from vision.model import Image from typing import List import numpy as np from scipy.signal import convolve2d import math as m import cv2 class Edge: def __init__(self, magnitude: np.array, angle: np.array): self.magnitude = magnitude self.angle = angle def get_edge_angle_hist(edge: Edge, bins: int, threshold: float): angle_vals = [] for i in range(edge.magnitude.shape[0]): for j in range(edge.magnitude.shape[1]): if edge.magnitude[i, j] > threshold: bin_val = m.floor((edge.angle[i, j] / (2*np.pi)) * bins) angle_vals.append(bin_val) if len(angle_vals) > 0: return np.histogram(angle_vals, bins=bins, density=True)[0] else: return np.zeros(bins) def get_edge_info(pixels: np.array = None, image: Image = None, images: List[Image] = None, blur: bool = True): if pixels is None and image is None and images is None: raise KeyError('no image provided') def extract(i): kx = np.array([[-1, 0, 1], [-2, 0, 2], [-1, 0, 1]]) / 4 ky = np.array([[1, 2, 1], [0, 0, 0], [-1, -2, -1]]) / 4 grey = cv2.cvtColor(i, cv2.COLOR_BGR2GRAY) if blur is True: grey = convolve2d(grey, np.array([[1, 1, 1], [1, 1, 1], [1, 1, 1]]) / 9) dx = convolve2d(grey, kx) dy = convolve2d(grey, ky) mag = np.sqrt(dx**2 + dy**2) angle = np.arctan2(dy, dx) angle = (angle + 2 * np.pi) % (2 * np.pi) return Edge(mag, angle) if images is not None: for image in images: image.descriptor = extract(image.pixels) return elif image is not None: return extract(image.pixels) else: return extract(pixels)