def test_iden(): SEED = 314 random.seed(SEED) X = range(10, 200, 20) Y = range(10, 200, 20) random.shuffle(X) random.shuffle(Y) img = tid.gen_fake_data(np.vstack([X, Y]), 5, 2.5, (210, 210)) bp_img = tid.band_pass(img, 2, 2.5) res_lm = tid.find_local_max(bp_img, 3, .5) locs, mass, r2 = tid.subpixel_centroid(bp_img, res_lm, 3) assert np.all(np.abs(locs - res_lm) < .05)
import trackpy.identification as tid import matplotlib.pyplot as plt import random import numpy as np X = range(10, 200, 20) Y = range(10, 200, 20) random.shuffle(X) random.shuffle(Y) img = tid.gen_fake_data(np.vstack([X, Y]), 5, 2.5, (210, 210)) bp_img = tid.band_pass(img, 2, 2.5) res_lm = tid.find_local_max(bp_img, 3, .5) locs, mass, r2 = tid.subpixel_centroid(bp_img, res_lm, 3) # make figure fig = plt.figure() ax = fig.gca() # display image ax.imshow(bp_img, cmap='gray', interpolation='nearest') # add pixval like output ax.format_coord = lambda x, y: 'r=%d,c=%d,v=%0.2f' % ( int(x + .5), int(y + .5), bp_img[int(x + .5), int(y + .5)] if int(x + .5) < bp_img.shape[0] and int(y + .5) < bp_img.shape[1] else 0) ax.plot(*locs, linestyle='none', marker='o') plt.show()
root.withdraw() f_path,f_name = os.path.split(tkFileDialog.askopenfilename()) im= plt.imread(os.path.join(f_path,f_name)) '''X = range(10, 200, 20) Y = range(10, 200, 20) Z = range(100) random.shuffle(X) random.shuffle(Y) img = tid.gen_fake_data(np.vstack([X, Y]), 5, 2.5, (210, 210))''' bp_img = tid.band_pass(im, 2, 2.5) res_lm = tid.find_local_max(bp_img, 3, .5) locs, mass, r2 = tid.subpixel_centroid(bp_img, res_lm, 3) # make figure fig = plt.figure() ax = fig.gca() # display image ax.imshow(bp_img, cmap='gray', interpolation='nearest') # add pixval like output ax.format_coord = lambda x, y: 'r=%d,c=%d,v=%0.2f' % (int(x + .5), int(y + .5), bp_img[int(x + .5), int(y + .5)] if int(x + .5) < bp_img.shape[0] and int(y + .5) < bp_img.shape[1] else 0) ax.plot(*locs, linestyle='none', marker='o')
def iden_image(img_array, p_rad, hwhm, d_rad, threshold, mask_rad): '''Takes an image array and all the parameters necessary to do the identification''' bp_img = tid.band_pass(img_array, p_rad, hwhm) res_lm = tid.find_local_max(bp_img, d_rad, threshold) locs, mass, r2 = tid.subpixel_centroid(bp_img, res_lm, mask_rad) return locs, mass, r2