コード例 #1
0
 def test_init_with_single_treatment(self):
     treatment = Treatment(
         treatment_type=INTERVENTIONS['CHEMICAL'],
         factor_values=(FactorValue(factor_name=self.agent, value='crack'),
                        FactorValue(factor_name=self.intensity,
                                    value='low'),
                        FactorValue(factor_name=self.duration,
                                    value='short')))
     new_sequence = TreatmentSequence(ranked_treatments=treatment)
     self.assertTrue((treatment, 1) in new_sequence.ranked_treatments)
コード例 #2
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 def setUp(self):
     self.maxDiff = None
     self.treatment = Treatment(
         factor_values=(FactorValue(factor_name=BASE_FACTORS[0][NAME],
                                    value=FACTORS_0_VALUE),
                        FactorValue(factor_name=BASE_FACTORS[1][NAME],
                                    value=FACTORS_1_VALUE,
                                    unit=FACTORS_1_UNIT),
                        FactorValue(factor_name=BASE_FACTORS[2][NAME],
                                    value=FACTORS_2_VALUE,
                                    unit=FACTORS_2_UNIT)))
コード例 #3
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 def test_eq(self):
     same_treatment = Treatment(
         factor_values=(FactorValue(factor_name=BASE_FACTORS[0][NAME],
                                    value=FACTORS_0_VALUE),
                        FactorValue(factor_name=BASE_FACTORS[1][NAME],
                                    value=FACTORS_1_VALUE,
                                    unit=FACTORS_1_UNIT),
                        FactorValue(factor_name=BASE_FACTORS[2][NAME],
                                    value=FACTORS_2_VALUE,
                                    unit=FACTORS_2_UNIT)))
     self.assertEqual(self.treatment, same_treatment)
     self.assertEqual(hash(self.treatment), hash(same_treatment))
コード例 #4
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 def test_ne(self):
     other_treatment = Treatment(
         factor_values=(FactorValue(factor_name=BASE_FACTORS[0][NAME],
                                    value=FACTORS_0_VALUE),
                        FactorValue(factor_name=BASE_FACTORS[1][NAME],
                                    value=FACTORS_1_VALUE,
                                    unit=FACTORS_1_UNIT),
                        FactorValue(factor_name=BASE_FACTORS[2][NAME],
                                    value=FACTORS_2_VALUE_ALT,
                                    unit=FACTORS_2_UNIT)))
     self.assertNotEqual(self.treatment, other_treatment)
     self.assertNotEqual(hash(self.treatment), hash(other_treatment))
コード例 #5
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 def setUp(self):
     self.maxDiff = None
     self.sequence = TreatmentSequence()
     self.agent = StudyFactor(name=BASE_FACTORS[0]['name'],
                              factor_type=BASE_FACTORS[0]['type'])
     self.intensity = StudyFactor(name=BASE_FACTORS[1]['name'],
                                  factor_type=BASE_FACTORS[1]['type'])
     self.duration = StudyFactor(name=BASE_FACTORS[2]['name'],
                                 factor_type=BASE_FACTORS[2]['type'])
     self.test_treatment = Treatment(
         treatment_type=INTERVENTIONS['CHEMICAL'],
         factor_values=(FactorValue(factor_name=self.agent, value='crack'),
                        FactorValue(factor_name=self.intensity,
                                    value='low'),
                        FactorValue(factor_name=self.duration,
                                    value='short')))
コード例 #6
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 def setUp(self):
     self.design = InterventionStudyDesign()
     self.agent = StudyFactor(name=BASE_FACTORS[0]['name'],
                              factor_type=BASE_FACTORS[0]['type'])
     self.intensity = StudyFactor(name=BASE_FACTORS[1]['name'],
                                  factor_type=BASE_FACTORS[1]['type'])
     self.duration = StudyFactor(name=BASE_FACTORS[2]['name'],
                                 factor_type=BASE_FACTORS[2]['type'])
     self.first_treatment = Treatment(
         treatment_type=INTERVENTIONS['CHEMICAL'],
         factor_values=(FactorValue(factor_name=self.agent, value='crack'),
                        FactorValue(factor_name=self.intensity,
                                    value='low'),
                        FactorValue(factor_name=self.duration,
                                    value='medium')))
     self.second_treatment = Treatment(
         treatment_type=INTERVENTIONS['CHEMICAL'],
         factor_values=(FactorValue(factor_name=self.agent, value='crack'),
                        FactorValue(factor_name=self.intensity,
                                    value='high'),
                        FactorValue(factor_name=self.duration,
                                    value='medium')))
     self.test_sequence = TreatmentSequence(
         ranked_treatments=[(self.first_treatment,
                             1), (self.second_treatment, 2)])
     self.sample_plan = SampleAssayPlan(group_size=10,
                                        sample_plan={},
                                        assay_plan=None)
コード例 #7
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ファイル: models.py プロジェクト: EBI-Metabolights/MtblsWS-Py
def unserialize_factor_value(json_obj):
    factor_name = StudyFactor()
    if 'factorName' in json_obj and json_obj['factorName'] is not None:
        factor_name = unserialize_study_factor(json_obj['factorName'])
    value = OntologyAnnotation()
    if 'value' in json_obj and json_obj['value'] is not None:
        value = unserialize_ontology_annotation(json_obj['value'])
    unit = OntologyAnnotation()
    if 'unit' in json_obj and json_obj['unit'] is not None:
        unit = unserialize_ontology_annotation(json_obj['value'])
    comments = list()
    if 'comments' in json_obj and json_obj['comments'] is not None:
        for comment in json_obj['comments']:
            comments.append(unserialize_comment(comment))

    return FactorValue(factor_name=factor_name,
                       value=value,
                       unit=unit,
                       comments=comments)
コード例 #8
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 def test_repr(self):
     treatments = [
         (Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                    factor_values=(FactorValue(factor_name=self.agent,
                                               value='crack'),
                                   FactorValue(factor_name=self.intensity,
                                               value='low'),
                                   FactorValue(factor_name=self.duration,
                                               value='short'))), 1),
         (Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                    factor_values=(FactorValue(factor_name=self.agent,
                                               value='crack'),
                                   FactorValue(factor_name=self.intensity,
                                               value='low'),
                                   FactorValue(factor_name=self.duration,
                                               value='long'))), 2)
     ]
     new_sequence = TreatmentSequence(ranked_treatments=treatments)
     self.assertEqual(
         'TreatmentSequence([(Treatment(factor_type=chemical '
         'intervention, factor_values=(FactorValue(factor_name='
         'StudyFactor(name="AGENT", factor_type='
         'OntologyAnnotation(term="perturbation agent", '
         'term_source=None, term_accession="", comments=[]), '
         'comments=[]), value=crack, unit=None), FactorValue('
         'factor_name=StudyFactor(name="INTENSITY", '
         'factor_type=OntologyAnnotation(term="intensity", '
         'term_source=None, term_accession="", comments=[]), '
         'comments=[]), value=low, unit=None), FactorValue('
         'factor_name=StudyFactor(name="DURATION", '
         'factor_type=OntologyAnnotation(term="time", '
         'term_source=None, term_accession="", comments=[]), '
         'comments=[]), value=short, unit=None))), 1), ('
         'Treatment(factor_type=chemical intervention, '
         'factor_values=(FactorValue(factor_name=StudyFactor('
         'name="AGENT", factor_type=OntologyAnnotation('
         'term="perturbation agent", term_source=None, '
         'term_accession="", comments=[]), comments=[]), '
         'value=crack, unit=None), FactorValue(factor_name='
         'StudyFactor(name="INTENSITY", factor_type='
         'OntologyAnnotation(term="intensity", '
         'term_source=None, term_accession="", comments=[]), '
         'comments=[]), value=low, unit=None), FactorValue('
         'factor_name=StudyFactor(name="DURATION", '
         'factor_type=OntologyAnnotation(term="time", '
         'term_source=None, term_accession="", comments=[]), '
         'comments=[]), value=long, unit=None))), 2)])', repr(new_sequence))
コード例 #9
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 def test_init_with_treatments_list_no_rank(self):
     treatments = [
         Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                   factor_values=(FactorValue(factor_name=self.agent,
                                              value='crack'),
                                  FactorValue(factor_name=self.intensity,
                                              value='low'),
                                  FactorValue(factor_name=self.duration,
                                              value='short'))),
         Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                   factor_values=(FactorValue(factor_name=self.agent,
                                              value='crack'),
                                  FactorValue(factor_name=self.intensity,
                                              value='low'),
                                  FactorValue(factor_name=self.duration,
                                              value='long')))
     ]
     new_sequence = TreatmentSequence(ranked_treatments=treatments)
     self.assertTrue((treatments[0], 1) in new_sequence.ranked_treatments)
     self.assertTrue((treatments[1], 1) in new_sequence.ranked_treatments)
コード例 #10
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 def test_ranked_treatments_setter(self):
     treatments = [
         (Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                    factor_values=(FactorValue(factor_name=self.agent,
                                               value='crack'),
                                   FactorValue(factor_name=self.intensity,
                                               value='low'),
                                   FactorValue(factor_name=self.duration,
                                               value='short'))), 2),
         (Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                    factor_values=(FactorValue(factor_name=self.agent,
                                               value='crack'),
                                   FactorValue(factor_name=self.intensity,
                                               value='low'),
                                   FactorValue(factor_name=self.duration,
                                               value='long'))), 1)
     ]
     self.sequence.ranked_treatments = treatments
     self.assertTrue(isinstance(self.sequence.ranked_treatments, set))
     self.assertTrue(treatments[0] in self.sequence.ranked_treatments)
     self.assertTrue(treatments[1] in self.sequence.ranked_treatments)
コード例 #11
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 def test_eq(self):
     treatments = [
         (Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                    factor_values=(FactorValue(factor_name=self.agent,
                                               value='crack'),
                                   FactorValue(factor_name=self.intensity,
                                               value='low'),
                                   FactorValue(factor_name=self.duration,
                                               value='short'))), 1),
         (Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                    factor_values=(FactorValue(factor_name=self.agent,
                                               value='crack'),
                                   FactorValue(factor_name=self.intensity,
                                               value='low'),
                                   FactorValue(factor_name=self.duration,
                                               value='long'))), 2)
     ]
     first_sequence = TreatmentSequence(treatments)
     second_sequence = TreatmentSequence(reversed(treatments))
     self.assertEqual(first_sequence, second_sequence)
     self.assertEqual(hash(first_sequence), hash(second_sequence))
コード例 #12
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                    characteristics=characteristics)
    # print(source)
    study.sources.append(source)
    sample = Sample(name=ou["observationUnitDbId"])

    if 'treatments' in ou.keys():
        for element in ou['treatments']:
            for key in element.keys():
                f = StudyFactor(name=key,
                                factor_type=OntologyAnnotation(term=key))
                if f not in study.factors:
                    study.factors.append(f)

                fv = FactorValue(factor_name=f,
                                 value=OntologyAnnotation(term=str(
                                     element[key]),
                                                          term_source="",
                                                          term_accession=""))
                sample.factor_values.append(fv)
    print(sample)

    if 'observations' in ou.keys():
        for ob in ou['observations']:
            phenotyping_process = Process(
                executes_protocol=phenotyping_protocol)
            phenotyping_process.name = "assay-name-{}".format(counter)
            phenotyping_process.inputs.append(sample)
            # print(ob['observations'])
            if 'season' in ou['observations'][0].keys():
                # if 'season' in phenotyping_protocol.parameter_list:
                #     pass
コード例 #13
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def create_study_sample_and_assay(client, brapi_study_id, isa_study,  sample_collection_protocol, phenotyping_protocol):

    obsunit_to_isasample_mapping_dictionary = {
        "X": "X",
        "Y": "Y",
        "blockNumber": "Block Number",
        "plotNumber": "Plot Number",
        "plantNumber": "Plant Number",
        "observationLevel": "Observation unit type"
    }

    obsunit_to_isaassay_mapping_dictionary = {
        "X": "X",
        "Y": "Y",
        "blockNumber": "Block Number",
        "plotNumber": "Plot Number",
        "plantNumber": "Plant Number",
        "observationLevel": "Observation unit type"
    }

    allready_converted_obs_unit = [] # Allow to handle multiyear observation units
    for obs_unit in client.get_study_observation_units(brapi_study_id):
        # Getting the relevant germplasm used for that observation event:
        # ---------------------------------------------------------------
        this_source = isa_study.get_source(obs_unit['germplasmName'])
        #logger.debug("testing for the source reference: ", str(this_source))

        # TODO Assumed one assay by study. Will need to move to one assay by level/datalink
        this_assay = isa_study.assays[0]

        # Sample == Observation Unit
        if this_source is not None and obs_unit['observationUnitName'] not in allready_converted_obs_unit:
            #The observationUnitName is the buisness ID of the Observation unit (ie plot number) while the ID is the PK
            this_isa_sample = Sample(
                name= obs_unit['observationUnitName'],
                #name=obs_unit['observationUnitDbId'] + "_" + obs_unit['observationUnitName'],
                derives_from=[this_source])
            allready_converted_obs_unit.append(obs_unit['observationUnitName'])

            for key in obs_unit.keys():
                if key in obsunit_to_isasample_mapping_dictionary.keys():
                    if isinstance(obsunit_to_isasample_mapping_dictionary[key], str) and str(obs_unit[key]) is not None :
                        c = Characteristic(category=OntologyAnnotation(term=obsunit_to_isasample_mapping_dictionary[key]),
                                           value=OntologyAnnotation(term=str(obs_unit[key]),
                                                                    term_source="",
                                                                    term_accession=""))
                        this_isa_sample.characteristics.append(c)
               # else:
                    #no defult behaviour, it is maped or ignored
                    # c = Characteristic(category=OntologyAnnotation(term=key),
                    #                    value=OntologyAnnotation(term=str(obs_unit[key]),
                    #                                             term_source="",
                    #                                             term_accession=""))
                    # this_isa_sample.characteristics.append(c)
                if key in obsunit_to_isaassay_mapping_dictionary.keys():
                    if isinstance(obsunit_to_isaassay_mapping_dictionary[key], str):
                        c = Characteristic(category=OntologyAnnotation(term=obsunit_to_isaassay_mapping_dictionary[key]),
                                           value=OntologyAnnotation(term=str(obs_unit[key]),
                                                                    term_source="",
                                                                    term_accession=""))
                        #TODO: quick workaround used to store observation units characteristics
                        this_assay.comments.append(c)


            # if 'observationLevel' in obs_unit.keys():
            #     # TODO: if absent, a warning should be logged as this is a MIAPPE requirement


            # Looking for treatment in BRAPI and mapping to ISA Study Factor Value
            # --------------------------------------------------------------------
            if 'treatments' in obs_unit.keys():
                for element in obs_unit['treatments']:
                    for key in element.keys():
                        f = StudyFactor(name=key, factor_type=OntologyAnnotation(term=key))
                        if f not in isa_study.factors:
                            isa_study.factors.append(f)

                        fv = FactorValue(factor_name=f,
                                         value=OntologyAnnotation(term=str(element[key]),
                                                                  term_source="",
                                                                  term_accession=""))
                        this_isa_sample.factor_values.append(fv)
            isa_study.samples.append(this_isa_sample)
            # print("counting observations: ", i, "before: ", this_source.name)

            # TODO: Add Comment[Factor Values] : iterate through BRAPI treatments to obtain all possible values for a given Factor

            # Creating the corresponding ISA sample entity for structure the document:
            # ------------------------------------------------------------------------
            sample_collection_process = Process(executes_protocol=sample_collection_protocol)
            sample_collection_process.performer = "n.a."
            sample_collection_process.date = datetime.datetime.today().isoformat()
            sample_collection_process.inputs.append(this_source)
            sample_collection_process.outputs.append(this_isa_sample)
            isa_study.process_sequence.append(sample_collection_process)

        #logger.debug(str(this_assay))
        # Creating the relevant ISA protocol application / Assay from BRAPI Observation Events:
        # -------------------------------------------------------------------------------------

    create_data_file(obs_unit, this_assay, sample_collection_process, this_isa_sample, phenotyping_protocol)
コード例 #14
0
    def test_compute_full_factorial_design(self):

        agent = StudyFactor(name=BASE_FACTORS[0]['name'],
                            factor_type=BASE_FACTORS[0]['type'])
        intensity = StudyFactor(name=BASE_FACTORS[1]['name'],
                                factor_type=BASE_FACTORS[1]['type'])
        duration = StudyFactor(name=BASE_FACTORS[2]['name'],
                               factor_type=BASE_FACTORS[2]['type'])

        self.factory.add_factor_value(agent, {'cocaine', 'crack', 'aether'})
        self.factory.add_factor_value(intensity, {'low', 'medium', 'high'})
        self.factory.add_factor_value(duration, {'short', 'long'})

        full_factorial = self.factory.compute_full_factorial_design()
        self.assertEqual(
            full_factorial, {
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='cocaine'),
                                         FactorValue(factor_name=intensity,
                                                     value='high'),
                                         FactorValue(factor_name=duration,
                                                     value='long'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='cocaine'),
                                         FactorValue(factor_name=intensity,
                                                     value='high'),
                                         FactorValue(factor_name=duration,
                                                     value='short'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='cocaine'),
                                         FactorValue(factor_name=intensity,
                                                     value='low'),
                                         FactorValue(factor_name=duration,
                                                     value='long'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='cocaine'),
                                         FactorValue(factor_name=intensity,
                                                     value='low'),
                                         FactorValue(factor_name=duration,
                                                     value='short'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='cocaine'),
                                         FactorValue(factor_name=intensity,
                                                     value='medium'),
                                         FactorValue(factor_name=duration,
                                                     value='long'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='cocaine'),
                                         FactorValue(factor_name=intensity,
                                                     value='medium'),
                                         FactorValue(factor_name=duration,
                                                     value='short'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='crack'),
                                         FactorValue(factor_name=intensity,
                                                     value='high'),
                                         FactorValue(factor_name=duration,
                                                     value='long'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='crack'),
                                         FactorValue(factor_name=intensity,
                                                     value='high'),
                                         FactorValue(factor_name=duration,
                                                     value='short'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='crack'),
                                         FactorValue(factor_name=intensity,
                                                     value='low'),
                                         FactorValue(factor_name=duration,
                                                     value='long'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='crack'),
                                         FactorValue(factor_name=intensity,
                                                     value='low'),
                                         FactorValue(factor_name=duration,
                                                     value='short'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='crack'),
                                         FactorValue(factor_name=intensity,
                                                     value='medium'),
                                         FactorValue(factor_name=duration,
                                                     value='long'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='crack'),
                                         FactorValue(factor_name=intensity,
                                                     value='medium'),
                                         FactorValue(factor_name=duration,
                                                     value='short'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='aether'),
                                         FactorValue(factor_name=intensity,
                                                     value='high'),
                                         FactorValue(factor_name=duration,
                                                     value='long'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='aether'),
                                         FactorValue(factor_name=intensity,
                                                     value='high'),
                                         FactorValue(factor_name=duration,
                                                     value='short'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='aether'),
                                         FactorValue(factor_name=intensity,
                                                     value='low'),
                                         FactorValue(factor_name=duration,
                                                     value='long'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='aether'),
                                         FactorValue(factor_name=intensity,
                                                     value='low'),
                                         FactorValue(factor_name=duration,
                                                     value='short'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='aether'),
                                         FactorValue(factor_name=intensity,
                                                     value='medium'),
                                         FactorValue(factor_name=duration,
                                                     value='long'))),
                Treatment(treatment_type=INTERVENTIONS['CHEMICAL'],
                          factor_values=(FactorValue(factor_name=agent,
                                                     value='aether'),
                                         FactorValue(factor_name=intensity,
                                                     value='medium'),
                                         FactorValue(factor_name=duration,
                                                     value='short')))
            })