# # test/unit/bio/test_alignment.rb - Unit test for Bio::Alignment # # Copyright:: Copyright (C) 2004 # Moses Hohman # 2005 Naohisa Goto # License:: The Ruby License # # $Id:$ # # loading helper routine for testing bioruby require 'pathname' load Pathname.new(File.join(File.dirname(__FILE__), ['..'] * 2, 'bioruby_test_helper.rb')).cleanpath.to_s # libraries needed for the tests require 'test/unit' require 'bio/alignment' module Bio class TestAlignmentPropertyMethods < Test::Unit::TestCase def setup @obj = Object.new @obj.extend(Alignment::PropertyMethods) end def test_is_gap_default_false assert_equal(false, @obj.is_gap?('a'), "\"a\" isn't a gap") end def test_is_gap_default_true assert_equal(true, @obj.is_gap?('-'), '"-" is a gap') end def test_gap_regexp assert_not_nil(@obj.gap_regexp) end def test_gap_regexp_never_nil @obj.gap_regexp = nil assert_not_nil(@obj.gap_regexp) end def test_gap_regexp=() @obj.gap_regexp = /[^a-zA-Z0-9]/ assert_equal(/[^a-zA-Z0-9]/, @obj.gap_regexp) end def test_is_gap_nodefault_false @obj.gap_regexp = /[^a-zA-Z0-9]/ assert_equal(false, @obj.is_gap?('3')) end def test_is_gap_nodefault_true @obj.gap_regexp = /[^atgc]/ assert_equal(true, @obj.is_gap?('z')) end def test_gap_char_default assert_not_nil(@obj.gap_char) end def test_gap_char_never_nil @obj.gap_char = nil assert_not_nil(@obj.gap_char) end def test_gap_char=() @obj.gap_char = '#' assert_equal('#', @obj.gap_char) end def test_missing_char_default assert_not_nil(@obj.missing_char) end def test_missing_char_never_nil @obj.missing_char = nil assert_not_nil(@obj.missing_char) end def test_missing_char=() @obj.missing_char = '_' assert_equal('_', @obj.missing_char) end def test_seqclass_default assert_not_nil(@obj.seqclass) end def test_seqclass_never_nil @obj.seqclass = nil assert_not_nil(@obj.seqclass) end def test_seqclass=() @obj.seqclass = Sequence::NA assert_equal(Sequence::NA, @obj.seqclass) end def test_get_all_property_default assert_equal({}, @obj.get_all_property) end def test_get_all_property_nodefault @obj.gap_regexp = /[^acgt]/ @obj.gap_char = '#' @obj.missing_char = '_' @obj.seqclass = Sequence::NA assert_equal({ :gap_regexp => /[^acgt]/, :gap_char => '#', :missing_char => '_', :seqclass => Sequence::NA }, @obj.get_all_property) end def test_set_all_property h = { :gap_regexp => /[^acgt]/, :gap_char => '#', :missing_char => '_', :seqclass => Sequence::NA } @obj.set_all_property(h) assert_equal(h, @obj.get_all_property) end end #class TestAlignmentPropertyMethods # This is a unit test of Bio::Alignment::Site class and # Bio::Alignment::SiteMethods module. # Since Bio::Alignment::Site includes Bio::Alignment::SiteMethods, # we can test both at a time. class TestAlignmentSite < Test::Unit::TestCase def test_has_gap_true site = Alignment::Site[ 'a', '-', 'c', 'g', 't' ] assert_equal(true, site.has_gap?) end def test_has_gap_false site = Alignment::Site[ 'a', 'c', 'g', 't' ] assert_equal(false, site.has_gap?) end def test_remove_gaps! site = Alignment::Site[ 'a', '-', 'c', '-' ] assert_equal(Alignment::Site['a', 'c'], site.remove_gaps!) end def test_remove_gaps_bang_not_removed site = Alignment::Site[ 'a', 'c'] assert_equal(nil, site.remove_gaps!) end def test_consensus_string_default site = Alignment::Site[ 'a', 'a', 'a', 'a'] assert_equal('a', site.consensus_string) end def test_consensus_string_default_nil site = Alignment::Site[ 'a', 'a', 'a', 'c'] assert_nil(site.consensus_string) end def test_consensus_string_50percent site = Alignment::Site[ 'a', 'a', 'c', 'g'] assert_equal('a', site.consensus_string(0.5)) end def test_consensus_string_50percent_nil site = Alignment::Site[ 'a', 'c', 'g', 't'] assert_nil(site.consensus_string(0.5)) end def test_consensus_iupac data = { 'a' => [ 'a' ], 'c' => [ 'c' ], 'g' => [ 'g' ], 't' => [ 't' ], 't' => [ 't', 'u' ], 'm' => [ 'a', 'c' ], 'r' => [ 'a', 'g' ], 'w' => [ 'a', 't' ], 's' => [ 'c', 'g' ], 'y' => [ 'c', 't' ], 'k' => [ 'g', 't' ], 'v' => [ 'a', 'c', 'g' ], 'h' => [ 'a', 'c', 't' ], 'd' => [ 'a', 'g', 't' ], 'b' => [ 'c', 'g', 't' ], 'n' => [ 'a', 'c', 'g', 't' ], nil => [ 'z', 'a' ] } data.each do |cons, testdata| site = Alignment::Site[ *testdata ] assert_equal(cons, site.consensus_iupac, "IUPAC consensus of #{testdata.join(',')} is #{cons}") end end def test_match_line_amino_missing site = Alignment::Site[ 'P', 'Q', 'R', 'S' ] assert_equal(' ', site.match_line_amino) end def test_match_line_amino_100percent site = Alignment::Site[ 'M', 'M', 'M', 'M' ] assert_equal('*', site.match_line_amino) end def test_match_line_amino_strong site = Alignment::Site[ 'N', 'E', 'Q', 'K' ] assert_equal(':', site.match_line_amino) end def test_match_line_amino_weak site = Alignment::Site[ 'S', 'G', 'N', 'D' ] assert_equal('.', site.match_line_amino) end def test_match_line_nuc_missing site = Alignment::Site[ 'A', 'C', 'G', 'T' ] assert_equal(' ', site.match_line_nuc) end def test_match_line_nuc_100percent site = Alignment::Site[ 'G', 'G', 'G', 'G' ] assert_equal('*', site.match_line_nuc) end end #class TestAlignmentSite # This is sample class for testing Bio::Alignment::EnumerableExtension. class A < Array include Alignment::EnumerableExtension end class TestAlignmentEnumerableExtension < Test::Unit::TestCase def test_each_seq expected_results = [ 'atg', 'aag', 'acg' ] a = A[ *expected_results ] a.each_seq do |x| assert_equal(expected_results.shift, x) end assert(expected_results.empty?) end def test_seqclass_default a = A.new assert_equal(String, a.seqclass) end def test_seqclass a = A[ Bio::Sequence::NA.new('atg') ] assert_equal(Bio::Sequence::NA, a.seqclass) end def test_seqclass=() a = A.new assert_equal(String, a.seqclass) a << Bio::Sequence::NA.new('a') assert_equal(Bio::Sequence::NA, a.seqclass) a.seqclass = Bio::Sequence::AA assert_equal(Bio::Sequence::AA, a.seqclass) end def test_alignment_length a = A[ 'a', 'at', 'atgc', 'atg', '' ] assert_equal(4, a.alignment_length) end def test_private_alignment_site a = A[ 'a', 'at', 'atgc', 'atg', '' ] assert_equal(Alignment::Site[ '-', 't', 't', 't', '-' ], a.instance_eval { _alignment_site(1) }) end def test_alignment_site a = A[ 'a', 'at', 'atgc', 'atg', '' ] assert_equal(Alignment::Site[ '-', 't', 't', 't', '-' ], a.__send__(:_alignment_site, 1)) end def test_each_site expected_results = [ Alignment::Site[ 'a', 'a', 'a', 'a', '-' ], Alignment::Site[ '-', 't', 't', 't', '-' ], Alignment::Site[ '-', '-', 'g', 'g', '-' ], Alignment::Site[ '-', '-', 'c', '-', '-' ] ] a = A[ 'a', 'at', 'atgc', 'atg', '' ] a.each_site do |site| assert_equal(expected_results.shift, site) end assert(expected_results.empty?) end def test_each_site_step expected_results = [ Alignment::Site[ '-', 't', 't', 't', '-' ], # site 1 Alignment::Site[ '-', 'a', 'g', 't', '-' ], # site 3 ] a = A[ 'a', 'atgatc', 'atggcc', 'atgtga', '' ] a.each_site_step(1, 4, 2) do |site| assert_equal(expected_results.shift, site) end assert(expected_results.empty?) end def test_alignment_collect a = A[ 'a', 'at', 'atgc', 'atg', '' ] assert_equal(Alignment::SequenceArray[ 'a', 'au', 'augc', 'aug', '' ], a.alignment_collect { |x| x.gsub(/t/, 'u') }) end def test_alignment_window a = A[ 'a', 'at', 'atgca', 'atg', '' ] assert_equal(Alignment::SequenceArray[ '', 't', 'tgc', 'tg', '' ], a.alignment_window(1, 3)) end def test_each_window expected_results = [ Alignment::SequenceArray[ 'atg', 'tcg', '' ], # 0..2 Alignment::SequenceArray[ 'gca', 'gat', '' ], # 2..4 Alignment::SequenceArray[ 'atg', 'tgc', '' ], # 4..6 Alignment::SequenceArray[ 'c', 'a', '' ] # 7..7 ] a = A[ 'atgcatgc', 'tcgatgca', '' ] r = a.each_window(3, 2) do |x| assert_equal(expected_results.shift, x) end assert_equal(expected_results.shift, r) assert(expected_results.empty?) end def test_collect_each_site a = A[ 'a', 'at', 'atgc', 'atg', '' ] assert_equal(["aaaa-", "-ttt-", "--gg-", "--c--" ], a.collect_each_site { |x| x.join('') }) end def test_consensus_each_site_default expected_results = [ Alignment::Site[ 'a', 'a', 'a', 'a', 'a' ], Alignment::Site[ 'a', 'c', 'g', 't', '-' ] ] a = A[ 'aa', 'ac', 'ag', 'at', 'a-' ] result = a.consensus_each_site do |site| assert_equal(expected_results.shift, site) 'x' end assert_equal('xx', result) assert(expected_results.empty?) end def test_consensus_each_site_gap_mode_1 expected_results = [ Alignment::Site[ 'a', 'a', 'a', 'a', 'a' ] ] a = A[ 'aa', 'ac', 'ag', 'at', 'a-' ] result = a.consensus_each_site(:gap_mode => 1) do |site| assert_equal(expected_results.shift, site) 'x' end assert_equal('x-', result) assert(expected_results.empty?) end def test_consensus_each_site_gap_mode_minus1 expected_results = [ Alignment::Site[ 'a', 'a', 'a', 'a', 'a' ], Alignment::Site[ 'a', 'c', 'g', 't' ] ] a = A[ 'aa', 'ac', 'ag', 'at', 'a-' ] result = a.consensus_each_site(:gap_mode => -1) do |site| assert_equal(expected_results.shift, site) 'x' end assert_equal('xx', result) assert(expected_results.empty?) end def test_consensus_string_default a = A[ 'ata', 'aac', 'aag', 'aat' ] assert_equal('a??', a.consensus_string) end def test_consensus_string_half a = A[ 'ata', 'aac', 'aag', 'aat' ] assert_equal('aa?', a.consensus_string(0.5)) end def test_consensus_iupac a = A[ 'acgtaaaccgaaacaz', 'acgtaaaccgccggcz', 'acgtcgtgttgtttgz', 'acgtcgtgttaaactz' ] assert_equal('acgtmrwsykvhdbn?', a.consensus_iupac) end def test_match_line_amino a = A[ 'M-SNNNQMMHF-CASSSSSNNFH-AW', 'M-TEHDHIIYY-STATTGNDEVF-FW', 'M-AQQERLLHW-AVGNPNDEQLY-HW', 'M-SKKQKVFYF-CASKADEQHIH-LW', 'M-TNNNQMMHY-STASSSQHRMF-QW', 'M-AEHDHIIYW-AVGTTGKKKFY-YW' #* ::::::::: ........... * ] assert_equal('* ::::::::: ........... *', a.match_line_amino) end def test_match_line_nuc a = A[ 'aaa', 'aa-','aac', 'at-' ] assert_equal('* ', a.match_line_nuc) end def test_match_line a = A[ Sequence::AA.new('MNSA'), Sequence::AA.new('MHTL'), Sequence::AA.new('MQNV'), Sequence::AA.new('MKKW') ] assert_equal('*:. ', a.match_line) assert_equal('*:. ', a.match_line(:type => :aa)) assert_equal('* ', a.match_line(:type => :na)) end def test_convert_match a = A[ 'aaaa', 'accc', 'acac', 'actc' ] a.convert_match assert_equal(A[ 'aaaa', '.ccc', '.c.c', '.ctc' ], a) end def test_convert_unmatch a = A[ 'aaaa', '.ccc', '.c.c', '.ctc' ] a.convert_unmatch assert_equal(A[ 'aaaa', 'accc', 'acac', 'actc' ], a) end def test_alignment_normalize! a = A[ 'a', 'atg', 'atgc', '' ] a.alignment_normalize! assert_equal(A[ 'a---', 'atg-', 'atgc', '----'], a) end def test_alignment_rstrip! a = A[ '--aaa--', '--t-t--', '---g---', '--t' ] assert(a.alignment_rstrip!) assert_equal(A[ '--aaa', '--t-t', '---g-', '--t' ], a) end def test_alignment_rstrip_nil a = A[ 'aa', '-a', 'a-' ] assert_nil(a.alignment_rstrip!) assert_equal(A[ 'aa', '-a', 'a-' ], a) end def test_alignment_lstrip! a = A[ '--aaa--', '--t-t--', '---g---', '--t' ] assert(a.alignment_lstrip!) assert_equal(A[ 'aaa--', 't-t--', '-g---', 't' ], a) end def test_alignment_lstrip_nil a = A[ 'aa', '-a', 'a-' ] assert_nil(a.alignment_lstrip!) assert_equal(A[ 'aa', '-a', 'a-' ], a) end def test_alignment_strip! a = A[ '--aaa--', '--t-t--', '---g---', '--t' ] assert(a.alignment_strip!) assert_equal(A[ 'aaa', 't-t', '-g-', 't' ], a) end def test_alignment_strip_nil a = A[ 'aa', '-a', 'a-' ] assert_nil(a.alignment_strip!) assert_equal(A[ 'aa', '-a', 'a-' ], a) end def test_remove_all_gaps! a = A[ '--aaa--', '--t-t--', '---g---', '--t' ] assert(a.remove_all_gaps!) assert_equal(A[ 'aaa', 'tt', 'g', 't' ], a) end # test of alignment_slice. # Please also refer alignment_window. def test_alignment_slice a = A[ 'a', 'at', 'atgca', 'atg', '' ] assert_equal(Alignment::SequenceArray[ '', 't', 'tgc', 'tg', nil ], a.alignment_slice(1, 3)) end def test_alignment_subseq a = A[ Sequence::NA.new('a'), Sequence::NA.new('at'), Sequence::NA.new('atgca'), Sequence::NA.new('atg'), Sequence::NA.new('') ] assert_equal(Alignment::SequenceArray[ Sequence::NA.new(''), Sequence::NA.new('t'), Sequence::NA.new('tgc'), Sequence::NA.new('tg'), nil ], a.alignment_subseq(2,4)) end def test_alignment_concat a = A[ 'aaa', 'c', 'gg', 't' ] a.alignment_concat(A[ 'ttt', 'gg', 'aa', 'cc', 'aa' ]) assert_equal(A[ 'aaattt', 'cgg', 'ggaa', 'tcc' ], a) a.alignment_concat([ 'c', 't' ]) assert_equal(A[ 'aaatttc', 'cggt', 'ggaa', 'tcc' ], a) end end #class TestAlignmentEnumerableExtension class TestAlignmentOutput < Test::Unit::TestCase def setup @obj = Object.new @obj.extend(Alignment::Output) end def test_clustal_have_same_name_true assert_equal([ 0, 1 ], @obj.instance_eval { __clustal_have_same_name?([ 'ATP ATG', 'ATP ATA', 'BBB' ]) }) end def test_have_same_name_false assert_equal(false, @obj.instance_eval { __clustal_have_same_name?([ 'GTP ATG', 'ATP ATA', 'BBB' ]) }) end def test_avoid_same_name assert_equal([ 'ATP_ATG', 'ATP_ATA', 'BBB' ], @obj.instance_eval { __clustal_avoid_same_name([ 'ATP ATG', 'ATP ATA', 'BBB' ]) }) end def test_avoid_same_name_numbering assert_equal([ '0_ATP', '1_ATP', '2_BBB' ], @obj.instance_eval { __clustal_avoid_same_name([ 'ATP', 'ATP', 'BBB' ]) }) end end #class TestAlignmentOutput class TestAlignment < Test::Unit::TestCase # testing helper method def build_na_alignment(*sequences) sequences.inject(Alignment.new) { |alignment, sequence| alignment << Sequence::NA.new(sequence) } end private :build_na_alignment def test_equals alignment1 = Alignment.new([Sequence::NA.new("agct"), Sequence::NA.new("tagc")]) alignment2 = Alignment.new([Sequence::NA.new("agct"), Sequence::NA.new("tagc")]) assert_equal(alignment1, alignment2) end # Alignment#store def test_store_cannot_override_key alignment = Alignment.new alignment.store("Cat DNA", Sequence::NA.new("cat")) alignment.store("Cat DNA", Sequence::NA.new("gcat")) assert_equal("cat", alignment["Cat DNA"]) end def test_store_with_nil_key_uses_next_number_for_key alignment = Alignment.new alignment.store(nil, Sequence::NA.new("cat")) alignment.store(nil, Sequence::NA.new("gat")) alignment.store(nil, Sequence::NA.new("tat")) assert_equal({0=>"cat",1=>"gat",2=>"tat"}, alignment.to_hash) end def test_store_with_default_keys_and_user_defined_keys alignment = Alignment.new alignment.store("cat key", Sequence::NA.new("cat")) alignment.store(nil, Sequence::NA.new("cag")) alignment.store("gat key", Sequence::NA.new("gat")) alignment.store(nil, Sequence::NA.new("gag")) assert_equal({"gat key"=>"gat",1=>"cag",3=>"gag","cat key"=>"cat"}, alignment.to_hash) end # Test append operator def test_seqclass_when_sequence_used alignment = Alignment.new alignment << Sequence::NA.new("cat") assert_equal({0=>"cat"}, alignment.to_hash) end # Test seqclass def test_seqclass_when_sequence_used_no_seqclass_set alignment = Alignment.new alignment << Sequence::NA.new("cat") assert_equal(Sequence::NA, alignment.seqclass) end def test_seqclass_String_seq_not_present_no_seqclass_set alignment = Alignment.new alignment << nil assert_equal(String, alignment.seqclass) end def test_seqclass_when_seqclass_set alignment = Alignment.new alignment.seqclass = Fixnum alignment << "this doesn't really make sense" assert_equal(Fixnum, alignment.seqclass) end # Alignment#gap_char def test_default_gap_char alignment = Alignment.new assert_equal("-", alignment.gap_char) end def test_set_and_get_gap_char alignment = Alignment.new alignment.gap_char = "+" assert_equal("+", alignment.gap_char) end # Alignment#gap_regexp def test_default_gap_regexp_matches_default_gap_char alignment = Alignment.new assert(alignment.gap_regexp.match(alignment.gap_char)) end # Alignment#missing_char def test_default_missing_char alignment = Alignment.new assert_equal("?", alignment.missing_char) end # Alignment#seq_length def test_seq_length_when_one_sequence alignment = build_na_alignment("agt") assert_equal(3, alignment.seq_length) end def test_seq_length_is_max_seq_length alignment = build_na_alignment("agt", "agtaa", "agta") assert_equal(5, alignment.seq_length) end # Alignment#each_site def test_each_site_equal_length alignment = build_na_alignment("acg", "gta") expected_sites = [["a", "g"], ["c", "t"], ["g", "a"]] alignment.each_site do |site| assert_equal expected_sites.shift, site, "site ##{3-expected_sites.size} wrong" end end def test_each_site_unequal_length alignment = build_na_alignment("ac", "gta") expected_sites = [["a", "g"], ["c", "t"], ["-", "a"]] alignment.each_site do |site| assert_equal expected_sites.shift, site, "site ##{3-expected_sites.size} wrong" end end #TODO: Lots of stuff needing tests here # Alignment#add_seq def test_add_seq_no_key alignment = Alignment.new alignment.add_seq("agct") assert_equal(String, alignment.seqclass, "wrong class") assert_equal({0=>"agct"}, alignment.to_hash, "wrong hash") end def test_add_seq_using_seq_with_seq_method seq = "agtc" class <"agtc"}, alignment.to_hash, "wrong hash") end def test_add_seq_using_seq_with_naseq_method seq = "agtc" class <"agtc"}, alignment.to_hash, "wrong hash") end def test_add_seq_using_seq_with_aaseq_method seq = "AVGR" class <"AVGR"}, alignment.to_hash, "wrong hash") end def test_add_seq_using_seq_with_definition_method seq = "atgc" class <"atgc"}, alignment.to_hash, "wrong hash") end def test_add_seq_using_seq_with_entry_id_method seq = "atgc" class <"atgc"}, alignment.to_hash, "wrong hash") end # Alignment#consensus_string def test_consensus_string_no_gaps alignment = build_na_alignment("agtcgattaa", "tttcgatgcc") assert_equal("??tcgat???", alignment.consensus_string) end def test_consensus_threshold_two_sequences alignment = build_na_alignment("agtcgattaa", "tttcgatgcc") # the threshold is the fraction of sequences in which a symbol must # occur at a given position to be considered the consensus symbol assert_equal("agtcgattaa", alignment.consensus(0.5)) assert_equal("??tcgat???", alignment.consensus(0.500000001)) end def test_consensus_threshold_four_sequences alignment = build_na_alignment("agtg", "ttag", "actc", "tatc") # ties go to the symbol that occurs in the earliest sequence assert_equal("agtg", alignment.consensus(0.25)) assert_equal("a?tg", alignment.consensus(0.26)) end def test_consensus_opt_gap_mode alignment = build_na_alignment("gt-gt-a", "ttcggc-", "ttcggc-") # using threshold = 0.5, that is a symbol must occur >= half the time in order to be consensus # gap_mode -1 means gaps are ignored assert_equal("ttcggca", alignment.consensus(0.5, :gap_mode => -1), "gap mode -1") # gap_mode 0 means gaps are treated like regular symbols, yielding a gap in the last position assert_equal("ttcggc-", alignment.consensus(0.5, :gap_mode => 0), "gap mode 0") # gap_mode 1 means gaps take precedence over any other symbol, yielding two more gaps assert_equal("tt-gg--", alignment.consensus(0.5, :gap_mode => 1), "gap mode 1") end def test_consensus_opt_missing_char alignment = build_na_alignment("agtcgattaa", "tttcgatgcc") assert_equal("**tcgat***", alignment.consensus(1, :missing_char => "*")) end # Alignment#consensus_iupac def test_consensus_iupac_no_gaps alignment = build_na_alignment("agtcgattaa", "tttcgatgcc") assert_equal("wktcgatkmm", alignment.consensus_iupac) end def test_consensus_iupac_of_ambiguous_bases alignment = build_na_alignment("tmrwsykvhdbnd", "uaaaccgaaacab") assert_equal("tmrwsykvhdbnn", alignment.consensus_iupac) end def test_consensus_iupac_gap_modes alignment = build_na_alignment("a-t", "acc") # gap_mode -1 means gaps are ignored assert_equal("acy", alignment.consensus_iupac(:gap_mode => -1)) # gap_mode 0 means gaps are treated as normal characters, yielding a missing symbol assert_equal("a?y", alignment.consensus_iupac(:gap_mode => 0)) # gap_mode 1 means gaps take precedence over everything, yielding a gap assert_equal("a-y", alignment.consensus_iupac(:gap_mode => 1)) end def test_consensus_iupac_yields_correct_ambiguous_bases assert_equal "t", build_na_alignment("t", "u").consensus_iupac # not really IUPAC # m = a c assert_equal "m", build_na_alignment("a", "c").consensus_iupac, "m #1" assert_equal "m", build_na_alignment("m", "c").consensus_iupac, "m #2" assert_equal "m", build_na_alignment("a", "m").consensus_iupac, "m #3" assert_equal "m", build_na_alignment("m", "a", "c").consensus_iupac, "m #4" # r = a g assert_equal "r", build_na_alignment("a", "g").consensus_iupac, "r #1" assert_equal "r", build_na_alignment("r", "g").consensus_iupac, "r #2" assert_equal "r", build_na_alignment("a", "r").consensus_iupac, "r #3" assert_equal "r", build_na_alignment("a", "r", "g").consensus_iupac, "r #4" # w = a t/u assert_equal "w", build_na_alignment("a", "t").consensus_iupac, "w #1" assert_equal "w", build_na_alignment("a", "u").consensus_iupac, "w #2" assert_equal "w", build_na_alignment("w", "a").consensus_iupac, "w #3" assert_equal "w", build_na_alignment("t", "w").consensus_iupac, "w #4" assert_equal "w", build_na_alignment("w", "u").consensus_iupac, "w #5" assert_equal "w", build_na_alignment("u", "t", "a").consensus_iupac, "w #6" assert_equal "w", build_na_alignment("w", "u", "t", "a").consensus_iupac, "w #7" # s = c g assert_equal "s", build_na_alignment("c", "g").consensus_iupac, "s #1" assert_equal "s", build_na_alignment("s", "g").consensus_iupac, "s #2" assert_equal "s", build_na_alignment("c", "s").consensus_iupac, "s #3" assert_equal "s", build_na_alignment("c", "s", "g").consensus_iupac, "s #4" # y = c t/u assert_equal "y", build_na_alignment("c", "t").consensus_iupac, "y #1" assert_equal "y", build_na_alignment("c", "u").consensus_iupac, "y #2" assert_equal "y", build_na_alignment("y", "c").consensus_iupac, "y #3" assert_equal "y", build_na_alignment("t", "y").consensus_iupac, "y #4" assert_equal "y", build_na_alignment("y", "u").consensus_iupac, "y #5" assert_equal "y", build_na_alignment("u", "t", "c").consensus_iupac, "y #6" assert_equal "y", build_na_alignment("y", "u", "t", "c").consensus_iupac, "y #7" # k = g t/u assert_equal "k", build_na_alignment("g", "t").consensus_iupac, "k #1" assert_equal "k", build_na_alignment("g", "u").consensus_iupac, "k #2" assert_equal "k", build_na_alignment("k", "g").consensus_iupac, "k #3" assert_equal "k", build_na_alignment("t", "k").consensus_iupac, "k #4" assert_equal "k", build_na_alignment("k", "u").consensus_iupac, "k #5" assert_equal "k", build_na_alignment("u", "t", "g").consensus_iupac, "k #6" assert_equal "k", build_na_alignment("k", "u", "t", "g").consensus_iupac, "k #7" # v = a c g m r s assert_equal "v", build_na_alignment("a", "c", "g").consensus_iupac, "v #1" assert_equal "v", build_na_alignment("g", "m").consensus_iupac, "v #2" assert_equal "v", build_na_alignment("a", "s").consensus_iupac, "v #3" assert_equal "v", build_na_alignment("c", "r").consensus_iupac, "v #4" assert_equal "v", build_na_alignment("m", "s").consensus_iupac, "v #5" assert_equal "v", build_na_alignment("m", "r").consensus_iupac, "v #6" assert_equal "v", build_na_alignment("s", "r").consensus_iupac, "v #7" assert_equal "v", build_na_alignment("s", "r", "m").consensus_iupac, "v #8" assert_equal "v", build_na_alignment("s", "r", "m", "a", "c", "g").consensus_iupac, "v #9" assert_equal "v", build_na_alignment("v", "g").consensus_iupac, "v #10" # alright, enough # b = t/u c g s y k assert_equal "b", build_na_alignment("t", "c", "g").consensus_iupac, "b #1" assert_equal "b", build_na_alignment("g", "y").consensus_iupac, "b #2" assert_equal "b", build_na_alignment("t", "s").consensus_iupac, "b #3" assert_equal "b", build_na_alignment("c", "k").consensus_iupac, "b #4" assert_equal "b", build_na_alignment("y", "s").consensus_iupac, "b #5" assert_equal "b", build_na_alignment("y", "k").consensus_iupac, "b #6" assert_equal "b", build_na_alignment("s", "k").consensus_iupac, "b #7" assert_equal "b", build_na_alignment("s", "k", "y").consensus_iupac, "b #8" assert_equal "b", build_na_alignment("s", "k", "y", "u", "c", "g").consensus_iupac, "b #9" assert_equal "b", build_na_alignment("b", "g").consensus_iupac, "b #10" # h = t/u c a y w m assert_equal "h", build_na_alignment("t", "c", "a").consensus_iupac, "h #1" assert_equal "h", build_na_alignment("a", "y").consensus_iupac, "h #2" assert_equal "h", build_na_alignment("c", "w").consensus_iupac, "h #3" assert_equal "h", build_na_alignment("u", "m").consensus_iupac, "h #4" assert_equal "h", build_na_alignment("y", "w").consensus_iupac, "h #5" assert_equal "h", build_na_alignment("y", "m").consensus_iupac, "h #6" assert_equal "h", build_na_alignment("y", "w").consensus_iupac, "h #7" assert_equal "h", build_na_alignment("w", "m", "y").consensus_iupac, "h #8" assert_equal "h", build_na_alignment("w", "m", "y", "t", "c", "a").consensus_iupac, "h #9" assert_equal "h", build_na_alignment("h", "t").consensus_iupac, "h #10" # d = t/u g a r w k assert_equal "d", build_na_alignment("t", "g", "a").consensus_iupac, "d #1" assert_equal "d", build_na_alignment("r", "t").consensus_iupac, "d #2" assert_equal "d", build_na_alignment("w", "g").consensus_iupac, "d #3" assert_equal "d", build_na_alignment("k", "a").consensus_iupac, "d #4" assert_equal "d", build_na_alignment("k", "r").consensus_iupac, "d #5" assert_equal "d", build_na_alignment("k", "w").consensus_iupac, "d #6" assert_equal "d", build_na_alignment("r", "w").consensus_iupac, "d #7" assert_equal "d", build_na_alignment("r", "w", "k").consensus_iupac, "d #8" assert_equal "d", build_na_alignment("k", "r", "w", "t", "g", "a").consensus_iupac, "d #9" assert_equal "d", build_na_alignment("d", "t").consensus_iupac, "d #10" # n = anything assert_equal "n", build_na_alignment("a", "g", "c", "t").consensus_iupac, "n #1" assert_equal "n", build_na_alignment("a", "g", "c", "u").consensus_iupac, "n #2" assert_equal "n", build_na_alignment("w", "s").consensus_iupac, "n #3" assert_equal "n", build_na_alignment("k", "m").consensus_iupac, "n #4" assert_equal "n", build_na_alignment("r", "y").consensus_iupac, "n #5" end def test_consensus_iupac_missing_char alignment = build_na_alignment("a??", "ac?") assert_equal("a??", alignment.consensus_iupac()) end def test_consensus_iupac_missing_char_option alignment = build_na_alignment("a**t", "ac**") assert_equal("a***", alignment.consensus_iupac(:missing_char => "*")) end # Alignment#convert_match def test_convert_match alignment = Alignment.new alignment << Sequence::NA.new("agtcgattaa") alignment << Sequence::NA.new("tttcgatgcc") match = alignment.convert_match assert_equal(alignment[0], match[0], "first sequence altered") assert_equal("tt.....gcc", match[1], "wrong match") end # Alignment#convert_unmatch def test_convert_unmatch alignment = Alignment.new alignment << Sequence::NA.new("agtcgattaa") alignment << Sequence::NA.new("tt.....gcc") unmatched = alignment.convert_unmatch assert_equal("agtcgattaa", unmatched[0], "first changed") assert_equal("tttcgatgcc", unmatched[1], "second wrong") end def test_convert_unmatch_multiple_sequences alignment = Alignment.new alignment << Sequence::NA.new("agtcgattaa") alignment << Sequence::NA.new("tt.....gcc") alignment << Sequence::NA.new("c...c..g.c") unmatched = alignment.convert_unmatch assert_equal("agtcgattaa", unmatched[0], "first changed") assert_equal("tttcgatgcc", unmatched[1], "second wrong") assert_equal("cgtccatgac", unmatched[2], "third wrong") end def test_convert_unmatch_different_length_sequences_truncates_seq_if_last_matched alignment = Alignment.new alignment << Sequence::NA.new("agtcgatta") alignment << Sequence::NA.new("tt.....gc.") unmatched = alignment.convert_unmatch assert_equal("agtcgatta", unmatched[0], "first changed") assert_equal("tttcgatgc", unmatched[1], "second wrong") #TODO: verify this is correct, and not . at end end def test_convert_unmatch_different_match_char alignment = Alignment.new alignment << Sequence::NA.new("agtcga") alignment << Sequence::NA.new("tt====") unmatched = alignment.convert_unmatch('=') assert_equal("agtcga", unmatched[0], "first changed") assert_equal("tttcga", unmatched[1], "second wrong") end # Alignment#match_line def test_match_line_protein alignment = Alignment.new alignment << Sequence::AA.new("AELFMCF") alignment << Sequence::AA.new("AKLVNNF") assert_equal "*:*. *", alignment.match_line end #TODO: lots more on the consensus, match, etc. # Alignment#normalize def test_normalizebang_extends_sequences_with_gaps alignment = build_na_alignment("a", "ag", "agc", "agct") alignment.normalize! assert_equal({0=>"a---",1=>"ag--",2=>"agc-",3=>"agct"}, alignment.to_hash) end # Alignment#to_clustal end end