コード例 #1
0
    def do_POST(self):
        length = int(self.headers['content-length'])
        query = self.rfile.read(length)
        values = dict((pair.split("=") + [''])[:2] for pair in query.split("&"))
        match = re.search(self.expression, values.get('query', ''))
        if match:
            query = match.group('query')
            if query:
                connection = MyriaConnection(rest_url=self.server.arguments.myria_url, execution_url=self.server.arguments.myria_web_url)
                response = connection.execute_program(urllib.unquote(query).replace('+', ' ').replace('plus', '+'))

                self.send_response(200)
                self.send_access_control_headers()
                self.end_headers()
                self.wfile.write(json.dumps(response))

                #request = requests.post(self.server.arguments.myria_web_url + '/execute?language=myrial', data={'query': urllib.unquote(query).replace('+', ' ').replace('plus', '+')})

                #self.send_response(request.status_code)
                #self.send_access_control_headers()
                #self.end_headers()
                #self.wfile.write(request.text)
                return

        self.send_response(500)
        self.end_headers()
コード例 #2
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    def import_(cls, source, intermediate, *args, **kwargs):
        connection = MyriaConnection(
            *args, **
            kwargs) if args or kwargs else MyriaRelation.DefaultConnection
        schema = MyriaSchema(intermediate.schema).local
        pool = multiprocessing.Pool(processes=len(intermediate.uris))
        workers = [(id, urlparse('//' + name).hostname) for (id, name) \
                     in connection.workers().items()]

        #TODO Need to expose identity and username, if it's still needed for cross-cluster transfers
        identity, username = None, None

        #TODO Need to adjust when |myria| > |other|, since we may not be able to argOverwriteTable=True
        pipes = pool.map(partial(_scatter_uri, identity, username),
                         izip(intermediate.uris, cycle(workers)))
        work = ((id, {
            "dataType": "URI",
            "uri": uri
        }) for (id, uri) in pipes if uri)
        plan = utility.get_plan(schema, work,
                                MyriaRelation._get_qualified_name(source.name))

        return MyriaQuery.submit_plan(plan,
                                      connection,
                                      timeout=kwargs.get('timeout', 60))
コード例 #3
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    def import_(cls, source, intermediate, *args, **kwargs):
        connection = MyriaConnection(
            *args, **
            kwargs) if args or kwargs else MyriaRelation.DefaultConnection
        schema = MyriaSchema(schema=intermediate.schema).local
        #pool = multiprocessing.Pool(processes=len(intermediate.uris))
        workers = [(id, urlparse('//' + name).hostname) for (id, name) \
                     in connection.workers().items()]

        #print intermediate.uris
        work = ((id, { "dataType": "Socket", "hostname": urlparse(uri).hostname, "port": urlparse(uri).port }) \
                 for ((id, name), uri) \
                 in izip(workers, intermediate.uris))

        plan = utility.get_plan(schema,
                                work,
                                MyriaRelation._get_qualified_name(source.name),
                                scan_type='ImplicitDimensionBinaryFileScan')

        #TODO
        dimensions = map(lambda d: d[2] + 1,
                         intermediate.schema.attributes['dimensions'])
        for fragment in plan['fragments']:
            del fragment['operators'][0]['skip']
            fragment['operators'][0]['isLittleEndian'] = True
            fragment['operators'][0]['dimensions'] = dimensions  #[2,3]

        #print plan
        return MyriaQuery.submit_plan(plan,
                                      connection,
                                      timeout=kwargs.get('timeout', 60))
コード例 #4
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class TestQuery(unittest.TestCase):
    def __init__(self, args):
        with HTTMock(local_mock):
            self.connection = MyriaConnection(hostname='localhost', port=12345)
        unittest.TestCase.__init__(self, args)

    def test_submit(self):
        q = query()
        with HTTMock(local_mock):
            status = self.connection.submit_query(q)
            self.assertEquals(status, query_status(q, status='ACCEPTED'))
            self.assertEquals(query_counter, 1)

    def test_execute(self):
        q = query()
        with HTTMock(local_mock):
            status = self.connection.execute_query(q)
            self.assertEquals(status, query_status(q))

    def test_validate(self):
        q = query()
        with HTTMock(local_mock):
            validated = self.connection.validate_query(q)
            self.assertEquals(validated, q)

    def test_query_status(self):
        q = query()
        with HTTMock(local_mock):
            status = self.connection.get_query_status(17)
            self.assertEquals(status, query_status(q))

    def x_test_queries(self):
        with HTTMock(local_mock):
            count, _ = self.connection.queries()
            self.assertEquals(42, count)
コード例 #5
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    def test_deploy_params(self):
        with HTTMock(local_mock):
            connection = MyriaConnection(hostname='localhost', port=12345)
            assert connection is not None

            self.assertEquals(connection.workers(),
                              {'1': 'localhost:12347', '2': 'localhost:12348'})
コード例 #6
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    def test_deploy_params(self):
        with HTTMock(local_mock):
            connection = MyriaConnection(hostname='localhost', port=12345)
            assert connection is not None

            self.assertEquals(connection.workers(), {
                '1': 'localhost:12347',
                '2': 'localhost:12348'
            })
コード例 #7
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    def test_deploy_file(self):
        with HTTMock(local_mock):
            connection = None
            with open('myria/test/deployment.cfg.local') as deploy_file:
                connection = MyriaConnection(deploy_file)
            assert connection is not None

            self.assertEquals(connection.workers(),
                              {'1': 'localhost:12347', '2': 'localhost:12348'})
コード例 #8
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    def test_deploy_file(self):
        with HTTMock(local_mock):
            connection = None
            with open('myria/test/deployment.cfg.local') as deploy_file:
                connection = MyriaConnection(deploy_file)
            assert connection is not None

            self.assertEquals(connection.workers(), {
                '1': 'localhost:12347',
                '2': 'localhost:12348'
            })
コード例 #9
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    def import_(cls, source, intermediate, *args, **kwargs):
        connection = MyriaConnection(
            *args, **
            kwargs) if args or kwargs else MyriaRelation.DefaultConnection
        schema = MyriaSchema(schema=intermediate.schema).local
        pool = multiprocessing.Pool(processes=len(intermediate.uris))
        workers = [(id, urlparse('//' + name).hostname) for (id, name) \
                     in connection.workers().items()]

        work = ((id, { "dataType": "Socket", "hostname": urlparse(uri).hostname, "port": urlparse(uri).port }) \
                 for ((id, name), uri) \
                 in izip(workers, intermediate.uris))

        plan = utility.get_plan(schema, work,
                                MyriaRelation._get_qualified_name(source.name))
        return MyriaQuery.submit_plan(plan,
                                      connection,
                                      timeout=kwargs.get('timeout', 60))
コード例 #10
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class MyriaRelation(object):
    DefaultConnection = MyriaConnection(hostname='localhost', port=8753)

    def __init__(self,
                 relation,
                 connection=DefaultConnection,
                 *args,
                 **kwargs):
        self.name = relation if isinstance(relation,
                                           basestring) else relation.name
        self.components = self._get_name_components(self.name)
        self.connection = connection
        self.qualified_name = self._get_qualified_name(self.components)

    def toJson(self):
        return self.connection.download_dataset(self.qualified_name)

    @property
    def schema(self):
        return MyriaSchema(json=self._metadata['schema'])

    @property
    def createdDate(self):
        return parse(self._metadata['created'])

    def __len__(self):
        return int(self._metadata['numTuples'])

    @property
    def _metadata(self):
        if 'metadata' not in self.__dict__:
            self.metadata = self.connection.dataset(self.qualified_name)
        return self.metadata

    @staticmethod
    def _get_name(qualified_name):
        return ':'.join([
            qualified_name['userName'], qualified_name['programName'],
            qualified_name['relationName']
        ])

    @staticmethod
    def _get_name_components(name):
        components = name.split(':')
        default_components = ['public', 'adhoc'][:max(3 - len(components), 0)]
        return default_components + components[:3]

    @staticmethod
    def _get_qualified_name(name_or_components):
        if isinstance(name_or_components, basestring):
            return MyriaRelation._get_qualified_name(
                MyriaRelation._get_name_components(name_or_components))
        else:
            return dict(
                izip(('userName', 'programName', 'relationName'),
                     name_or_components[:3]))
コード例 #11
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        def __init__(self, shell):
            Configurable.__init__(self, config=shell.config)
            Magics.__init__(self, shell=shell)

            MyriaRelation.DefaultConnection = MyriaConnection(
                rest_url=self.rest_url,
                execution_url=self.execution_url,
                timeout=self.timeout)

            self.shell.configurables.append(self)
コード例 #12
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ファイル: test_logs.py プロジェクト: tomerk/myria-python
class TestLogs(unittest.TestCase):
    def __init__(self, args):
        with HTTMock(local_mock):
            self.connection = MyriaConnection(hostname='localhost', port=12345)
        unittest.TestCase.__init__(self, args)

    def test_sent_logs(self):
        with HTTMock(local_mock):
            logs = self.connection.get_sent_logs(42)
            self.assertEquals(list(logs), [['foo', 'bar'], ['baz', 'ban']])
コード例 #13
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        def connect(self, line):
            """ Connect to a Myria REST (and optionally web) server """
            arguments = parse_argstring(self.connect, line)
            self.timeout = arguments.timeout
            self.language = arguments.language
            MyriaRelation.DefaultConnection = MyriaConnection(
                rest_url=arguments.rest_url,
                execution_url=arguments.execution_url,
                timeout=arguments.timeout)

            return MyriaRelation.DefaultConnection
コード例 #14
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class TestQuery(unittest.TestCase):
    def __init__(self, args):
        with HTTMock(local_mock):
            self.connection = MyriaConnection(hostname='localhost', port=12345)
        unittest.TestCase.__init__(self, args)

    def test_workers(self):
        with HTTMock(local_mock):
            workers = self.connection.workers()
            self.assertEquals(workers, {'1': 'localhost:12347',
                                        '2': 'localhost:12348'})

    def test_alive(self):
        with HTTMock(local_mock):
            workers = self.connection.workers_alive()
            self.assertEquals(set(workers), set([1, 2]))

    def test_worker_1(self):
        with HTTMock(local_mock):
            worker = self.connection.worker(1)
            self.assertEquals(worker, 'localhost:12347')
コード例 #15
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ファイル: test_workers.py プロジェクト: tomerk/myria-python
class TestQuery(unittest.TestCase):
    def __init__(self, args):
        with HTTMock(local_mock):
            self.connection = MyriaConnection(hostname='localhost', port=12345)
        unittest.TestCase.__init__(self, args)

    def test_workers(self):
        with HTTMock(local_mock):
            workers = self.connection.workers()
            self.assertEquals(workers, {
                '1': 'localhost:12347',
                '2': 'localhost:12348'
            })

    def test_alive(self):
        with HTTMock(local_mock):
            workers = self.connection.workers_alive()
            self.assertEquals(set(workers), set([1, 2]))

    def test_worker_1(self):
        with HTTMock(local_mock):
            worker = self.connection.worker(1)
            self.assertEquals(worker, 'localhost:12347')
コード例 #16
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    def do_GET(self):
        match = re.search(self.expression, self.querystring.get('query', ''))
        if match:
            query = match.group('query')
            if query:
                connection = MyriaConnection(rest_url=self.server.arguments.myria_url, execution_url=self.server.arguments.myria_web_url)
                response = connection.execute_program(urllib.unquote(query).replace('+', ' ').replace('plus', '+'))

                self.send_response(200)
                self.send_access_control_headers()
                self.end_headers()
                self.wfile.write(json.dumps(response))

                #request = requests.post(self.server.arguments.myria_web_url + '/execute?language=myrial', data={'query': urllib.unquote(query).replace('+', ' ').replace('plus', '+')})

                #self.send_response(request.status_code)
                #self.send_access_control_headers()
                #self.end_headers()
                #self.wfile.write(request.text)
                return

        self.send_response(500)
        self.end_headers()
コード例 #17
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class TestQuery(unittest.TestCase):
    def __init__(self, args):
        with HTTMock(local_mock):
            self.connection = MyriaConnection(hostname='localhost', port=12345)
        unittest.TestCase.__init__(self, args)

    def test_submit(self):
        q = query()
        with HTTMock(local_mock):
            status = self.connection.submit_query(q)
            self.assertEquals(status, query_status(q, status='ACCEPTED'))
            self.assertEquals(query_counter, 1)

    def test_execute(self):
        q = query()
        with HTTMock(local_mock):
            status = self.connection.execute_query(q)
            self.assertEquals(status, query_status(q))

    def test_validate(self):
        q = query()
        with HTTMock(local_mock):
            validated = self.connection.validate_query(q)
            self.assertEquals(validated, q)

    def test_query_status(self):
        q = query()
        with HTTMock(local_mock):
            status = self.connection.get_query_status(17)
            self.assertEquals(status, query_status(q))

    def x_test_queries(self):
        with HTTMock(local_mock):
            result = self.connection.queries()
            self.assertEquals(result['max'], 17)
            self.assertEquals(result['min'], 1)
            self.assertEquals(result['results'][0]['queryId'], 17)
コード例 #18
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    def import_(cls, source, intermediate, *args, **kwargs):
        connection = MyriaConnection(
            *args, **
            kwargs) if args or kwargs else MyriaRelation.DefaultConnection
        schema = MyriaSchema(intermediate.schema).local
        workers = [(id, urlparse('//' + name).hostname) for (id, name) \
                     in connection.workers().items()]

        print list(_assign_uris(intermediate.uris, workers))

        #TODO Need to expose identity and username, if it's still needed for cross-cluster transfers
        identity, username = None, None

        pool = multiprocessing.Pool(processes=len(intermediate.uris))
        pipes = pool.map(partial(_scatter_uri, identity, username),
                         _assign_uris(intermediate.uris, workers))
        work = ((id, {
            "dataType": "URI",
            "uri": uri
        }) for (id, uri) in pipes if uri)
        plan = utility.get_plan(schema, work,
                                MyriaRelation._get_qualified_name(source.name))

        return MyriaQuery.submit_plan(plan, connection)
コード例 #19
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class TestQuery(unittest.TestCase):
    def __init__(self, args):
        with HTTMock(create_mock()):
            self.connection = MyriaConnection(hostname='localhost', port=12345)
        unittest.TestCase.__init__(self, args)

    def test_submit(self):
        q = query()
        with HTTMock(local_mock):
            status = self.connection.submit_query(q)
            self.assertEquals(status, query_status(q, status='ACCEPTED'))
            self.assertEquals(query_counter, 1)

    def test_execute(self):
        q = query()
        with HTTMock(local_mock):
            status = self.connection.execute_query(q)
            self.assertEquals(status, query_status(q))

    def test_compile_plan(self):
        with HTTMock(create_mock()):
            myrial = "a = empty(i:int);\nstore(a, a);"
            json = self.connection.compile_program(myrial, language="MyriaL")
            self.assertEqual(json['rawQuery'], myrial)

    def test_validate(self):
        q = query()
        with HTTMock(local_mock):
            validated = self.connection.validate_query(q)
            self.assertEquals(validated, q)

    def test_query_status(self):
        q = query()
        with HTTMock(local_mock):
            status = self.connection.get_query_status(17)
            self.assertEquals(status, query_status(q))

    def test_queries(self):
        with HTTMock(local_mock):
            result = self.connection.queries()
            self.assertEquals(result['max'], 17)
            self.assertEquals(result['min'], 1)
            self.assertEquals(result['results'][0]['queryId'], 17)
コード例 #20
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ファイル: test_workers.py プロジェクト: tomerk/myria-python
 def __init__(self, args):
     with HTTMock(local_mock):
         self.connection = MyriaConnection(hostname='localhost', port=12345)
     unittest.TestCase.__init__(self, args)
コード例 #21
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 def test_no_deployment(self):
     assert MyriaConnection._parse_deployment(None) is None
コード例 #22
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ファイル: relation.py プロジェクト: afcarl/myria-python
class MyriaRelation(MyriaFluentQuery):
    """ Represents a relation in the Myria system """

    DefaultConnection = MyriaConnection(hostname='localhost', port=8753)
    DisplayLimit = 500

    def __init__(self, relation, connection=None, schema=None, **kwargs):
        """ Attach to an existing Myria relation, or create a new one

        relation: the name of the relation.  One of:
           * qualified components: {'userName': '******',
                                    'programName': 'adhoc',
                                    'relationName': 'my_relation'}
           * qualified name:       'public:adhoc:my_relation'
           * unqualified name:     'my_relation' (assume public:adhoc)

        Keyword arguments:
        connection: attach to a specific Myria API endpoint
        schema: for a relation that does not yet exist, specify its schema
        """
        name = relation if isinstance(relation, basestring) \
            else self._get_name(relation)
        self.components = self._get_name_components(name)
        self.name = ':'.join(self.components)  # Qualify name
        self.connection = connection or self.DefaultConnection
        self.qualified_name = self._get_qualified_name(self.components)
        self._schema = None
        self._metadata = None
        self.load = self.instance_load

        # If the relation is already persisted, any schema parameter
        # must match the persisted version.
        if schema is not None and self.is_persisted and self.schema != schema:
            raise ValueError('Stored relation schema does not match '
                             'that specified as schema parameter.')
        elif schema is None and not self.is_persisted:
            raise ValueError('No schema specified for new relation.')
        elif schema is not None:
            self._schema = schema

        super(MyriaRelation, self).__init__(
            None,
            kwargs.get('query',
                       (self._scan(self.components) if self.is_persisted else
                        self._empty(self._schema))), self.connection)

    @staticmethod
    # pylint: disable=E0202
    def load(name, url, schema, data_format='CSV', connection=None, **kwargs):
        """ Load data from a URL and save it as a new relation """
        relation = MyriaRelation(name, connection, schema)
        return (relation.load(url, data_format, **kwargs).execute(relation))

    def instance_load(self, url, data_format='CSV', **kwargs):
        """ Generate a query that loads data from the given
            URL into the relation """
        if self.parent is not None:
            raise MyriaError('Load must be first invocation in fluent query.')
        elif self._schema is None and 'schema' not in kwargs:
            raise MyriaError('Relation does not have a scheme.')
        else:
            self.query = MyriaFluentQuery._load(
                url, self._schema or kwargs.pop('schema'), data_format,
                **kwargs)
            return self

    def to_dict(self, limit=None):
        """ Download this relation as JSON """
        return self.connection.download_dataset(self.qualified_name,
                                                limit=limit) \
            if self.is_persisted else []

    def delete(self):
        """ Delete this relation"""
        self.connection.delete_dataset(self.qualified_name)
        self._metadata = None

    def to_dataframe(self, index=None, limit=None):
        """ Convert the query result to a Pandas DataFrame """
        if not DataFrame:
            raise ImportError('Must execute `pip install pandas` to generate '
                              'Pandas DataFrames')
        else:
            return DataFrame.from_records(self.to_dict(limit), index=index)

    def _repr_html_(self, limit=None):
        """ Generate a representation of this query as HTML """
        limit = limit or MyriaRelation.DisplayLimit
        dataframe = self.to_dataframe(limit=limit)
        footer = '<p>(First {} tuples shown)</p>'.format(limit) \
            if limit and len(dataframe) > limit else ''
        return dataframe.to_html() + footer

    @property
    def schema(self):
        """ The schema of the relation """
        if self._schema is None:
            self._schema = MyriaSchema(json=self.metadata['schema'])
        return self._schema

    @property
    def created_date(self):
        """ The creation date for this relation """
        return parse(self.metadata['created'])

    def __len__(self):
        """ The number of tuples in the relation """
        return max(int(self.metadata['numTuples']), 0)

    @property
    def metadata(self):
        """ A JSON dictionary of relation metadata """
        if self._metadata is None:
            self._metadata = self.connection.dataset(self.qualified_name)
        return self._metadata

    @property
    def is_persisted(self):
        """ Does the relation exist in the Myria database? """
        try:
            return bool(self.metadata)
        except MyriaError:
            return False

    def __str__(self):
        return self.name

    @staticmethod
    def _get_name(qualified_name):
        """ Stringify a list of name components into a valid Myria name """
        return ':'.join([
            qualified_name['userName'], qualified_name['programName'],
            qualified_name['relationName']
        ])

    @staticmethod
    def _get_name_components(name):
        """ Parse a Myria relation name into a list of components """
        components = name.split(':')
        default_components = ['public', 'adhoc'][:max(3 - len(components), 0)]
        return default_components + components[:3]

    @staticmethod
    def _get_qualified_name(name_or_components):
        """ Generate a Myria relation dictionary from a string or list """
        if isinstance(name_or_components, basestring):
            return MyriaRelation._get_qualified_name(
                MyriaRelation._get_name_components(name_or_components))
        else:
            return dict(
                izip(('userName', 'programName', 'relationName'),
                     name_or_components[:3]))
コード例 #23
0
    def execute(self, system, data):
        if system == 'iquery':
            self.send_response(200)
            self.end_headers()
            command = [
                '{path}/bin/iquery'.format(
                    path=self.server.arguments.scidb_path), '-anp',
                str(self.server.arguments.scidb_port), '-q',
                (urllib.unquote(data).replace('csv+', 'csvplus').replace(
                    '+', ' ').replace('csvplus',
                                      'csv+').replace("\\'", "'").replace(
                                          '\n', ' ').replace('"', '\\"'))
            ]
            self.wfile.write(
                subprocess.check_output(command, stderr=subprocess.STDOUT))
        elif system == 'myria':
            self.send_response(200)
            self.send_header('Access-Control-Allow-Origin', '*')
            self.end_headers()
            connection = MyriaConnection(
                rest_url=self.server.arguments.myria_url)
            relation = MyriaRelation(data, connection=connection)
            self.wfile.write(json.dumps(relation.to_dict()))

        elif system == 'restart':
            myria_path = self.server.arguments.myria_path
            body = subprocess.check_output([
                './kill_all_java_processes.py',
                os.path.join(myria_path, 'deploy/deployment.config')
            ],
                                           cwd=os.path.join(
                                               myria_path,
                                               'stack/myria/myriadeploy'),
                                           stderr=subprocess.STDOUT)
            body += subprocess.check_output([
                './launch_cluster.sh',
                os.path.join(myria_path, 'deploy/deployment.config')
            ],
                                            cwd=os.path.join(
                                                myria_path,
                                                'stack/myria/myriadeploy'),
                                            stderr=subprocess.STDOUT)

            scidb_path = self.server.arguments.scidb_path
            body += subprocess.check_output([
                'bin/scidb.py', 'stop_all', 'bhaynes',
                '{}/etc/config.ini'.format(scidb_path)
            ],
                                            cwd=scidb_path,
                                            stderr=subprocess.STDOUT)
            body += subprocess.check_output([
                'bin/scidb.py', 'start_all', 'bhaynes',
                '{}/etc/config.ini'.format(scidb_path)
            ],
                                            cwd=scidb_path,
                                            stderr=subprocess.STDOUT)
            body += subprocess.check_output([
                'bin/iquery', '-anp',
                str(self.server.arguments.scidb_port), '-q',
                'scan(SciDB__Demo__Vectors)'
            ],
                                            cwd=scidb_path,
                                            stderr=subprocess.STDOUT)

            self.send_response(200)
            self.send_header('Access-Control-Allow-Origin', '*')
            self.end_headers()
            self.wfile.write(body)

        else:
            self.send_response(404)
            self.end_headers()
            self.wfile.write('System not found.')
コード例 #24
0
from myria import MyriaConnection
from myria import MyriaSchema
from myria import MyriaRelation
import json
import time

port = 8753

connection = MyriaConnection(hostname = sys.argv[1], port=8753)

configurations = [4,6,8,10,12]

dimensionFiles = ['replicateDim1.json', 'replicateDim2.json', 'replicateDim3.json', 'replicateDim4.json', 'replicateDim5.json']

for c in configurations:
	#dimension tables
	for d in dimensionFiles:
		dim_file = open(d, 'r+')
		dim_json = json.load(dim_file)
		dim_json['rawQuery'] = "Replicate " + str(d) + " on " + str(c)
		dim_json['fragments'][1]['overrideWorkers'] = range(1,c+1)
		dim_json['fragments'][1]['operators'][1]['relationKey']['programName'] = 'syntheticBenchmark' + str(c) + 'W'
		print 'Replicating ' + d +  ' on ' + str(c) + ' workers'
		query_status= connection.submit_query(dim_json)
		query_id = query_status['queryId']
		status = (connection.get_query_status(query_id))['status']
		while status!='SUCCESS':
			status = (connection.get_query_status(query_id))['status']
			time.sleep(2);
		print 'done'
コード例 #25
0
 def test_parse_deploy_file(self):
     with open('myria/test/deployment.cfg.local') as deploy_file:
         hostname, port = MyriaConnection._parse_deployment(deploy_file)
         self.assertEqual(hostname, 'localhost')
         self.assertEqual(port, 12345)
コード例 #26
0
import time
from raco.catalog import FromFileCatalog
import raco.myrial.parser as parser
import raco.myrial.interpreter as interpreter
import raco.algebra as alg
from raco.expression.expression import UnnamedAttributeRef
from myria import MyriaConnection
from myria import MyriaSchema
from myria import MyriaRelation
from raco.language.myrialang import compile_to_json
from raco.scheme import Scheme
from raco.language.myrialang import MyriaQueryScan
import subprocess
import json

connection = MyriaConnection(hostname = "localhost", port=8753)

schema = {"columnNames": ["l_orderkey", "l_linenumber", "l_custkey", "l_partkey", "l_suppkey", "l_orderdate", "l_orderpriority", "l_shippriority", "l_quantity", "l_extendedprice", "l_ordtotalprice", "l_discount", "l_revenue", "l_supplycost", "l_tax", "l_commitdate", "l_shipmode"], "columnTypes": ["LONG_TYPE", "LONG_TYPE", "LONG_TYPE", "LONG_TYPE", "LONG_TYPE", "STRING_TYPE", "STRING_TYPE", "LONG_TYPE", "DOUBLE_TYPE", "DOUBLE_TYPE", "DOUBLE_TYPE", "DOUBLE_TYPE", "LONG_TYPE", "LONG_TYPE", "DOUBLE_TYPE", "LONG_TYPE", "STRING_TYPE"]}

zippedSchema = zip(schema['columnNames'], schema['columnTypes'])

f = open(os.path.expanduser("runtimes.txt"), 'w');

startWorkers = 4
receiveWorkers = [6]#[6,8,10,12]
correspondingChunks = [3]#[3,2,5,3]
numberChunksToMove = [1,1,3,2]

positionCount = 0
for r in receiveWorkers: #first case is 6
コード例 #27
0
 def __init__(self, args):
     with HTTMock(local_mock):
         self.connection = MyriaConnection(hostname='localhost', port=12345)
     unittest.TestCase.__init__(self, args)
コード例 #28
0
from raco.catalog import FromFileCatalog
import raco.myrial.parser as parser
import raco.myrial.interpreter as interpreter
import raco.algebra as alg
from raco.expression.expression import UnnamedAttributeRef
from myria import MyriaConnection
from myria import MyriaSchema
from myria import MyriaRelation

#CONFIGURE: information about the datasets in Myria
SNAPSHOT_LIST=['002560','002552','002432']
USER_NAME="jortiz"
PROGRAM_NAME="romulustest"
#END CONFIGURE

connection = MyriaConnection(hostname = "rest.myria.cs.washington.edu", port=1776, ssl=True, execution_url="https://myria-web.appspot.com")

#first get schemas, create the catalog
f = open('schema.py', 'w')
f.write("{" + '\n');
for i in SNAPSHOT_LIST:
	current_relation = USER_NAME + ":" + PROGRAM_NAME + ":" + "cosmo" + i;
	current_schema = (MyriaRelation(relation=current_relation, connection=connection).schema.to_dict())

	columnNames = [x.encode('utf-8') for x in current_schema['columnNames']]
	columnTypes = [x.encode('utf-8') for x in current_schema['columnTypes']]

	columns = zip(columnNames, columnTypes)
	f.write("'" + current_relation + "' : " +  str(columns) + ',\n');
f.write("}" + '\n');
f.close()
コード例 #29
0
 def setUp(self):
     connection = MyriaConnection(hostname='localhost',
                                  port=8753,
                                  execution_url="http://127.0.0.1:8080")
     MyriaRelation.DefaultConnection = connection
     self.connection = connection
コード例 #30
0
ファイル: create_edges.py プロジェクト: uwdb/MyMergerTree
from myria import MyriaSchema
from myria import MyriaRelation
from raco.language.myrialang import compile_to_json
from raco.scheme import Scheme
from raco.language.myrialang import MyriaQueryScan

#CONFIGURE: information about the datasets in Myria (first snapshot must be most "recent")
SNAPSHOT_LIST=['002560','002552','002432']
USER_NAME="jortiz"
PROGRAM_NAME="romulustest"

NON_GRP_PARTICLES = '0'
IORDER = 'iOrder'
#END CONFIGURE

connection = MyriaConnection(hostname = "rest.myria.cs.washington.edu", port=1776, ssl=True, execution_url="https://myria-web.appspot.com")

time_count = 1
union_string = None

relation_name_prefix = USER_NAME + ":" + PROGRAM_NAME + ":"
#Write the union
for i in range(len(SNAPSHOT_LIST)-1):
	current_relation_name =  relation_name_prefix + "cosmo" + SNAPSHOT_LIST[i];
	next_relation_name = relation_name_prefix + "cosmo" + SNAPSHOT_LIST[i+1];
	current_snapshot = "(select s1.grp as currentGroup," + str(time_count) + " as currrentTime, s2.grp as nextGroup, count(*) as sharedParticles from \"" + current_relation_name + "\" s1, \"" + next_relation_name + "\" s2 where s1.\"" +  IORDER  + "\" = s2.\"" +  IORDER  + "\" and s1.grp > " + NON_GRP_PARTICLES + " and s2.grp >" + NON_GRP_PARTICLES + " group by s1.grp, s2.grp)"
	if(union_string):
		union_string = union_string + " UNION " + current_snapshot
	else:
		union_string = current_snapshot
	time_count = time_count + 1
コード例 #31
0
 def test_no_deployment(self):
     assert MyriaConnection._parse_deployment(None) is None
コード例 #32
0
from myria import MyriaSchema
from myria import MyriaRelation

#CONFIGURE: information about the datasets in Myria
USER_NAME="jortiz"
PROGRAM_NAME="romulustest"
NODES_RELATION="nodesTable"
EDGES_RELATION="edgesTable"
#END CONFIGURE

table_prefix = USER_NAME + ":" + PROGRAM_NAME + ":"
nodes_table = table_prefix + NODES_RELATION;
edges_table = table_prefix + EDGES_RELATION;


connection = MyriaConnection(hostname = "rest.myria.cs.washington.edu", port=1776, ssl=True, execution_url="https://myria-web.appspot.com")

#*****************PART 1***************
#first get schemas for nodes and edges, and write them to schema.py
f = open('schema.py', 'w')
f.write("{" + '\n');
#--nodes
current_schema = (MyriaRelation(relation=nodes_table, connection=connection).schema.to_dict())
columnNames = [x.encode('utf-8') for x in current_schema['columnNames']]
columnTypes = [x.encode('utf-8') for x in current_schema['columnTypes']]
columns = zip(columnNames, columnTypes)
f.write("'" + nodes_table + "' : " +  str(columns) + ',\n');
#--edges
current_schema = (MyriaRelation(relation=edges_table, connection=connection).schema.to_dict())
columnNames = [x.encode('utf-8') for x in current_schema['columnNames']]
columnTypes = [x.encode('utf-8') for x in current_schema['columnTypes']]
コード例 #33
0
 def test_parse_deploy_file(self):
     with open('myria/test/deployment.cfg.local') as deploy_file:
         hostname, port = MyriaConnection._parse_deployment(deploy_file)
         self.assertEqual(hostname, 'localhost')
         self.assertEqual(port, 12345)
コード例 #34
0
ファイル: relation.py プロジェクト: tomerk/myria-python
class MyriaRelation(object):
    """ Represents a relation in the Myria system """

    DefaultConnection = MyriaConnection(hostname='localhost', port=8753)

    def __init__(self, relation, connection=None, schema=None):
        """ Attach to an existing Myria relation, or create a new one

        relation: the name of the relation.  One of:
           * qualified components: {'userName': '******',
                                    'programName': 'adhoc',
                                    'relationName': 'my_relation'}
           * qualified name:       'public:adhoc:my_relation'
           * unqualified name:     'my_relation' (assume public:adhoc)

        Keyword arguments:
        connection: attach to a specific Myria API endpoint
        schema: for a relation that does not yet exist, specify its schema
        """
        self.name = relation if isinstance(relation, basestring) \
            else self._get_name(relation)
        self.components = self._get_name_components(self.name)
        self.connection = connection or self.DefaultConnection
        self.qualified_name = self._get_qualified_name(self.components)
        self._schema = None
        self._metadata = None

        # If the relation is already persisted, any schema parameter
        # must match the persisted version.
        if schema is not None and self.is_persisted and self.schema != schema:
            raise ValueError('Stored relation schema does not match '
                             'that specified as schema parameter.')
        elif schema is not None:
            self._schema = schema

    def to_dict(self):
        """ Download this relation as JSON """
        return self.connection.download_dataset(self.qualified_name) \
            if self.is_persisted else []

    def delete(self):
        """ Delete this relation"""
        self.connection.delete_dataset(self.qualified_name)
        self._metadata = None

    def to_dataframe(self, index=None):
        """ Convert the query result to a Pandas DataFrame """
        if not DataFrame:
            raise ImportError('Must execute `pip install pandas` to generate '
                              'Pandas DataFrames')
        else:
            return DataFrame.from_records(self.to_dict(), index=index)

    def _repr_html_(self):
        """ Generate a representation of this query as HTML """
        return self.to_dataframe().to_html()

    @property
    def schema(self):
        """ The schema of the relation """
        if self._schema is None:
            self._schema = MyriaSchema(json=self.metadata['schema'])
        return self._schema

    @property
    def created_date(self):
        """ The creation date for this relation """
        return parse(self.metadata['created'])

    def __len__(self):
        """ The number of tuples in the relation """
        return int(self.metadata['numTuples'])

    @property
    def metadata(self):
        """ A JSON dictionary of relation metadata """
        if self._metadata is None:
            self._metadata = self.connection.dataset(self.qualified_name)
        return self._metadata

    @property
    def is_persisted(self):
        """ Does the relation exist in the Myria database? """
        try:
            return bool(self.metadata)
        except MyriaError:
            return False

    @staticmethod
    def _get_name(qualified_name):
        """ Stringify a list of name components into a valid Myria name """
        return ':'.join([qualified_name['userName'],
                         qualified_name['programName'],
                         qualified_name['relationName']])

    @staticmethod
    def _get_name_components(name):
        """ Parse a Myria relation name into a list of components """
        components = name.split(':')
        default_components = ['public', 'adhoc'][:max(3 - len(components), 0)]
        return default_components + components[:3]

    @staticmethod
    def _get_qualified_name(name_or_components):
        """ Generate a Myria relation dictionary from a string or list """
        if isinstance(name_or_components, basestring):
            return MyriaRelation._get_qualified_name(
                MyriaRelation._get_name_components(name_or_components))
        else:
            return dict(izip(('userName', 'programName', 'relationName'),
                             name_or_components[:3]))