import numpy as np import sys sys.path.append('../') class ConditionalIntensityMatrix: """Abstracts the Conditional Intesity matrix of a node as aggregation of the state residence times vector and state transition matrix and the actual CIM matrix. :param state_residence_times: state residence times vector :type state_residence_times: numpy.array :param state_transition_matrix: the transitions count matrix :type state_transition_matrix: numpy.ndArray :_cim: the actual cim of the node """ def __init__(self, state_residence_times: np.array, state_transition_matrix: np.array): """Constructor Method """ self._state_residence_times = state_residence_times self._state_transition_matrix = state_transition_matrix self._cim = self.state_transition_matrix.astype(np.float64) def compute_cim_coefficients(self): """Compute the coefficients of the matrix _cim by using the following equality q_xx' = M[x, x'] / T[x]. The class member ``_cim`` will contain the computed cim """ np.fill_diagonal(self._cim, self._cim.diagonal() * -1) self._cim = ((self._cim.T + 1) / (self._state_residence_times + 1)).T @property def state_residence_times(self): return self._state_residence_times @property def state_transition_matrix(self): return self._state_transition_matrix @property def cim(self): return self._cim def __repr__(self): return 'CIM:\n' + str(self.cim)