Esempio n. 1
0
    def test_object_history(self, spark_context):
        manager_db = Database(self.client, "test_manager")
        manager_db["history_global"].delete_many({})
        manager_db["history_object"].delete_many({})
        l = [get_live_timeseries() for i in range(2)]
        # add net, sta, chan, loc to avoid metadata serialization problem
        for i in range(2):
            l[i]["chan"] = "HHZ"
            l[i]["loc"] = "test_loc"
            l[i]["net"] = "test_net"
            l[i]["sta"] = "test_sta"
        spark_res = spark_map(l, self.manager, spark_context)
        assert manager_db["history_global"].count_documents(
            {"alg_name": "filter"}) == 1
        res = manager_db["history_global"].find_one({"alg_name": "filter"})
        alg_id = res["alg_id"]
        # check status of the mspass objects
        for ts in spark_res:
            assert ts.number_of_stages() == 1
            assert ts.current_nodedata().algorithm == "filter"
            assert ts.current_nodedata().algid == str(alg_id)
            assert ts.is_volatile()

        save_res = manager_db.save_data(spark_res[0],
                                        alg_name="filter",
                                        alg_id=str(alg_id))
        # hardcode net, sta, net, loc to avoid serialization problem here, they are readonly metadata keys -> non fatal keys = 4
        assert save_res.live
        assert manager_db["history_object"].count_documents(
            {"alg_name": "filter"}) == 1
        doc = manager_db["history_object"].find_one({"alg_name": "filter"})
        assert doc
        assert doc["_id"] == spark_res[0].current_nodedata().uuid
        assert doc["wf_TimeSeries_id"] == spark_res[0]["_id"]
        assert doc["alg_id"] == str(alg_id)
        assert doc["alg_name"] == "filter"
Esempio n. 2
0
class TestDBClean:
    def setup_class(self):
        client = DBClient("localhost")
        self.db = Database(client, "test_dbclean")

        self.test_ts = get_live_timeseries()
        site_id = ObjectId()
        channel_id = ObjectId()
        source_id = ObjectId()
        self.db["site"].insert_one({
            "_id": site_id,
            "net": "net",
            "sta": "sta",
            "loc": "loc",
            "lat": 1.0,
            "lon": 1.0,
            "elev": 2.0,
            "starttime": datetime.utcnow().timestamp(),
            "endtime": datetime.utcnow().timestamp(),
        })
        self.db["channel"].insert_one({
            "_id":
            channel_id,
            "net":
            "net1",
            "sta":
            "sta1",
            "loc":
            "loc1",
            "chan":
            "chan",
            "lat":
            1.1,
            "lon":
            1.1,
            "elev":
            2.1,
            "starttime":
            datetime.utcnow().timestamp(),
            "endtime":
            datetime.utcnow().timestamp(),
            "edepth":
            3.0,
            "vang":
            1.0,
            "hang":
            1.0,
        })
        self.db["source"].insert_one({
            "_id": source_id,
            "lat": 1.2,
            "lon": 1.2,
            "time": datetime.utcnow().timestamp(),
            "depth": 3.1,
            "magnitude": 1.0,
        })
        self.test_ts["site_id"] = site_id
        self.test_ts["source_id"] = source_id
        self.test_ts["channel_id"] = channel_id

    def test_rename_list_to_dict(self):
        rlist = ["a:1", "b:2", "c:3"]
        result = dbclean.rename_list_to_dict(rlist)
        assert len(result) == 3
        assert result == {"a": "1", "b": "2", "c": "3"}

        rlist = ["a:1:2"]
        with pytest.raises(SystemExit) as e:
            dbclean.rename_list_to_dict(rlist)
        assert e.type == SystemExit
        assert e.value.code == -1

    def test_main(self):
        self.db["wf_TimeSeries"].delete_many({})
        ts1 = copy.deepcopy(self.test_ts)
        ts2 = copy.deepcopy(self.test_ts)
        ts3 = copy.deepcopy(self.test_ts)
        logging_helper.info(ts1, "1", "deepcopy")
        logging_helper.info(ts2, "1", "deepcopy")
        logging_helper.info(ts3, "1", "deepcopy")

        # fix types
        ts1["npts"] = "123"
        ts2["delta"] = "3"
        ts3["npts"] = "xyz"

        save_res_code = self.db.save_data(ts1,
                                          mode="promiscuous",
                                          storage_mode="gridfs",
                                          exclude_keys=["extra2"])
        save_res_code = self.db.save_data(ts2,
                                          mode="promiscuous",
                                          storage_mode="gridfs",
                                          exclude_keys=["extra2"])
        save_res_code = self.db.save_data(ts3,
                                          mode="promiscuous",
                                          storage_mode="gridfs",
                                          exclude_keys=["extra2"])

        # exit
        with pytest.raises(SystemExit) as e:
            dbclean.main(["test_dbclean", "wf_TimeSeries"])
        assert e.type == SystemExit
        assert e.value.code == -1

        # delete starttime attribute
        # rename calib to rename_calib
        dbclean.main([
            "test_dbclean",
            "wf_TimeSeries",
            "-ft",
            "-d",
            "starttime",
            "-r",
            "calib:rename_calib",
        ])

        res1 = self.db["wf_TimeSeries"].find_one({"_id": ts1["_id"]})
        res2 = self.db["wf_TimeSeries"].find_one({"_id": ts2["_id"]})
        res3 = self.db["wf_TimeSeries"].find_one({"_id": ts3["_id"]})

        assert res1["npts"] == 123
        assert "starttime" not in res1
        assert "calib" not in res1
        assert "rename_calib" in res1

        assert res2["delta"] == 3.0
        assert "starttime" not in res2
        assert "calib" not in res2
        assert "rename_calib" in res2

        # can't be fixed
        assert res3["npts"] == "xyz"
        assert "starttime" not in res3
        assert "calib" not in res3
        assert "rename_calib" in res3

        self.db["wf_TimeSeries"].delete_many({})
        ts1 = copy.deepcopy(self.test_ts)
        ts2 = copy.deepcopy(self.test_ts)
        ts3 = copy.deepcopy(self.test_ts)
        logging_helper.info(ts1, "1", "deepcopy")
        logging_helper.info(ts2, "1", "deepcopy")
        logging_helper.info(ts3, "1", "deepcopy")

        # fix types
        ts1["npts"] = "123"
        ts2["delta"] = "3"
        ts3["npts"] = "xyz"

        save_res_code = self.db.save_data(ts1,
                                          mode="promiscuous",
                                          storage_mode="gridfs",
                                          exclude_keys=["extra2"])
        save_res_code = self.db.save_data(ts2,
                                          mode="promiscuous",
                                          storage_mode="gridfs",
                                          exclude_keys=["extra2"])
        save_res_code = self.db.save_data(ts3,
                                          mode="promiscuous",
                                          storage_mode="gridfs",
                                          exclude_keys=["extra2"])

        # only fix types
        dbclean.main(["test_dbclean", "wf_TimeSeries", "-ft"])
        assert res1["npts"] == 123
        assert res2["delta"] == 3.0
        # can't be fixed
        assert res3["npts"] == "xyz"
Esempio n. 3
0
class TestDBVerify():
    def setup_class(self):
        client = Client('localhost')
        self.db = Database(client, 'test_dbverify')

        self.test_ts = get_live_timeseries()
        site_id = ObjectId()
        channel_id = ObjectId()
        source_id = ObjectId()
        self.db['site'].insert_one({
            '_id': site_id,
            'net': 'net',
            'sta': 'sta',
            'loc': 'loc',
            'lat': 1.0,
            'lon': 1.0,
            'elev': 2.0,
            'starttime': datetime.utcnow().timestamp(),
            'endtime': datetime.utcnow().timestamp()
        })
        self.db['channel'].insert_one({
            '_id':
            channel_id,
            'net':
            'net1',
            'sta':
            'sta1',
            'loc':
            'loc1',
            'chan':
            'chan',
            'lat':
            1.1,
            'lon':
            1.1,
            'elev':
            2.1,
            'starttime':
            datetime.utcnow().timestamp(),
            'endtime':
            datetime.utcnow().timestamp(),
            'edepth':
            3.0,
            'vang':
            1.0,
            'hang':
            1.0
        })
        self.db['source'].insert_one({
            '_id': source_id,
            'lat': 1.2,
            'lon': 1.2,
            'time': datetime.utcnow().timestamp(),
            'depth': 3.1,
            'magnitude': 1.0
        })
        self.test_ts['site_id'] = site_id
        self.test_ts['source_id'] = source_id
        self.test_ts['channel_id'] = channel_id

    def test_main(self, capfd):
        self.db['wf_TimeSeries'].delete_many({})
        ts1 = copy.deepcopy(self.test_ts)
        ts2 = copy.deepcopy(self.test_ts)
        ts3 = copy.deepcopy(self.test_ts)
        logging_helper.info(ts1, 'deepcopy', '1')
        logging_helper.info(ts2, 'deepcopy', '1')
        logging_helper.info(ts3, 'deepcopy', '1')

        # fix types
        ts1['npts'] = '123'
        ts1['extra1'] = 'extra1'
        ts2['delta'] = '3'
        ts2['extra2'] = 'extra2'
        ts3['npts'] = 'xyz'
        ts3['extra2'] = 'extra2'
        # wrong normalized key
        ts1['site_id'] = ObjectId()
        ts2.erase('source_id')

        save_res_code = self.db.save_data(ts1,
                                          mode='promiscuous',
                                          storage_mode='gridfs')
        save_res_code = self.db.save_data(ts2,
                                          mode='promiscuous',
                                          storage_mode='gridfs')
        # erase required attributes
        save_res_code = self.db.save_data(ts3,
                                          mode='promiscuous',
                                          storage_mode='gridfs',
                                          exclude_keys=['starttime'])
        doc1 = self.db['wf_TimeSeries'].find_one({'_id': ts1['_id']})
        doc2 = self.db['wf_TimeSeries'].find_one({'_id': ts2['_id']})
        doc3 = self.db['wf_TimeSeries'].find_one({'_id': ts3['_id']})
        doc1_str = json_util.dumps(doc1, indent=2)
        doc2_str = json_util.dumps(doc2, indent=2)
        doc3_str = json_util.dumps(doc3, indent=2)

        # default normalization test
        dbverify.main(['test_dbverify', '-t', 'normalization'])
        out, err = capfd.readouterr()
        assert out == "normalization test on normalized key= site_id  found problems\nFound broken links in  1 documents checked\nNote error count limit= 1000\nIf the count is the same it means all data probably contain missing cross referencing ids\nRun in verbose mode to find out more information you will need to fix the problem\ncheck_links found no broken links with normalized key= channel_id\ncheck_links found no broken links with normalized key= source_id\n"

        # more than 1 collection to test
        dbverify.main([
            'test_dbverify', '-t', 'normalization', '-c', 'wf_TimeSeries',
            'site'
        ])
        out, err = capfd.readouterr()
        assert out == "WARNING:  normalization test can only be run on one collection at a time\nParsed a list with the following contents:   ['wf_TimeSeries', 'site']\nRunning test on the first item in that list\nnormalization test on normalized key= site_id  found problems\nFound broken links in  1 documents checked\nNote error count limit= 1000\nIf the count is the same it means all data probably contain missing cross referencing ids\nRun in verbose mode to find out more information you will need to fix the problem\ncheck_links found no broken links with normalized key= channel_id\ncheck_links found no broken links with normalized key= source_id\n"

        # verbose mode
        dbverify.main(['test_dbverify', '-t', 'normalization', '-v'])
        out, err = capfd.readouterr()
        assert out == "check_link found the following docs in  wf_TimeSeries  with broken links to  site_id\n////////////////Doc number  1  with error///////////////\n" + doc1_str + "\n////////////////////////////////////////////////////////\ncheck_links found no undefined linking key to normalized key= site_id\ncheck_links found no broken links with normalized key= channel_id\ncheck_links found no undefined linking key to normalized key= channel_id\ncheck_links found no broken links with normalized key= source_id\ncheck_link found the following docs in  wf_TimeSeries  with undefined link keys to  source_id\n////////////////Doc number  1  with error///////////////\n" + doc2_str + "\n////////////////////////////////////////////////////////\n"

        # default required test
        dbverify.main(['test_dbverify', '-t', 'required'])
        out, err = capfd.readouterr()
        mmkeys = {'npts': 2, 'delta': 1}
        mm_keys_str = json_util.dumps(mmkeys, indent=2)
        undef_keys = {'starttime': 1}
        undef_keys_str = json_util.dumps(undef_keys, indent=2)
        assert out == "////Results from run_check_required on collection= wf_TimeSeries\nCollection found  3  documents with type inconsistencies\nOffending keys and number found follow:\n" + mm_keys_str + "\nCollection found  1  documents with required keys that were not defined\nOffending keys and number found follow:\n" + undef_keys_str + "\n"

        # default schema_check test
        dbverify.main(['test_dbverify', '-t', 'schema_check'])
        out, err = capfd.readouterr()
        mmkeys = {'npts': 2, 'delta': 1}
        mm_keys_str = json_util.dumps(mmkeys, indent=2)
        undef_keys = {'extra1': 1, 'extra2': 2}
        undef_keys_str = json_util.dumps(undef_keys, indent=2)
        assert out == "check_attribute_types result for collection= wf_TimeSeries\nCollection found  3  documents with type inconsistencies\nOffending keys and number found follow:\n" + mm_keys_str + "\nCollection found  3  documents with keys not defined in the schema\nOffending keys and number found follow:\n" + undef_keys_str + "\n"
Esempio n. 4
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class TestDBClean():
    def setup_class(self):
        client = Client('localhost')
        self.db = Database(client, 'test_dbclean')

        self.test_ts = get_live_timeseries()
        site_id = ObjectId()
        channel_id = ObjectId()
        source_id = ObjectId()
        self.db['site'].insert_one({
            '_id': site_id,
            'net': 'net',
            'sta': 'sta',
            'loc': 'loc',
            'lat': 1.0,
            'lon': 1.0,
            'elev': 2.0,
            'starttime': datetime.utcnow().timestamp(),
            'endtime': datetime.utcnow().timestamp()
        })
        self.db['channel'].insert_one({
            '_id':
            channel_id,
            'net':
            'net1',
            'sta':
            'sta1',
            'loc':
            'loc1',
            'chan':
            'chan',
            'lat':
            1.1,
            'lon':
            1.1,
            'elev':
            2.1,
            'starttime':
            datetime.utcnow().timestamp(),
            'endtime':
            datetime.utcnow().timestamp(),
            'edepth':
            3.0,
            'vang':
            1.0,
            'hang':
            1.0
        })
        self.db['source'].insert_one({
            '_id': source_id,
            'lat': 1.2,
            'lon': 1.2,
            'time': datetime.utcnow().timestamp(),
            'depth': 3.1,
            'magnitude': 1.0
        })
        self.test_ts['site_id'] = site_id
        self.test_ts['source_id'] = source_id
        self.test_ts['channel_id'] = channel_id

    def test_rename_list_to_dict(self):
        rlist = ['a:1', 'b:2', 'c:3']
        result = dbclean.rename_list_to_dict(rlist)
        assert len(result) == 3
        assert result == {'a': '1', 'b': '2', 'c': '3'}

        rlist = ['a:1:2']
        with pytest.raises(SystemExit) as e:
            dbclean.rename_list_to_dict(rlist)
        assert e.type == SystemExit
        assert e.value.code == -1

    def test_main(self):
        self.db['wf_TimeSeries'].delete_many({})
        ts1 = copy.deepcopy(self.test_ts)
        ts2 = copy.deepcopy(self.test_ts)
        ts3 = copy.deepcopy(self.test_ts)
        logging_helper.info(ts1, 'deepcopy', '1')
        logging_helper.info(ts2, 'deepcopy', '1')
        logging_helper.info(ts3, 'deepcopy', '1')

        # fix types
        ts1['npts'] = '123'
        ts2['delta'] = '3'
        ts3['npts'] = 'xyz'

        save_res_code = self.db.save_data(ts1,
                                          mode='promiscuous',
                                          storage_mode='gridfs',
                                          exclude_keys=['extra2'])
        save_res_code = self.db.save_data(ts2,
                                          mode='promiscuous',
                                          storage_mode='gridfs',
                                          exclude_keys=['extra2'])
        save_res_code = self.db.save_data(ts3,
                                          mode='promiscuous',
                                          storage_mode='gridfs',
                                          exclude_keys=['extra2'])

        # exit
        with pytest.raises(SystemExit) as e:
            dbclean.main(['test_dbclean', 'wf_TimeSeries'])
        assert e.type == SystemExit
        assert e.value.code == -1

        # delete starttime attribute
        # rename calib to rename_calib
        dbclean.main([
            'test_dbclean', 'wf_TimeSeries', '-ft', '-d', 'starttime', '-r',
            'calib:rename_calib'
        ])

        res1 = self.db['wf_TimeSeries'].find_one({'_id': ts1['_id']})
        res2 = self.db['wf_TimeSeries'].find_one({'_id': ts2['_id']})
        res3 = self.db['wf_TimeSeries'].find_one({'_id': ts3['_id']})

        assert res1['npts'] == 123
        assert 'starttime' not in res1
        assert 'calib' not in res1
        assert 'rename_calib' in res1

        assert res2['delta'] == 3.0
        assert 'starttime' not in res2
        assert 'calib' not in res2
        assert 'rename_calib' in res2

        # can't be fixed
        assert res3['npts'] == 'xyz'
        assert 'starttime' not in res3
        assert 'calib' not in res3
        assert 'rename_calib' in res3

        self.db['wf_TimeSeries'].delete_many({})
        ts1 = copy.deepcopy(self.test_ts)
        ts2 = copy.deepcopy(self.test_ts)
        ts3 = copy.deepcopy(self.test_ts)
        logging_helper.info(ts1, 'deepcopy', '1')
        logging_helper.info(ts2, 'deepcopy', '1')
        logging_helper.info(ts3, 'deepcopy', '1')

        # fix types
        ts1['npts'] = '123'
        ts2['delta'] = '3'
        ts3['npts'] = 'xyz'

        save_res_code = self.db.save_data(ts1,
                                          mode='promiscuous',
                                          storage_mode='gridfs',
                                          exclude_keys=['extra2'])
        save_res_code = self.db.save_data(ts2,
                                          mode='promiscuous',
                                          storage_mode='gridfs',
                                          exclude_keys=['extra2'])
        save_res_code = self.db.save_data(ts3,
                                          mode='promiscuous',
                                          storage_mode='gridfs',
                                          exclude_keys=['extra2'])

        # only fix types
        dbclean.main(['test_dbclean', 'wf_TimeSeries', '-ft'])
        assert res1['npts'] == 123
        assert res2['delta'] == 3.0
        # can't be fixed
        assert res3['npts'] == 'xyz'
Esempio n. 5
0
class TestDBVerify:
    def setup_class(self):
        client = DBClient("localhost")
        self.db = Database(client, "test_dbverify")

        self.test_ts = get_live_timeseries()
        site_id = ObjectId()
        channel_id = ObjectId()
        source_id = ObjectId()
        self.db["site"].insert_one(
            {
                "_id": site_id,
                "net": "net",
                "sta": "sta",
                "loc": "loc",
                "lat": 1.0,
                "lon": 1.0,
                "elev": 2.0,
                "starttime": datetime.utcnow().timestamp(),
                "endtime": datetime.utcnow().timestamp(),
            }
        )
        self.db["channel"].insert_one(
            {
                "_id": channel_id,
                "net": "net1",
                "sta": "sta1",
                "loc": "loc1",
                "chan": "chan",
                "lat": 1.1,
                "lon": 1.1,
                "elev": 2.1,
                "starttime": datetime.utcnow().timestamp(),
                "endtime": datetime.utcnow().timestamp(),
                "edepth": 3.0,
                "vang": 1.0,
                "hang": 1.0,
            }
        )
        self.db["source"].insert_one(
            {
                "_id": source_id,
                "lat": 1.2,
                "lon": 1.2,
                "time": datetime.utcnow().timestamp(),
                "depth": 3.1,
                "magnitude": 1.0,
            }
        )
        self.test_ts["site_id"] = site_id
        self.test_ts["source_id"] = source_id
        self.test_ts["channel_id"] = channel_id

    def test_main(self, capfd):
        self.db["wf_TimeSeries"].delete_many({})
        ts1 = copy.deepcopy(self.test_ts)
        ts2 = copy.deepcopy(self.test_ts)
        ts3 = copy.deepcopy(self.test_ts)
        logging_helper.info(ts1, "1", "deepcopy")
        logging_helper.info(ts2, "1", "deepcopy")
        logging_helper.info(ts3, "1", "deepcopy")

        # fix types
        ts1["npts"] = "123"
        ts1["extra1"] = "extra1"
        ts2["delta"] = "3"
        ts2["extra2"] = "extra2"
        ts3["npts"] = "xyz"
        ts3["extra2"] = "extra2"
        # wrong normalized key
        ts1["site_id"] = ObjectId()
        ts2.erase("source_id")

        save_res_code = self.db.save_data(
            ts1, mode="promiscuous", storage_mode="gridfs"
        )
        save_res_code = self.db.save_data(
            ts2, mode="promiscuous", storage_mode="gridfs"
        )
        # erase required attributes
        save_res_code = self.db.save_data(
            ts3, mode="promiscuous", storage_mode="gridfs", exclude_keys=["starttime"]
        )
        doc1 = self.db["wf_TimeSeries"].find_one({"_id": ts1["_id"]})
        doc2 = self.db["wf_TimeSeries"].find_one({"_id": ts2["_id"]})
        doc3 = self.db["wf_TimeSeries"].find_one({"_id": ts3["_id"]})
        doc1_str = json_util.dumps(doc1, indent=2)
        doc2_str = json_util.dumps(doc2, indent=2)
        doc3_str = json_util.dumps(doc3, indent=2)

        # default normalization test
        dbverify.main(["test_dbverify", "-t", "normalization"])
        out, err = capfd.readouterr()
        assert (
            out
            == "normalization test on normalized key= site_id  found problems\nFound broken links in  1 documents checked\nNote error count limit= 1000\nIf the count is the same it means all data probably contain missing cross referencing ids\nRun in verbose mode to find out more information you will need to fix the problem\ncheck_links found no broken links with normalized key= channel_id\ncheck_links found no broken links with normalized key= source_id\n"
        )

        # more than 1 collection to test
        dbverify.main(
            ["test_dbverify", "-t", "normalization", "-c", "wf_TimeSeries", "site"]
        )
        out, err = capfd.readouterr()
        assert (
            out
            == "WARNING:  normalization test can only be run on one collection at a time\nParsed a list with the following contents:   ['wf_TimeSeries', 'site']\nRunning test on the first item in that list\nnormalization test on normalized key= site_id  found problems\nFound broken links in  1 documents checked\nNote error count limit= 1000\nIf the count is the same it means all data probably contain missing cross referencing ids\nRun in verbose mode to find out more information you will need to fix the problem\ncheck_links found no broken links with normalized key= channel_id\ncheck_links found no broken links with normalized key= source_id\n"
        )

        # verbose mode
        dbverify.main(["test_dbverify", "-t", "normalization", "-v"])
        out, err = capfd.readouterr()
        assert (
            out
            == "check_link found the following docs in  wf_TimeSeries  with broken links to  site_id\n////////////////Doc number  1  with error///////////////\n"
            + doc1_str
            + "\n////////////////////////////////////////////////////////\ncheck_links found no undefined linking key to normalized key= site_id\ncheck_links found no broken links with normalized key= channel_id\ncheck_links found no undefined linking key to normalized key= channel_id\ncheck_links found no broken links with normalized key= source_id\ncheck_link found the following docs in  wf_TimeSeries  with undefined link keys to  source_id\n////////////////Doc number  1  with error///////////////\n"
            + doc2_str
            + "\n////////////////////////////////////////////////////////\n"
        )

        # default required test
        dbverify.main(["test_dbverify", "-t", "required"])
        out, err = capfd.readouterr()
        mmkeys = {"npts": 2, "delta": 1}
        mm_keys_str = json_util.dumps(mmkeys, indent=2)
        undef_keys = {"starttime": 1}
        undef_keys_str = json_util.dumps(undef_keys, indent=2)
        assert (
            out
            == "////Results from run_check_required on collection= wf_TimeSeries\nCollection found  3  documents with type inconsistencies\nOffending keys and number found follow:\n"
            + mm_keys_str
            + "\nCollection found  1  documents with required keys that were not defined\nOffending keys and number found follow:\n"
            + undef_keys_str
            + "\n"
        )

        # default schema_check test
        dbverify.main(["test_dbverify", "-t", "schema_check"])
        out, err = capfd.readouterr()
        mmkeys = {"npts": 2, "delta": 1}
        mm_keys_str = json_util.dumps(mmkeys, indent=2)
        undef_keys = {"extra1": 1, "extra2": 2}
        undef_keys_str = json_util.dumps(undef_keys, indent=2)
        assert (
            out
            == "check_attribute_types result for collection= wf_TimeSeries\nCollection found  3  documents with type inconsistencies\nOffending keys and number found follow:\n"
            + mm_keys_str
            + "\nCollection found  3  documents with keys not defined in the schema\nOffending keys and number found follow:\n"
            + undef_keys_str
            + "\n"
        )