def testReportReactionsInSOM(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple4)
m.analyze(error_details=False)
gr = GAMESReport(m)
som = m.getNode(m.simple.getMolecule(PSTATDIMER_NUC))
report, error_num = gr.reportReactionsInSOM(som, 0)
common_part = "1. PstatDimer__import: PstatDimer_sol -> PstatDimer_nuc\n"
self.assertEqual(error_num, 1)
self.assertTrue(report == common_part)
def testAnalyze(self):
if IGNORE_TEST:
return
games_pp1 = GAMES_PP(self.simple1)
games_pp2 = GAMES_PP(self.simple2)
self.assertTrue(games_pp1.analyze(rref=False))
self.assertTrue(games_pp2.analyze())
self.assertTrue(len(games_pp1.echelon_errors) > ZERO)
self.assertTrue(len(games_pp1.type_one_errors) == ZERO)
self.assertTrue(len(games_pp1.type_two_errors) == ZERO)
self.assertTrue(len(games_pp2.type_one_errors) > ZERO)
def testGetMoleculeEqualityPath(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple2)
m.analyze(error_details=False)
gr = GAMESReport(m)
som = m.getNode(self.simple2.getMolecule(G2K))
equality_path = gr.getMoleculeEqualityPath(som, G2K, PG2R)
self.assertTrue(len(equality_path) == 2)
self.assertEqual(type(equality_path[0]), cn.PathComponents)
self.assertEqual(equality_path[0].node1, G2K)
self.assertEqual(equality_path[0].reactions, [CDC2PHOS])
self.assertEqual(equality_path[1].node2, PG2R)
self.assertEqual(equality_path[1].reactions, [RUM1DEGINPG2R])
def testReportEchelonError(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple4)
m.analyze(error_details=False)
gr = GAMESReport(m)
report, error_num = gr.reportEchelonError(m.echelon_errors,
explain_details=True)
self.assertEqual(error_num, [3])
extended_report = NULL_STR
extended_report = extended_report + "will result in empty reactant with zero mass:\n\n: -> {species_test}\n\n"
extended_report = extended_report + "\n----------------------------------------------------------------------\n"
extended_report = extended_report + "\n----------------------------------------------------------------------\n\n"
extended_report = extended_report + "\n\n**********************************************************************\n\n"
self.assertEqual(report[-288:], extended_report)
def testGetResultingSeries(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple4)
m.analyze(error_details=False)
gr = GAMESReport(m)
resulting_series = gr.getResultingSeries(STATPHOSPHORYLATION)
print(resulting_series)
self.assertEqual(resulting_series["{" + SPECIES_TEST + "}"], 1.0)
self.assertEqual(resulting_series["{" + PSTAT_SOL + "}"], 0.0)
self.assertEqual(
resulting_series[m.getNode(
m.simple.getMolecule(PSTATDIMER_NUC)).identifier], 0.0)
self.assertEqual(
resulting_series[m.getNode(
m.simple.getMolecule(PSTAT_NUC)).identifier], 0.0)
def testGetMoleculeInequalityPathReport(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple2)
m.analyze(error_details=False)
gr = GAMESReport(m)
count, report1 = gr.getMoleculeInequalityPathReport(
G2K, PG2R, ["G2R_Creation"], 0, explain_details=False)
self.assertEqual(count, 1)
self.assertEqual(report1, "1. G2R_Creation: G2K + R -> G2R\n")
count, report2 = gr.getMoleculeInequalityPathReport(
G2K, PG2R, ["G2R_Creation"], 0, explain_details=True)
self.assertEqual(count, 1)
self.assertEqual(
report2,
"G2K < PG2R by reaction(s):\n1. G2R_Creation: G2K + R -> G2R\n")
def testGetOperationStoichiometryMatrix(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple4)
m.analyze(error_details=False)
gr = GAMESReport(m)
op = pd.Series([1.0, 0.5, 0.0],
index=[
STATPHOSPHORYLATION, PSTATDIMERISATION,
PSTATDIMERISATIONNUC
])
ro = gr.convertOperationSeriesToReactionOperations(op)
osm = gr.getOperationStoichiometryMatrix(ro)
self.assertEqual(osm.loc[SPECIES_TEST, STATPHOSPHORYLATION], 1.0)
self.assertEqual(osm.loc[SPECIES_TEST, PSTATDIMERISATION], 0.0)
self.assertEqual(osm.loc[PSTAT_SOL, STATPHOSPHORYLATION], 1.0)
self.assertEqual(osm.loc[PSTAT_SOL, PSTATDIMERISATION], -2.0)
def testConvertOperationSeriesToReactionOperations(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple4)
m.analyze(error_details=False)
gr = GAMESReport(m)
op = pd.Series([1.0, 0.5, 0.0],
index=[
STATPHOSPHORYLATION, PSTATDIMERISATION,
PSTATDIMERISATIONNUC
])
ro = gr.convertOperationSeriesToReactionOperations(op)
self.assertEqual(len(ro), 2)
self.assertEqual(ro[0].reaction, STATPHOSPHORYLATION)
self.assertEqual(ro[0].operation, 1.0)
self.assertEqual(ro[1].reaction, PSTATDIMERISATION)
self.assertEqual(ro[1].operation, 0.5)
def testReportTypeOneError(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple2)
m.analyze(error_details=False)
gr = GAMESReport(m)
error = [
cn.PathComponents(node1=G2K, node2=G2R, reactions=[G2R_CREATION])
]
report, error_num = gr.reportTypeOneError(error, explain_details=True)
self.assertEqual(error_num, [2])
extended_report = NULL_STR
extended_report = extended_report + "\nG2K = G2R by reaction(s):\n1. Rum1DegInG2R: G2R -> G2K\n\n"
extended_report = extended_report + "However, G2K < G2R by reaction(s):\n2. G2R_Creation: G2K + R -> G2R\n\n"
extended_report = extended_report + "\n----------------------------------------------------------------------\n\n"
extended_report = extended_report + "\n\n**********************************************************************\n\n"
self.assertEqual(report, extended_report)
def testReportTypeTwoError(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple3)
m.analyze(error_details=False)
gr = GAMESReport(m)
som1 = m.getNode(self.simple3.getMolecule(CH3FH4))
som2 = m.getNode(self.simple3.getMolecule(FH4))
error = [[som1, som2]]
report, error_num = gr.reportTypeTwoError(error, explain_details=True)
self.assertEqual(error_num, [5])
LOC_START = 241
extended_report = NULL_STR
extended_report = extended_report + "{CH3FH4} < {CH2FH4=FFH2=FH2f=FH4} < {CH3FH4}\n\n"
extended_report = extended_report + "This indicates a mass conflict between reactions.\n"
extended_report = extended_report + "%s%s\n" % (PARAGRAPH_DIVIDER,
PARAGRAPH_DIVIDER)
self.assertEqual(report[-LOC_START:], extended_report)
def testReportCancelingError(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple1)
m.analyze(error_details=False)
gr = GAMESReport(m)
report, error_num = gr.reportCancelingError(m.canceling_errors,
explain_details=True)
extended_report = NULL_STR
extended_report = extended_report + "We detected a mass imbalance\n"
extended_report = extended_report + ": OxidativePhosphorylation: CTtis -> \n\n"
extended_report = extended_report + "from the following reaction isolation set:\n\n"
extended_report = extended_report + "1. OxidativePhosphorylation: 6.00 ADP + CTtis -> 6.00 ATP\n"
extended_report = extended_report + "2. ATPase: ATP -> ADP\n"
extended_report = extended_report + "*ATP and ADP have the same mass according to the above reaction\n"
extended_report = extended_report + "\n%s%s\n" % (PARAGRAPH_DIVIDER,
PARAGRAPH_DIVIDER)
extended_report = extended_report + "\n%s\n" % REPORT_DIVIDER
self.assertEqual(extended_report, report)
self.assertEqual(error_num, [2])
def testGetOperationMatrix(self):
if IGNORE_TEST:
return
m1 = GAMES_PP(self.simple1)
m1.analyze(error_details=False)
gr1 = GAMESReport(m1)
self.assertTrue(gr1.getOperationMatrix() is None)
m4 = GAMES_PP(self.simple4)
m4.analyze(error_details=False)
gr4 = GAMESReport(m4)
op_mat = gr4.getOperationMatrix()
self.assertEqual(op_mat.loc[STATPHOSPHORYLATION, STATPHOSPHORYLATION],
1.0)
self.assertEqual(op_mat.loc[PSTATDIMERISATION, PSTATDIMERISATION], 1.0)
self.assertEqual(
op_mat.loc[PSTATDIMERISATIONNUC, PSTATDIMERISATIONNUC], 1.0)
self.assertEqual(op_mat.loc[PSTATDIMERISATIONNUC, STATPHOSPHORYLATION],
0.0)
self.assertEqual(op_mat.loc[STATPHOSPHORYLATION, PSTATDIMERISATIONNUC],
-0.5)
def testReportTypeThreeError(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple4)
m.analyze(error_details=False)
gr = GAMESReport(m)
report, error_num = gr.reportTypeThreeError(m.type_three_errors,
explain_details=True)
self.assertEqual(error_num, [3])
pseudo_inequality_report = NULL_STR
pseudo_inequality_report = pseudo_inequality_report + "6. statPhosphorylation: stat_sol -> Pstat_sol + species_test\n"
pseudo_inequality_report = pseudo_inequality_report + "(pseudo 6.) statPhosphorylation: {Pstat_nuc=stat_nuc=stat_sol} -> "
pseudo_inequality_report1 = pseudo_inequality_report + "{species_test} + {Pstat_sol}"
pseudo_inequality_report2 = pseudo_inequality_report + "{Pstat_sol} + {species_test}"
inference_report1 = "the masses of {Pstat_sol} and {Pstat_nuc=stat_nuc=stat_sol} are unequal."
inference_report2 = "the masses of {Pstat_nuc=stat_nuc=stat_sol} and {Pstat_sol} are unequal."
self.assertTrue(report[-460:-305] == pseudo_inequality_report1
or report[-460:-305] == pseudo_inequality_report2)
self.assertTrue(report[-293:-221] == inference_report1
or report[-293:-221] == inference_report2)
def testGetMoleculeEqualityPathReport(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple2)
m.analyze(error_details=False)
gr = GAMESReport(m)
count, report1 = gr.getMoleculeEqualityPathReport(
G2K, PG2R, 0, explain_details=False)
self.assertEqual(count, 2)
self.assertEqual(
report1,
"1. Cdc2Phos: G2K -> PG2\n2. Rum1DegInPG2R: PG2R -> PG2\n")
count, report2 = gr.getMoleculeEqualityPathReport(G2K,
PG2R,
0,
explain_details=True)
self.assertEqual(count, 2)
self.assertEqual(
report2,
"\nG2K = PG2 by reaction(s):\n1. Cdc2Phos: G2K -> PG2\n\nPG2 = PG2R by reaction(s):\n2. Rum1DegInPG2R: PG2R -> PG2\n"
)
class TestSimplifiedReaction(unittest.TestCase):
def setUp(self):
self.simple = SimpleSBML()
# BIOMD0000000248 - originally for canceling_error
self.simple.initialize(cn.TEST_FILE_GAMESREPORT1)
self.mesgraph = GAMES_PP(self.simple)
self.mesgraph.analyze(error_details=False)
# Construct SimplifiedReaction
self.reaction = self.simple.getReaction(CREATINEKINASE)
self.simplified_reaction = SimplifiedReaction(self.reaction.reactants,
self.reaction.products,
self.reaction.label,
self.mesgraph)
def testConstructor(self):
if IGNORE_TEST:
return
self.assertEqual(type(self.simplified_reaction.reactants[0]),
MoleculeStoichiometry)
self.assertEqual(type(self.simplified_reaction.products[0]),
MoleculeStoichiometry)
self.assertEqual(self.simplified_reaction.label, CREATINEKINASE)
self.assertEqual(type(self.simplified_reaction.mesgraph), GAMES_PP)
self.assertEqual(
self.simplified_reaction.makeIdentifier(),
self.reaction.makeIdentifier(is_include_kinetics=False))
def testReduceBySOMs(self):
if IGNORE_TEST:
return
self.simplified_reaction.reduceBySOMs()
self.assertEqual(len(self.simplified_reaction.reactants), 1)
self.assertEqual(len(self.simplified_reaction.products), 1)
self.assertTrue(
self.simplified_reaction.reactants[0].molecule.name == PCR)
self.assertTrue(
self.simplified_reaction.products[0].molecule.name == CR)
def testGeInferredReaction(self):
if IGNORE_TEST:
return
m = GAMES_PP(self.simple4)
m.analyze(error_details=False)
gr = GAMESReport(m)
op = pd.Series([1.0, 0.5, 0.0],
index=[
STATPHOSPHORYLATION, PSTATDIMERISATION,
PSTATDIMERISATIONNUC
])
ro = gr.convertOperationSeriesToReactionOperations(op)
inferred_reaction = gr.getInferredReaction(ro)
self.assertEqual(len(inferred_reaction.reactants), 1)
self.assertEqual(len(inferred_reaction.products), 2)
self.assertEqual(inferred_reaction.reactants[0].molecule.name,
STAT_SOL)
self.assertTrue(inferred_reaction.products[0].molecule.name in
{PSTATDIMER_SOL, SPECIES_TEST})
self.assertTrue(inferred_reaction.products[1].molecule.name in
{PSTATDIMER_SOL, SPECIES_TEST})
self.assertEqual(inferred_reaction.reactants[0].stoichiometry, 1.0)
self.assertEqual({p.stoichiometry
for p in inferred_reaction.products}, {0.5, 1.0})
def lint(model_reference=None,
file_out=sys.stdout,
mass_balance_check=GAMES,
config_fid=None,
is_report=True,
implicit_games=False):
"""
Reports on errors found in a model
:param str model_reference:
libsbml_model file in
file, antimony string, xml string
:param TextIOWrapper model_fid: fid for an XML file
:param TextIOWrapper file_out:
:param str mass_balance_check: how check for mass balance
:param TextIOWrapper config_fid: readable stream
:param bool is_report: print result
:return MoietyComparatorResult/null/None:
"""
config.setConfiguration(fid=config_fid)
config_dct = config.getConfiguration()
if util.isSBMLModel(model_reference):
model = model_reference
else:
xml = util.getXML(model_reference)
reader = libsbml.SBMLReader()
document = reader.readSBMLFromString(xml)
util.checkSBMLDocument(document)
model = document.getModel()
#
simple = SimpleSBML()
simple.initialize(model)
if mass_balance_check == cn.MOIETY_ANALYSIS:
result = MoietyComparator.analyzeReactions(simple)
if is_report:
for line in result.report.split('\n'):
file_out.write("%s\n" % line)
return result
elif mass_balance_check == GAMES:
if implicit_games:
for ignored in config_dct[cn.CFG_IGNORED_MOLECULES]:
simple = removeIgnored(simple, ignored)
m = GAMES_PP(simple)
games_result = m.analyze(simple.reactions)
if games_result and is_report:
gr = GAMESReport(
m, explain_threshold=config_dct[cn.CFG_GAMES_THRESHOLD])
errortype_dic = {
TYPE_I: gr.reportTypeOneError,
TYPE_II: gr.reportTypeTwoError,
TYPE_III: gr.reportTypeThreeError,
CANCELING: gr.reportCancelingError,
ECHELON: gr.reportEchelonError
}
for errors in m.error_summary:
for category in errortype_dic.keys():
if errors.type == category:
func = errortype_dic[category]
report, _ = func(errors.errors, explain_details=True)
print(report)
return games_result
else:
print("Specified method doesn't exist")
return None