Mercurial > repos > mahtabm > ensembl
view variant_effect_predictor/Bio/EnsEMBL/ChainedAssemblyMapper.pm @ 3:d30fa12e4cc5 default tip
Merge heads 2:a5976b2dce6f and 1:09613ce8151e which were created as a result of a recently fixed bug.
| author | devteam <devteam@galaxyproject.org> |
|---|---|
| date | Mon, 13 Jan 2014 10:38:30 -0500 |
| parents | 1f6dce3d34e0 |
| children |
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=head1 LICENSE Copyright (c) 1999-2012 The European Bioinformatics Institute and Genome Research Limited. All rights reserved. This software is distributed under a modified Apache license. For license details, please see http://www.ensembl.org/info/about/code_licence.html =head1 CONTACT Please email comments or questions to the public Ensembl developers list at <dev@ensembl.org>. Questions may also be sent to the Ensembl help desk at <helpdesk@ensembl.org>. =cut =head1 NAME Bio::EnsEMBL::ChainedAssemblyMapper - Handles mapping between two coordinate systems using the information stored in the assembly table =head1 SYNOPSIS $db = Bio::EnsEMBL::DBSQL::DBAdaptor->new(...); $asma = $db->get_AssemblyMapperAdaptor(); $csa = $db->get_CoordSystemAdaptor(); my $chr_cs = $cs_adaptor->fetch_by_name( 'chromosome', 'NCBI33' ); my $cln_cs = $cs_adaptor->fetch_by_name('clone'); $asm_mapper = $map_adaptor->fetch_by_CoordSystems( $cs1, $cs2 ); # Map to contig coordinate system from chromosomal @cln_coords = $asm_mapper->map( 'X', 1_000_000, 2_000_000, 1, $chr_cs ); # Map to chromosome coordinate system from contig @chr_coords = $asm_mapper->map( 'AL30421.1', 100, 10000, -1, $cln_cs ); # List contig names for a region of chromsome @cln_ids = $asm_mapper->list_ids( '13', 1_000_000, 1, $chr_cs ); # List chromosome names for a contig region @chr_ids = $asm_mapper->list_ids( 'AL30421.1', 1, 1000, -1, $cln_cs ); =head1 DESCRIPTION The ChainedAssemblyMapper is an extension of the regular AssemblyMapper that allows for mappings between coordinate systems that require multi-step mapping. For example if explicit mappings are defined between the following coordinate systems, chromosome <-> contig contig <-> clone the ChainedAssemblyMapper would be able to perform implicit mapping between the chromosome and clone coordinate systems. This should be transparent to the user of this module, and users should not even realise that they are using a chained assembly mapper as opposed to a normal assembly mapper. =head1 METHODS =cut my $FIRST = 'first'; my $MIDDLE = 'middle'; my $LAST = 'last'; package Bio::EnsEMBL::ChainedAssemblyMapper; use strict; use warnings; use integer; #use proper arithmetic bitshifts use Bio::EnsEMBL::Mapper; use Bio::EnsEMBL::Mapper::RangeRegistry; use Bio::EnsEMBL::Utils::Exception qw(throw deprecate); use Scalar::Util qw(weaken); #2^20 = approx 10^6 my $CHUNKFACTOR = 20; # max size of the pair cache in the mappers my $DEFAULT_MAX_PAIR_COUNT = 6000; =head2 new Arg [1] : Bio::EnsEMBL::DBSQL::AssemblyMapperAdaptor Arg [2] : Bio::EnsEMBL::CoordSystem $src_cs Arg [3] : Bio::EnsEMBL::CoordSystem $int_cs Arg [4] : Bio::EnsEMBL::CoordSystem $dst_cs Example : Should use AssemblyMapperAdaptor->fetch_by_CoordSystems Description: Creates a new AssemblyMapper Returntype : Bio::EnsEMBL::DBSQL::AssemblyMapperAdaptor Exceptions : thrown if wrong number of coord_systems are provided Caller : AssemblyMapperAdaptor Status : Stable =cut sub new { my ($caller,$adaptor,@coord_systems) = @_; my $class = ref($caller) || $caller; my $self = {}; bless $self, $class; $self->adaptor($adaptor); if(@coord_systems != 3) { throw('ChainedMapper can only map between 3 coordinate systems. ' . scalar(@coord_systems) . ' were provided'); } $adaptor->cache_seq_ids_with_mult_assemblys(); # Set the component, intermediate and assembled coordinate systems $self->{'first_cs'} = $coord_systems[0]; $self->{'mid_cs'} = $coord_systems[1]; $self->{'last_cs'} = $coord_systems[2]; #maps between first and intermediate coord systems $self->{'first_mid_mapper'} = Bio::EnsEMBL::Mapper->new($FIRST, $MIDDLE); #maps between last and intermediate $self->{'last_mid_mapper'} = Bio::EnsEMBL::Mapper->new($LAST, $MIDDLE); #mapper that is actually used and is loaded by the mappings generated #by the other two mappers $self->{'first_last_mapper'} = Bio::EnsEMBL::Mapper->new($FIRST, $LAST, $coord_systems[0], $coord_systems[2]); #need registries to keep track of what regions are registered in source #and destination coordinate systems $self->{'first_registry'} = Bio::EnsEMBL::Mapper::RangeRegistry->new(); $self->{'last_registry'} = Bio::EnsEMBL::Mapper::RangeRegistry->new(); $self->{'max_pair_count'} = $DEFAULT_MAX_PAIR_COUNT; return $self; } =head2 max_pair_count Arg [1] : (optional) int $max_pair_count Example : $mapper->max_pair_count(100000) Description: Getter/Setter for the number of mapping pairs allowed in the internal cache. This can be used to override the default value (6000) to tune the performance and memory usage for certain scenarios. Higher value = bigger cache, more memory used Returntype : int Exceptions : none Caller : general Status : Stable =cut sub max_pair_count { my $self = shift; $self->{'max_pair_count'} = shift if(@_); return $self->{'max_pair_count'}; } =head2 register_all Arg [1] : none Example : $mapper->max_pair_count(10e6); $mapper->register_all(); Description: Pre-registers all assembly information in this mapper. The cache size should be set to a sufficiently large value so that all of the information can be stored. This method is useful when *a lot* of mapping will be done in regions which are distributed around the genome. After registration the mapper will consume a lot of memory but will not have to perform any SQL and will be faster. Returntype : none Exceptions : none Caller : specialised programs doing a lot of mapping Status : Stable =cut sub register_all { my $self = shift; $self->adaptor->register_all_chained($self); return; } sub flush { my $self = shift; $self->{'first_registry'}->flush(); $self->{'last_registry'}->flush(); $self->{'first_mid_mapper'}->flush(); $self->{'last_mid_mapper'}->flush(); $self->{'first_last_mapper'}->flush(); } =head2 size Args : none Example : $num_of_pairs = $mapper->size(); Description: return the number of pairs currently stored. Returntype : int Exceptions : none Caller : general Status : Stable =cut sub size { my $self = shift; return ( $self->{'first_last_mapper'}->{'pair_count'} + $self->{'last_mid_mapper'}->{'pair_count'} + $self->{'first_mid_mapper'}->{'pair_count'} ); } =head2 map Arg [1] : string $frm_seq_region The name of the sequence region to transform FROM Arg [2] : int $frm_start The start of the region to transform FROM Arg [3] : int $frm_end The end of the region to transform FROM Arg [4] : int $strand The strand of the region to transform FROM Arg [5] : Bio::EnsEMBL::CoordSystem The coordinate system to transform FROM Arg [6] : (optional) fastmap Arg [7] : (optional) Bio::Ensembl::Slice The slice to transform TO Example : @coords = $asm_mapper->map('X', 1_000_000, 2_000_000, 1, $chr_cs); Description: Transforms coordinates from one coordinate system to another. Returntype : List of Bio::EnsEMBL::Mapper::Coordinate and/or Bio::EnsEMBL::Mapper:Gap objects Exceptions : thrown if the specified TO coordinat system is not one of the coordinate systems associated with this assembly mapper Caller : general Status : Stable =cut sub map { throw('Incorrect number of arguments.') if(@_ < 6); my ($self, $frm_seq_region_name, $frm_start, $frm_end, $frm_strand, $frm_cs, $fastmap, $to_slice) = @_; my $mapper = $self->{'first_last_mapper'}; my $first_cs = $self->{'first_cs'}; my $last_cs = $self->{'last_cs'}; my $is_insert = ($frm_end + 1 == $frm_start); my $frm; my $registry; my @tmp; push @tmp, $frm_seq_region_name; my $seq_region_id = @{$self->adaptor()->seq_regions_to_ids($frm_cs, \@tmp)}[0]; #speed critical section: #try to do simple pointer equality comparisons of the coord system objects #first since this is likely to work most of the time and is much faster #than a function call if($frm_cs == $first_cs || ($frm_cs != $last_cs && $frm_cs->equals($first_cs))) { $frm = $FIRST; $registry = $self->{'first_registry'}; } elsif($frm_cs == $last_cs || $frm_cs->equals($last_cs)) { $frm = $LAST; $registry = $self->{'last_registry'}; } else { throw("Coordinate system " . $frm_cs->name . " " . $frm_cs->version . " is neither the first nor the last coordinate system " . " of this ChainedAssemblyMapper"); } #the minimum area we want to register if registration is necessary is #about 1MB. Break requested ranges into chunks of 1MB and then register #this larger region if we have a registry miss. #use bitwise shift for fast and easy integer multiplication and division my ($min_start, $min_end); if($is_insert) { $min_start = (($frm_end >> $CHUNKFACTOR) << $CHUNKFACTOR); $min_end = ((($frm_start >> $CHUNKFACTOR) + 1) << $CHUNKFACTOR) - 1 ; } else { $min_start = (($frm_start >> $CHUNKFACTOR) << $CHUNKFACTOR); $min_end = ((($frm_end >> $CHUNKFACTOR) + 1) << $CHUNKFACTOR) - 1 ; } #get a list of ranges in the requested region that have not been registered, #and register them at the same my $ranges; if($is_insert) { $ranges = $registry->check_and_register($seq_region_id, $frm_end, $frm_start, $min_start, $min_end); } else { $ranges = $registry->check_and_register($seq_region_id, $frm_start, $frm_end, $min_start, $min_end); } if(defined($ranges)) { if( $self->size() > $self->{'max_pair_count'} ) { $self->flush(); if($is_insert) { $ranges = $registry->check_and_register ($seq_region_id, $frm_end, $frm_start, $min_start, $min_end); } else { $ranges = $registry->check_and_register ($seq_region_id, $frm_start, $frm_end, $min_start, $min_end); } } $self->adaptor->register_chained($self,$frm,$seq_region_id,$ranges,$to_slice); } if($fastmap) { return $mapper->fastmap($seq_region_id, $frm_start, $frm_end, $frm_strand, $frm); } return $mapper->map_coordinates($seq_region_id, $frm_start, $frm_end, $frm_strand, $frm); } sub fastmap { my $self = shift; return $self->map(@_,1); } =head2 list_ids Arg [1] : string $frm_seq_region The name of the sequence region of interest Arg [2] : int $frm_start The start of the region of interest Arg [3] : int $frm_end The end of the region to transform of interest Arg [5] : Bio::EnsEMBL::CoordSystem $frm_cs The coordinate system to obtain overlapping ids of Example : foreach $id ($asm_mapper->list_ids('X',1,1000,$chr_cs)) {...} Description: Retrieves a list of overlapping seq_region internal identifiers of another coordinate system. This is the same as the list_seq_regions method but uses internal identfiers rather than seq_region strings Returntype : List of ints Exceptions : none Caller : general Status : Stable =cut sub list_ids { throw('Incorrect number of arguments.') if(@_ != 5); my($self, $frm_seq_region_name, $frm_start, $frm_end, $frm_cs) = @_; my $is_insert = ($frm_start == $frm_end + 1); #the minimum area we want to register if registration is necessary is #about 1MB. Break requested ranges into chunks of 1MB and then register #this larger region if we have a registry miss. #use bitwise shift for fast and easy integer multiplication and division my ($min_start, $min_end); if($is_insert) { $min_start = (($frm_end >> $CHUNKFACTOR) << $CHUNKFACTOR); $min_end = ((($frm_start >> $CHUNKFACTOR) + 1) << $CHUNKFACTOR) - 1; } else { $min_start = (($frm_start >> $CHUNKFACTOR) << $CHUNKFACTOR); $min_end = ((($frm_end >> $CHUNKFACTOR) + 1) << $CHUNKFACTOR) - 1; } my @tmp; push @tmp, $frm_seq_region_name; my $seq_region_id = @{$self->adaptor()->seq_regions_to_ids($frm_cs, \@tmp)}[0]; if($frm_cs->equals($self->{'first_cs'})) { my $registry = $self->{'first_registry'}; my $ranges; if($is_insert) { $ranges = $registry->check_and_register ($seq_region_id, $frm_end, $frm_start, $min_start, $min_end); } else { $ranges = $registry->check_and_register ($seq_region_id, $frm_start, $frm_end, $min_start, $min_end); } if(defined($ranges)) { $self->adaptor->register_chained($self,$FIRST,$seq_region_id,$ranges); } return map {$_->to()->id()} $self->first_last_mapper()->list_pairs($seq_region_id, $frm_start, $frm_end, $FIRST); } elsif($frm_cs->equals($self->{'last_cs'})) { my $registry = $self->{'last_registry'}; my $ranges; if($is_insert) { $ranges = $registry->check_and_register ($seq_region_id, $frm_end, $frm_start, $min_start, $min_end); } else { $ranges = $registry->check_and_register ($seq_region_id, $frm_start, $frm_end, $min_start, $min_end); } if(defined($ranges)) { $self->adaptor->register_chained($self,$LAST,$seq_region_id,$ranges); } return map {$_->from()->id()} $self->first_last_mapper()->list_pairs($seq_region_id, $frm_start, $frm_end, $LAST); } else { throw("Coordinate system " . $frm_cs->name . " " . $frm_cs->version . " is neither the first nor the last coordinate system " . " of this ChainedAssemblyMapper"); } } =head2 list_seq_regions Arg [1] : string $frm_seq_region The name of the sequence region of interest Arg [2] : int $frm_start The start of the region of interest Arg [3] : int $frm_end The end of the region to transform of interest Arg [5] : Bio::EnsEMBL::CoordSystem $frm_cs The coordinate system to obtain overlapping ids of Example : foreach $id ($asm_mapper->list_ids('X',1,1000,$ctg_cs)) {...} Description: Retrieves a list of overlapping seq_region internal identifiers of another coordinate system. This is the same as the list_ids method but uses seq_region names rather internal ids Returntype : List of strings Exceptions : none Caller : general Status : Stable =cut sub list_seq_regions { throw('Incorrect number of arguments.') if(@_ != 5); my($self, $frm_seq_region, $frm_start, $frm_end, $frm_cs) = @_; #retrieve the seq_region names my @seq_regs = $self->list_ids($frm_seq_region,$frm_start,$frm_end,$frm_cs); #The seq_regions are from the 'to' coordinate system not the #from coordinate system we used to obtain them my $to_cs; if($frm_cs->equals($self->first_CoordSystem())) { $to_cs = $self->last_CoordSystem(); } else { $to_cs = $self->first_CoordSystem(); } #convert them to names return @{$self->adaptor()->seq_ids_to_regions(\@seq_regs)}; } =head2 first_last_mapper Args : none Example : $mapper = $cam->first_last_mapper(); Description: return the mapper. Returntype : Bio::EnsEMBL::Mapper Exceptions : none Caller : internal Status : Stable =cut sub first_last_mapper { my $self = shift; return $self->{'first_last_mapper'}; } =head2 first_middle_mapper Args : none Example : $mapper = $cam->first_middle_mapper(); Description: return the mapper. Returntype : Bio::EnsEMBL::Mapper Exceptions : none Caller : internal Status : Stable =cut sub first_middle_mapper { my $self = shift; return $self->{'first_mid_mapper'}; } =head2 last_middle_mapper Args : none Example : $mapper = $cam->last_middle_mapper(); Description: return the mapper. Returntype : Bio::EnsEMBL::Mapper Exceptions : none Caller : internal Status : Stable =cut sub last_middle_mapper { my $self = shift; return $self->{'last_mid_mapper'}; } =head2 first_CoordSystem Args : none Example : $coordsys = $cam->first_CoordSystem(); Description: return the CoordSystem. Returntype : Bio::EnsEMBL::CoordSystem Exceptions : none Caller : internal Status : Stable =cut sub first_CoordSystem { my $self = shift; return $self->{'first_cs'}; } =head2 middle_CoordSystem Args : none Example : $coordsys = $cam->middle_CoordSystem(); Description: return the CoordSystem. Returntype : Bio::EnsEMBL::CoordSystem Exceptions : none Caller : internal Status : Stable =cut sub middle_CoordSystem { my $self = shift; return $self->{'mid_cs'}; } =head2 last_CoordSystem Args : none Example : $coordsys = $cam->last_CoordSystem(); Description: return the CoordSystem. Returntype : Bio::EnsEMBL::CoordSystem Exceptions : none Caller : internal Status : Stable =cut sub last_CoordSystem { my $self = shift; return $self->{'last_cs'}; } =head2 first_registry Args : none Example : $rr = $cam->first_registry(); Description: return the Registry. Returntype : Bio::EnsEMBL::Mapper::RangeRegistry Exceptions : none Caller : internal Status : Stable =cut sub first_registry { my $self = shift; return $self->{'first_registry'}; } =head2 last_registry Args : none Example : $rr = $cam->last_registry(); Description: return the Registry. Returntype : Bio::EnsEMBL::Mapper::RangeRegistry Exceptions : none Caller : internal Status : Stable =cut sub last_registry { my $self = shift; return $self->{'last_registry'}; } # # Methods supplied to maintain polymorphism with AssemblyMapper there # is no real assembled or component in the chained mapper, since the # ordering is arbitrary and both ends might actually be assembled, but # these methods provide convenient synonyms # =head2 mapper Args : none Example : $mapper = $cam->mapper(); Description: return the first_last_mapper. Returntype : Bio::EnsEMBL::Mapper Exceptions : none Caller : internal Status : Stable =cut sub mapper { my $self = shift; return $self->first_last_mapper(); } =head2 assembled_CoordSystem Args : none Example : $coordsys = $cam->assembled_CoordSystem(); Description: return the first CoordSystem. Returntype : Bio::EnsEMBL::CoordSystem Exceptions : none Caller : internal Status : Stable =cut sub assembled_CoordSystem { my $self = shift; return $self->{'first_cs'}; } =head2 component_CoordSystem Args : none Example : $coordsys = $cam->component_CoordSystem(); Description: return the last CoordSystem. Returntype : Bio::EnsEMBL::CoordSystem Exceptions : none Caller : internal Status : Stable =cut sub component_CoordSystem { my $self = shift; return $self->{'last_cs'}; } =head2 adaptor Arg [1] : Bio::EnsEMBL::DBSQL::AssemblyMapperAdaptor $adaptor Description: get/set for this objects database adaptor Returntype : Bio::EnsEMBL::DBSQL::AssemblyMapperAdaptor Exceptions : none Caller : general Status : Stable =cut sub adaptor { my $self = shift; weaken($self->{'adaptor'} = shift) if(@_); return $self->{'adaptor'}; } =head2 in_assembly Deprecated. Use map() or list_ids() instead =cut sub in_assembly { my ($self, $object) = @_; deprecate('Use map() or list_ids() instead.'); my $csa = $self->db->get_CoordSystemAdaptor(); my $top_level = $csa->fetch_top_level(); my $asma = $self->adaptor->fetch_by_CoordSystems($object->coord_system(), $top_level); my @list = $asma->list_ids($object->seq_region(), $object->start(), $object->end(), $object->coord_system()); return (@list > 0); } =head2 map_coordinates_to_assembly DEPRECATED use map() instead =cut sub map_coordinates_to_assembly { my ($self, $contig_id, $start, $end, $strand) = @_; deprecate('Use map() instead.'); #not sure if contig_id is seq_region_id or name... return $self->map($contig_id, $start, $end, $strand, $self->contig_CoordSystem()); } =head2 fast_to_assembly DEPRECATED use map() instead =cut sub fast_to_assembly { my ($self, $contig_id, $start, $end, $strand) = @_; deprecate('Use map() instead.'); #not sure if contig_id is seq_region_id or name... return $self->map($contig_id, $start, $end, $strand, $self->contig_CoordSystem()); } =head2 map_coordinates_to_rawcontig DEPRECATED use map() instead =cut sub map_coordinates_to_rawcontig { my ($self, $chr_name, $start, $end, $strand) = @_; deprecate('Use map() instead.'); return $self->map($chr_name, $start, $end, $strand, $self->assembled_CoordSystem()); } =head2 list_contig_ids DEPRECATED Use list_ids instead =cut sub list_contig_ids { my ($self, $chr_name, $start, $end) = @_; deprecate('Use list_ids() instead.'); return $self->list_ids($chr_name, $start, $end, $self->assembled_CoordSystem()); } 1;