def test_Bool(self): self.check(False, Bool()) self.check(0, Bool()) self.check(True, Bool()) self.check(1, Bool()) # Floats, strings, complex numbers and integers # other than 0/1 are not packable self.assertFalse(Bool().is_packable(3.5)) self.assertFalse(Bool().is_packable(3.0)) self.assertFalse(Bool().is_packable("abc")) self.assertFalse(Bool().is_packable(3 + 5j)) self.assertFalse(Bool().is_packable(4)) self.assertFalse(Bool().is_packable(-2))
def test_delta_type(self): """Test mapping python objects to Deltaflow data types.""" # special with self.assertRaises(DeltaTypeError): delta_type(None) # primitive self.assertEqual(delta_type(False), Bool()) self.assertEqual(delta_type(np.bool_(False)), Bool()) self.assertEqual(delta_type(5), Int(Size(32))) self.assertEqual(delta_type(np.int16(5)), Int(Size(16))) self.assertEqual(delta_type(np.int32(5)), Int(Size(32))) self.assertEqual(delta_type(np.int64(5)), Int(Size(64))) self.assertEqual(delta_type(np.uint16(5)), UInt(Size(16))) self.assertEqual(delta_type(np.uint32(5)), UInt(Size(32))) self.assertEqual(delta_type(np.uint64(5)), UInt(Size(64))) self.assertEqual(delta_type(4.2), Float(Size(32))) self.assertEqual(delta_type(np.float32(4.2)), Float(Size(32))) self.assertEqual(delta_type(np.float64(4.2)), Float(Size(64))) self.assertEqual(delta_type(3 + 1j), Complex(Size(64))) self.assertEqual(delta_type(np.complex64(3 + 1j)), Complex(Size(64))) self.assertEqual(delta_type(np.complex128(3 + 1j)), Complex(Size(128))) self.assertEqual(delta_type('c'), Char()) # compound self.assertEqual(delta_type((1, True, 3.7)), Tuple([int, bool, float])) self.assertEqual(delta_type([1, 2, 4]), Array(int, Size(3))) self.assertEqual(delta_type(RecBI(True, 5)), Record(RecBI)) # numpy compound self.assertEqual(delta_type(np.array([1, 2, 3, 4, 5])), Array(Int(Size(64)), Size(5))) self.assertEqual(delta_type(np.array([1, 2.0, 3, 4, 5])), Array(Float(Size(64)), Size(5))) self.assertEqual(delta_type(Str(Size(5)).as_numpy_object("abcde")), Str(Size(5))) self.assertEqual( delta_type( Tuple([int, float, bool]).as_numpy_object((1, 2.0, True))), Tuple([int, float, bool])) self.assertEqual( delta_type(Record(RecBI).as_numpy_object(RecBI(True, 2))), Record(RecBI)) self.assertEqual( delta_type(Union([bool, float, int]).as_numpy_object(5.0)), Union([bool, float, int])) # different combinations self.assertEqual(delta_type([(4, 4.3), (2, 3.3)]), Array(Tuple([int, float]), Size(2)))
def test_Array(self): # primitive elements are properly handled # int are passed as Int, not UInt self.check([1, 2, 3], Array(Int(), Size(3))) # for floats use a dot # might be a potential problem, due to python silent type downcasting self.check([1.0, 2.0, 3.0], Array(Float(), Size(3))) # bool are passed as Bool, not Int self.check([True, False, False], Array(Bool(), Size(3))) # encapsulation of compound types self.check([[1, 2, 3], [4, 5, 6]], Array(Array(Int(), Size(3)), Size(2))) with self.assertRaises(DeltaTypeError): self.check([1, 2, 3, 4, 5, 6], Array(Array(Int(), Size(3)), Size(2))) with self.assertRaises(AssertionError): self.check([1, 2, 3, 4, 5, 6], Array(Int(), Size(6)), Array(Array(Int(), Size(3)), Size(2))) # mixed types self.check([(1, 2, 3), (4, 5, 6)], Array(Tuple([int, int, int]), Size(2))) self.check(["hello", "world"], Array(Str(Size(5)), Size(2))) # numpy self.check_numpy([1, 2, 3, 4, 5], Array(int, Size(5)))
def test_Top(self): """Everything can be accepted as Top().""" self.assertTrue(DeltaGraph.check_wire(Int(), Top())) self.assertTrue(DeltaGraph.check_wire(UInt(), Top())) self.assertTrue(DeltaGraph.check_wire(Bool(), Top())) self.assertTrue(DeltaGraph.check_wire(Tuple([int, bool]), Top())) self.assertTrue(DeltaGraph.check_wire(Union([int, bool]), Top())) self.assertTrue(DeltaGraph.check_wire(Array(int, Size(8)), Top())) self.assertTrue(DeltaGraph.check_wire(Str(), Top())) self.assertTrue(DeltaGraph.check_wire(Record(RecBI), Top())) # however this isn't true if allow_top is set to False with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(Int(), Top(), allow_top=False) with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(UInt(), Top(), allow_top=False) with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(Bool(), Top(), allow_top=False) with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(Tuple([int, bool]), Top(), allow_top=False) with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(Union([int, bool]), Top(), allow_top=False) with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(Array(int, Size(8)), Top(), allow_top=False) with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(Str(), Top(), allow_top=False) with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(Record(RecBI), Top(), allow_top=False) # the sending port cannot have type Top() with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(Top(), Top()) with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(Top(), Int()) with self.assertRaises(DeltaTypeError): DeltaGraph.check_wire(Union([Int(), Top()]), Int())
def test_compound_objects(self): t = Array(Tuple([bool, int]), Size(3)) val = [(True, 1), (False, 2), (True, 3), (False, 4), (True, 5)] self.check(val, t) t = Tuple([int, Tuple([bool, int])]) val = (12, (True, 8)) self.check(val, t) t = Tuple([int, Array(int, Size(2))]) val = (12, [14, 18]) self.check(val, t) t = Tuple([int, Str()]) val = (12, "hello") self.check(val, t) t = Tuple([int, Record(RecBI)]) val = (12, RecBI(True, 8)) self.check(val, t) t = Tuple([int, Union([bool, int])]) val = (12, True) np_val = t.as_numpy_object(val) self.assertEqual(Int().from_numpy_object(np_val[0][0]), 12) self.assertEqual(Bool().from_numpy_object(np_val[0][1][1]), True) t = Record(RecATI) val = RecATI([1, 2], (3.0, 4), 5) self.check(val, t) t = Union([Array(int, Size(2)), int]) val = [1, 2] np_val = t.as_numpy_object(val) new_val = Array(int, Size(2)).from_numpy_object(np_val[0][1]) self.assertEqual(val, new_val) t = Union([str, int]) val = "abcde" np_val = t.as_numpy_object(val) new_val = Str().from_numpy_object(np_val[0][1]) self.assertEqual(val, new_val)
def test_size(self): """Test how many bits each data type takes.""" # primitive self.assertEqual(Int().size, Size(32)) self.assertEqual(UInt().size, Size(32)) self.assertEqual(Bool().size, Size(1)) self.assertEqual(Char().size, Size(8)) self.assertEqual(Float().size, Size(32)) # compound self.assertEqual(Tuple([int, bool]).size, Size(33)) self.assertEqual(Array(int, Size(10)).size, Size(320)) self.assertEqual(Str().size, Size(8192)) self.assertEqual(Record(RecBI).size, Size(33)) # compound: Union self.assertEqual(Union([bool]).size, Size(9)) self.assertEqual(Union([int, bool]).size, Size(40)) self.assertEqual( Union([int, Tuple([int, int])]).size, Size(2 * 32 + 8))
def test_as_python_type(self): """Test conversion of Deltaflow data types to python.""" # special self.assertEqual(Top().as_python_type(), typing.Any) # primitive self.assertEqual(Int(Size(32)).as_python_type(), int) self.assertEqual(Int(Size(64)).as_python_type(), int) self.assertEqual(UInt(Size(32)).as_python_type(), int) self.assertEqual(UInt(Size(64)).as_python_type(), int) self.assertEqual(Bool().as_python_type(), bool) with self.assertRaises(NotImplementedError): Char().as_python_type() self.assertEqual(Float(Size(32)).as_python_type(), float) self.assertEqual(Float(Size(64)).as_python_type(), float) self.assertEqual(Complex(Size(64)).as_python_type(), complex) self.assertEqual(Complex(Size(128)).as_python_type(), complex) # compound self.assertEqual( Tuple([int, bool]).as_python_type(), typing.Tuple[int, bool]) self.assertEqual( Tuple([int, Tuple([int, bool])]).as_python_type(), typing.Tuple[int, typing.Tuple[int, bool]]) self.assertEqual( Array(int, Size(3)).as_python_type(), typing.List[int]) self.assertEqual(Str().as_python_type(), str) self.assertEqual(Str(Size(10)).as_python_type(), str) self.assertEqual(Record(RecBI).as_python_type(), RecBI) self.assertEqual(Record(RecBDi).as_python_type(), RecBDi) self.assertNotEqual(Record(RecBI).as_python_type(), RecBI_copy) # compound: Union self.assertEqual( Union([bool, int]).as_python_type(), typing.Union[bool, int]) self.assertEqual( Union([bool, Tuple([int, bool])]).as_python_type(), typing.Union[bool, typing.Tuple[int, bool]])
def test_str(self): """Test string representation of data types.""" # primitive self.assertEqual(str(Int()), "Int32") self.assertEqual(str(Int(Size(64))), "Int64") self.assertEqual(str(UInt()), "UInt32") self.assertEqual(str(UInt(Size(64))), "UInt64") self.assertEqual(str(Bool()), "Bool") self.assertEqual(str(Char()), "Char8") self.assertEqual(str(Float()), "Float32") self.assertEqual(str(Float(Size(64))), "Float64") # compound self.assertEqual(str(Array(int, Size(8))), "[Int32 x 8]") self.assertEqual(str(Str()), "Str8192") self.assertEqual(str(Str(Size(100))), "Str800") self.assertEqual(str(Tuple([int, bool])), "(Int32, Bool)") self.assertEqual(str(Record(RecBIS)), "{x: Bool, y: Int32, z: Str8192}") self.assertEqual(str(Union([int, bool])), "<Bool | Int32>") # compound: Union self.assertEqual(str(Union([int])), "<Int32>") self.assertEqual(str(Union([int, Union([int, bool])])), "<Bool | Int32>") self.assertEqual(str(Union([int, Union([int, Union([int, bool])])])), "<Bool | Int32>") # encapsulation of various types self.assertEqual(str(Union([int, Tuple([int, bool])])), "<(Int32, Bool) | Int32>") self.assertEqual(str(Array(Tuple([int, bool]), Size(8))), "[(Int32, Bool) x 8]") # special self.assertEqual(str(Top()), "T") self.assertEqual(str(Size(5)), "5") self.assertEqual(str(Size(NamespacedName("a", "b"))), "(a.b)")
def test_Bool_object(self): self.check(False, Bool())
def test_Bool(self): self.assertEqual(Bool().as_numpy_type(), np.bool_)
def test_as_delta_type(self): """Test conversion from python to Deltaflow data types.""" # special self.assertEqual(as_delta_type(object), Top()) self.assertEqual(as_delta_type(type(object)), Top()) self.assertEqual(as_delta_type(type), Top()) self.assertEqual(as_delta_type('random_text'), Top()) with self.assertRaises(DeltaTypeError): as_delta_type(None) with self.assertRaises(DeltaTypeError): as_delta_type(type(None)) # primitive self.assertEqual(as_delta_type(bool), Bool()) self.assertEqual(as_delta_type(np.bool_), Bool()) self.assertEqual(as_delta_type(int), Int(Size(32))) self.assertEqual(as_delta_type(np.int8), Char()) self.assertEqual(as_delta_type(np.int16), Int(Size(16))) self.assertEqual(as_delta_type(np.int32), Int(Size(32))) self.assertEqual(as_delta_type(np.int64), Int(Size(64))) self.assertEqual(as_delta_type(np.uint8), Char()) self.assertEqual(as_delta_type(np.uint16), UInt(Size(16))) self.assertEqual(as_delta_type(np.uint32), UInt(Size(32))) self.assertEqual(as_delta_type(np.uint64), UInt(Size(64))) self.assertEqual(as_delta_type(float), Float()) self.assertEqual(as_delta_type(np.float32), Float(Size(32))) self.assertEqual(as_delta_type(np.float64), Float(Size(64))) self.assertEqual(as_delta_type(complex), Complex()) self.assertEqual(as_delta_type(np.complex64), Complex(Size(64))) self.assertEqual(as_delta_type(np.complex128), Complex(Size(128))) # compound with self.assertRaises(DeltaTypeError): as_delta_type(typing.Tuple[int, bool]) with self.assertRaises(DeltaTypeError): as_delta_type(typing.List[int]) self.assertNotEqual(as_delta_type(str), Array(Char(), Size(1024))) self.assertEqual(as_delta_type(str), Str()) self.assertEqual(as_delta_type(RecBI), Record(RecBI)) # numpy compound self.assertEqual(as_delta_type(Array(int, Size(5)).as_numpy_type()), Array(int, Size(5))) self.assertEqual(as_delta_type(Str().as_numpy_type()), Str()) self.assertEqual( as_delta_type(Tuple([int, bool, float]).as_numpy_type()), Tuple([int, bool, float])) self.assertEqual(as_delta_type(Record(RecBI).as_numpy_type()), Record(RecBI)) self.assertEqual( as_delta_type(Union([bool, float, int]).as_numpy_type()), Union([bool, float, int])) # from string self.assertEqual(as_delta_type('bool'), Bool()) self.assertEqual(as_delta_type('\'bool\''), Bool()) self.assertEqual(as_delta_type('np.bool_'), Bool()) self.assertEqual(as_delta_type('int'), Int(Size(32))) self.assertEqual(as_delta_type('np.int32'), Int(Size(32))) self.assertEqual(as_delta_type('np.uint32'), UInt(Size(32))) self.assertEqual(as_delta_type('float'), Float()) self.assertEqual(as_delta_type('np.float32'), Float(Size(32))) self.assertEqual(as_delta_type('complex'), Complex()) self.assertEqual(as_delta_type('np.complex64'), Complex(Size(64))) self.assertEqual(as_delta_type('str'), Str()) self.assertEqual(as_delta_type("Int(Size(32))"), Int(Size(32))) # 'RecBI' is out of scope when the string is evaluated self.assertEqual(as_delta_type('RecBI'), Top())
def test_Bool(self): self.check(False, Bool()) self.check(0, Bool()) self.check(True, Bool()) self.check(1, Bool()) self.assertTrue(DeltaGraph.check_wire(Raw(Bool()), Raw(Bool())))