Add _repr_latex_ methods for IPython prettyprint
[linpy.git] / pypol / tests / test_linexprs.py
index 508c57b..01f844f 100644 (file)
@@ -19,8 +19,8 @@ class TestExpression(unittest.TestCase):
         self.expr = self.x - 2*self.y + 3
 
     def test_new(self):
-        self.assertIsInstance(self.x, Symbol)
-        self.assertIsInstance(self.pi, Rational)
+        self.assertIsInstance(Expression(coefficients={self.x: 1}), Symbol)
+        self.assertIsInstance(Expression(constant=self.pi), Rational)
         self.assertNotIsInstance(self.x + self.pi, Symbol)
         self.assertNotIsInstance(self.x + self.pi, Rational)
         xx = Expression({self.x: 2})
@@ -59,7 +59,7 @@ class TestExpression(unittest.TestCase):
             self.expr[self.expr]
 
     def test_coefficients(self):
-        self.assertCountEqual(self.expr.coefficients(), [(self.x, 1), (self.y, -2)])
+        self.assertListEqual(list(self.expr.coefficients()), [(self.x, 1), (self.y, -2)])
 
     def test_constant(self):
         self.assertEqual(self.x.constant, 0)
@@ -67,9 +67,9 @@ class TestExpression(unittest.TestCase):
         self.assertEqual(self.expr.constant, 3)
 
     def test_symbols(self):
-        self.assertCountEqual(self.x.symbols, [self.x])
-        self.assertCountEqual(self.pi.symbols, [])
-        self.assertCountEqual(self.expr.symbols, [self.x, self.y])
+        self.assertTupleEqual(self.x.symbols, (self.x,))
+        self.assertTupleEqual(self.pi.symbols, ())
+        self.assertTupleEqual(self.expr.symbols, (self.x, self.y))
 
     def test_dimension(self):
         self.assertEqual(self.x.dimension, 1)
@@ -87,7 +87,7 @@ class TestExpression(unittest.TestCase):
         self.assertFalse(self.expr.issymbol())
 
     def test_values(self):
-        self.assertCountEqual(self.expr.values(), [1, -2, 3])
+        self.assertListEqual(list(self.expr.values()), [1, -2, 3])
 
     def test_bool(self):
         self.assertTrue(self.x)
@@ -117,11 +117,15 @@ class TestExpression(unittest.TestCase):
         self.assertEqual(self.expr * 0, 0)
         self.assertEqual(0 * self.expr, 0)
         self.assertEqual(self.expr * 2, 2*self.x - 4*self.y + 6)
+        with self.assertRaises(TypeError):
+            self.x * self.x
 
     def test_truediv(self):
         with self.assertRaises(ZeroDivisionError):
             self.expr / 0
         self.assertEqual(self.expr / 2, self.x / 2 - self.y + Fraction(3, 2))
+        with self.assertRaises(TypeError):
+            self.x / self.x
 
     def test_eq(self):
         self.assertEqual(self.expr, self.expr)
@@ -225,11 +229,6 @@ class TestSymbol(unittest.TestCase):
         with self.assertRaises(TypeError):
             Symbol.fromsympy(sp_x*sp_x)
 
-    def test_symbols(self):
-        self.assertListEqual(list(symbols('x y')), [self.x, self.y])
-        self.assertListEqual(list(symbols('x,y')), [self.x, self.y])
-        self.assertListEqual(list(symbols(['x', 'y'])), [self.x, self.y])
-
 
 class TestDummy(unittest.TestCase):
 
@@ -247,13 +246,36 @@ class TestDummy(unittest.TestCase):
         self.assertNotEqual(self.x, Dummy('x'))
         self.assertNotEqual(Dummy(), Dummy())
 
+    def test_repr(self):
+        self.assertEqual(repr(self.x), '_x')
+        dummy1 = Dummy()
+        dummy2 = Dummy()
+        self.assertTrue(repr(dummy1).startswith('_Dummy_'))
+        self.assertNotEqual(repr(dummy1), repr(dummy2))
+
+
+class TestSymbols(unittest.TestCase):
+
+    def setUp(self):
+        self.x = Symbol('x')
+        self.y = Symbol('y')
+
+    def test(self):
+        self.assertTupleEqual(symbols('x y'), (self.x, self.y))
+        self.assertTupleEqual(symbols('x,y'), (self.x, self.y))
+        self.assertTupleEqual(symbols(['x', 'y']), (self.x, self.y))
+        with self.assertRaises(TypeError):
+            symbols(1)
+        with self.assertRaises(TypeError):
+            symbols(['a', 1])
+
 
 class TestRational(unittest.TestCase):
 
     def setUp(self):
         self.zero = Rational(0)
         self.one = Rational(1)
-        self.pi = Rational(Fraction(22, 7))
+        self.pi = Rational(22, 7)
 
     def test_new(self):
         self.assertEqual(Rational(), self.zero)
@@ -261,6 +283,10 @@ class TestRational(unittest.TestCase):
         self.assertEqual(Rational(self.pi), self.pi)
         self.assertEqual(Rational('22/7'), self.pi)
 
+    def test_hash(self):
+        self.assertEqual(hash(self.one), hash(1))
+        self.assertEqual(hash(self.pi), hash(Fraction(22, 7)))
+
     def test_isconstant(self):
         self.assertTrue(self.zero.isconstant())