+# Copyright 2014 MINES ParisTech
+#
+# This file is part of Linpy.
+#
+# Linpy is free software: you can redistribute it and/or modify
+# it under the terms of the GNU General Public License as published by
+# the Free Software Foundation, either version 3 of the License, or
+# (at your option) any later version.
+#
+# Linpy is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with Linpy. If not, see <http://www.gnu.org/licenses/>.
+
import unittest
from ..domains import *
self.complement = Or(Ge(-x - 1, 0), Ge(x - 3, 0), And(Ge(x, 0), Ge(-x + 2, 0), Ge(-y - 1, 0)), And(Ge(x, 0), Ge(-x + 2, 0), Ge(y - 3, 0)))
self.hull = And(Ge(x, 0), Ge(-x + 2, 0), Ge(y, 0), Ge(-y + 2, 0))
self.dropped = And(Ge(y, 0), Ge(-y + 2, 0))
- self.sample = And(Eq(y - 3, 0), Eq(x - 1, 0))
self.intersection = And(Ge(x - 1, 0), Ge(-x + 2, 0), Ge(y - 1, 0), Ge(-y + 2, 0))
self.union = Or(And(Ge(x, 0), Ge(-x + 2, 0), Ge(y, 0), Ge(-y + 2, 0)), And(Ge(x - 1, 0), Ge(-x + 3, 0), Ge(y - 1, 0), Ge(-y + 3, 0)))
self.sum1 = Or(And(Ge(x, 0), Ge(-x + 2, 0), Ge(y, 0), Ge(-y + 2, 0)), And(Ge(x - 1, 0), Ge(-x + 3, 0), Ge(y - 1, 0), Ge(-y + 3, 0)))
def test_disjoint(self):
self.assertEqual(self.square1.disjoint(), self.disjoint)
+ self.assertEqual(self.empty.disjoint(), Empty)
+ self.assertEqual(self.universe.disjoint(), self.universe)
def test_isempty(self):
self.assertFalse(self.square1.isempty())
self.assertTrue(self.empty.isempty())
+ self.assertFalse(self.universe.isempty())
def test_isuniverse(self):
self.assertFalse(self.square1.isuniverse())
def test_eq(self):
self.assertTrue(self.square1 == self.square1)
self.assertFalse(self.square1 == self.square2)
+ self.assertFalse(self.empty == self.universe)
def test_isdisjoint(self):
- self.assertFalse(self.square1.isdisjoint(self.square2))
+ self.assertFalse(self.square1.isdisjoint(self.square2))
self.assertFalse(self.universe.isdisjoint(self.square1))
self.assertTrue(self.square1.isdisjoint(self.square5))
self.assertTrue(self.empty.isdisjoint(self.square1))
self.assertFalse(self.square3 <= self.square4)
self.assertTrue(self.empty <= self.square1)
self.assertTrue(self.square1 <= self.universe)
-
+
def test_lt(self):
self.assertTrue(self.square4 < self.square3)
self.assertFalse(self.square3 < self.square4)
self.assertEqual(~self.universe, Empty)
self.assertEqual(~self.empty, self.universe)
- def test_polyhedral_hull(self):
- self.assertEqual(self.square1.polyhedral_hull(), self.hull)
- self.assertEqual(self.universe.polyhedral_hull(), self.universe)
- self.assertEqual(self.empty.polyhedral_hull(), self.empty)
+ def test_aspolyhedron(self):
+ self.assertEqual(self.square1.aspolyhedron(), self.hull)
+ self.assertEqual(self.universe.aspolyhedron(), self.universe)
+ self.assertEqual(self.empty.aspolyhedron(), self.empty)
- def test_project_out(self):
- self.assertEqual(self.square1.project_out(symbols('x')), self.dropped)
- self.assertEqual(self.square1.project_out(symbols('x y')), self.universe)
- self.assertEqual(self.universe.project_out([]), self.universe)
- self.assertEqual(self.empty.project_out([]), Empty)
+ def test_project(self):
+ self.assertEqual(self.square1.project(symbols('x')), self.dropped)
+ self.assertEqual(self.square1.project(symbols('x y')), self.universe)
+ self.assertEqual(self.universe.project([]), self.universe)
+ self.assertEqual(self.empty.project([]), Empty)
def test_simplify(self):
self.assertEqual(self.universe.simplify(), self.universe)
self.assertEqual(self.empty.simplify(), Empty)
def test_sample(self):
- self.assertEqual(self.square6.sample(), self.sample)
- self.assertEqual(self.empty.sample(), Empty)
- self.assertEqual(self.universe.sample(), self.universe)
-
+ self.assertEqual(self.square6.sample(), {Symbol('x'): 1, Symbol('y'): 3})
+ with self.assertRaises(ValueError):
+ self.empty.sample()
+ self.assertEqual(self.universe.sample(), {})
+
def test_intersection(self):
self.assertEqual(self.square1.intersection(self.square2), self.intersection)
self.assertEqual(self.square1.lexmax(), self.lexmax)
self.assertEqual(self.universe.lexmax(), self.universe)
self.assertEqual(self.empty.lexmax(), Empty)
+
+ def test_num_parameters(self):
+ self.assertEqual(self.square1.num_parameters(), 2)
+ self.assertEqual(self.empty.num_parameters(), 0)
+ self.assertEqual(self.universe.num_parameters(), 0)
+
+ def test_involves_dims(self):
+ self.assertTrue(self.square1.involves_dims(symbols('x y')))
+ self.assertFalse(self.empty.involves_dims(symbols('x')))
+ self.assertFalse(self.universe.involves_dims(symbols('x')))