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revision 1.21, Sat Nov 12 03:42:48 2005 UTC revision 1.35, Mon May 15 20:00:54 2006 UTC
# Line 80  Line 80 
80  =item subsysFile  =item subsysFile
81    
82  Either the name of the file containing the list of trusted subsystems or a reference  Either the name of the file containing the list of trusted subsystems or a reference
83  to a list of subsystem names. If nothing is specified, all known subsystems will be  to a list of subsystem names. If nothing is specified, all NMPDR subsystems will be
84  considered trusted. Only subsystem data related to the trusted subsystems is loaded.  considered trusted. (A subsystem is considered NMPDR if it has a file named C<NMPDR>
85    in its data directory.) Only subsystem data related to the trusted subsystems is loaded.
86    
87  =item options  =item options
88    
# Line 94  Line 95 
95  sub new {  sub new {
96      # Get the parameters.      # Get the parameters.
97      my ($class, $sprout, $fig, $genomeFile, $subsysFile, $options) = @_;      my ($class, $sprout, $fig, $genomeFile, $subsysFile, $options) = @_;
98      # Load the list of genomes into a hash.      # Create the genome hash.
99      my %genomes;      my %genomes = ();
100        # We only need it if load-only is NOT specified.
101        if (! $options->{loadOnly}) {
102      if (! defined($genomeFile) || $genomeFile eq '') {      if (! defined($genomeFile) || $genomeFile eq '') {
103          # Here we want all the complete genomes and an access code of 1.          # Here we want all the complete genomes and an access code of 1.
104          my @genomeList = $fig->genomes(1);          my @genomeList = $fig->genomes(1);
# Line 129  Line 132 
132              Confess("Invalid genome parameter ($type) in SproutLoad constructor.");              Confess("Invalid genome parameter ($type) in SproutLoad constructor.");
133          }          }
134      }      }
135        }
136      # Load the list of trusted subsystems.      # Load the list of trusted subsystems.
137      my %subsystems = ();      my %subsystems = ();
138        # We only need it if load-only is NOT specified.
139        if (! $options->{loadOnly}) {
140      if (! defined $subsysFile || $subsysFile eq '') {      if (! defined $subsysFile || $subsysFile eq '') {
141          # Here we want all the subsystems.              # Here we want all the NMPDR subsystems. First we get the whole list.
142          %subsystems = map { $_ => 1 } $fig->all_subsystems();              my @subs = $fig->all_subsystems();
143                # Loop through, checking for the NMPDR file.
144                for my $sub (@subs) {
145                    if (-e "$FIG_Config::data/Subsystems/$sub/NMPDR") {
146                        $subsystems{$sub} = 1;
147                    }
148                }
149      } else {      } else {
150          my $type = ref $subsysFile;          my $type = ref $subsysFile;
151          if ($type eq 'ARRAY') {          if ($type eq 'ARRAY') {
# Line 153  Line 165 
165              Confess("Invalid subsystem parameter in SproutLoad constructor.");              Confess("Invalid subsystem parameter in SproutLoad constructor.");
166          }          }
167      }      }
168        }
169      # Get the data directory from the Sprout object.      # Get the data directory from the Sprout object.
170      my ($directory) = $sprout->LoadInfo();      my ($directory) = $sprout->LoadInfo();
171      # Create the Sprout load object.      # Create the Sprout load object.
# Line 171  Line 184 
184      return $retVal;      return $retVal;
185  }  }
186    
187    =head3 LoadOnly
188    
189    C<< my $flag = $spl->LoadOnly; >>
190    
191    Return TRUE if we are in load-only mode, else FALSE.
192    
193    =cut
194    
195    sub LoadOnly {
196        my ($self) = @_;
197        return $self->{options}->{loadOnly};
198    }
199    
200    =head3 PrimaryOnly
201    
202    C<< my $flag = $spl->PrimaryOnly; >>
203    
204    Return TRUE if only the main entity is to be loaded, else FALSE.
205    
206    =cut
207    
208    sub PrimaryOnly {
209        my ($self) = @_;
210        return $self->{options}->{primaryOnly};
211    }
212    
213  =head3 LoadGenomeData  =head3 LoadGenomeData
214    
215  C<< my $stats = $spl->LoadGenomeData(); >>  C<< my $stats = $spl->LoadGenomeData(); >>
# Line 198  Line 237 
237    
238  =back  =back
239    
 B<TO DO>  
   
 Real quality vectors instead of C<unknown> for everything.  
   
 GenomeGroup relation. (The original script took group information from the C<NMPDR> file  
 in each genome's main directory, but no such file exists anywhere in my version of the  
 data store.)  
   
240  =cut  =cut
241  #: Return Type $%;  #: Return Type $%;
242  sub LoadGenomeData {  sub LoadGenomeData {
# Line 216  Line 247 
247      # Get the genome count.      # Get the genome count.
248      my $genomeHash = $self->{genomes};      my $genomeHash = $self->{genomes};
249      my $genomeCount = (keys %{$genomeHash});      my $genomeCount = (keys %{$genomeHash});
     Trace("Beginning genome data load.") if T(2);  
250      # Create load objects for each of the tables we're loading.      # Create load objects for each of the tables we're loading.
251      my $loadGenome = $self->_TableLoader('Genome', $genomeCount);      my $loadGenome = $self->_TableLoader('Genome');
252      my $loadHasContig = $self->_TableLoader('HasContig', $genomeCount * 300);      my $loadHasContig = $self->_TableLoader('HasContig', $self->PrimaryOnly);
253      my $loadContig = $self->_TableLoader('Contig', $genomeCount * 300);      my $loadContig = $self->_TableLoader('Contig', $self->PrimaryOnly);
254      my $loadIsMadeUpOf = $self->_TableLoader('IsMadeUpOf', $genomeCount * 60000);      my $loadIsMadeUpOf = $self->_TableLoader('IsMadeUpOf', $self->PrimaryOnly);
255      my $loadSequence = $self->_TableLoader('Sequence', $genomeCount * 60000);      my $loadSequence = $self->_TableLoader('Sequence', $self->PrimaryOnly);
256        if ($self->{options}->{loadOnly}) {
257            Trace("Loading from existing files.") if T(2);
258        } else {
259            Trace("Generating genome data.") if T(2);
260      # Now we loop through the genomes, generating the data for each one.      # Now we loop through the genomes, generating the data for each one.
261      for my $genomeID (sort keys %{$genomeHash}) {      for my $genomeID (sort keys %{$genomeHash}) {
262          Trace("Loading data for genome $genomeID.") if T(3);              Trace("Generating data for genome $genomeID.") if T(3);
263          $loadGenome->Add("genomeIn");          $loadGenome->Add("genomeIn");
264          # The access code comes in via the genome hash.          # The access code comes in via the genome hash.
265          my $accessCode = $genomeHash->{$genomeID};          my $accessCode = $genomeHash->{$genomeID};
266          # Get the genus, species, and strain from the scientific name. Note that we append              # Get the genus, species, and strain from the scientific name.
         # the genome ID to the strain. In some cases this is the totality of the strain name.  
267          my ($genus, $species, @extraData) = split / /, $self->{fig}->genus_species($genomeID);          my ($genus, $species, @extraData) = split / /, $self->{fig}->genus_species($genomeID);
268          my $extra = join " ", @extraData, "[$genomeID]";              my $extra = join " ", @extraData;
269          # Get the full taxonomy.          # Get the full taxonomy.
270          my $taxonomy = $fig->taxonomy_of($genomeID);          my $taxonomy = $fig->taxonomy_of($genomeID);
271          # Output the genome record.          # Output the genome record.
# Line 268  Line 301 
301              }              }
302          }          }
303      }      }
304        }
305      # Finish the loads.      # Finish the loads.
306      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
307      # Return the result.      # Return the result.
# Line 311  Line 345 
345      my $genomeCount = (keys %{$genomeFilter});      my $genomeCount = (keys %{$genomeFilter});
346      my $featureCount = $genomeCount * 4000;      my $featureCount = $genomeCount * 4000;
347      # Start the loads.      # Start the loads.
348      my $loadCoupling = $self->_TableLoader('Coupling', $featureCount * $genomeCount);      my $loadCoupling = $self->_TableLoader('Coupling');
349      my $loadIsEvidencedBy = $self->_TableLoader('IsEvidencedBy', $featureCount * 8000);      my $loadIsEvidencedBy = $self->_TableLoader('IsEvidencedBy', $self->PrimaryOnly);
350      my $loadPCH = $self->_TableLoader('PCH', $featureCount * 2000);      my $loadPCH = $self->_TableLoader('PCH', $self->PrimaryOnly);
351      my $loadParticipatesInCoupling = $self->_TableLoader('ParticipatesInCoupling', $featureCount * 2000);      my $loadParticipatesInCoupling = $self->_TableLoader('ParticipatesInCoupling', $self->PrimaryOnly);
352      my $loadUsesAsEvidence = $self->_TableLoader('UsesAsEvidence', $featureCount * 8000);      my $loadUsesAsEvidence = $self->_TableLoader('UsesAsEvidence', $self->PrimaryOnly);
353      Trace("Beginning coupling data load.") if T(2);      if ($self->{options}->{loadOnly}) {
354            Trace("Loading from existing files.") if T(2);
355        } else {
356            Trace("Generating coupling data.") if T(2);
357      # Loop through the genomes found.      # Loop through the genomes found.
358      for my $genome (sort keys %{$genomeFilter}) {      for my $genome (sort keys %{$genomeFilter}) {
359          Trace("Generating coupling data for $genome.") if T(3);          Trace("Generating coupling data for $genome.") if T(3);
# Line 389  Line 426 
426              }              }
427          }          }
428      }      }
429        }
430      # All done. Finish the load.      # All done. Finish the load.
431      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
432      return $retVal;      return $retVal;
# Line 410  Line 448 
448      FeatureTranslation      FeatureTranslation
449      FeatureUpstream      FeatureUpstream
450      IsLocatedIn      IsLocatedIn
451        HasFeature
452    
453  =over 4  =over 4
454    
# Line 426  Line 465 
465      my ($self) = @_;      my ($self) = @_;
466      # Get the FIG object.      # Get the FIG object.
467      my $fig = $self->{fig};      my $fig = $self->{fig};
     # Find out if this is a limited run.  
     my $limited = $self->{options}->{limitedFeatures};  
468      # Get the table of genome IDs.      # Get the table of genome IDs.
469      my $genomeHash = $self->{genomes};      my $genomeHash = $self->{genomes};
     my $genomeCount = (keys %{$genomeHash});  
     my $featureCount = $genomeCount * 4000;  
470      # Create load objects for each of the tables we're loading.      # Create load objects for each of the tables we're loading.
471      my $loadFeature = $self->_TableLoader('Feature', $featureCount);      my $loadFeature = $self->_TableLoader('Feature');
472      my $loadIsLocatedIn = $self->_TableLoader('IsLocatedIn', $featureCount);      my $loadIsLocatedIn = $self->_TableLoader('IsLocatedIn', $self->PrimaryOnly);
473      my $loadFeatureAlias = $self->_TableLoader('FeatureAlias', $featureCount * 6);      my $loadFeatureAlias = $self->_TableLoader('FeatureAlias');
474      my ($loadFeatureLink, $loadFeatureTranslation, $loadFeatureUpstream);      my $loadFeatureLink = $self->_TableLoader('FeatureLink');
475      if (! $limited) {      my $loadFeatureTranslation = $self->_TableLoader('FeatureTranslation');
476          $loadFeatureLink = $self->_TableLoader('FeatureLink', $featureCount * 10);      my $loadFeatureUpstream = $self->_TableLoader('FeatureUpstream');
477          $loadFeatureTranslation = $self->_TableLoader('FeatureTranslation', $featureCount);      my $loadHasFeature = $self->_TableLoader('HasFeature');
         $loadFeatureUpstream = $self->_TableLoader('FeatureUpstream', $featureCount);  
     }  
478      # Get the maximum sequence size. We need this later for splitting up the      # Get the maximum sequence size. We need this later for splitting up the
479      # locations.      # locations.
480      my $chunkSize = $self->{sprout}->MaxSegment();      my $chunkSize = $self->{sprout}->MaxSegment();
481      Trace("Beginning feature data load.") if T(2);      if ($self->{options}->{loadOnly}) {
482            Trace("Loading from existing files.") if T(2);
483        } else {
484            Trace("Generating feature data.") if T(2);
485      # Now we loop through the genomes, generating the data for each one.      # Now we loop through the genomes, generating the data for each one.
486      for my $genomeID (sort keys %{$genomeHash}) {      for my $genomeID (sort keys %{$genomeHash}) {
487          Trace("Loading features for genome $genomeID.") if T(3);          Trace("Loading features for genome $genomeID.") if T(3);
# Line 459  Line 495 
495              my ($featureID, $locations, undef, $type) = @{$featureData};              my ($featureID, $locations, undef, $type) = @{$featureData};
496              # Create the feature record.              # Create the feature record.
497              $loadFeature->Put($featureID, 1, $type);              $loadFeature->Put($featureID, 1, $type);
498                    # Link it to the parent genome.
499                    $loadHasFeature->Put($genomeID, $featureID, $type);
500              # Create the aliases.              # Create the aliases.
501              for my $alias ($fig->feature_aliases($featureID)) {              for my $alias ($fig->feature_aliases($featureID)) {
502                  $loadFeatureAlias->Put($featureID, $alias);                  $loadFeatureAlias->Put($featureID, $alias);
503              }              }
             # The next stuff is for a full load only.  
             if (! $limited) {  
504                  # Get the links.                  # Get the links.
505                  my @links = $fig->fid_links($featureID);                  my @links = $fig->fid_links($featureID);
506                  for my $link (@links) {                  for my $link (@links) {
# Line 483  Line 519 
519                          $loadFeatureUpstream->Put($featureID, $upstream);                          $loadFeatureUpstream->Put($featureID, $upstream);
520                      }                      }
521                  }                  }
             }  
522              # This part is the roughest. We need to relate the features to contig              # This part is the roughest. We need to relate the features to contig
523              # locations, and the locations must be split so that none of them exceed              # locations, and the locations must be split so that none of them exceed
524              # the maximum segment size. This simplifies the genes_in_region processing              # the maximum segment size. This simplifies the genes_in_region processing
# Line 512  Line 547 
547              }              }
548          }          }
549      }      }
550        }
551      # Finish the loads.      # Finish the loads.
552      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
553      return $retVal;      return $retVal;
# Line 548  Line 584 
584      my $fig = $self->{fig};      my $fig = $self->{fig};
585      # Get the table of genome IDs.      # Get the table of genome IDs.
586      my $genomeHash = $self->{genomes};      my $genomeHash = $self->{genomes};
     my $genomeCount = (keys %{$genomeHash});  
     my $featureCount = $genomeCount * 4000;  
587      # Create load objects for each of the tables we're loading.      # Create load objects for each of the tables we're loading.
588      my $loadIsBidirectionalBestHitOf = $self->_TableLoader('IsBidirectionalBestHitOf',      my $loadIsBidirectionalBestHitOf = $self->_TableLoader('IsBidirectionalBestHitOf');
589                                                             $featureCount * $genomeCount);      if ($self->{options}->{loadOnly}) {
590      Trace("Beginning BBH load.") if T(2);          Trace("Loading from existing files.") if T(2);
591        } else {
592            Trace("Generating BBH data.") if T(2);
593      # Now we loop through the genomes, generating the data for each one.      # Now we loop through the genomes, generating the data for each one.
594      for my $genomeID (sort keys %{$genomeHash}) {      for my $genomeID (sort keys %{$genomeHash}) {
595          $loadIsBidirectionalBestHitOf->Add("genomeIn");          $loadIsBidirectionalBestHitOf->Add("genomeIn");
# Line 579  Line 615 
615              }              }
616          }          }
617      }      }
618        }
619      # Finish the loads.      # Finish the loads.
620      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
621      return $retVal;      return $retVal;
# Line 639  Line 676 
676      # Get the subsystem hash. This lists the subsystems we'll process.      # Get the subsystem hash. This lists the subsystems we'll process.
677      my $subsysHash = $self->{subsystems};      my $subsysHash = $self->{subsystems};
678      my @subsysIDs = sort keys %{$subsysHash};      my @subsysIDs = sort keys %{$subsysHash};
     my $subsysCount = @subsysIDs;  
     my $genomeCount = (keys %{$genomeHash});  
     my $featureCount = $genomeCount * 4000;  
679      # Get the map list.      # Get the map list.
680      my @maps = $fig->all_maps;      my @maps = $fig->all_maps;
     my $mapCount = @maps;  
681      # Create load objects for each of the tables we're loading.      # Create load objects for each of the tables we're loading.
682      my $loadDiagram = $self->_TableLoader('Diagram', $mapCount);      my $loadDiagram = $self->_TableLoader('Diagram', $self->PrimaryOnly);
683      my $loadRoleOccursIn = $self->_TableLoader('RoleOccursIn', $featureCount * 6);      my $loadRoleOccursIn = $self->_TableLoader('RoleOccursIn', $self->PrimaryOnly);
684      my $loadSubsystem = $self->_TableLoader('Subsystem', $subsysCount);      my $loadSubsystem = $self->_TableLoader('Subsystem');
685      my $loadRole = $self->_TableLoader('Role', $featureCount * 6);      my $loadRole = $self->_TableLoader('Role', $self->PrimaryOnly);
686      my $loadRoleEC = $self->_TableLoader('RoleEC', $featureCount * 6);      my $loadRoleEC = $self->_TableLoader('RoleEC', $self->PrimaryOnly);
687      my $loadCatalyzes = $self->_TableLoader('Catalyzes', $genomeCount * $featureCount);      my $loadCatalyzes = $self->_TableLoader('Catalyzes', $self->PrimaryOnly);
688      my $loadSSCell = $self->_TableLoader('SSCell', $featureCount * $genomeCount);      my $loadSSCell = $self->_TableLoader('SSCell', $self->PrimaryOnly);
689      my $loadContainsFeature = $self->_TableLoader('ContainsFeature', $featureCount * $subsysCount);      my $loadContainsFeature = $self->_TableLoader('ContainsFeature', $self->PrimaryOnly);
690      my $loadIsGenomeOf = $self->_TableLoader('IsGenomeOf', $featureCount * $genomeCount);      my $loadIsGenomeOf = $self->_TableLoader('IsGenomeOf', $self->PrimaryOnly);
691      my $loadIsRoleOf = $self->_TableLoader('IsRoleOf', $featureCount * $genomeCount);      my $loadIsRoleOf = $self->_TableLoader('IsRoleOf', $self->PrimaryOnly);
692      my $loadOccursInSubsystem = $self->_TableLoader('OccursInSubsystem', $featureCount * 6);      my $loadOccursInSubsystem = $self->_TableLoader('OccursInSubsystem', $self->PrimaryOnly);
693      my $loadParticipatesIn = $self->_TableLoader('ParticipatesIn', $subsysCount * $genomeCount);      my $loadParticipatesIn = $self->_TableLoader('ParticipatesIn', $self->PrimaryOnly);
694      my $loadHasSSCell = $self->_TableLoader('HasSSCell', $featureCount * $genomeCount);      my $loadHasSSCell = $self->_TableLoader('HasSSCell', $self->PrimaryOnly);
695      my $loadRoleSubset = $self->_TableLoader('RoleSubset', $subsysCount * 50);      my $loadRoleSubset = $self->_TableLoader('RoleSubset', $self->PrimaryOnly);
696      my $loadGenomeSubset = $self->_TableLoader('GenomeSubset', $subsysCount * 50);      my $loadGenomeSubset = $self->_TableLoader('GenomeSubset', $self->PrimaryOnly);
697      my $loadConsistsOfRoles = $self->_TableLoader('ConsistsOfRoles', $featureCount * $genomeCount);      my $loadConsistsOfRoles = $self->_TableLoader('ConsistsOfRoles', $self->PrimaryOnly);
698      my $loadConsistsOfGenomes = $self->_TableLoader('ConsistsOfGenomes', $featureCount * $genomeCount);      my $loadConsistsOfGenomes = $self->_TableLoader('ConsistsOfGenomes', $self->PrimaryOnly);
699      my $loadHasRoleSubset = $self->_TableLoader('HasRoleSubset', $subsysCount * 50);      my $loadHasRoleSubset = $self->_TableLoader('HasRoleSubset', $self->PrimaryOnly);
700      my $loadHasGenomeSubset = $self->_TableLoader('HasGenomeSubset', $subsysCount * 50);      my $loadHasGenomeSubset = $self->_TableLoader('HasGenomeSubset', $self->PrimaryOnly);
701      # Create load objects for each of the tables we're loading.      if ($self->{options}->{loadOnly}) {
702      Trace("Beginning subsystem data load.") if T(2);          Trace("Loading from existing files.") if T(2);
703        } else {
704            Trace("Generating subsystem data.") if T(2);
705      # This hash will contain the role for each EC. When we're done, this      # This hash will contain the role for each EC. When we're done, this
706      # information will be used to generate the Catalyzes table.      # information will be used to generate the Catalyzes table.
707      my %ecToRoles = ();      my %ecToRoles = ();
# Line 678  Line 713 
713      my ($genomeID, $roleID);      my ($genomeID, $roleID);
714      my %roleData = ();      my %roleData = ();
715      for my $subsysID (@subsysIDs) {      for my $subsysID (@subsysIDs) {
         Trace("Creating subsystem $subsysID.") if T(3);  
         $loadSubsystem->Add("subsystemIn");  
716          # Get the subsystem object.          # Get the subsystem object.
717          my $sub = $fig->get_subsystem($subsysID);          my $sub = $fig->get_subsystem($subsysID);
718                # Only proceed if the subsystem has a spreadsheet.
719                if (! $sub->{empty_ss}) {
720                    Trace("Creating subsystem $subsysID.") if T(3);
721                    $loadSubsystem->Add("subsystemIn");
722          # Create the subsystem record.          # Create the subsystem record.
723          my $curator = $sub->get_curator();          my $curator = $sub->get_curator();
724          my $notes = $sub->get_notes();          my $notes = $sub->get_notes();
# Line 782  Line 819 
819              # Connect the subset to the subsystem.              # Connect the subset to the subsystem.
820              $loadHasRoleSubset->Put($subsysID, $actualID);              $loadHasRoleSubset->Put($subsysID, $actualID);
821              # Connect the subset to its roles.              # Connect the subset to its roles.
822              my @roles = $sub->get_subset($subsetID);                      my @roles = $sub->get_subsetC_roles($subsetID);
823              for my $roleID (@roles) {              for my $roleID (@roles) {
824                  $loadConsistsOfRoles->Put($actualID, $roleID);                  $loadConsistsOfRoles->Put($actualID, $roleID);
825              }              }
# Line 834  Line 871 
871              }              }
872          }          }
873      }      }
874            }
875        }
876      # Finish the load.      # Finish the load.
877      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
878      return $retVal;      return $retVal;
# Line 875  Line 914 
914      my $fig = $self->{fig};      my $fig = $self->{fig};
915      # Get the genome hash.      # Get the genome hash.
916      my $genomeHash = $self->{genomes};      my $genomeHash = $self->{genomes};
     my $genomeCount = (keys %{$genomeHash});  
917      # Create load objects for each of the tables we're loading.      # Create load objects for each of the tables we're loading.
918      my $loadProperty = $self->_TableLoader('Property', $genomeCount * 1500);      my $loadProperty = $self->_TableLoader('Property');
919      my $loadHasProperty = $self->_TableLoader('HasProperty', $genomeCount * 1500);      my $loadHasProperty = $self->_TableLoader('HasProperty', $self->PrimaryOnly);
920      Trace("Beginning property data load.") if T(2);      if ($self->{options}->{loadOnly}) {
921            Trace("Loading from existing files.") if T(2);
922        } else {
923            Trace("Generating property data.") if T(2);
924      # Create a hash for storing property IDs.      # Create a hash for storing property IDs.
925      my %propertyKeys = ();      my %propertyKeys = ();
926      my $nextID = 1;      my $nextID = 1;
927      # Loop through the genomes.      # Loop through the genomes.
928      for my $genomeID (keys %{$genomeHash}) {      for my $genomeID (keys %{$genomeHash}) {
929          $loadProperty->Add("genomeIn");          $loadProperty->Add("genomeIn");
930                Trace("Generating properties for $genomeID.") if T(3);
931          # Get the genome's features. The feature ID is the first field in the          # Get the genome's features. The feature ID is the first field in the
932          # tuples returned by "all_features_detailed". We use "all_features_detailed"          # tuples returned by "all_features_detailed". We use "all_features_detailed"
933          # rather than "all_features" because we want all features regardless of type.          # rather than "all_features" because we want all features regardless of type.
934          my @features = map { $_->[0] } @{$fig->all_features_detailed($genomeID)};          my @features = map { $_->[0] } @{$fig->all_features_detailed($genomeID)};
935                my $featureCount = 0;
936                my $propertyCount = 0;
937          # Loop through the features, creating HasProperty records.          # Loop through the features, creating HasProperty records.
938          for my $fid (@features) {          for my $fid (@features) {
             $loadProperty->Add("featureIn");  
939              # Get all attributes for this feature. We do this one feature at a time              # Get all attributes for this feature. We do this one feature at a time
940              # to insure we do not get any genome attributes.              # to insure we do not get any genome attributes.
941              my @attributeList = $fig->get_attributes($fid, '', '', '');              my @attributeList = $fig->get_attributes($fid, '', '', '');
942                    if (scalar @attributeList) {
943                        $featureCount++;
944                    }
945              # Loop through the attributes.              # Loop through the attributes.
946              for my $tuple (@attributeList) {              for my $tuple (@attributeList) {
947                        $propertyCount++;
948                  # Get this attribute value's data. Note that we throw away the FID,                  # Get this attribute value's data. Note that we throw away the FID,
949                  # since it will always be the same as the value if "$fid".                  # since it will always be the same as the value if "$fid".
950                  my (undef, $key, $value, $url) = @{$tuple};                  my (undef, $key, $value, $url) = @{$tuple};
# Line 919  Line 966 
966                  $loadHasProperty->Put($fid, $propertyID, $url);                  $loadHasProperty->Put($fid, $propertyID, $url);
967              }              }
968          }          }
969                # Update the statistics.
970                Trace("$propertyCount attributes processed for $featureCount features.") if T(3);
971                $loadHasProperty->Add("featuresIn", $featureCount);
972                $loadHasProperty->Add("propertiesIn", $propertyCount);
973            }
974      }      }
975      # Finish the load.      # Finish the load.
976      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
# Line 959  Line 1011 
1011      my $fig = $self->{fig};      my $fig = $self->{fig};
1012      # Get the genome hash.      # Get the genome hash.
1013      my $genomeHash = $self->{genomes};      my $genomeHash = $self->{genomes};
     my $genomeCount = (keys %{$genomeHash});  
1014      # Create load objects for each of the tables we're loading.      # Create load objects for each of the tables we're loading.
1015      my $loadAnnotation = $self->_TableLoader('Annotation', $genomeCount * 4000);      my $loadAnnotation = $self->_TableLoader('Annotation');
1016      my $loadIsTargetOfAnnotation = $self->_TableLoader('IsTargetOfAnnotation', $genomeCount * 4000);      my $loadIsTargetOfAnnotation = $self->_TableLoader('IsTargetOfAnnotation', $self->PrimaryOnly);
1017      my $loadSproutUser = $self->_TableLoader('SproutUser', 100);      my $loadSproutUser = $self->_TableLoader('SproutUser', $self->PrimaryOnly);
1018      my $loadUserAccess = $self->_TableLoader('UserAccess', 1000);      my $loadUserAccess = $self->_TableLoader('UserAccess', $self->PrimaryOnly);
1019      my $loadMadeAnnotation = $self->_TableLoader('MadeAnnotation', $genomeCount * 4000);      my $loadMadeAnnotation = $self->_TableLoader('MadeAnnotation', $self->PrimaryOnly);
1020      Trace("Beginning annotation data load.") if T(2);      if ($self->{options}->{loadOnly}) {
1021            Trace("Loading from existing files.") if T(2);
1022        } else {
1023            Trace("Generating annotation data.") if T(2);
1024      # Create a hash of user names. We'll use this to prevent us from generating duplicate      # Create a hash of user names. We'll use this to prevent us from generating duplicate
1025      # user records.      # user records.
1026      my %users = ( FIG => 1, master => 1 );      my %users = ( FIG => 1, master => 1 );
# Line 987  Line 1041 
1041              # Create a hash of timestamps. We use this to prevent duplicate time stamps              # Create a hash of timestamps. We use this to prevent duplicate time stamps
1042              # from showing up for a single PEG's annotations.              # from showing up for a single PEG's annotations.
1043              my %seenTimestamps = ();              my %seenTimestamps = ();
1044              # Check for a functional assignment.                  # Loop through the annotations.
             my $func = $fig->function_of($peg);  
             if ($func) {  
                 # If this is NOT a hypothetical assignment, we create an  
                 # assignment annotation for it.  
                 if (! FIG::hypo($peg)) {  
                     # Note that we double the slashes so that what goes into the database is  
                     # a new-line escape sequence rather than an actual new-line.  
                     $loadAnnotation->Put("$peg:$time", $time, "FIG\\nSet function to\\n$func");  
                     $loadIsTargetOfAnnotation->Put($peg, "$peg:$time");  
                     $loadMadeAnnotation->Put("FIG", "$peg:$time");  
                     # Denote we've seen this timestamp.  
                     $seenTimestamps{$time} = 1;  
                 }  
             }  
             # Now loop through the real annotations.  
1045              for my $tuple ($fig->feature_annotations($peg, "raw")) {              for my $tuple ($fig->feature_annotations($peg, "raw")) {
1046                  my ($fid, $timestamp, $user, $text) = @{$tuple};                  my ($fid, $timestamp, $user, $text) = @{$tuple};
1047                  # Here we fix up the annotation text. "\r" is removed,                  # Here we fix up the annotation text. "\r" is removed,
# Line 1041  Line 1080 
1080              }              }
1081          }          }
1082      }      }
1083        }
1084      # Finish the load.      # Finish the load.
1085      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
1086      return $retVal;      return $retVal;
# Line 1081  Line 1121 
1121      my $fig = $self->{fig};      my $fig = $self->{fig};
1122      # Get the genome hash.      # Get the genome hash.
1123      my $genomeHash = $self->{genomes};      my $genomeHash = $self->{genomes};
     my $genomeCount = (keys %{$genomeHash});  
1124      # Create load objects for each of the tables we're loading.      # Create load objects for each of the tables we're loading.
1125      my $loadComesFrom = $self->_TableLoader('ComesFrom', $genomeCount * 4);      my $loadComesFrom = $self->_TableLoader('ComesFrom', $self->PrimaryOnly);
1126      my $loadSource = $self->_TableLoader('Source', $genomeCount * 4);      my $loadSource = $self->_TableLoader('Source');
1127      my $loadSourceURL = $self->_TableLoader('SourceURL', $genomeCount * 8);      my $loadSourceURL = $self->_TableLoader('SourceURL');
1128      Trace("Beginning source data load.") if T(2);      if ($self->{options}->{loadOnly}) {
1129            Trace("Loading from existing files.") if T(2);
1130        } else {
1131            Trace("Generating annotation data.") if T(2);
1132      # Create hashes to collect the Source information.      # Create hashes to collect the Source information.
1133      my %sourceURL = ();      my %sourceURL = ();
1134      my %sourceDesc = ();      my %sourceDesc = ();
# Line 1116  Line 1158 
1158      for my $sourceID (keys %sourceDesc) {      for my $sourceID (keys %sourceDesc) {
1159          $loadSource->Put($sourceID, $sourceDesc{$sourceID});          $loadSource->Put($sourceID, $sourceDesc{$sourceID});
1160      }      }
1161        }
1162      # Finish the load.      # Finish the load.
1163      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
1164      return $retVal;      return $retVal;
# Line 1155  Line 1198 
1198      my $fig = $self->{fig};      my $fig = $self->{fig};
1199      # Get the genome hash.      # Get the genome hash.
1200      my $genomeHash = $self->{genomes};      my $genomeHash = $self->{genomes};
     my $genomeCount = (keys %{$genomeHash});  
1201      # Convert the genome hash. We'll get the genus and species for each genome and make      # Convert the genome hash. We'll get the genus and species for each genome and make
1202      # it the key.      # it the key.
1203      my %speciesHash = map { $fig->genus_species($_) => $_ } (keys %{$genomeHash});      my %speciesHash = map { $fig->genus_species($_) => $_ } (keys %{$genomeHash});
1204      # Create load objects for each of the tables we're loading.      # Create load objects for each of the tables we're loading.
1205      my $loadExternalAliasFunc = $self->_TableLoader('ExternalAliasFunc', $genomeCount * 4000);      my $loadExternalAliasFunc = $self->_TableLoader('ExternalAliasFunc');
1206      my $loadExternalAliasOrg = $self->_TableLoader('ExternalAliasOrg', $genomeCount * 4000);      my $loadExternalAliasOrg = $self->_TableLoader('ExternalAliasOrg');
1207      Trace("Beginning external data load.") if T(2);      if ($self->{options}->{loadOnly}) {
1208            Trace("Loading from existing files.") if T(2);
1209        } else {
1210            Trace("Generating external data.") if T(2);
1211      # We loop through the files one at a time. First, the organism file.      # We loop through the files one at a time. First, the organism file.
1212      Open(\*ORGS, "<$FIG_Config::global/ext_org.table");      Open(\*ORGS, "<$FIG_Config::global/ext_org.table");
1213      my $orgLine;      my $orgLine;
# Line 1192  Line 1237 
1237              $loadExternalAliasFunc->Put(@funcFields[0,1]);              $loadExternalAliasFunc->Put(@funcFields[0,1]);
1238          }          }
1239      }      }
1240        }
1241      # Finish the load.      # Finish the load.
1242      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
1243      return $retVal;      return $retVal;
# Line 1232  Line 1278 
1278      my ($self) = @_;      my ($self) = @_;
1279      # Get the FIG object.      # Get the FIG object.
1280      my $fig = $self->{fig};      my $fig = $self->{fig};
     # Get the genome hash.  
     my $genomeHash = $self->{genomes};  
     my $genomeCount = (keys %{$genomeHash});  
1281      # Create load objects for each of the tables we're loading.      # Create load objects for each of the tables we're loading.
1282      my $loadReaction = $self->_TableLoader('Reaction', $genomeCount * 4000);      my $loadReaction = $self->_TableLoader('Reaction');
1283      my $loadReactionURL = $self->_TableLoader('ReactionURL', $genomeCount * 4000);      my $loadReactionURL = $self->_TableLoader('ReactionURL', $self->PrimaryOnly);
1284      my $loadCompound = $self->_TableLoader('Compound', $genomeCount * 4000);      my $loadCompound = $self->_TableLoader('Compound', $self->PrimaryOnly);
1285      my $loadCompoundName = $self->_TableLoader('CompoundName', $genomeCount * 8000);      my $loadCompoundName = $self->_TableLoader('CompoundName', $self->PrimaryOnly);
1286      my $loadCompoundCAS = $self->_TableLoader('CompoundCAS', $genomeCount * 4000);      my $loadCompoundCAS = $self->_TableLoader('CompoundCAS', $self->PrimaryOnly);
1287      my $loadIsAComponentOf = $self->_TableLoader('IsAComponentOf', $genomeCount * 12000);      my $loadIsAComponentOf = $self->_TableLoader('IsAComponentOf', $self->PrimaryOnly);
1288      Trace("Beginning reaction/compound data load.") if T(2);      if ($self->{options}->{loadOnly}) {
1289            Trace("Loading from existing files.") if T(2);
1290        } else {
1291            Trace("Generating annotation data.") if T(2);
1292      # First we create the compounds.      # First we create the compounds.
1293      my @compounds = $fig->all_compounds();      my @compounds = $fig->all_compounds();
1294      for my $cid (@compounds) {      for my $cid (@compounds) {
# Line 1291  Line 1337 
1337              }              }
1338          }          }
1339      }      }
1340        }
1341      # Finish the load.      # Finish the load.
1342      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
1343      return $retVal;      return $retVal;
# Line 1326  Line 1373 
1373      my $fig = $self->{fig};      my $fig = $self->{fig};
1374      # Get the genome hash.      # Get the genome hash.
1375      my $genomeHash = $self->{genomes};      my $genomeHash = $self->{genomes};
     my $genomeCount = (keys %{$genomeHash});  
1376      # Create a load object for the table we're loading.      # Create a load object for the table we're loading.
1377      my $loadGenomeGroups = $self->_TableLoader('GenomeGroups', $genomeCount * 4);      my $loadGenomeGroups = $self->_TableLoader('GenomeGroups');
1378      Trace("Beginning group data load.") if T(2);      if ($self->{options}->{loadOnly}) {
1379            Trace("Loading from existing files.") if T(2);
1380        } else {
1381            Trace("Generating group data.") if T(2);
1382      # Loop through the genomes.      # Loop through the genomes.
1383      my $line;      my $line;
1384      for my $genomeID (keys %{$genomeHash}) {      for my $genomeID (keys %{$genomeHash}) {
# Line 1345  Line 1394 
1394          }          }
1395          close TMP;          close TMP;
1396      }      }
1397        }
1398      # Finish the load.      # Finish the load.
1399      my $retVal = $self->_FinishAll();      my $retVal = $self->_FinishAll();
1400      return $retVal;      return $retVal;
# Line 1366  Line 1416 
1416    
1417  Name of the table (relation) being loaded.  Name of the table (relation) being loaded.
1418    
1419  =item rowCount (optional)  =item ignore
1420    
1421  Estimated maximum number of rows in the table.  TRUE if the table should be ignored entirely, else FALSE.
1422    
1423  =item RETURN  =item RETURN
1424    
# Line 1380  Line 1430 
1430    
1431  sub _TableLoader {  sub _TableLoader {
1432      # Get the parameters.      # Get the parameters.
1433      my ($self, $tableName, $rowCount) = @_;      my ($self, $tableName, $ignore) = @_;
1434      # Create the load object.      # Create the load object.
1435      my $retVal = ERDBLoad->new($self->{erdb}, $tableName, $self->{loadDirectory}, $rowCount);      my $retVal = ERDBLoad->new($self->{erdb}, $tableName, $self->{loadDirectory}, $self->LoadOnly,
1436                                   $ignore);
1437      # Cache it in the loader list.      # Cache it in the loader list.
1438      push @{$self->{loaders}}, $retVal;      push @{$self->{loaders}}, $retVal;
1439      # Return it to the caller.      # Return it to the caller.
# Line 1419  Line 1470 
1470      # Loop through the list, finishing the loads. Note that if the finish fails, we die      # Loop through the list, finishing the loads. Note that if the finish fails, we die
1471      # ignominiously. At some future point, we want to make the loads restartable.      # ignominiously. At some future point, we want to make the loads restartable.
1472      while (my $loader = pop @{$loadList}) {      while (my $loader = pop @{$loadList}) {
1473          # Trace the fact that we're cleaning up.          # Get the relation name.
1474          my $relName = $loader->RelName;          my $relName = $loader->RelName;
1475          Trace("Finishing load for $relName.") if T(2);          # Check the ignore flag.
1476            if ($loader->Ignore) {
1477                Trace("Relation $relName not loaded.") if T(2);
1478            } else {
1479                # Here we really need to finish.
1480                Trace("Finishing $relName.") if T(2);
1481          my $stats = $loader->Finish();          my $stats = $loader->Finish();
1482          if ($self->{options}->{dbLoad}) {          if ($self->{options}->{dbLoad}) {
1483              # Here we want to use the load file just created to load the database.              # Here we want to use the load file just created to load the database.
# Line 1433  Line 1489 
1489          $retVal->Accumulate($stats);          $retVal->Accumulate($stats);
1490          Trace("Statistics for $relName:\n" . $stats->Show()) if T(2);          Trace("Statistics for $relName:\n" . $stats->Show()) if T(2);
1491      }      }
1492        }
1493      # Return the load statistics.      # Return the load statistics.
1494      return $retVal;      return $retVal;
1495  }  }

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