From a8fa91bec26caa93329e61a104e0ad6afdf37363 Mon Sep 17 00:00:00 2001 From: Slasnista Date: Mon, 28 Aug 2017 11:03:28 +0200 Subject: handling input arguments in fit, transform... methods + remove old examples --- examples/plot_OTDA_2D.py | 126 ----------------------------------------------- 1 file changed, 126 deletions(-) delete mode 100644 examples/plot_OTDA_2D.py (limited to 'examples/plot_OTDA_2D.py') diff --git a/examples/plot_OTDA_2D.py b/examples/plot_OTDA_2D.py deleted file mode 100644 index f2108c6..0000000 --- a/examples/plot_OTDA_2D.py +++ /dev/null @@ -1,126 +0,0 @@ -# -*- coding: utf-8 -*- -""" -============================== -OT for empirical distributions -============================== - -""" - -# Author: Remi Flamary -# -# License: MIT License - -import numpy as np -import matplotlib.pylab as pl -import ot - - -#%% parameters - -n = 150 # nb bins - -xs, ys = ot.datasets.get_data_classif('3gauss', n) -xt, yt = ot.datasets.get_data_classif('3gauss2', n) - -a, b = ot.unif(n), ot.unif(n) -# loss matrix -M = ot.dist(xs, xt) -# M/=M.max() - -#%% plot samples - -pl.figure(1) -pl.subplot(2, 2, 1) -pl.scatter(xs[:, 0], xs[:, 1], c=ys, marker='+', label='Source samples') -pl.legend(loc=0) -pl.title('Source distributions') - -pl.subplot(2, 2, 2) -pl.scatter(xt[:, 0], xt[:, 1], c=yt, marker='o', label='Target samples') -pl.legend(loc=0) -pl.title('target distributions') - -pl.figure(2) -pl.imshow(M, interpolation='nearest') -pl.title('Cost matrix M') - - -#%% OT estimation - -# EMD -G0 = ot.emd(a, b, M) - -# sinkhorn -lambd = 1e-1 -Gs = ot.sinkhorn(a, b, M, lambd) - - -# Group lasso regularization -reg = 1e-1 -eta = 1e0 -Gg = ot.da.sinkhorn_lpl1_mm(a, ys.astype(np.int), b, M, reg, eta) - - -#%% visu matrices - -pl.figure(3) - -pl.subplot(2, 3, 1) -pl.imshow(G0, interpolation='nearest') -pl.title('OT matrix ') - -pl.subplot(2, 3, 2) -pl.imshow(Gs, interpolation='nearest') -pl.title('OT matrix Sinkhorn') - -pl.subplot(2, 3, 3) -pl.imshow(Gg, interpolation='nearest') -pl.title('OT matrix Group lasso') - -pl.subplot(2, 3, 4) -ot.plot.plot2D_samples_mat(xs, xt, G0, c=[.5, .5, 1]) -pl.scatter(xs[:, 0], xs[:, 1], c=ys, marker='+', label='Source samples') -pl.scatter(xt[:, 0], xt[:, 1], c=yt, marker='o', label='Target samples') - - -pl.subplot(2, 3, 5) -ot.plot.plot2D_samples_mat(xs, xt, Gs, c=[.5, .5, 1]) -pl.scatter(xs[:, 0], xs[:, 1], c=ys, marker='+', label='Source samples') -pl.scatter(xt[:, 0], xt[:, 1], c=yt, marker='o', label='Target samples') - -pl.subplot(2, 3, 6) -ot.plot.plot2D_samples_mat(xs, xt, Gg, c=[.5, .5, 1]) -pl.scatter(xs[:, 0], xs[:, 1], c=ys, marker='+', label='Source samples') -pl.scatter(xt[:, 0], xt[:, 1], c=yt, marker='o', label='Target samples') -pl.tight_layout() - -#%% sample interpolation - -xst0 = n * G0.dot(xt) -xsts = n * Gs.dot(xt) -xstg = n * Gg.dot(xt) - -pl.figure(4, figsize=(8, 3)) -pl.subplot(1, 3, 1) -pl.scatter(xt[:, 0], xt[:, 1], c=yt, marker='o', - label='Target samples', alpha=0.5) -pl.scatter(xst0[:, 0], xst0[:, 1], c=ys, - marker='+', label='Transp samples', s=30) -pl.title('Interp samples') -pl.legend(loc=0) - -pl.subplot(1, 3, 2) -pl.scatter(xt[:, 0], xt[:, 1], c=yt, marker='o', - label='Target samples', alpha=0.5) -pl.scatter(xsts[:, 0], xsts[:, 1], c=ys, - marker='+', label='Transp samples', s=30) -pl.title('Interp samples Sinkhorn') - -pl.subplot(1, 3, 3) -pl.scatter(xt[:, 0], xt[:, 1], c=yt, marker='o', - label='Target samples', alpha=0.5) -pl.scatter(xstg[:, 0], xstg[:, 1], c=ys, - marker='+', label='Transp samples', s=30) -pl.title('Interp samples Grouplasso') -pl.tight_layout() -pl.show() -- cgit v1.2.3