Пример #1
0
    def __init__(self, lock):
        """
        This is a constructor method for an updater
        class of the Arius output module.

        In creates a HTTP-client instance to communicate with
        server in order to get commands and takes give
        instance of RLock and sets it as its lock.

        Also, it creates a flag 'running' which allwos to kill
        this thread.
        """
        threading.Thread.__init__(self)

        self._server_host = config["output_server_host"]
        self._server_port = config["output_server_port"]
        self._server_url = config["output_server_url"]

        self._server_connection = RESTClient(self._server_host,
                                             self._server_port,
                                             self._server_url)

        self._command_queue = []

        self._current_command_type = None
        self._current_command_body = None

        self._lock = lock

        self.running = True
Пример #2
0
 def __init__(self, server_host, server_port, commands_url, lock):
     """
     This constructor method makes connection with the server, gets Rlock object
     and use it like its own lock and creates a flag "running" which allows to kill thread
     """
     super(CommandReceiver, self).__init__()
     self._server_connection = RESTClient(
         server_host, server_port, commands_url)
     self._is_running = True
     self._command_queue = []
     self._lock = lock
Пример #3
0
class CommandReceiver(threading.Thread):
    """
    This class connect to the server and get new commands to execute
    """

    def __init__(self, server_host, server_port, commands_url, lock):
        """
        This constructor method makes connection with the server, gets Rlock object
        and use it like its own lock and creates a flag "running" which allows to kill thread
        """
        super(CommandReceiver, self).__init__()
        self._server_connection = RESTClient(
            server_host, server_port, commands_url)
        self._is_running = True
        self._command_queue = []
        self._lock = lock

    def run(self):
        """
        This is the main method of an receiver.
        It checks if there`re any new commands on the server
        and in case if there are it returns these commands
        as self._current_commnad_type & self._current_command_body.
        """
        while self._is_running:
            self._receive_command()
            sleep(.05)

    def _receive_command(self):
        """
        It gets response from the server.
        If data is in command format then we add it to command queue
        """
        data = self._server_connection.GET_request(True, 0)
        if data['type'] != 'none':
            self._lock.acquire()
            try:
                self._command_queue.append(Command(data['type'], data['command']))
                logger.info('Command received: {} : {}'.format(data['type'], data['command']))
            finally:
                self._lock.release()

    def get_state(self):
        """
        It return the first command from the queue if it exist
        """
        if not self._command_queue:
            return None
        command = self._command_queue.pop(0)
        return command

    def is_state(self):
        """
        Return True if the command queue is not empty
        """
        if not self._command_queue:
            return False
        else:
            return True
Пример #4
0
class OutputUpdater(threading.Thread):
    def __init__(self, lock):
        """
        This is a constructor method for an updater
        class of the Arius output module.

        In creates a HTTP-client instance to communicate with
        server in order to get commands and takes give
        instance of RLock and sets it as its lock.

        Also, it creates a flag 'running' which allwos to kill
        this thread.
        """
        threading.Thread.__init__(self)

        self._server_host = config["output_server_host"]
        self._server_port = config["output_server_port"]
        self._server_url = config["output_server_url"]

        self._server_connection = RESTClient(self._server_host,
                                             self._server_port,
                                             self._server_url)

        self._command_queue = []

        self._current_command_type = None
        self._current_command_body = None

        self._lock = lock

        self.running = True

    def run(self):
        """
        This is the main method of an updater.
        It checks if there`re any new commands on the server
        and in case if there are it returns these commands
        as self._current_commnad_type & self._current_command_body.
        """
        while self.running:
            # print "updated"
            data = self._server_connection.GET_request(True, 0)
            if data['type'] != 'none':
                logger.debug('Received data {}'.format(data))
                self._lock.acquire()
                try:
                    self._command_queue.append(
                        Command(data['type'], data['command']))
                    logger.info('Command received: {} : {}'.format(
                        data['type'], data['command']))
                finally:
                    self._lock.release()
            else:
                pass
            time.sleep(.05)

    def reset(self):
        """
        Just reset all values.
        """
        self._lock.acquire()
        self._command_queue[:] = []
        self._lock.release()

    def get_state(self):
        """
        Return current values. Pure try to provide
        incapsulation.
        """
        if not self._command_queue:
            return None, None
        data = self._command_queue.pop(0)
        return data.c_type, data.c_body

    def _is_command(self):
        """
        Return True if there is command which output
        have to execue
        """
        if self._command_queue:
            return True
        else:
            return False
Пример #5
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import sys
sys.path.append("../")
from client import RESTClient
#input_connection = RESTClient('127.0.0.1', 5000, '/core/input')
output_connection = RESTClient('127.0.0.1', 5000, '/core/output')

while True:
    t = raw_input()
    data = raw_input()
    command = {
        "type": t,
        # "type": "SPEECH",
        "command": data
    }

    response = output_connection.send_data_in_POST(command, True, 0)
    print '======='

Пример #6
0
sys.path.append("../")
from client import RESTClient
from config import config

host = config['flask_server_address']
port = config['flask_server_port']
input_url = config['flask_server_input_client']

parser = argparse.ArgumentParser()
parser.add_argument('-f',
                    '--filename',
                    default='none',
                    help="Send first phrases from file")
args = parser.parse_args()

input_client = RESTClient(host, port, input_url)

activation = ['ok arius']
search_request = [
    'what is abiliton', 'data science', 'mylko', 'iot', 'softserve'
]
commands = [
    'zoom in', 'enlagre bitch', 'zoom out', 'scroll down now!',
    'could you please scroll up'
]
cancel = ['bye', 'thanks']

activated = False

while True:
    request = []
Пример #7
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def request(testcase_spec):
    request_obj = RESTCase.Get_request_obj(testcase_spec)
    with RESTClient() as client:
        responseInfo = client.request(request_obj)
    return responseInfo
Пример #8
0
import random
import sys
sys.path.append("../")
from client import RESTClient
from config import config

host = config['flask_server_address']
port = config['flask_server_port']
input_url = config['flask_server_input_client']

parser = argparse.ArgumentParser()
parser.add_argument('-f', '--filename', default='none',
                    help="Send first phrases from file")
args = parser.parse_args()

input_client = RESTClient(host, port, input_url)

activation = ['ok arius']
search_request = ['what is abiliton',
                  'data science', 'mylko', 'iot', 'softserve']
commands = ['zoom in', 'enlagre bitch', 'zoom out',
            'scroll down now!', 'could you please scroll up']
cancel = ['bye', 'thanks']

activated = False

while True:
    request = []
    choice = random.random()
    delay = (random.random() * 10) + 1
    if not activated: