSet<DomainId>();
+ final SortedSet<String> random_domain_ids = new TreeSet<String>();
final int number_of_ids_pick = ForesterUtil.roundToInt( jacknife_ratio * size );
while ( random_domain_ids.size() < number_of_ids_pick ) {
final int r = generator.nextInt( size );