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MultiTalk-Code / mesh /tests /test_aabb_n_tree.py

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	#!/usr/bin/env python
	# encoding: utf-8
	# Copyright (c) 2014 Max Planck Society. All rights reserved.

	import os
	import numpy as np
	import unittest

	from . import test_data_folder
	from psbody.mesh.mesh import Mesh
	from psbody.mesh.geometry.tri_normals import TriToScaledNormal, NormalizeRows
	import psbody.mesh.aabb_normals as aabb_normals


	class TestAABBNormal(unittest.TestCase):

	def setUp(self):
	simpleobjpath = os.path.join(test_data_folder, 'test_doublebox.obj')
	self.simple_m = Mesh(filename=simpleobjpath)
	cylinderpath = os.path.join(test_data_folder, 'cylinder.obj')
	self.cylinder_m = Mesh(filename=cylinderpath)
	cylinder_trans_path = os.path.join(test_data_folder, 'cylinder_trans.obj')
	self.cylinder_trans_m = Mesh(filename=cylinder_trans_path)
	self_int_cyl_path = os.path.join(test_data_folder, 'self_intersecting_cyl.obj')
	self.self_int_cyl_m = Mesh(filename=self_int_cyl_path)

	# error_p = \|\|p - q\|\| + eps(1 - p_np_q)
	# therefore, eps=0 should give the classic NN
	def test_dist_classic(self):
	tree_handle = aabb_normals.aabbtree_n_compute(self.simple_m.v,
	self.simple_m.f.astype(np.uint32).copy(),
	0.0)
	query_v = np.array([[0.5, 0.1, 0.25],
	[0.5, 0.1, 0.25]])
	query_n = np.array([[0.0, 1.0, 0.0],
	[1.0, 0.0, 0.0]])
	closest_tri, closest_p = aabb_normals.aabbtree_n_nearest(tree_handle, query_v, query_n)
	self.assertTrue((closest_tri == np.array([[0, 0]])).all())
	self.assertTrue((closest_p == query_v).all())

	def test_dist_normals(self):
	tree_handle = aabb_normals.aabbtree_n_compute(self.simple_m.v,
	self.simple_m.f.astype(np.uint32).copy(),
	0.5)
	query_v = np.array([[0.5, 0.1, 0.25],
	[0.5, 0.1, 0.25]])
	query_n = np.array([[0.0, 1.0, 0.0],
	[1.0, 0.0, 0.0]])
	closest_tri, closest_p = aabb_normals.aabbtree_n_nearest(tree_handle, query_v, query_n)
	self.assertTrue((closest_tri == np.array([[2, 0]])).all())
	self.assertTrue((closest_p == np.array([[0.5, 0.5, 0.25],
	[0.5, 0.1, 0.25]])).all())

	def test_cylinders(self):
	create_tree = lambda eps: aabb_normals.aabbtree_n_compute(self.cylinder_m.v,
	self.cylinder_m.f.astype(np.uint32).copy(),
	eps)
	tree_handle_no_normals = create_tree(0)
	tree_handle_normals = create_tree(10)

	query_v = self.cylinder_trans_m.v

	tri_n = NormalizeRows(TriToScaledNormal(self.cylinder_trans_m.v, self.cylinder_trans_m.f))

	query_n = np.zeros(self.cylinder_trans_m.v.shape)
	for i_f in range(self.cylinder_trans_m.f.shape[0]):
	query_n[self.cylinder_trans_m.f[i_f, :], :] += tri_n[i_f, :]
	query_n = NormalizeRows(query_n)

	closest_tri, _ = aabb_normals.aabbtree_n_nearest(tree_handle_no_normals, query_v, query_n)
	# all closest triangles are the two extremes
	self.assertTrue(np.unique(closest_tri).shape[0] <= 4)

	closest_tri_n, _ = aabb_normals.aabbtree_n_nearest(tree_handle_normals, query_v, query_n)
	# there are four triangles that do not need to be reached, in the center and in the extremes
	self.assertTrue(np.unique(closest_tri_n).shape[0] >= (self.cylinder_m.f.shape[0] - 4))

	def test_selfintersects(self):
	tree_handle_no = aabb_normals.aabbtree_n_compute(self.simple_m.v,
	self.simple_m.f.astype(np.uint32).copy(),
	0.5)

	self.assertTrue(aabb_normals.aabbtree_n_selfintersects(tree_handle_no) == 0)

	tree_handle_yes = aabb_normals.aabbtree_n_compute(self.self_int_cyl_m.v,
	self.self_int_cyl_m.f.astype(np.uint32).copy(),
	0.5)

	self.assertTrue(aabb_normals.aabbtree_n_selfintersects(tree_handle_yes) == (2 * 8))