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# -*- coding: utf-8 -*-
"""
========================================================
2D free support Wasserstein barycenters of distributions
========================================================
Illustration of 2D Wasserstein barycenters if distributions are weighted
sum of diracs.
"""
# Authors: Vivien Seguy <vivien.seguy@iip.ist.i.kyoto-u.ac.jp>
# Rémi Flamary <remi.flamary@polytechnique.edu>
#
# License: MIT License
# sphinx_gallery_thumbnail_number = 2
import numpy as np
import matplotlib.pylab as pl
import ot
# %%
# Generate data
# -------------
N = 2
d = 2
I1 = pl.imread('../../data/redcross.png').astype(np.float64)[::4, ::4, 2]
I2 = pl.imread('../../data/duck.png').astype(np.float64)[::4, ::4, 2]
sz = I2.shape[0]
XX, YY = np.meshgrid(np.arange(sz), np.arange(sz))
x1 = np.stack((XX[I1 == 0], YY[I1 == 0]), 1) * 1.0
x2 = np.stack((XX[I2 == 0] + 80, -YY[I2 == 0] + 32), 1) * 1.0
x3 = np.stack((XX[I2 == 0], -YY[I2 == 0] + 32), 1) * 1.0
measures_locations = [x1, x2]
measures_weights = [ot.unif(x1.shape[0]), ot.unif(x2.shape[0])]
pl.figure(1, (12, 4))
pl.scatter(x1[:, 0], x1[:, 1], alpha=0.5)
pl.scatter(x2[:, 0], x2[:, 1], alpha=0.5)
pl.title('Distributions')
# %%
# Compute free support barycenter
# -------------------------------
k = 200 # number of Diracs of the barycenter
X_init = np.random.normal(0., 1., (k, d)) # initial Dirac locations
b = np.ones((k,)) / k # weights of the barycenter (it will not be optimized, only the locations are optimized)
X = ot.lp.free_support_barycenter(measures_locations, measures_weights, X_init, b)
# %%
# Plot the barycenter
# ---------
pl.figure(2, (8, 3))
pl.scatter(x1[:, 0], x1[:, 1], alpha=0.5)
pl.scatter(x2[:, 0], x2[:, 1], alpha=0.5)
pl.scatter(X[:, 0], X[:, 1], s=b * 1000, marker='s', label='2-Wasserstein barycenter')
pl.title('Data measures and their barycenter')
pl.legend(loc="lower right")
pl.show()
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