# Base Dependencies
# ----------------
import numpy as np
# Package Dependencies
# --------------------
from .dependency_tree import DependencyTree
# Local Dependencies
# ------------------
from models import RelationCollection
# 3rd-Party Dependencies
# ----------------------
import networkx as nx
from sklearn.base import BaseEstimator
class DependencyAdjacencyMatrix(BaseEstimator):
"""
Dependency Adjancency Matrix
Computes the adjacency matrix of the dependency tree for each relation
"""
def __init__(self, selfloops: bool = True, normalization: bool = True):
self.dep_tree = DependencyTree()
self.selfloops = selfloops
self.normalization = normalization
def get_feature_names(self, input_features=None):
return ["dependency_adjancency_matrix"]
def create_dep_adj_matrix(
self,
collection: RelationCollection,
) -> list:
features = []
trees = self.dep_tree.create_dependency_tree(collection)
for T in trees:
# compute adjacency matrix
A = nx.adjacency_matrix(T)
# add selfloops
if self.selfloops:
I = np.identity(n=A.shape[0])
A = A + I
# normalize
if self.normalization:
A = A / A.sum(axis=0)
features.append(A)
return features
def fit(self, x: RelationCollection, y=None):
return self
def transform(self, x: RelationCollection, y=None) -> list:
return self.create_dep_adj_matrix(x)
def fit_transform(self, x: RelationCollection, y=None) -> list:
return self.create_dep_adj_matrix(x)
