OrderAnalyser.py 8.6 KB

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  1. # coding: utf8
  2. import re
  3. from collections import Counter
  4. from core.Utils import Utils
  5. from core.Models import Order
  6. from core.NeuroneLauncher import NeuroneLauncher
  7. import logging
  8. logging.basicConfig()
  9. logger = logging.getLogger("kalliope")
  10. class OrderAnalyser:
  11. """
  12. This Class is used to compare the incoming message to the Signal/Order sentences.
  13. """
  14. def __init__(self, order, main_controller=None, brain=None):
  15. """
  16. Class used to load brain and run neuron attached to the received order
  17. :param order: spelt order
  18. :param main_controller
  19. :param brain: loaded brain
  20. """
  21. self.main_controller = main_controller
  22. self.order = order
  23. if isinstance(self.order, str):
  24. self.order = order.decode('utf-8')
  25. self.brain = brain
  26. logger.debug("OrderAnalyser, Received order: %s" % self.order)
  27. def start(self):
  28. # TODO : refactor this method !!
  29. """
  30. This method matches the incoming messages to the signals/order sentences provided in the Brain
  31. """
  32. synapses_found = False
  33. problem_in_neuron_found = False
  34. # create a dict of synapses that have benn launched
  35. launched_synapses = list()
  36. for synapse in self.brain.synapses:
  37. for signal in synapse.signals:
  38. if type(signal) == Order:
  39. if self._spelt_order_match_brain_order_via_table(signal.sentence, self.order):
  40. launched_synapses.append(synapse)
  41. synapses_found = True
  42. logger.debug("Order found! Run neurons: %s" % synapse.neurons)
  43. Utils.print_success("Order matched in the brain. Running synapse \"%s\"" % synapse.name)
  44. # if the order contains bracket, we get parameters said by the user
  45. params = None
  46. if self._is_containing_bracket(signal.sentence):
  47. params = self._associate_order_params_to_values(signal.sentence)
  48. logger.debug("Parameters for order: %s" % params)
  49. for neuron in synapse.neurons:
  50. if isinstance(neuron.parameters, dict):
  51. # print neuron.parameters
  52. if "args" in neuron.parameters:
  53. logger.debug("The neuron wait for parameter")
  54. # check that the user added parameters to his order
  55. if params is None:
  56. # we don't raise an error and break the program but we don't run the neuron
  57. problem_in_neuron_found = True
  58. Utils.print_danger("Error: The neuron %s is waiting for argument. "
  59. "Argument found in bracket in the given order" % neuron.name)
  60. else:
  61. # we add wanted arguments the existing neuron parameter dict
  62. for arg in neuron.parameters["args"]:
  63. if arg in params:
  64. logger.debug("Parameter %s added to the current parameter "
  65. "of the neuron: %s" % (arg, neuron.name))
  66. neuron.parameters[arg] = params[arg]
  67. else:
  68. # we don't raise an error and break the program but
  69. # we don't run the neuron
  70. problem_in_neuron_found = True
  71. Utils.print_danger("Error: Argument \"%s\" not found in the"
  72. " order" % arg)
  73. # if no error detected, we run the neuron
  74. if not problem_in_neuron_found:
  75. NeuroneLauncher.start_neurone(neuron)
  76. else:
  77. Utils.print_danger("A problem has been found in the Synapse.")
  78. if not synapses_found:
  79. Utils.print_info("No synapse match the captured order: %s" % self.order)
  80. # return the list of launched synapse
  81. return launched_synapses
  82. def _associate_order_params_to_values(self, order_to_check):
  83. """
  84. Associate the variables from the order to the incoming user order
  85. :param order_to_check: the order to check
  86. :return: the dict corresponding to the key / value of the params
  87. """
  88. pattern = '\s+(?=[^\{\{\}\}]*\}\})'
  89. # Remove white spaces (if any) between the variable and the double brace then split
  90. list_word_in_order = re.sub(pattern, '', order_to_check).split()
  91. # get the order, defined by the first words before {{
  92. # /!\ Could be empty if order starts with double brace
  93. the_order = order_to_check[:order_to_check.find('{{')]
  94. # remove sentence before order which are sentences not matching anyway
  95. truncate_user_sentence = self.order[self.order.find(the_order):]
  96. truncate_list_word_said = truncate_user_sentence.split()
  97. # make dict var:value
  98. dict_var = {}
  99. for idx, ow in enumerate(list_word_in_order):
  100. if self._is_containing_bracket(ow):
  101. # remove bracket and grab the next value / stop value
  102. var_name = ow.replace("{{", "").replace("}}", "")
  103. stop_value = self._get_next_value_list(list_word_in_order[idx:])
  104. if stop_value is None:
  105. dict_var[var_name] = " ".join(truncate_list_word_said)
  106. break
  107. for word_said in truncate_list_word_said:
  108. if word_said == stop_value:
  109. break
  110. if var_name in dict_var:
  111. dict_var[var_name] += " " + word_said
  112. truncate_list_word_said = truncate_list_word_said[1:]
  113. else:
  114. dict_var[var_name] = word_said
  115. truncate_list_word_said = truncate_list_word_said[1:]
  116. return dict_var
  117. @staticmethod
  118. def _is_containing_bracket(sentence):
  119. """
  120. Return True if the text in <sentence> contains brackets
  121. :param sentence:
  122. :return:
  123. """
  124. # print "sentence to test %s" % sentence
  125. pattern = r"{{|}}"
  126. # prog = re.compile(pattern)
  127. check_bool = re.search(pattern, sentence)
  128. if check_bool is not None:
  129. return True
  130. return False
  131. @staticmethod
  132. def _get_next_value_list(list_to_check):
  133. ite = list_to_check.__iter__()
  134. next(ite, None)
  135. return next(ite, None)
  136. def _spelt_order_match_brain_order_via_table(self, order_to_analyse, user_said):
  137. """
  138. return true if all string that are in the sentence are present in the order to test
  139. :param order_to_analyse: String order to test
  140. :param user_said: String to compare to the order
  141. :return: True if all string are present in the order
  142. """
  143. list_word_user_said = user_said.split()
  144. split_order_without_bracket = self._get_split_order_without_bracket(order_to_analyse)
  145. # if all words in the list of what the user said in in the list of word in the order
  146. return self._counter_subset(split_order_without_bracket, list_word_user_said)
  147. @staticmethod
  148. def _get_split_order_without_bracket(order):
  149. """
  150. Get an order with bracket inside like: "hello my name is {{ name }}.
  151. return a list of string without bracket like ["hello", "my", "name", "is"]
  152. :param order: sentence to split
  153. :return: list of string without bracket
  154. """
  155. pattern = r"((?:{{\s*)[\w\.]+(?:\s*}}))"
  156. # find everything like {{ word }}
  157. matches = re.findall(pattern, order)
  158. for match in matches:
  159. order = order.replace(match, "")
  160. # then split
  161. split_order = order.split()
  162. return split_order
  163. @staticmethod
  164. def _counter_subset(list1, list2):
  165. """
  166. check if the number of occurrences matches
  167. :param list1:
  168. :param list2:
  169. :return:
  170. """
  171. c1, c2 = Counter(list1), Counter(list2)
  172. for k, n in c1.items():
  173. if n > c2[k]:
  174. return False
  175. return True