def test_str(self):
"""
"""
model_foo = Model("foo", 10)
gene_name = 'sctJ_FLG'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
sctJ_FLG = ModelGene(c_gene, model_foo)
gene_name = 'sctJ'
c_sctJ = CoreGene(self.model_location, gene_name, self.profile_factory)
homolog = Exchangeable(c_sctJ, sctJ_FLG)
sctJ_FLG.add_exchangeable(homolog)
gene_name = 'sctN'
c_sctN = CoreGene(self.model_location, gene_name, self.profile_factory)
analog = Exchangeable(c_sctN, sctJ_FLG)
sctJ_FLG.add_exchangeable(analog)
s = """name : sctJ_FLG
inter_gene_max_space: 10
exchangeables: sctJ, sctN"""
self.assertEqual(str(sctJ_FLG), s)
gene_name = 'sctJ_FLG'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
sctJ_FLG = ModelGene(c_gene,
model_foo,
loner=True,
multi_system=True,
inter_gene_max_space=10)
s = """name : sctJ_FLG
inter_gene_max_space: 10
loner
multi_system"""
self.assertEqual(str(sctJ_FLG), s)
def test_alternate_of(self):
model = Model("T2SS", 10)
gene_name = 'sctJ_FLG'
c_gene_ref = CoreGene(self.model_location, gene_name, self.profile_factory)
gene_ref = ModelGene(c_gene_ref, model)
gene_name = 'sctJ'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
homolog_1 = Exchangeable(c_gene, gene_ref)
gene_ref.add_exchangeable(homolog_1)
self.assertEqual(homolog_1.alternate_of(), gene_ref)
def test_multi_system(self):
model = Model("T2SS", 10)
gene_name = 'sctJ_FLG'
c_gene_ref = CoreGene(self.model_location, gene_name, self.profile_factory)
gene_ref = ModelGene(c_gene_ref, model)
gene_ref_multi_system = ModelGene(c_gene_ref, model, multi_system=True)
gene_name = 'sctJ'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
homolog_1 = Exchangeable(c_gene, gene_ref)
homolog_2 = Exchangeable(c_gene, gene_ref_multi_system)
self.assertFalse(homolog_1.multi_system)
self.assertTrue(homolog_2.multi_system)
def test_add_exchangeable(self):
model = Model("T2SS", 10)
gene_name = 'sctJ_FLG'
c_gene_ref = CoreGene(self.model_location, gene_name, self.profile_factory)
gene_ref = ModelGene(c_gene_ref, model)
gene_name = 'sctJ'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
homolog_1 = Exchangeable(c_gene, gene_ref)
homolog_2 = Exchangeable(c_gene, gene_ref)
with self.assertRaises(MacsypyError) as ctx:
homolog_1.add_exchangeable(homolog_2)
self.assertEqual(str(ctx.exception),
"Cannot add 'Exchangeable' to an Exchangeable")
def test_fulfilled_function(self):
model = Model("foo/T2SS", 11)
c_gene_1 = CoreGene(self.model_location, "gspD", self.profile_factory)
c_gene_2 = CoreGene(self.model_location, "sctC", self.profile_factory)
c_gene_3 = CoreGene(self.model_location, "sctJ", self.profile_factory)
c_gene_4 = CoreGene(self.model_location, "sctJ_FLG", self.profile_factory)
gene_1 = ModelGene(c_gene_1, model)
gene_2 = ModelGene(c_gene_2, model)
gene_3 = ModelGene(c_gene_3, model)
gene_4 = Exchangeable(c_gene_4, gene_3)
gene_3.add_exchangeable(gene_4)
# Hit(gene, model, hit_id, hit_seq_length, replicon_name, position, i_eval, score,
# profile_coverage, sequence_coverage, begin_match, end_match
h10 = Hit(c_gene_1, "h10", 10, "replicon_1", 10, 1.0, 10.0, 1.0, 1.0, 10, 20)
v_h10 = ValidHit(h10, gene_1, GeneStatus.MANDATORY)
h20 = Hit(c_gene_2, "h20", 10, "replicon_1", 20, 1.0, 20.0, 1.0, 1.0, 10, 20)
v_h20 = ValidHit(h20, gene_2, GeneStatus.MANDATORY)
c = Cluster([v_h10, v_h20], model, self.hit_weights)
self.assertTrue(c.fulfilled_function(gene_1))
self.assertFalse(c.fulfilled_function(gene_3))
h50 = Hit(c_gene_4, "h50", 10, "replicon_1", 50, 1.0, 50.0, 1.0, 1.0, 10, 20)
v_h50 = ValidHit(h50, gene_4, GeneStatus.ACCESSORY)
c = Cluster([v_h10, v_h50], model, self.hit_weights)
self.assertTrue(c.fulfilled_function(gene_3))
def test_exhangeables(self):
model_foo = Model("foo", 10)
gene_name = 'sctN'
c_sctn = CoreGene(self.model_location, gene_name, self.profile_factory)
sctn = ModelGene(c_sctn, model_foo)
gene_name = 'sctJ_FLG'
c_sctJ_FLG = CoreGene(self.model_location, gene_name, self.profile_factory)
gene_name = 'sctJ'
c_sctJ = CoreGene(self.model_location, gene_name, self.profile_factory)
homolog_1 = Exchangeable(c_sctJ, sctn)
sctn.add_exchangeable(homolog_1)
homolog_2 = Exchangeable(c_sctJ_FLG, sctn)
sctn.add_exchangeable(homolog_2)
self.assertEqual(sctn.exchangeables, [homolog_1, homolog_2])
def test_str(self):
model_fqn = "foo/bar"
model = Model(model_fqn, 10)
gene_name = 'sctJ_FLG'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
mandatory_gene = ModelGene(c_gene, model)
model.add_mandatory_gene(mandatory_gene)
homolog_name = 'sctJ'
c_gene_homolg = CoreGene(self.model_location, homolog_name, self.profile_factory)
homolog = Exchangeable(c_gene_homolg, mandatory_gene)
mandatory_gene.add_exchangeable(homolog)
gene_name = 'sctN_FLG'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
accessory_gene = ModelGene(c_gene, model)
model.add_accessory_gene(accessory_gene)
analog_name = 'sctN'
c_gene_analog = CoreGene(self.model_location, analog_name, self.profile_factory)
analog = Exchangeable(c_gene_analog, accessory_gene)
accessory_gene.add_exchangeable(analog)
gene_name = 'toto'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
neutral_gene = ModelGene(c_gene, model)
model.add_neutral_gene(neutral_gene)
gene_name = 'sctC'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
forbidden_gene = ModelGene(c_gene, model)
model.add_forbidden_gene(forbidden_gene)
exp_str = """name: bar
fqn: foo/bar
==== mandatory genes ====
sctJ_FLG
==== accessory genes ====
sctN_FLG
==== neutral genes ====
toto
==== forbidden genes ====
sctC
============== end pprint model ================
"""
self.assertEqual(str(model), exp_str)
def test_SystemSerializer_tsv(self):
model = Model("foo/T2SS", 10)
c_gene_gspd = CoreGene(self.model_location, "gspD",
self.profile_factory)
gene_gspd = ModelGene(c_gene_gspd, model)
model.add_mandatory_gene(gene_gspd)
c_gene_sctj = CoreGene(self.model_location, "sctJ",
self.profile_factory)
gene_sctj = ModelGene(c_gene_sctj, model)
model.add_accessory_gene(gene_sctj)
c_gene_sctn = CoreGene(self.model_location, "sctN",
self.profile_factory)
gene_sctn = ModelGene(c_gene_sctn, model)
c_gene_sctn_flg = CoreGene(self.model_location, "sctN_FLG",
self.profile_factory)
gene_sctn_flg = Exchangeable(c_gene_sctn_flg, gene_sctn)
gene_sctn.add_exchangeable(gene_sctn_flg)
model.add_accessory_gene(gene_sctn)
h_gspd = Hit(c_gene_gspd, "h_gspd", 803, "replicon_id", 10, 1.0, 1.0,
1.0, 1.0, 10, 20)
v_h_gspd = ValidHit(h_gspd, gene_gspd, GeneStatus.MANDATORY)
h_sctj = Hit(c_gene_sctj, "h_sctj", 803, "replicon_id", 20, 1.0, 1.0,
1.0, 1.0, 20, 30)
v_h_sctj = ValidHit(h_sctj, gene_sctj, GeneStatus.ACCESSORY)
h_sctn_flg = Hit(c_gene_sctn_flg, "h_sctn_flg", 803, "replicon_id", 30,
1.0, 1.0, 1.0, 1.0, 30, 40)
v_h_sctn_flg = ValidHit(h_sctn_flg, gene_sctn_flg,
GeneStatus.ACCESSORY)
c1 = Cluster([v_h_gspd, v_h_sctj], model, self.hit_weights)
c2 = Cluster([v_h_sctn_flg], model, self.hit_weights)
sys_multi_loci = System(model, [c1, c2], self.cfg.redundancy_penalty())
hit_multi_sys_tracker = HitSystemTracker([sys_multi_loci])
system_serializer = TsvSystemSerializer()
sys_tsv = "\t".join([
"replicon_id", "h_gspd", "gspD", "10", "foo/T2SS",
sys_multi_loci.id, "1", "1.000", "1.900", "1", "gspD", "mandatory",
"803", "1.0", "1.000", "1.000", "1.000", "10", "20", ""
])
sys_tsv += "\n"
sys_tsv += "\t".join([
"replicon_id", "h_sctj", "sctJ", "20", "foo/T2SS",
sys_multi_loci.id, "1", "1.000", "1.900", "1", "sctJ", "accessory",
"803", "1.0", "1.000", "1.000", "1.000", "20", "30", ""
])
sys_tsv += "\n"
sys_tsv += "\t".join([
"replicon_id", "h_sctn_flg", "sctN_FLG", "30", "foo/T2SS",
sys_multi_loci.id, "1", "1.000", "1.900", "1", "sctN", "accessory",
"803", "1.0", "1.000", "1.000", "1.000", "30", "40", ""
])
sys_tsv += "\n"
self.assertEqual(
sys_tsv,
system_serializer.serialize(sys_multi_loci, hit_multi_sys_tracker))
def setUp(self) -> None:
args = argparse.Namespace()
args.sequence_db = self.find_data("base", "test_1.fasta")
args.db_type = 'gembase'
args.models_dir = self.find_data('models')
cfg = Config(MacsyDefaults(), args)
model_name = 'foo'
self.models_location = ModelLocation(path=os.path.join(args.models_dir, model_name))
# we need to reset the ProfileFactory
# because it's a like a singleton
# so other tests are influenced by ProfileFactory and it's configuration
# for instance search_genes get profile without hmmer_exe
profile_factory = ProfileFactory(cfg)
model = Model(model_name, 10)
self.profile_factory = ProfileFactory(cfg)
gene_name = "gspD"
c_gene_gspd = CoreGene(self.models_location, gene_name, self.profile_factory)
gene_gspd = ModelGene(c_gene_gspd, model, multi_system=True)
gene_name = "sctJ"
c_gene_sctj = CoreGene(self.models_location, gene_name, self.profile_factory)
gene_sctj = ModelGene(c_gene_sctj, model, multi_system=True)
gene_name = "sctN"
c_gene_sctn = CoreGene(self.models_location, gene_name, self.profile_factory)
gene_sctn = Exchangeable(c_gene_sctn, gene_sctj)
gene_sctj.add_exchangeable(gene_sctn)
model.add_mandatory_gene(gene_gspd)
model.add_accessory_gene(gene_sctj)
# CoreHit(gene, hit_id, hit_seq_length, replicon_name, position, i_eval, score,
# profile_coverage, sequence_coverage, begin_match, end_match
# pos score
chit_1 = CoreHit(c_gene_gspd, "hit_1", 803, "replicon_id", 2, 1.0, 1.0, 1.0, 1.0, 10, 20)
chit_2 = CoreHit(c_gene_sctj, "hit_2", 803, "replicon_id", 3, 1.0, 1.0, 1.0, 1.0, 10, 20)
chit_3 = CoreHit(c_gene_gspd, "hit_3", 803, "replicon_id", 10, 1.0, 3.0, 1.0, 1.0, 10, 20)
chit_4 = CoreHit(c_gene_sctn, "hit_4", 803, "replicon_id", 14, 1.0, 4.0, 1.0, 1.0, 10, 20)
chit_5 = CoreHit(c_gene_gspd, "hit_5", 803, "replicon_id", 20, 1.0, 2.0, 1.0, 1.0, 10, 20)
self.mhit_1 = ModelHit(chit_1, gene_gspd, GeneStatus.MANDATORY)
self.mhit_2 = ModelHit(chit_2, gene_sctj, GeneStatus.ACCESSORY)
self.mhit_3 = ModelHit(chit_3, gene_gspd, GeneStatus.MANDATORY)
self.mhit_4 = ModelHit(chit_4, gene_sctn, GeneStatus.ACCESSORY)
self.mhit_5 = ModelHit(chit_5, gene_gspd, GeneStatus.MANDATORY)
self.ms_1 = MultiSystem(chit_1, gene_ref=gene_gspd, gene_status=GeneStatus.MANDATORY)
self.ms_2 = MultiSystem(chit_2, gene_ref=gene_sctj, gene_status=GeneStatus.ACCESSORY)
self.ms_3 = MultiSystem(chit_3, gene_ref=gene_gspd, gene_status=GeneStatus.MANDATORY)
self.ms_4 = MultiSystem(chit_4, gene_ref=gene_sctn, gene_status=GeneStatus.ACCESSORY)
self.ms_5 = MultiSystem(chit_5, gene_ref=gene_gspd, gene_status=GeneStatus.MANDATORY)
def test_is_exchangeable(self):
model = Model("T2SS", 10)
gene_name = 'sctJ_FLG'
c_gene_ref = CoreGene(self.model_location, gene_name, self.profile_factory)
gene_ref = ModelGene(c_gene_ref, model)
gene_name = 'sctJ'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
homolog_1 = Exchangeable(c_gene, gene_ref)
self.assertTrue(homolog_1.is_exchangeable)
def test_alternate_of(self):
model_foo = Model("foo", 10)
gene_name = 'sctJ'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
sctj = ModelGene(c_gene, model_foo)
gene_name = 'sctJ_FLG'
c_sctj_flg = CoreGene(self.model_location, gene_name, self.profile_factory)
analog = Exchangeable(c_sctj_flg, sctj)
sctj.add_exchangeable(analog)
self.assertEqual(sctj.alternate_of(), sctj)
def test_add_exchangeable(self):
model_foo = Model("foo", 10)
gene_name = 'sctJ'
c_gene_ref = CoreGene(self.model_location, gene_name, self.profile_factory)
gene_ref = ModelGene(c_gene_ref, model_foo)
h_gene_name = 'sctJ_FLG'
h_c_gene = CoreGene(self.model_location, h_gene_name, self.profile_factory)
homolog = Exchangeable(h_c_gene, gene_ref)
gene_ref.add_exchangeable(homolog)
self.assertEqual(len(gene_ref.exchangeables), 1)
self.assertEqual(gene_ref.exchangeables[0], homolog)
def test_is_exchangeable(self):
model_foo = Model("foo", 10)
gene_name = 'sctN'
c_sctn = CoreGene(self.model_location, gene_name, self.profile_factory)
sctn = ModelGene(c_sctn, model_foo)
gene_name = 'sctJ_FLG'
c_sctj_flg = CoreGene(self.model_location, gene_name, self.profile_factory)
sctj_flg = ModelGene(c_sctj_flg, model_foo)
gene_name = 'sctJ'
c_sctj = CoreGene(self.model_location, gene_name, self.profile_factory)
sctj = ModelGene(c_sctj, model_foo)
homolog = Exchangeable(c_sctj_flg, sctj)
sctj.add_exchangeable(homolog)
self.assertFalse(sctj_flg.is_exchangeable)
self.assertFalse(sctj.is_exchangeable)
self.assertTrue(homolog.is_exchangeable)
self.assertFalse(sctn.is_exchangeable)
def test_get_gene(self):
model = Model("foo", 10)
gene_name = 'sctJ_FLG'
c_gene = CoreGene(self.model_location, gene_name, self.profile_factory)
gene = ModelGene(c_gene, model)
for meth in [getattr(model, f'add_{cat}_gene') for cat in model.gene_category]:
for cat in model.gene_category:
setattr(model, f'_{cat}_genes', [])
meth(gene)
self.assertEqual(gene, model.get_gene(gene_name))
self.assertRaises(KeyError, model.get_gene, 'bar')
homolog_name = 'sctJ'
c_gene_homolog = CoreGene(self.model_location, homolog_name, self.profile_factory)
homolog = Exchangeable(c_gene_homolog, gene)
gene.add_exchangeable(homolog)
for meth in [getattr(model, f'add_{cat}_gene') for cat in model.gene_category]:
for cat in model.gene_category:
setattr(model, f'_{cat}_genes', [])
meth(gene)
self.assertEqual(homolog, model.get_gene(homolog_name))
def test_filter(self):
model_fqn = "foo/bar"
model = Model(model_fqn, 10)
model_2 = Model("foo/buz", 10)
gene_name = 'sctJ_FLG'
sctJ_FLG_core = CoreGene(self.model_location, gene_name, self.profile_factory)
sctJ_FLG = ModelGene(sctJ_FLG_core, model)
model.add_mandatory_gene(sctJ_FLG)
gene_name = 'sctJ'
sctJ_core = CoreGene(self.model_location, gene_name, self.profile_factory)
sctj = Exchangeable(sctJ_core, sctJ_FLG)
sctJ_FLG.add_exchangeable(sctj)
gene_name = 'sctN_FLG'
sctN_FLG_core = CoreGene(self.model_location, gene_name, self.profile_factory)
sctN_FLG = ModelGene(sctN_FLG_core, model)
model.add_accessory_gene(sctN_FLG)
gene_name = 'sctN'
sctN_core = CoreGene(self.model_location, gene_name, self.profile_factory)
sctn = Exchangeable(sctN_core, sctN_FLG)
sctN_FLG.add_exchangeable(sctn)
gene_name = 'sctC'
sctC_core = CoreGene(self.model_location, gene_name, self.profile_factory)
sctC = ModelGene(sctC_core, model)
model.add_forbidden_gene(sctC)
gene_name = 'toto'
toto_core = CoreGene(self.model_location, gene_name, self.profile_factory)
toto = ModelGene(toto_core, model)
model.add_neutral_gene(toto)
gene_name = 'totote'
totote_core = CoreGene(self.model_location, gene_name, self.profile_factory)
totote = Exchangeable(totote_core, toto)
toto.add_exchangeable(totote)
gene_name = 'gspD'
gspd_core = CoreGene(self.model_location, gene_name, self.profile_factory)
gspd = ModelGene(gspd_core, model_2)
gene_name = 'tadZ'
tadz_core = CoreGene(self.model_location, gene_name, self.profile_factory)
tadz = Exchangeable(tadz_core, gspd)
gspd.add_exchangeable(tadz)
hit_to_keep = []
for gene in (sctJ_FLG, sctN_FLG, sctC, toto, totote):
hit_to_keep.append(CoreHit(gene,
f"PSAE001c01_{gene.name}",
1, "PSAE001c01", 1, 1.0, 1.0, 1.0, 1.0, 1, 2)
)
hit_to_filter_out = []
for gene in (gspd, tadz):
hit_to_filter_out.append(CoreHit(gene,
f"PSAE001c01_{gene.name}",
1, "PSAE001c01", 1, 1.0, 1.0, 1.0, 1.0, 1, 2)
)
filtered_hits = model.filter(hit_to_keep + hit_to_filter_out)
self.assertListEqual(sorted(hit_to_keep), sorted(filtered_hits))
def test_SystemSerializer_str(self):
model_name = 'foo'
model_location = ModelLocation(
path=os.path.join(self.cfg.models_dir(), model_name))
model_A = Model("foo/A", 10)
model_B = Model("foo/B", 10)
c_gene_sctn_flg = CoreGene(model_location, "sctN_FLG",
self.profile_factory)
gene_sctn_flg = ModelGene(c_gene_sctn_flg, model_B)
c_gene_sctj_flg = CoreGene(model_location, "sctJ_FLG",
self.profile_factory)
gene_sctj_flg = ModelGene(c_gene_sctj_flg, model_B)
c_gene_flgB = CoreGene(model_location, "flgB", self.profile_factory)
c_gene_tadZ = CoreGene(model_location, "tadZ", self.profile_factory)
gene_tadZ = ModelGene(c_gene_tadZ, model_B)
c_gene_sctn = CoreGene(model_location, "sctN", self.profile_factory)
gene_sctn = ModelGene(c_gene_sctn, model_A)
gene_sctn_hom = Exchangeable(c_gene_sctn_flg, gene_sctn)
gene_sctn.add_exchangeable(gene_sctn_hom)
c_gene_sctj = CoreGene(model_location, "sctJ", self.profile_factory)
gene_sctj = ModelGene(c_gene_sctj, model_A)
gene_sctj_an = Exchangeable(c_gene_sctj_flg, gene_sctj)
gene_sctj.add_exchangeable(gene_sctj_an)
c_gene_gspd = CoreGene(model_location, "gspD", self.profile_factory)
gene_gspd = ModelGene(c_gene_gspd, model_A)
gene_gspd_an = Exchangeable(c_gene_flgB, gene_gspd)
gene_gspd.add_exchangeable(gene_gspd_an)
c_gene_abc = CoreGene(model_location, "abc", self.profile_factory)
gene_abc = ModelGene(c_gene_abc, model_A)
gene_abc_ho = Exchangeable(c_gene_tadZ, gene_abc)
gene_abc.add_exchangeable(gene_abc_ho)
model_A.add_mandatory_gene(gene_sctn)
model_A.add_mandatory_gene(gene_sctj)
model_A.add_accessory_gene(gene_gspd)
model_A.add_forbidden_gene(gene_abc)
model_B.add_mandatory_gene(gene_sctn_flg)
model_B.add_mandatory_gene(gene_sctj_flg)
model_B.add_accessory_gene(gene_gspd)
model_B.add_accessory_gene(gene_tadZ)
h_sctj = Hit(c_gene_sctj, "hit_sctj", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_sctn = Hit(c_gene_sctn, "hit_sctn", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_gspd = Hit(c_gene_gspd, "hit_gspd", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_sctj_flg = Hit(c_gene_sctj_flg, "hit_sctj_flg", 803, "replicon_id",
1, 1.0, 1.0, 1.0, 1.0, 10, 20)
h_tadZ = Hit(c_gene_tadZ, "hit_tadZ", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
model_A._min_mandatory_genes_required = 2
model_A._min_genes_required = 2
c1 = Cluster([
ValidHit(h_sctj, gene_sctj, GeneStatus.MANDATORY),
ValidHit(h_sctn, gene_sctn, GeneStatus.MANDATORY),
ValidHit(h_gspd, gene_gspd, GeneStatus.ACCESSORY)
], model_A, self.hit_weights)
c2 = Cluster([
ValidHit(h_sctj, gene_sctj, GeneStatus.MANDATORY),
ValidHit(h_sctn, gene_sctn, GeneStatus.MANDATORY)
], model_A, self.hit_weights)
model_B._min_mandatory_genes_required = 1
model_B._min_genes_required = 2
c3 = Cluster([
ValidHit(h_sctj_flg, gene_sctj_flg, GeneStatus.MANDATORY),
ValidHit(h_tadZ, gene_tadZ, GeneStatus.ACCESSORY),
ValidHit(h_gspd, gene_gspd, GeneStatus.ACCESSORY)
], model_B, self.hit_weights)
sys_A = System(model_A, [c1, c2], self.cfg.redundancy_penalty())
sys_A.id = "sys_id_A"
sys_B = System(model_B, [c3], self.cfg.redundancy_penalty())
sys_B.id = "sys_id_B"
hit_multi_sys_tracker = HitSystemTracker([sys_A, sys_B])
system_serializer = TxtSystemSerializer()
sys_str = f"""system id = {sys_A.id}
model = foo/A
replicon = replicon_id
clusters = [('hit_sctj', 'sctJ', 1), ('hit_sctn', 'sctN', 1), ('hit_gspd', 'gspD', 1)], [('hit_sctj', 'sctJ', 1), ('hit_sctn', 'sctN', 1)]
occ = 2
wholeness = 1.000
loci nb = 2
score = 1.500
mandatory genes:
\t- sctN: 2 (sctN, sctN)
\t- sctJ: 2 (sctJ, sctJ)
accessory genes:
\t- gspD: 1 (gspD [sys_id_B])
neutral genes:
"""
self.assertEqual(
sys_str, system_serializer.serialize(sys_A, hit_multi_sys_tracker))
def test_SolutionSerializer_tsv(self):
model_name = 'foo'
model_location = ModelLocation(
path=os.path.join(self.cfg.models_dir(), model_name))
model_A = Model("foo/A", 10)
model_B = Model("foo/B", 10)
c_gene_sctn_flg = CoreGene(model_location, "sctN_FLG",
self.profile_factory)
gene_sctn_flg = ModelGene(c_gene_sctn_flg, model_B)
c_gene_sctj_flg = CoreGene(model_location, "sctJ_FLG",
self.profile_factory)
gene_sctj_flg = ModelGene(c_gene_sctj_flg, model_B)
c_gene_flgB = CoreGene(model_location, "flgB", self.profile_factory)
gene_flgB = ModelGene(c_gene_flgB, model_B)
c_gene_tadZ = CoreGene(model_location, "tadZ", self.profile_factory)
gene_tadZ = ModelGene(c_gene_tadZ, model_B)
c_gene_sctn = CoreGene(model_location, "sctN", self.profile_factory)
gene_sctn = ModelGene(c_gene_sctn, model_A)
gene_sctn_hom = Exchangeable(c_gene_sctn_flg, gene_sctn)
gene_sctn.add_exchangeable(gene_sctn_hom)
c_gene_sctj = CoreGene(model_location, "sctJ", self.profile_factory)
gene_sctj = ModelGene(c_gene_sctj, model_A)
gene_sctj_an = Exchangeable(c_gene_sctj_flg, gene_sctj)
gene_sctj.add_exchangeable(gene_sctj_an)
c_gene_gspd = CoreGene(model_location, "gspD", self.profile_factory)
gene_gspd = ModelGene(c_gene_gspd, model_A)
gene_gspd_an = Exchangeable(c_gene_flgB, gene_gspd)
gene_gspd.add_exchangeable(gene_gspd_an)
c_gene_abc = CoreGene(model_location, "abc", self.profile_factory)
gene_abc = ModelGene(c_gene_abc, model_A)
gene_abc_ho = Exchangeable(c_gene_tadZ, gene_abc)
gene_abc.add_exchangeable(gene_abc_ho)
model_A.add_mandatory_gene(gene_sctn)
model_A.add_mandatory_gene(gene_sctj)
model_A.add_accessory_gene(gene_gspd)
model_A.add_forbidden_gene(gene_abc)
model_B.add_mandatory_gene(gene_sctn_flg)
model_B.add_mandatory_gene(gene_sctj_flg)
model_B.add_accessory_gene(gene_flgB)
model_B.add_accessory_gene(gene_tadZ)
h_sctj = Hit(c_gene_sctj, "hit_sctj", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_sctn = Hit(c_gene_sctn, "hit_sctn", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_gspd = Hit(c_gene_gspd, "hit_gspd", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_sctj_flg = Hit(c_gene_sctj_flg, "hit_sctj_flg", 803, "replicon_id",
1, 1.0, 1.0, 1.0, 1.0, 10, 20)
h_flgB = Hit(c_gene_flgB, "hit_flgB", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_tadZ = Hit(c_gene_tadZ, "hit_tadZ", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
model_A._min_mandatory_genes_required = 2
model_A._min_genes_required = 2
c1 = Cluster([
ValidHit(h_sctj, gene_sctj, GeneStatus.MANDATORY),
ValidHit(h_sctn, gene_sctn, GeneStatus.MANDATORY),
ValidHit(h_gspd, gene_gspd, GeneStatus.ACCESSORY)
], model_A, self.hit_weights)
c2 = Cluster([
ValidHit(h_sctj, gene_sctj, GeneStatus.MANDATORY),
ValidHit(h_sctn, gene_sctn, GeneStatus.MANDATORY)
], model_A, self.hit_weights)
model_B._min_mandatory_genes_required = 1
model_B._min_genes_required = 2
c3 = Cluster([
ValidHit(h_sctj_flg, gene_sctj_flg, GeneStatus.MANDATORY),
ValidHit(h_tadZ, gene_tadZ, GeneStatus.ACCESSORY),
ValidHit(h_flgB, gene_flgB, GeneStatus.ACCESSORY)
], model_B, self.hit_weights)
sys_A = System(model_A, [c1, c2], self.cfg.redundancy_penalty())
sys_A.id = "sys_id_A"
sys_B = System(model_B, [c3], self.cfg.redundancy_penalty())
sys_B.id = "sys_id_B"
sol = [sys_A, sys_B]
sol_id = '12'
hit_multi_sys_tracker = HitSystemTracker([sys_A, sys_B])
system_serializer = TsvSolutionSerializer()
sol_tsv = '\t'.join([
sol_id, 'replicon_id', 'hit_sctj', 'sctJ', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctJ', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_sctn', 'sctN', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctN', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_gspd', 'gspD', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'gspD', 'accessory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_sctj', 'sctJ', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctJ', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_sctn', 'sctN', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctN', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_sctj_flg', 'sctJ_FLG', '1', 'foo/B',
'sys_id_B', '1', '0.750', '2.000', '1', 'sctJ_FLG', 'mandatory',
'803', '1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_tadZ', 'tadZ', '1', 'foo/B',
'sys_id_B', '1', '0.750', '2.000', '1', 'tadZ', 'accessory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_flgB', 'flgB', '1', 'foo/B',
'sys_id_B', '1', '0.750', '2.000', '1', 'flgB', 'accessory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += "\n"
ser = system_serializer.serialize(sol, sol_id, hit_multi_sys_tracker)
self.assertEqual(ser, sol_tsv)
def test_solutions_to_tsv(self):
args = argparse.Namespace()
args.sequence_db = self.find_data("base", "test_1.fasta")
args.db_type = 'gembase'
args.models_dir = self.find_data('models')
cfg = Config(MacsyDefaults(), args)
model_name = 'foo'
models_location = ModelLocation(
path=os.path.join(args.models_dir, model_name))
# we need to reset the ProfileFactory
# because it's a like a singleton
# so other tests are influenced by ProfileFactory and it's configuration
# for instance search_genes get profile without hmmer_exe
profile_factory = ProfileFactory(cfg)
model_A = Model("foo/A", 10)
model_B = Model("foo/B", 10)
model_C = Model("foo/C", 10)
c_gene_sctn_flg = CoreGene(models_location, "sctN_FLG",
profile_factory)
gene_sctn_flg = ModelGene(c_gene_sctn_flg, model_B)
c_gene_sctj_flg = CoreGene(models_location, "sctJ_FLG",
profile_factory)
gene_sctj_flg = ModelGene(c_gene_sctj_flg, model_B)
c_gene_flgB = CoreGene(models_location, "flgB", profile_factory)
gene_flgB = ModelGene(c_gene_flgB, model_B)
c_gene_tadZ = CoreGene(models_location, "tadZ", profile_factory)
gene_tadZ = ModelGene(c_gene_tadZ, model_B)
c_gene_sctn = CoreGene(models_location, "sctN", profile_factory)
gene_sctn = ModelGene(c_gene_sctn, model_A)
gene_sctn_hom = Exchangeable(c_gene_sctn_flg, gene_sctn)
gene_sctn.add_exchangeable(gene_sctn_hom)
c_gene_sctj = CoreGene(models_location, "sctJ", profile_factory)
gene_sctj = ModelGene(c_gene_sctj, model_A)
gene_sctj_an = Exchangeable(c_gene_sctj_flg, gene_sctj)
gene_sctj.add_exchangeable(gene_sctj_an)
c_gene_gspd = CoreGene(models_location, "gspD", profile_factory)
gene_gspd = ModelGene(c_gene_gspd, model_A)
gene_gspd_an = Exchangeable(c_gene_flgB, gene_gspd)
gene_gspd.add_exchangeable(gene_gspd_an)
c_gene_abc = CoreGene(models_location, "abc", profile_factory)
gene_abc = ModelGene(c_gene_abc, model_A)
gene_abc_ho = Exchangeable(c_gene_tadZ, gene_abc)
gene_abc.add_exchangeable(gene_abc_ho)
model_A.add_mandatory_gene(gene_sctn)
model_A.add_mandatory_gene(gene_sctj)
model_A.add_accessory_gene(gene_gspd)
model_A.add_forbidden_gene(gene_abc)
model_B.add_mandatory_gene(gene_sctn_flg)
model_B.add_mandatory_gene(gene_sctj_flg)
model_B.add_accessory_gene(gene_flgB)
model_B.add_accessory_gene(gene_tadZ)
model_C.add_mandatory_gene(gene_sctn_flg)
model_C.add_mandatory_gene(gene_sctj_flg)
model_C.add_mandatory_gene(gene_flgB)
model_C.add_accessory_gene(gene_tadZ)
model_C.add_accessory_gene(gene_gspd)
h_sctj = Hit(c_gene_sctj, "hit_sctj", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_sctn = Hit(c_gene_sctn, "hit_sctn", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_gspd = Hit(c_gene_gspd, "hit_gspd", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_sctj_flg = Hit(c_gene_sctj_flg, "hit_sctj_flg", 803, "replicon_id",
1, 1.0, 1.0, 1.0, 1.0, 10, 20)
h_flgB = Hit(c_gene_flgB, "hit_flgB", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
h_tadZ = Hit(c_gene_tadZ, "hit_tadZ", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
model_A._min_mandatory_genes_required = 2
model_A._min_genes_required = 2
hit_weights = HitWeight(**cfg.hit_weights())
c1 = Cluster([
ValidHit(h_sctj, gene_sctj, GeneStatus.MANDATORY),
ValidHit(h_sctn, gene_sctn, GeneStatus.MANDATORY),
ValidHit(h_gspd, gene_gspd, GeneStatus.ACCESSORY)
], model_A, hit_weights)
c2 = Cluster([
ValidHit(h_sctj, gene_sctj, GeneStatus.MANDATORY),
ValidHit(h_sctn, gene_sctn, GeneStatus.MANDATORY)
], model_A, hit_weights)
model_B._min_mandatory_genes_required = 1
model_B._min_genes_required = 2
c3 = Cluster([
ValidHit(h_sctj_flg, gene_sctj_flg, GeneStatus.MANDATORY),
ValidHit(h_tadZ, gene_tadZ, GeneStatus.ACCESSORY),
ValidHit(h_flgB, gene_flgB, GeneStatus.ACCESSORY)
], model_B, hit_weights)
model_C._min_mandatory_genes_required = 1
model_C._min_genes_required = 2
c4 = Cluster([
ValidHit(h_sctj_flg, gene_sctj_flg, GeneStatus.MANDATORY),
ValidHit(h_tadZ, gene_tadZ, GeneStatus.ACCESSORY),
ValidHit(h_flgB, gene_flgB, GeneStatus.MANDATORY),
ValidHit(h_gspd, gene_gspd, GeneStatus.ACCESSORY)
], model_C, hit_weights)
sys_A = System(model_A, [c1, c2], cfg.redundancy_penalty())
sys_A.id = "sys_id_A"
sys_B = System(model_B, [c3], cfg.redundancy_penalty())
sys_B.id = "sys_id_B"
sys_C = System(model_C, [c4], cfg.redundancy_penalty())
sys_C.id = "sys_id_C"
sol_1 = [sys_A, sys_B]
sol_2 = [sys_A, sys_C]
sol_id_1 = '1'
sol_id_2 = '2'
sol_tsv = f"""# macsyfinder {macsypy.__version__}
# {' '.join(sys.argv)}
# Systems found:
"""
sol_tsv += "\t".join([
"sol_id", "replicon", "hit_id", "gene_name", "hit_pos",
"model_fqn", "sys_id", "sys_loci", "sys_wholeness", "sys_score",
"sys_occ", "hit_gene_ref", "hit_status", "hit_seq_len",
"hit_i_eval", "hit_score", "hit_profile_cov", "hit_seq_cov",
"hit_begin_match", "hit_end_match", "used_in"
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_1, 'replicon_id', 'hit_sctj', 'sctJ', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctJ', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_1, 'replicon_id', 'hit_sctn', 'sctN', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctN', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_1, 'replicon_id', 'hit_gspd', 'gspD', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'gspD', 'accessory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_1, 'replicon_id', 'hit_sctj', 'sctJ', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctJ', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_1, 'replicon_id', 'hit_sctn', 'sctN', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctN', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_1, 'replicon_id', 'hit_sctj_flg', 'sctJ_FLG', '1', 'foo/B',
'sys_id_B', '1', '0.750', '2.000', '1', 'sctJ_FLG', 'mandatory',
'803', '1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_1, 'replicon_id', 'hit_tadZ', 'tadZ', '1', 'foo/B',
'sys_id_B', '1', '0.750', '2.000', '1', 'tadZ', 'accessory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_1, 'replicon_id', 'hit_flgB', 'flgB', '1', 'foo/B',
'sys_id_B', '1', '0.750', '2.000', '1', 'flgB', 'accessory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_2, 'replicon_id', 'hit_sctj', 'sctJ', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctJ', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_2, 'replicon_id', 'hit_sctn', 'sctN', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctN', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_2, 'replicon_id', 'hit_gspd', 'gspD', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'gspD', 'accessory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_2, 'replicon_id', 'hit_sctj', 'sctJ', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctJ', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_2, 'replicon_id', 'hit_sctn', 'sctN', '1', 'foo/A',
'sys_id_A', '2', '1.000', '1.500', '2', 'sctN', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', ''
])
sol_tsv += "\n"
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_2, 'replicon_id', 'hit_sctj_flg', 'sctJ_FLG', '1', 'foo/C',
'sys_id_C', '1', '0.800', '3.000', '1', 'sctJ_FLG', 'mandatory',
'803', '1.0', '1.000', '1.000', '1.000', '10', '20', 'sys_id_B'
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_2, 'replicon_id', 'hit_tadZ', 'tadZ', '1', 'foo/C',
'sys_id_C', '1', '0.800', '3.000', '1', 'tadZ', 'accessory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', 'sys_id_B'
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_2, 'replicon_id', 'hit_flgB', 'flgB', '1', 'foo/C',
'sys_id_C', '1', '0.800', '3.000', '1', 'flgB', 'mandatory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', 'sys_id_B'
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id_2, 'replicon_id', 'hit_gspd', 'gspD', '1', 'foo/C',
'sys_id_C', '1', '0.800', '3.000', '1', 'gspD', 'accessory', '803',
'1.0', '1.000', '1.000', '1.000', '10', '20', 'sys_id_A'
])
sol_tsv += "\n"
sol_tsv += "\n"
f_out = StringIO()
hit_multi_sys_tracker = HitSystemTracker([sys_A, sys_B])
solutions_to_tsv([sol_1, sol_2], hit_multi_sys_tracker, f_out)
self.assertMultiLineEqual(sol_tsv, f_out.getvalue())
def _build_clusters(cfg, profile_factory):
model_name = 'foo'
model_location = ModelLocation(
path=os.path.join(cfg.models_dir()[0], model_name))
models = {}
cg_sctn_flg = CoreGene(model_location, "sctN_FLG", profile_factory)
cg_sctj_flg = CoreGene(model_location, "sctJ_FLG", profile_factory)
cg_flgB = CoreGene(model_location, "flgB", profile_factory)
cg_tadZ = CoreGene(model_location, "tadZ", profile_factory)
cg_sctn = CoreGene(model_location, "sctN", profile_factory)
cg_sctj = CoreGene(model_location, "sctJ", profile_factory)
cg_gspd = CoreGene(model_location, "gspD", profile_factory)
cg_abc = CoreGene(model_location, "abc", profile_factory)
cg_sctc = CoreGene(model_location, "sctC", profile_factory)
###########
# Model A #
###########
models['A'] = Model("foo/A", 10)
mgA_sctn = ModelGene(cg_sctn, models['A'])
mgA_sctn_hom = Exchangeable(cg_sctn_flg, mgA_sctn)
mgA_sctn.add_exchangeable(mgA_sctn_hom)
mgA_sctj = ModelGene(cg_sctj, models['A'])
mgA_sctj_an = Exchangeable(cg_sctj_flg, mgA_sctj)
mgA_sctj.add_exchangeable(mgA_sctj_an)
mgA_gspd = ModelGene(cg_gspd, models['A'])
mgA_gspd_an = Exchangeable(cg_flgB, mgA_gspd)
mgA_gspd.add_exchangeable(mgA_gspd_an)
mgA_abc = ModelGene(cg_abc, models['A'])
mgA_abc_ho = Exchangeable(cg_tadZ, mgA_abc)
mgA_abc.add_exchangeable(mgA_abc_ho)
models['A'].add_mandatory_gene(mgA_sctn)
models['A'].add_mandatory_gene(mgA_sctj)
models['A'].add_accessory_gene(mgA_gspd)
models['A'].add_forbidden_gene(mgA_abc)
models['A']._min_mandatory_genes_required = 2
models['A']._min_genes_required = 2
###########
# Model B #
###########
models['B'] = Model("foo/B", 10)
mgB_sctn_flg = ModelGene(cg_sctn_flg, models['B'])
mgB_sctj_flg = ModelGene(cg_sctj_flg, models['B'])
mgB_flgB = ModelGene(cg_flgB, models['B'])
mgB_tadZ = ModelGene(cg_tadZ, models['B'])
models['B'].add_mandatory_gene(mgB_sctn_flg)
models['B'].add_mandatory_gene(mgB_sctj_flg)
models['B'].add_accessory_gene(mgB_flgB)
models['B'].add_accessory_gene(mgB_tadZ)
models['B']._min_mandatory_genes_required = 1
models['B']._min_genes_required = 2
###########
# Model C #
###########
models['C'] = Model("foo/C", 10)
mgC_sctn_flg = ModelGene(cg_sctn_flg, models['C'])
mgC_sctj_flg = ModelGene(cg_sctj_flg, models['C'])
mgC_flgB = ModelGene(cg_flgB, models['C'])
mgC_tadZ = ModelGene(cg_tadZ, models['C'])
mgC_gspd = ModelGene(cg_gspd, models['C'])
models['C'].add_mandatory_gene(mgC_sctn_flg)
models['C'].add_mandatory_gene(mgC_sctj_flg)
models['C'].add_mandatory_gene(mgC_flgB)
models['C'].add_accessory_gene(mgC_tadZ)
models['C'].add_accessory_gene(mgC_gspd)
models['C']._min_mandatory_genes_required = 1
models['C']._min_genes_required = 2
###########
# Model D #
###########
models['D'] = Model("foo/D", 10)
mgD_abc = ModelGene(cg_abc, models['D'])
mgD_sctn = ModelGene(cg_sctn, models['D'])
models['D'].add_mandatory_gene(mgD_abc)
models['D'].add_accessory_gene(mgD_sctn)
models['D']._min_mandatory_genes_required = 1
models['D']._min_genes_required = 1
###########
# Model E #
###########
models['E'] = Model("foo/E", 10)
mgE_gspd = ModelGene(cg_gspd, models['E'])
models['E'].add_accessory_gene(mgE_gspd)
models['E']._min_mandatory_genes_required = 0
models['E']._min_genes_required = 1
###########
# Model F #
###########
models['F'] = Model("foo/F", 10)
mgF_abc = ModelGene(cg_abc, models['F'])
models['F'].add_mandatory_gene(mgF_abc)
models['F']._min_mandatory_genes_required = 1
models['F']._min_genes_required = 1
#####################
# Model G idem as C #
#####################
models['G'] = Model("foo/G", 10)
mgG_sctn_flg = ModelGene(cg_sctn_flg, models['G'])
mgG_sctj_flg = ModelGene(cg_sctj_flg, models['G'])
mgG_flgB = ModelGene(cg_flgB, models['G'])
mgG_tadZ = ModelGene(cg_tadZ, models['G'])
mgG_gspd = ModelGene(cg_gspd, models['G'])
models['G'].add_mandatory_gene(mgG_sctn_flg)
models['G'].add_mandatory_gene(mgG_sctj_flg)
models['G'].add_mandatory_gene(mgG_flgB)
models['G'].add_accessory_gene(mgG_tadZ)
models['G'].add_accessory_gene(mgG_gspd)
#####################
# Model H idem as D #
#####################
models['H'] = Model("foo/H", 10)
mgH_abc = ModelGene(cg_abc, models['H'])
mgH_sctn = ModelGene(cg_sctn, models['H'])
models['H'].add_mandatory_gene(mgH_abc)
models['H'].add_accessory_gene(mgH_sctn)
models['H']._min_mandatory_genes_required = 1
models['H']._min_genes_required = 1
###########
# Model I #
###########
models['I'] = Model("foo/I", 10)
mgI_abc = ModelGene(cg_abc, models['I'])
mgI_flgB = ModelGene(cg_flgB, models['I'])
mgI_tadZ = ModelGene(cg_tadZ, models['I'])
models['I'].add_mandatory_gene(mgI_abc)
models['I'].add_mandatory_gene(mgI_flgB)
models['I'].add_accessory_gene(mgI_tadZ)
models['I']._min_mandatory_genes_required = 1
models['I']._min_genes_required = 1
###########
# model J #
###########
models['J'] = Model("foo/J", 10)
mgJ_abc = ModelGene(cg_abc, models['J'])
mgJ_gspd = ModelGene(cg_gspd, models['J'])
mgJ_tadZ = ModelGene(cg_tadZ, models['J'])
mgJ_sctc = ModelGene(cg_sctc, models['J'])
models['J'].add_mandatory_gene(mgJ_abc)
models['J'].add_mandatory_gene(mgJ_gspd)
models['J'].add_accessory_gene(mgJ_tadZ)
models['J'].add_accessory_gene(mgJ_sctc)
models['J']._min_mandatory_genes_required = 1
models['J']._min_genes_required = 1
###########
# model K #
###########
models['K'] = Model("foo/K", 10)
mgK_flgB = ModelGene(cg_flgB, models['K'])
mgK_sctn_flg = ModelGene(cg_sctn_flg, models['K'])
mgK_sctj_flg = ModelGene(cg_sctj_flg, models['K'])
mgK_sctn = ModelGene(cg_sctn, models['K'])
models['K'].add_mandatory_gene(mgK_flgB)
models['K'].add_mandatory_gene(mgK_sctn_flg)
models['K'].add_accessory_gene(mgK_sctj_flg)
models['K'].add_accessory_gene(mgK_sctn)
models['K']._min_mandatory_genes_required = 1
models['K']._min_genes_required = 1
###########
# model L #
###########
models['L'] = Model("foo/L", 10)
mgL_flgB = ModelGene(cg_flgB, models['L'])
mgL_sctn_flg = ModelGene(cg_sctn_flg, models['L'])
mgL_sctj_flg = ModelGene(cg_sctj_flg, models['L'])
mgL_sctn = ModelGene(cg_sctn, models['L'], loner=True)
models['L'].add_mandatory_gene(mgL_flgB)
models['L'].add_mandatory_gene(mgL_sctn_flg)
models['L'].add_accessory_gene(mgL_sctj_flg)
models['L'].add_accessory_gene(mgL_sctn)
###########
# model M #
###########
models['M'] = Model("foo/L", 10)
mgM_sctj = ModelGene(cg_sctj, models['M'])
mgM_gspd = ModelGene(cg_gspd, models['M'])
mgM_sctn = ModelGene(cg_sctn, models['M'], multi_system=True)
mgM_tadZ = ModelGene(cg_tadZ, models['M'])
mgM_abc = ModelGene(cg_abc, models['M'])
models['M'].add_mandatory_gene(mgM_sctj)
models['M'].add_mandatory_gene(mgM_gspd)
models['M'].add_accessory_gene(mgM_sctn)
models['M'].add_accessory_gene(mgM_tadZ)
models['M'].add_accessory_gene(mgM_abc)
###########
# model N #
###########
models['N'] = Model("foo/N", 10)
mgN_flgB = ModelGene(cg_flgB, models['N'])
mgN_sctn_flg = ModelGene(cg_sctn_flg, models['N'])
mgN_sctj = ModelGene(cg_sctj, models['N'])
mgN_sctj_flg = ModelGene(cg_sctj_flg, models['N'])
mgN_sctn = ModelGene(cg_sctn, models['N'], loner=True)
mgN_tadZ = ModelGene(cg_tadZ, models['N'], loner=True)
models['N'].add_mandatory_gene(mgN_flgB)
models['N'].add_mandatory_gene(mgN_sctn_flg)
models['N'].add_accessory_gene(mgN_sctj)
models['N'].add_accessory_gene(mgN_sctj_flg)
models['N'].add_accessory_gene(mgN_sctn)
models['N'].add_accessory_gene(mgN_tadZ)
###########
# model O #
###########
models['O'] = Model("foo/O", 10)
mgO_sctj = ModelGene(cg_sctj, models['O'], multi_system=True)
mgO_sctj_flg = Exchangeable(cg_sctj_flg, mgO_sctj)
mgO_sctj.add_exchangeable(mgO_sctj_flg)
mgO_gspd = ModelGene(cg_gspd, models['O'], loner=True, multi_system=True)
mgO_sctn = ModelGene(cg_sctn, models['O'], multi_system=True)
mgO_sctn_flg = Exchangeable(cg_sctn_flg, mgO_sctn)
mgO_sctn.add_exchangeable(mgO_sctn_flg)
mgO_tadZ = ModelGene(cg_tadZ, models['O'], loner=True)
mgO_abc = ModelGene(cg_abc, models['O'])
models['O'].add_mandatory_gene(mgO_sctj)
models['O'].add_mandatory_gene(mgO_gspd)
models['O'].add_accessory_gene(mgO_sctn)
models['O'].add_accessory_gene(mgO_tadZ)
models['O'].add_neutral_gene(mgO_abc)
ch_sctj = CoreHit(cg_sctj, "hit_sctj", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20)
ch_sctn = CoreHit(cg_sctn, "hit_sctn", 803, "replicon_id", 2, 1.0, 1.0,
1.0, 1.0, 10, 20)
ch_gspd = CoreHit(cg_gspd, "hit_gspd", 803, "replicon_id", 3, 1.0, 1.0,
1.0, 1.0, 10, 20)
ch_sctn_flg = CoreHit(cg_sctn_flg, "hit_sctn_flg", 803, "replicon_id", 4,
1.0, 1.0, 1.0, 1.0, 10, 20)
ch_sctj = CoreHit(cg_sctj, "hit_sctj", 803, "replicon_id", 5, 1.0, 1.0,
1.0, 1.0, 10, 20)
ch_sctj_flg = CoreHit(cg_sctj_flg, "hit_sctj_flg", 803, "replicon_id", 6,
1.0, 1.0, 1.0, 1.0, 10, 20)
ch_flgB = CoreHit(cg_flgB, "hit_flgB", 803, "replicon_id", 7, 1.0, 1.0,
1.0, 1.0, 10, 20)
ch_tadZ = CoreHit(cg_tadZ, "hit_tadZ", 803, "replicon_id", 8, 1.0, 1.0,
1.0, 1.0, 10, 20)
ch_abc = CoreHit(cg_abc, "hit_abc", 803, "replicon_id", 9, 1.0, 1.0, 1.0,
1.0, 10, 20)
hit_weights = HitWeight(**cfg.hit_weights())
clusters = {}
clusters['c1'] = Cluster([
ModelHit(ch_sctj, gene_ref=mgA_sctj, gene_status=GeneStatus.MANDATORY),
ModelHit(ch_sctn, gene_ref=mgA_sctn, gene_status=GeneStatus.MANDATORY),
ModelHit(ch_gspd, gene_ref=mgA_gspd, gene_status=GeneStatus.ACCESSORY)
], models['A'], hit_weights)
clusters['c2'] = Cluster([
ModelHit(ch_sctj, gene_ref=mgA_sctj, gene_status=GeneStatus.MANDATORY),
ModelHit(ch_sctn, gene_ref=mgA_sctn, gene_status=GeneStatus.MANDATORY)
], models['A'], hit_weights)
clusters['c3'] = Cluster([
ModelHit(ch_sctj_flg,
gene_ref=mgB_sctj_flg,
gene_status=GeneStatus.MANDATORY),
ModelHit(ch_tadZ, gene_ref=mgB_tadZ, gene_status=GeneStatus.ACCESSORY),
ModelHit(ch_flgB, gene_ref=mgB_flgB, gene_status=GeneStatus.ACCESSORY)
], models['B'], hit_weights)
clusters['c4'] = Cluster([
ModelHit(ch_sctj_flg,
gene_ref=mgC_sctj_flg,
gene_status=GeneStatus.MANDATORY),
ModelHit(ch_tadZ, gene_ref=mgC_tadZ, gene_status=GeneStatus.ACCESSORY),
ModelHit(ch_flgB, gene_ref=mgC_flgB, gene_status=GeneStatus.MANDATORY),
ModelHit(ch_gspd, gene_ref=mgC_gspd, gene_status=GeneStatus.ACCESSORY)
], models['C'], hit_weights)
clusters['c5'] = Cluster([
ModelHit(ch_abc, gene_ref=mgD_abc, gene_status=GeneStatus.MANDATORY),
ModelHit(ch_sctn, gene_ref=mgD_sctn, gene_status=GeneStatus.ACCESSORY)
], models['D'], hit_weights)
clusters['c6'] = Cluster([
ModelHit(ch_gspd, gene_ref=mgE_gspd, gene_status=GeneStatus.ACCESSORY)
], models['E'], hit_weights)
clusters['c7'] = Cluster(
[ModelHit(ch_abc, gene_ref=mgF_abc, gene_status=GeneStatus.MANDATORY)],
models['F'], hit_weights)
clusters['c8'] = Cluster([
ModelHit(ch_flgB, gene_ref=mgI_flgB, gene_status=GeneStatus.MANDATORY),
ModelHit(ch_tadZ, gene_ref=mgI_tadZ, gene_status=GeneStatus.ACCESSORY)
], models['I'], hit_weights)
clusters['c9'] = Cluster([
ModelHit(ch_abc, gene_ref=mgJ_abc, gene_status=GeneStatus.MANDATORY),
ModelHit(ch_tadZ, gene_ref=mgJ_tadZ, gene_status=GeneStatus.ACCESSORY)
], models['J'], hit_weights)
clusters['c10'] = Cluster([
ModelHit(ch_flgB, gene_ref=mgK_flgB, gene_status=GeneStatus.MANDATORY),
ModelHit(ch_sctn, gene_ref=mgK_sctn, gene_status=GeneStatus.ACCESSORY)
], models['K'], hit_weights)
clusters['c11'] = Cluster([
ModelHit(ch_flgB, gene_ref=mgL_flgB, gene_status=GeneStatus.MANDATORY),
ModelHit(ch_sctn_flg,
gene_ref=mgL_sctn_flg,
gene_status=GeneStatus.MANDATORY)
], models['L'], hit_weights)
clusters['c12'] = Cluster([
ModelHit(ch_sctj_flg,
gene_ref=mgL_sctj_flg,
gene_status=GeneStatus.ACCESSORY),
ModelHit(ch_sctn, gene_ref=mgL_sctn, gene_status=GeneStatus.ACCESSORY)
], models['L'], hit_weights)
clusters['c13'] = Cluster(
[Loner(ch_sctn, gene_ref=mgL_sctn, gene_status=GeneStatus.ACCESSORY)],
models['L'], hit_weights)
clusters['c14'] = Cluster([
ModelHit(ch_sctj, mgM_sctj, gene_status=GeneStatus.MANDATORY),
MultiSystem(
ch_sctn, gene_ref=mgM_sctn, gene_status=GeneStatus.ACCESSORY),
ModelHit(ch_gspd, gene_ref=mgM_gspd, gene_status=GeneStatus.ACCESSORY)
], models['M'], hit_weights)
clusters['c15'] = Cluster([
ModelHit(ch_tadZ, gene_ref=mgM_tadZ, gene_status=GeneStatus.ACCESSORY),
ModelHit(ch_abc, gene_ref=mgM_abc, gene_status=GeneStatus.ACCESSORY)
], models['M'], hit_weights)
clusters['c16'] = Cluster([
MultiSystem(
ch_sctn, gene_ref=mgM_sctn, gene_status=GeneStatus.ACCESSORY)
], models['M'], hit_weights)
clusters['c17'] = Cluster([
ModelHit(ch_flgB, mgL_flgB, GeneStatus.MANDATORY),
ModelHit(ch_sctn_flg, mgL_sctn_flg, GeneStatus.MANDATORY)
], models['N'], hit_weights)
clusters['c18'] = Cluster([
ModelHit(ch_sctj, mgN_sctj, GeneStatus.MANDATORY),
ModelHit(ch_sctj_flg, mgL_sctj_flg, GeneStatus.MANDATORY)
], models['N'], hit_weights)
clusters['c19'] = Cluster([Loner(ch_sctn, mgL_sctn, GeneStatus.ACCESSORY)],
models['N'], hit_weights)
clusters['c20'] = Cluster([Loner(ch_tadZ, mgN_tadZ, GeneStatus.ACCESSORY)],
models['N'], hit_weights)
clusters['c21'] = Cluster([
ModelHit(ch_sctj, mgO_sctj, GeneStatus.MANDATORY),
ModelHit(ch_abc, mgO_abc, GeneStatus.NEUTRAL),
ModelHit(ch_tadZ, mgO_tadZ, GeneStatus.ACCESSORY)
], models['O'], hit_weights)
clusters['c22'] = Cluster([
ModelHit(ch_sctn_flg, mgO_sctn_flg, GeneStatus.ACCESSORY),
ModelHit(ch_gspd, mgO_gspd, GeneStatus.MANDATORY),
ModelHit(ch_tadZ, mgO_tadZ, GeneStatus.ACCESSORY)
], models['O'], hit_weights)
clusters['c23'] = Cluster(
[Loner(ch_gspd, mgO_gspd, gene_status=GeneStatus.MANDATORY)],
models['O'], hit_weights)
clusters['c24'] = Cluster(
[MultiSystem(ch_gspd, mgO_gspd, gene_status=GeneStatus.MANDATORY)],
models['O'], hit_weights)
clusters['c25'] = Cluster(
[MultiSystem(ch_sctn, mgO_sctn, gene_status=GeneStatus.ACCESSORY)],
models['O'], hit_weights)
clusters['c26'] = Cluster([
MultiSystem(
ch_sctj_flg, mgO_sctj_flg, gene_status=GeneStatus.MANDATORY)
], models['O'], hit_weights)
return models, clusters
def setUp(self) -> None:
args = argparse.Namespace()
args.sequence_db = self.find_data("base", "test_1.fasta")
args.db_type = 'gembase'
args.models_dir = self.find_data('models')
self.cfg = Config(MacsyDefaults(), args)
self.model_name = 'foo'
self.model_location = ModelLocation(
path=os.path.join(args.models_dir, self.model_name))
self.profile_factory = ProfileFactory(self.cfg)
self.model = Model("foo/model_A", 10)
c_gene_sctn = CoreGene(self.model_location, "sctN",
self.profile_factory)
gene_sctn = ModelGene(c_gene_sctn, self.model)
c_gene_sctn_flg = CoreGene(self.model_location, "sctN_FLG",
self.profile_factory)
gene_sctn_flg = Exchangeable(c_gene_sctn_flg, gene_sctn)
gene_sctn.add_exchangeable(gene_sctn_flg)
c_gene_sctj = CoreGene(self.model_location, "sctJ",
self.profile_factory)
gene_sctj = ModelGene(c_gene_sctj, self.model)
c_gene_sctj_flg = CoreGene(self.model_location, "sctJ_FLG",
self.profile_factory)
gene_sctj_flg = Exchangeable(c_gene_sctj_flg, gene_sctj)
gene_sctj.add_exchangeable(gene_sctj_flg)
c_gene_gspd = CoreGene(self.model_location, "gspD",
self.profile_factory)
gene_gspd = ModelGene(c_gene_gspd, self.model)
c_gene_flgb = CoreGene(self.model_location, "flgB",
self.profile_factory)
gene_gspd_an = Exchangeable(c_gene_flgb, gene_gspd)
gene_gspd.add_exchangeable(gene_gspd_an)
c_gene_abc = CoreGene(self.model_location, "abc", self.profile_factory)
gene_abc = ModelGene(c_gene_abc, self.model)
c_gene_tadz = CoreGene(self.model_location, "tadZ",
self.profile_factory)
gene_abc_ho = Exchangeable(c_gene_tadz, gene_abc)
gene_abc.add_exchangeable(gene_abc_ho)
c_gene_toto = CoreGene(self.model_location, "toto",
self.profile_factory)
gene_toto = ModelGene(c_gene_toto, self.model)
c_gene_totote = CoreGene(self.model_location, "totote",
self.profile_factory)
gene_toto_ho = Exchangeable(c_gene_totote, gene_toto)
gene_toto.add_exchangeable(gene_toto_ho)
self.model.add_mandatory_gene(gene_sctn)
self.model.add_mandatory_gene(gene_sctj)
self.model.add_accessory_gene(gene_gspd)
self.model.add_neutral_gene(gene_toto)
self.model.add_forbidden_gene(gene_abc)
self.c_hits = {
'h_sctj':
Hit(c_gene_sctj, "hit_sctj", 803, "replicon_id", 1, 1.0, 1.0, 1.0,
1.0, 10, 20),
'h_sctj_flg':
Hit(c_gene_sctj_flg, "hit_sctj_flg", 803, "replicon_id", 1, 1.0,
1.0, 1.0, 1.0, 10, 20),
'h_sctn':
Hit(c_gene_sctn, "hit_sctn", 803, "replicon_id", 1, 1.0, 1.0, 1.0,
1.0, 10, 20),
'h_sctn_flg':
Hit(c_gene_sctn_flg, "hit_sctn_flg", 803, "replicon_id", 1, 1.0,
1.0, 1.0, 1.0, 10, 20),
'h_gspd':
Hit(c_gene_gspd, "hit_gspd", 803, "replicon_id", 1, 1.0, 1.0, 1.0,
1.0, 10, 20),
'h_gspd_an':
Hit(c_gene_flgb, "hit_gspd_an", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20),
'h_abc':
Hit(c_gene_abc, "hit_abc", 803, "replicon_id", 1, 1.0, 1.0, 1.0,
1.0, 10, 20),
'h_abc_ho':
Hit(c_gene_tadz, "hit_abc_ho", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20),
'h_toto':
Hit(c_gene_toto, "hit_toto", 803, "replicon_id", 1, 1.0, 1.0, 1.0,
1.0, 10, 20),
'h_toto_ho':
Hit(c_gene_totote, "hit_toto_ho", 803, "replicon_id", 1, 1.0, 1.0,
1.0, 1.0, 10, 20),
}
def test_SolutionSerializer_tsv(self):
model_name = 'foo'
model_location = ModelLocation(
path=os.path.join(self.cfg.models_dir()[0], model_name))
###########
# Model B #
###########
model_B = Model("foo/B", 10)
c_gene_sctn_flg = CoreGene(model_location, "sctN_FLG",
self.profile_factory)
gene_sctn_flg = ModelGene(c_gene_sctn_flg, model_B)
c_gene_sctj_flg = CoreGene(model_location, "sctJ_FLG",
self.profile_factory)
gene_sctj_flg = ModelGene(c_gene_sctj_flg, model_B)
c_gene_flgB = CoreGene(model_location, "flgB", self.profile_factory)
gene_flgB = ModelGene(c_gene_flgB, model_B)
c_gene_tadZ = CoreGene(model_location, "tadZ", self.profile_factory)
gene_tadZ = ModelGene(c_gene_tadZ, model_B)
model_B.add_mandatory_gene(gene_sctn_flg)
model_B.add_mandatory_gene(gene_sctj_flg)
model_B.add_accessory_gene(gene_flgB)
model_B.add_accessory_gene(gene_tadZ)
###########
# Model A #
###########
model_A = Model("foo/A", 10)
c_gene_sctn = CoreGene(model_location, "sctN", self.profile_factory)
gene_sctn = ModelGene(c_gene_sctn, model_A)
gene_sctn_hom = Exchangeable(c_gene_sctn_flg, gene_sctn)
gene_sctn.add_exchangeable(gene_sctn_hom)
c_gene_sctj = CoreGene(model_location, "sctJ", self.profile_factory)
gene_sctj = ModelGene(c_gene_sctj, model_A)
gene_sctj_an = Exchangeable(c_gene_sctj_flg, gene_sctj)
gene_sctj.add_exchangeable(gene_sctj_an)
c_gene_gspd = CoreGene(model_location, "gspD", self.profile_factory)
gene_gspd = ModelGene(c_gene_gspd, model_A)
gene_gspd_an = Exchangeable(c_gene_flgB, gene_gspd)
gene_gspd.add_exchangeable(gene_gspd_an)
c_gene_abc = CoreGene(model_location, "abc", self.profile_factory)
gene_abc = ModelGene(c_gene_abc, model_A, loner=True)
gene_abc_ho = Exchangeable(c_gene_tadZ, gene_abc)
gene_abc.add_exchangeable(gene_abc_ho)
model_A.add_mandatory_gene(gene_sctn)
model_A.add_mandatory_gene(gene_sctj)
model_A.add_accessory_gene(gene_gspd)
model_A.add_accessory_gene(gene_abc)
# CoreHit(gene, hit_id, hit_seq_length, replicon_name, position, i_eval, score,
# profile_coverage, sequence_coverage, begin_match, end_match
# pos score
h_sctj = CoreHit(c_gene_sctj, "hit_sctj", 803, "replicon_id", 1, 1.0,
1.0, 1.0, 1.0, 10, 20)
mh_sctj = ModelHit(h_sctj, gene_sctj, GeneStatus.MANDATORY)
h_sctn = CoreHit(c_gene_sctn, "hit_sctn", 803, "replicon_id", 2, 1.0,
1.0, 1.0, 1.0, 10, 20)
mh_sctn = ModelHit(h_sctn, gene_sctn, GeneStatus.MANDATORY)
h_gspd = CoreHit(c_gene_gspd, "hit_gspd", 803, "replicon_id", 3, 1.0,
1.0, 1.0, 1.0, 10, 20)
mh_gspd = ModelHit(h_gspd, gene_gspd, GeneStatus.ACCESSORY)
h_sctj_flg = CoreHit(c_gene_sctj_flg, "hit_sctj_flg", 803,
"replicon_id", 10, 1.0, 1.0, 1.0, 1.0, 10, 20)
h_flgB = CoreHit(c_gene_flgB, "hit_flgB", 803, "replicon_id", 11, 1.0,
1.0, 1.0, 1.0, 10, 20)
h_abc = CoreHit(c_gene_abc, "hit_abc", 803, "replicon_id", 20, 1.0,
1.0, 1.0, 1.0, 10, 20)
h_abc2 = CoreHit(c_gene_abc, "hit_abc2", 803, "replicon_id", 50, 1.0,
1.0, 1.0, 1.0, 10, 20)
h_tadZ = CoreHit(c_gene_tadZ, "hit_tadZ", 803, "replicon_id", 40, 1.0,
1.0, 1.0, 1.0, 10, 20)
mh_sctj_flg = ModelHit(h_sctj_flg, gene_sctj_flg, GeneStatus.MANDATORY)
mh_flgB = ModelHit(h_flgB, gene_flgB, GeneStatus.ACCESSORY)
mh_abc = ModelHit(h_abc, gene_abc, GeneStatus.ACCESSORY)
mh_abc2 = ModelHit(h_abc2, gene_abc, GeneStatus.ACCESSORY)
mh_tadZ = ModelHit(h_tadZ, gene_tadZ, GeneStatus.ACCESSORY)
model_A._min_mandatory_genes_required = 2
model_A._min_genes_required = 2
c1 = Cluster([mh_sctj, mh_sctn, mh_gspd], model_A, self.hit_weights)
c2 = Cluster([mh_sctj, mh_sctn], model_A, self.hit_weights)
c3 = Cluster([
Loner(h_abc,
gene_ref=gene_abc,
gene_status=GeneStatus.ACCESSORY,
counterpart=[mh_abc2])
], model_A, self.hit_weights)
model_B._min_mandatory_genes_required = 1
model_B._min_genes_required = 2
c5 = Cluster([mh_sctj_flg, mh_tadZ, mh_flgB], model_B,
self.hit_weights)
sys_A = System(model_A, [c1, c2, c3], self.cfg.redundancy_penalty())
# score = 2.5, 2 , 0.35 = 4.85 - (2 * 1.5) = 1.85
sys_A.id = "sys_id_A"
sys_B = System(model_B, [c5], self.cfg.redundancy_penalty())
# score = 2.0
sys_B.id = "sys_id_B"
sol = Solution([sys_A, sys_B])
sol_id = '12'
hit_multi_sys_tracker = HitSystemTracker([sys_A, sys_B])
sol_serializer = TsvSolutionSerializer()
sol_tsv = '\t'.join([
sol_id, 'replicon_id', 'hit_sctj', 'sctJ', '1', 'foo/A',
'sys_id_A', '2', '1', '1.000', '1.850', '2', 'sctJ', 'mandatory',
'803', '1.0', '1.000', '1.000', '1.000', '10', '20', '', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_sctn', 'sctN', '2', 'foo/A',
'sys_id_A', '2', '1', '1.000', '1.850', '2', 'sctN', 'mandatory',
'803', '1.0', '1.000', '1.000', '1.000', '10', '20', '', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_gspd', 'gspD', '3', 'foo/A',
'sys_id_A', '2', '1', '1.000', '1.850', '2', 'gspD', 'accessory',
'803', '1.0', '1.000', '1.000', '1.000', '10', '20', '', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_sctj', 'sctJ', '1', 'foo/A',
'sys_id_A', '2', '2', '1.000', '1.850', '2', 'sctJ', 'mandatory',
'803', '1.0', '1.000', '1.000', '1.000', '10', '20', '', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_sctn', 'sctN', '2', 'foo/A',
'sys_id_A', '2', '2', '1.000', '1.850', '2', 'sctN', 'mandatory',
'803', '1.0', '1.000', '1.000', '1.000', '10', '20', '', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_abc', 'abc', '20', 'foo/A', 'sys_id_A',
'2', '-1', '1.000', '1.850', '2', 'abc', 'accessory', '803', '1.0',
'1.000', '1.000', '1.000', '10', '20', 'hit_abc2', ''
])
sol_tsv += "\n"
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_sctj_flg', 'sctJ_FLG', '10', 'foo/B',
'sys_id_B', '1', '1', '0.750', '2.000', '1', 'sctJ_FLG',
'mandatory', '803', '1.0', '1.000', '1.000', '1.000', '10', '20',
'', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_flgB', 'flgB', '11', 'foo/B',
'sys_id_B', '1', '1', '0.750', '2.000', '1', 'flgB', 'accessory',
'803', '1.0', '1.000', '1.000', '1.000', '10', '20', '', ''
])
sol_tsv += "\n"
sol_tsv += '\t'.join([
sol_id, 'replicon_id', 'hit_tadZ', 'tadZ', '40', 'foo/B',
'sys_id_B', '1', '1', '0.750', '2.000', '1', 'tadZ', 'accessory',
'803', '1.0', '1.000', '1.000', '1.000', '10', '20', '', ''
])
sol_tsv += "\n"
sol_tsv += "\n"
ser = sol_serializer.serialize(sol, sol_id, hit_multi_sys_tracker)
self.maxDiff = None
self.assertEqual(ser, sol_tsv)
def test_SystemSerializer_tsv(self):
model = Model("foo/T2SS", 10)
c_gene_gspd = CoreGene(self.model_location, "gspD",
self.profile_factory)
gene_gspd = ModelGene(c_gene_gspd, model)
model.add_mandatory_gene(gene_gspd)
c_gene_sctj = CoreGene(self.model_location, "sctJ",
self.profile_factory)
gene_sctj = ModelGene(c_gene_sctj, model)
model.add_accessory_gene(gene_sctj)
c_gene_sctn = CoreGene(self.model_location, "sctN",
self.profile_factory)
gene_sctn = ModelGene(c_gene_sctn, model, loner=True)
c_gene_sctn_flg = CoreGene(self.model_location, "sctN_FLG",
self.profile_factory)
gene_sctn_flg = Exchangeable(c_gene_sctn_flg, gene_sctn)
gene_sctn.add_exchangeable(gene_sctn_flg)
model.add_accessory_gene(gene_sctn)
#CoreHit(gene, hit_id, hit_seq_length, replicon_name, position, i_eval, score,
# profile_coverage, sequence_coverage, begin_match, end_match
# pos score
ch_gspd = CoreHit(c_gene_gspd, "h_gspd", 803, "replicon_id", 10, 1.0,
1.0, 1.0, 1.0, 10, 20)
mh_gspd = ModelHit(ch_gspd,
gene_ref=gene_gspd,
gene_status=GeneStatus.MANDATORY)
ch_sctj = CoreHit(c_gene_sctj, "h_sctj", 803, "replicon_id", 20, 1.0,
1.0, 1.0, 1.0, 20, 30)
mh_sctj = ModelHit(ch_sctj,
gene_ref=gene_sctj,
gene_status=GeneStatus.ACCESSORY)
ch_sctn_flg = CoreHit(c_gene_sctn_flg, "h_sctn_flg", 803,
"replicon_id", 40, 1.0, 1.0, 1.0, 1.0, 30, 40)
mh_sctn_flg = ModelHit(ch_sctn_flg,
gene_ref=gene_sctn_flg,
gene_status=GeneStatus.ACCESSORY)
ch_sctn = CoreHit(c_gene_sctn, "h_sctn", 803, "replicon_id", 80, 1.0,
1.0, 1.0, 1.0, 30, 40)
mh_sctn = Loner(ch_sctn,
gene_ref=gene_sctn,
gene_status=GeneStatus.ACCESSORY,
counterpart=[mh_sctn_flg])
c1 = Cluster([mh_gspd, mh_sctj], model, self.hit_weights)
c2 = Cluster([mh_sctn], model, self.hit_weights)
sys_multi_loci = System(model, [c1, c2], self.cfg.redundancy_penalty())
# score 1.5 .35 = 1.85
hit_multi_sys_tracker = HitSystemTracker([sys_multi_loci])
system_serializer = TsvSystemSerializer()
sys_tsv = "\t".join([
"replicon_id", "h_gspd", "gspD", "10", "foo/T2SS",
sys_multi_loci.id, "1", "1", "1.000", "1.850", "1", "gspD",
"mandatory", "803", "1.0", "1.000", "1.000", "1.000", "10", "20",
"", ""
])
sys_tsv += "\n"
sys_tsv += "\t".join([
"replicon_id", "h_sctj", "sctJ", "20", "foo/T2SS",
sys_multi_loci.id, "1", "1", "1.000", "1.850", "1", "sctJ",
"accessory", "803", "1.0", "1.000", "1.000", "1.000", "20", "30",
"", ""
])
sys_tsv += "\n"
sys_tsv += "\t".join([
"replicon_id", "h_sctn", "sctN", "80", "foo/T2SS",
sys_multi_loci.id, "1", "-1", "1.000", "1.850", "1", "sctN",
"accessory", "803", "1.0", "1.000", "1.000", "1.000", "30", "40",
"h_sctn_flg", ""
])
sys_tsv += "\n"
self.maxDiff = None
self.assertEqual(
sys_tsv,
system_serializer.serialize(sys_multi_loci, hit_multi_sys_tracker))
def test_score(self):
model = Model("foo/T2SS", 10)
c_gene_gspd = CoreGene(self.model_location, "gspD", self.profile_factory)
gene_gspd = ModelGene(c_gene_gspd, model)
model.add_mandatory_gene(gene_gspd)
c_gene_tadZ = CoreGene(self.model_location, "tadZ", self.profile_factory)
gene_tadZ = ModelGene(c_gene_tadZ, model)
model.add_mandatory_gene(gene_tadZ)
c_gene_sctj = CoreGene(self.model_location, "sctC", self.profile_factory)
gene_sctj = ModelGene(c_gene_sctj, model)
c_gene_sctJ_FLG = CoreGene(self.model_location, "sctJ_FLG", self.profile_factory)
analog_sctJ_FLG = Exchangeable(c_gene_sctJ_FLG, gene_sctj)
gene_sctj.add_exchangeable(analog_sctJ_FLG)
model.add_accessory_gene(gene_sctj)
c_gene_sctn = CoreGene(self.model_location, "sctN", self.profile_factory)
gene_sctn = ModelGene(c_gene_sctn, model, loner=True)
c_gene_sctn_FLG = CoreGene(self.model_location, "sctN_FLG", self.profile_factory)
homolog_sctn_FLG = Exchangeable(c_gene_sctn_FLG, gene_sctn)
gene_sctn.add_exchangeable(homolog_sctn_FLG)
model.add_accessory_gene(gene_sctn)
c_gene_toto = CoreGene(self.model_location, "toto", self.profile_factory)
gene_toto = ModelGene(c_gene_toto, model)
model.add_neutral_gene(gene_toto)
c_gene_flie = CoreGene(self.model_location, "fliE", self.profile_factory)
gene_flie = ModelGene(c_gene_flie, model, loner=True, multi_system=True)
model.add_mandatory_gene(gene_flie)
h_gspd = Hit(c_gene_gspd, "h_gspd", 10, "replicon_id", 1, 1.0, 1.0, 1.0, 1.0, 10, 20)
v_h_gspd = ValidHit(h_gspd, gene_gspd, GeneStatus.MANDATORY)
h_tadz = Hit(c_gene_tadZ, "h_tadz", 20, "replicon_id", 1, 1.0, 1.0, 1.0, 1.0, 10, 20)
v_h_tadz = ValidHit(h_tadz, gene_tadZ, GeneStatus.MANDATORY)
h_sctj = Hit(c_gene_sctj, "h_sctj", 30, "replicon_id", 1, 1.0, 1.0, 1.0, 1.0, 10, 20)
v_h_sctj = ValidHit(h_sctj, gene_sctj, GeneStatus.ACCESSORY)
h_sctj_an = Hit(c_gene_sctJ_FLG, "h_sctj_an", 30, "replicon_id", 1, 1.0, 1.0, 1.0, 1.0, 10, 20)
v_h_sctj_an = ValidHit(h_sctj_an, analog_sctJ_FLG, GeneStatus.ACCESSORY)
h_sctn = Hit(c_gene_sctn, "sctn", 40, "replicon_id", 1, 1.0, 1.0, 1.0, 1.0, 10, 20)
v_h_sctn = ValidHit(h_sctn, gene_sctn, GeneStatus.ACCESSORY)
h_sctn_hom = Hit(c_gene_sctn_FLG, "h_scth_hom", 30, "replicon_id", 1, 1.0, 1.0, 1.0, 1.0, 10, 20)
v_h_sctn_hom = ValidHit(h_sctn_hom, homolog_sctn_FLG, GeneStatus.ACCESSORY)
h_toto = Hit(c_gene_sctn, "toto", 50, "replicon_id", 1, 1.0, 1.0, 1.0, 1.0, 10, 20)
v_h_toto = ValidHit(h_toto, gene_toto, GeneStatus.NEUTRAL)
h_flie = Hit(c_gene_flie, "h_flie", 100, "replicon_id", 1, 1.0, 1.0, 1.0, 1.0, 10, 20)
v_h_flie = ValidHit(h_flie, gene_flie, GeneStatus.MANDATORY)
# 2 mandatory, 2 accessory no analog/homolog
c1 = Cluster([v_h_gspd, v_h_tadz, v_h_sctj, v_h_sctn], model, self.hit_weights)
self.assertEqual(c1.score, 3.0)
# 2 mandatory, 2 accessory 1 neutral, no analog/homolog
c1 = Cluster([v_h_gspd, v_h_tadz, v_h_sctj, v_h_sctn, v_h_toto], model, self.hit_weights)
self.assertEqual(c1.score, 3.0)
# 1 mandatory + 1 mandatory duplicated 1 time
# 1 accessory + 1 accessory duplicated 1 times
# no analog/homolog
c1 = Cluster([v_h_gspd, v_h_tadz, v_h_sctj, v_h_sctn, v_h_gspd, v_h_sctn], model, self.hit_weights)
self.assertEqual(c1.score, 3.0)
# 2 mandatory
# 1 accessory + 1 accessory homolog
c1 = Cluster([v_h_gspd, v_h_tadz, v_h_sctj, v_h_sctn_hom], model, self.hit_weights)
self.assertEqual(c1.score, 2.9)
# # 2 mandatory
# # 1 accessory + 1 accessory analog of the 1rst accessory
# c1 = Cluster([v_h_gspd, v_h_tadz, v_h_sctj, v_h_sctj_an], model, self.hit_weights)
# self.assertEqual(c1.score, 2.5)
# test loners multi system
c1 = Cluster([v_h_flie], model, self.hit_weights)
self.assertEqual(c1.score, 0.7)
# test the cache score
self.assertEqual(c1.score, 0.7)
non_valid_hit = ValidHit(h_sctn, gene_sctn, GeneStatus.FORBIDDEN)
c1 = Cluster([v_h_gspd, non_valid_hit, v_h_tadz], model, self.hit_weights)
with self.assertRaises(MacsypyError) as ctx:
c1.score
self.assertEqual(str(ctx.exception),
"a Cluster contains hit which is neither mandatory nor accessory")
def _build_systems(cfg, profile_factory):
model_name = 'foo'
model_location = ModelLocation(
path=os.path.join(cfg.models_dir(), model_name))
model_A = Model("foo/A", 10)
model_B = Model("foo/B", 10)
model_C = Model("foo/C", 10)
model_D = Model("foo/D", 10)
model_E = Model("foo/E", 10)
model_F = Model("foo/F", 10)
model_G = Model("foo/G", 10)
model_H = Model("foo/H", 10)
c_gene_sctn_flg = CoreGene(model_location, "sctN_FLG", profile_factory)
gene_sctn_flg = ModelGene(c_gene_sctn_flg, model_B)
c_gene_sctj_flg = CoreGene(model_location, "sctJ_FLG", profile_factory)
gene_sctj_flg = ModelGene(c_gene_sctj_flg, model_B)
c_gene_flgB = CoreGene(model_location, "flgB", profile_factory)
gene_flgB = ModelGene(c_gene_flgB, model_B)
c_gene_tadZ = CoreGene(model_location, "tadZ", profile_factory)
gene_tadZ = ModelGene(c_gene_tadZ, model_B)
c_gene_sctn = CoreGene(model_location, "sctN", profile_factory)
gene_sctn = ModelGene(c_gene_sctn, model_A)
gene_sctn_hom = Exchangeable(c_gene_sctn_flg, gene_sctn)
gene_sctn.add_exchangeable(gene_sctn_hom)
c_gene_sctj = CoreGene(model_location, "sctJ", profile_factory)
gene_sctj = ModelGene(c_gene_sctj, model_A)
gene_sctj_an = Exchangeable(c_gene_sctj_flg, gene_sctj)
gene_sctj.add_exchangeable(gene_sctj_an)
c_gene_gspd = CoreGene(model_location, "gspD", profile_factory)
gene_gspd = ModelGene(c_gene_gspd, model_A)
gene_gspd_an = Exchangeable(c_gene_flgB, gene_gspd)
gene_gspd.add_exchangeable(gene_gspd_an)
c_gene_abc = CoreGene(model_location, "abc", profile_factory)
gene_abc = ModelGene(c_gene_abc, model_A)
gene_abc_ho = Exchangeable(c_gene_tadZ, gene_abc)
gene_abc.add_exchangeable(gene_abc_ho)
model_A.add_mandatory_gene(gene_sctn)
model_A.add_mandatory_gene(gene_sctj)
model_A.add_accessory_gene(gene_gspd)
model_A.add_forbidden_gene(gene_abc)
model_B.add_mandatory_gene(gene_sctn_flg)
model_B.add_mandatory_gene(gene_sctj_flg)
model_B.add_accessory_gene(gene_flgB)
model_B.add_accessory_gene(gene_tadZ)
model_C.add_mandatory_gene(gene_sctn_flg)
model_C.add_mandatory_gene(gene_sctj_flg)
model_C.add_mandatory_gene(gene_flgB)
model_C.add_accessory_gene(gene_tadZ)
model_C.add_accessory_gene(gene_gspd)
model_D.add_mandatory_gene(gene_abc)
model_D.add_accessory_gene(gene_sctn)
model_E.add_accessory_gene(gene_gspd)
model_F.add_mandatory_gene(gene_abc)
# idem as C
model_G.add_mandatory_gene(gene_sctn_flg)
model_G.add_mandatory_gene(gene_sctj_flg)
model_G.add_mandatory_gene(gene_flgB)
model_G.add_accessory_gene(gene_tadZ)
model_G.add_accessory_gene(gene_gspd)
# idem as D
model_H.add_mandatory_gene(gene_abc)
model_H.add_accessory_gene(gene_sctn)
h_sctj = Hit(c_gene_sctj, "hit_sctj", 803, "replicon_id", 1, 1.0, 1.0, 1.0,
1.0, 10, 20)
h_sctn = Hit(c_gene_sctn, "hit_sctn", 803, "replicon_id", 2, 1.0, 1.0, 1.0,
1.0, 10, 20)
h_gspd = Hit(c_gene_gspd, "hit_gspd", 803, "replicon_id", 3, 1.0, 1.0, 1.0,
1.0, 10, 20)
h_sctj_flg = Hit(c_gene_sctj_flg, "hit_sctj_flg", 803, "replicon_id", 4,
1.0, 1.0, 1.0, 1.0, 10, 20)
h_flgB = Hit(c_gene_flgB, "hit_flgB", 803, "replicon_id", 5, 1.0, 1.0, 1.0,
1.0, 10, 20)
h_tadZ = Hit(c_gene_tadZ, "hit_tadZ", 803, "replicon_id", 6, 1.0, 1.0, 1.0,
1.0, 10, 20)
h_abc = Hit(c_gene_abc, "hit_abc", 803, "replicon_id", 7, 1.0, 1.0, 1.0,
1.0, 10, 20)
model_A._min_mandatory_genes_required = 2
model_A._min_genes_required = 2
hit_weights = HitWeight(**cfg.hit_weights())
c1 = Cluster([
ValidHit(h_sctj, gene_sctj, GeneStatus.MANDATORY),
ValidHit(h_sctn, gene_sctn, GeneStatus.MANDATORY),
ValidHit(h_gspd, gene_gspd, GeneStatus.ACCESSORY)
], model_A, hit_weights)
c2 = Cluster([
ValidHit(h_sctj, gene_sctj, GeneStatus.MANDATORY),
ValidHit(h_sctn, gene_sctn, GeneStatus.MANDATORY)
], model_A, hit_weights)
model_B._min_mandatory_genes_required = 1
model_B._min_genes_required = 2
c3 = Cluster([
ValidHit(h_sctj_flg, gene_sctj_flg, GeneStatus.MANDATORY),
ValidHit(h_tadZ, gene_tadZ, GeneStatus.ACCESSORY),
ValidHit(h_flgB, gene_flgB, GeneStatus.ACCESSORY)
], model_B, hit_weights)
model_C._min_mandatory_genes_required = 1
model_C._min_genes_required = 2
c4 = Cluster([
ValidHit(h_sctj_flg, gene_sctj_flg, GeneStatus.MANDATORY),
ValidHit(h_tadZ, gene_tadZ, GeneStatus.ACCESSORY),
ValidHit(h_flgB, gene_flgB, GeneStatus.MANDATORY),
ValidHit(h_gspd, gene_gspd, GeneStatus.ACCESSORY)
], model_C, hit_weights)
model_D._min_mandatory_genes_required = 1
model_D._min_genes_required = 1
c5 = Cluster([
ValidHit(h_abc, gene_abc, GeneStatus.MANDATORY),
ValidHit(h_sctn, gene_sctn, GeneStatus.ACCESSORY)
], model_D, hit_weights)
model_E._min_mandatory_genes_required = 0
model_E._min_genes_required = 1
c6 = Cluster([ValidHit(h_gspd, gene_gspd, GeneStatus.ACCESSORY)], model_E,
hit_weights)
model_F._min_mandatory_genes_required = 1
model_F._min_genes_required = 1
c7 = Cluster([ValidHit(h_abc, gene_abc, GeneStatus.MANDATORY)], model_F,
hit_weights)
systems = {}
systems['A'] = System(model_A, [c1, c2],
cfg.redundancy_penalty()) # 5 hits
# we need to tweek the replicon_id to have stable ressults
# whatever the number of tests ran
# or the tests order
systems['A'].id = "replicon_id_A"
systems['B'] = System(model_B, [c3], cfg.redundancy_penalty()) # 3 hits
systems['B'].id = "replicon_id_B"
systems['C'] = System(model_C, [c4], cfg.redundancy_penalty()) # 4 hits
systems['C'].id = "replicon_id_C"
systems['D'] = System(model_D, [c5], cfg.redundancy_penalty()) # 2 hits
systems['D'].id = "replicon_id_D"
systems['E'] = System(model_E, [c6], cfg.redundancy_penalty()) # 1 hit
systems['E'].id = "replicon_id_E"
systems['F'] = System(model_F, [c7], cfg.redundancy_penalty()) # 1 hit
systems['F'].id = "replicon_id_F"
systems['G'] = System(model_G, [c4], cfg.redundancy_penalty()) # 4 hits
systems['G'].id = "replicon_id_G"
systems['H'] = System(model_H, [c5], cfg.redundancy_penalty()) # 2 hits
systems['H'].id = "replicon_id_H"
return systems
