ext/pybind11/tests/test_stl.py - amd/gem5 - Git at Google

 import pytest

 from pybind11_tests import stl as m
 from pybind11_tests import UserType


 def test_vector(doc):
     """std::vector <-> list"""
     l = m.cast_vector()
     assert l == [1]
     l.append(2)
     assert m.load_vector(l)
     assert m.load_vector(tuple(l))

     assert m.cast_bool_vector() == [True, False]
     assert m.load_bool_vector([True, False])

     assert doc(m.cast_vector) == "cast_vector() -> List[int]"
     assert doc(m.load_vector) == "load_vector(arg0: List[int]) -> bool"

     # Test regression caused by 936: pointers to stl containers weren't castable
     assert m.cast_ptr_vector() == ["lvalue", "lvalue"]


 def test_array(doc):
     """std::array <-> list"""
     l = m.cast_array()
     assert l == [1, 2]
     assert m.load_array(l)

     assert doc(m.cast_array) == "cast_array() -> List[int[2]]"
     assert doc(m.load_array) == "load_array(arg0: List[int[2]]) -> bool"


 def test_valarray(doc):
     """std::valarray <-> list"""
     l = m.cast_valarray()
     assert l == [1, 4, 9]
     assert m.load_valarray(l)

     assert doc(m.cast_valarray) == "cast_valarray() -> List[int]"
     assert doc(m.load_valarray) == "load_valarray(arg0: List[int]) -> bool"


 def test_map(doc):
     """std::map <-> dict"""
     d = m.cast_map()
     assert d == {"key": "value"}
     d["key2"] = "value2"
     assert m.load_map(d)

     assert doc(m.cast_map) == "cast_map() -> Dict[str, str]"
     assert doc(m.load_map) == "load_map(arg0: Dict[str, str]) -> bool"


 def test_set(doc):
     """std::set <-> set"""
     s = m.cast_set()
     assert s == {"key1", "key2"}
     s.add("key3")
     assert m.load_set(s)

     assert doc(m.cast_set) == "cast_set() -> Set[str]"
     assert doc(m.load_set) == "load_set(arg0: Set[str]) -> bool"


 def test_recursive_casting():
     """Tests that stl casters preserve lvalue/rvalue context for container values"""
     assert m.cast_rv_vector() == ["rvalue", "rvalue"]
     assert m.cast_lv_vector() == ["lvalue", "lvalue"]
     assert m.cast_rv_array() == ["rvalue", "rvalue", "rvalue"]
     assert m.cast_lv_array() == ["lvalue", "lvalue"]
     assert m.cast_rv_map() == {"a": "rvalue"}
     assert m.cast_lv_map() == {"a": "lvalue", "b": "lvalue"}
     assert m.cast_rv_nested() == [[[{"b": "rvalue", "c": "rvalue"}], [{"a": "rvalue"}]]]
     assert m.cast_lv_nested() == {
         "a": [[["lvalue", "lvalue"]], [["lvalue", "lvalue"]]],
         "b": [[["lvalue", "lvalue"], ["lvalue", "lvalue"]]]
     }

     # Issue #853 test case:
     z = m.cast_unique_ptr_vector()
     assert z[0].value == 7 and z[1].value == 42


 def test_move_out_container():
     """Properties use the `reference_internal` policy by default. If the underlying function
     returns an rvalue, the policy is automatically changed to `move` to avoid referencing
     a temporary. In case the return value is a container of user-defined types, the policy
     also needs to be applied to the elements, not just the container."""
     c = m.MoveOutContainer()
     moved_out_list = c.move_list
     assert [x.value for x in moved_out_list] == [0, 1, 2]


 @pytest.mark.skipif(not hasattr(m, "has_optional"), reason='no <optional>')
 def test_optional():
     assert m.double_or_zero(None) == 0
     assert m.double_or_zero(42) == 84
     pytest.raises(TypeError, m.double_or_zero, 'foo')

     assert m.half_or_none(0) is None
     assert m.half_or_none(42) == 21
     pytest.raises(TypeError, m.half_or_none, 'foo')

     assert m.test_nullopt() == 42
     assert m.test_nullopt(None) == 42
     assert m.test_nullopt(42) == 42
     assert m.test_nullopt(43) == 43

     assert m.test_no_assign() == 42
     assert m.test_no_assign(None) == 42
     assert m.test_no_assign(m.NoAssign(43)) == 43
     pytest.raises(TypeError, m.test_no_assign, 43)

     assert m.nodefer_none_optional(None)


 @pytest.mark.skipif(not hasattr(m, "has_exp_optional"), reason='no <experimental/optional>')
 def test_exp_optional():
     assert m.double_or_zero_exp(None) == 0
     assert m.double_or_zero_exp(42) == 84
     pytest.raises(TypeError, m.double_or_zero_exp, 'foo')

     assert m.half_or_none_exp(0) is None
     assert m.half_or_none_exp(42) == 21
     pytest.raises(TypeError, m.half_or_none_exp, 'foo')

     assert m.test_nullopt_exp() == 42
     assert m.test_nullopt_exp(None) == 42
     assert m.test_nullopt_exp(42) == 42
     assert m.test_nullopt_exp(43) == 43

     assert m.test_no_assign_exp() == 42
     assert m.test_no_assign_exp(None) == 42
     assert m.test_no_assign_exp(m.NoAssign(43)) == 43
     pytest.raises(TypeError, m.test_no_assign_exp, 43)


 @pytest.mark.skipif(not hasattr(m, "load_variant"), reason='no <variant>')
 def test_variant(doc):
     assert m.load_variant(1) == "int"
     assert m.load_variant("1") == "std::string"
     assert m.load_variant(1.0) == "double"
     assert m.load_variant(None) == "std::nullptr_t"

     assert m.load_variant_2pass(1) == "int"
     assert m.load_variant_2pass(1.0) == "double"

     assert m.cast_variant() == (5, "Hello")

     assert doc(m.load_variant) == "load_variant(arg0: Union[int, str, float, None]) -> str"


 def test_vec_of_reference_wrapper():
     """#171: Can't return reference wrappers (or STL structures containing them)"""
     assert str(m.return_vec_of_reference_wrapper(UserType(4))) == \
         "[UserType(1), UserType(2), UserType(3), UserType(4)]"


 def test_stl_pass_by_pointer(msg):
     """Passing nullptr or None to an STL container pointer is not expected to work"""
     with pytest.raises(TypeError) as excinfo:
         m.stl_pass_by_pointer()  # default value is `nullptr`
     assert msg(excinfo.value) == """
         stl_pass_by_pointer(): incompatible function arguments. The following argument types are supported:
             1. (v: List[int]=None) -> List[int]

         Invoked with:
     """  # noqa: E501 line too long

     with pytest.raises(TypeError) as excinfo:
         m.stl_pass_by_pointer(None)
     assert msg(excinfo.value) == """
         stl_pass_by_pointer(): incompatible function arguments. The following argument types are supported:
             1. (v: List[int]=None) -> List[int]

         Invoked with: None
     """  # noqa: E501 line too long

     assert m.stl_pass_by_pointer([1, 2, 3]) == [1, 2, 3]


 def test_missing_header_message():
     """Trying convert `list` to a `std::vector`, or vice versa, without including
     <pybind11/stl.h> should result in a helpful suggestion in the error message"""
     import pybind11_cross_module_tests as cm

     expected_message = ("Did you forget to `#include <pybind11/stl.h>`? Or <pybind11/complex.h>,\n"
                         "<pybind11/functional.h>, <pybind11/chrono.h>, etc. Some automatic\n"
                         "conversions are optional and require extra headers to be included\n"
                         "when compiling your pybind11 module.")

     with pytest.raises(TypeError) as excinfo:
         cm.missing_header_arg([1.0, 2.0, 3.0])
     assert expected_message in str(excinfo.value)

     with pytest.raises(TypeError) as excinfo:
         cm.missing_header_return()
     assert expected_message in str(excinfo.value)
	import pytest

	from pybind11_tests import stl as m
	from pybind11_tests import UserType


	def test_vector(doc):
	"""std::vector <-> list"""
	l = m.cast_vector()
	assert l == [1]
	l.append(2)
	assert m.load_vector(l)
	assert m.load_vector(tuple(l))

	assert m.cast_bool_vector() == [True, False]
	assert m.load_bool_vector([True, False])

	assert doc(m.cast_vector) == "cast_vector() -> List[int]"
	assert doc(m.load_vector) == "load_vector(arg0: List[int]) -> bool"

	# Test regression caused by 936: pointers to stl containers weren't castable
	assert m.cast_ptr_vector() == ["lvalue", "lvalue"]


	def test_array(doc):
	"""std::array <-> list"""
	l = m.cast_array()
	assert l == [1, 2]
	assert m.load_array(l)

	assert doc(m.cast_array) == "cast_array() -> List[int[2]]"
	assert doc(m.load_array) == "load_array(arg0: List[int[2]]) -> bool"


	def test_valarray(doc):
	"""std::valarray <-> list"""
	l = m.cast_valarray()
	assert l == [1, 4, 9]
	assert m.load_valarray(l)

	assert doc(m.cast_valarray) == "cast_valarray() -> List[int]"
	assert doc(m.load_valarray) == "load_valarray(arg0: List[int]) -> bool"


	def test_map(doc):
	"""std::map <-> dict"""
	d = m.cast_map()
	assert d == {"key": "value"}
	d["key2"] = "value2"
	assert m.load_map(d)

	assert doc(m.cast_map) == "cast_map() -> Dict[str, str]"
	assert doc(m.load_map) == "load_map(arg0: Dict[str, str]) -> bool"


	def test_set(doc):
	"""std::set <-> set"""
	s = m.cast_set()
	assert s == {"key1", "key2"}
	s.add("key3")
	assert m.load_set(s)

	assert doc(m.cast_set) == "cast_set() -> Set[str]"
	assert doc(m.load_set) == "load_set(arg0: Set[str]) -> bool"


	def test_recursive_casting():
	"""Tests that stl casters preserve lvalue/rvalue context for container values"""
	assert m.cast_rv_vector() == ["rvalue", "rvalue"]
	assert m.cast_lv_vector() == ["lvalue", "lvalue"]
	assert m.cast_rv_array() == ["rvalue", "rvalue", "rvalue"]
	assert m.cast_lv_array() == ["lvalue", "lvalue"]
	assert m.cast_rv_map() == {"a": "rvalue"}
	assert m.cast_lv_map() == {"a": "lvalue", "b": "lvalue"}
	assert m.cast_rv_nested() == [[[{"b": "rvalue", "c": "rvalue"}], [{"a": "rvalue"}]]]
	assert m.cast_lv_nested() == {
	"a": [[["lvalue", "lvalue"]], [["lvalue", "lvalue"]]],
	"b": [[["lvalue", "lvalue"], ["lvalue", "lvalue"]]]
	}

	# Issue #853 test case:
	z = m.cast_unique_ptr_vector()
	assert z[0].value == 7 and z[1].value == 42


	def test_move_out_container():
	"""Properties use the `reference_internal` policy by default. If the underlying function
	returns an rvalue, the policy is automatically changed to `move` to avoid referencing
	a temporary. In case the return value is a container of user-defined types, the policy
	also needs to be applied to the elements, not just the container."""
	c = m.MoveOutContainer()
	moved_out_list = c.move_list
	assert [x.value for x in moved_out_list] == [0, 1, 2]


	@pytest.mark.skipif(not hasattr(m, "has_optional"), reason='no <optional>')
	def test_optional():
	assert m.double_or_zero(None) == 0
	assert m.double_or_zero(42) == 84
	pytest.raises(TypeError, m.double_or_zero, 'foo')

	assert m.half_or_none(0) is None
	assert m.half_or_none(42) == 21
	pytest.raises(TypeError, m.half_or_none, 'foo')

	assert m.test_nullopt() == 42
	assert m.test_nullopt(None) == 42
	assert m.test_nullopt(42) == 42
	assert m.test_nullopt(43) == 43

	assert m.test_no_assign() == 42
	assert m.test_no_assign(None) == 42
	assert m.test_no_assign(m.NoAssign(43)) == 43
	pytest.raises(TypeError, m.test_no_assign, 43)

	assert m.nodefer_none_optional(None)


	@pytest.mark.skipif(not hasattr(m, "has_exp_optional"), reason='no <experimental/optional>')
	def test_exp_optional():
	assert m.double_or_zero_exp(None) == 0
	assert m.double_or_zero_exp(42) == 84
	pytest.raises(TypeError, m.double_or_zero_exp, 'foo')

	assert m.half_or_none_exp(0) is None
	assert m.half_or_none_exp(42) == 21
	pytest.raises(TypeError, m.half_or_none_exp, 'foo')

	assert m.test_nullopt_exp() == 42
	assert m.test_nullopt_exp(None) == 42
	assert m.test_nullopt_exp(42) == 42
	assert m.test_nullopt_exp(43) == 43

	assert m.test_no_assign_exp() == 42
	assert m.test_no_assign_exp(None) == 42
	assert m.test_no_assign_exp(m.NoAssign(43)) == 43
	pytest.raises(TypeError, m.test_no_assign_exp, 43)


	@pytest.mark.skipif(not hasattr(m, "load_variant"), reason='no <variant>')
	def test_variant(doc):
	assert m.load_variant(1) == "int"
	assert m.load_variant("1") == "std::string"
	assert m.load_variant(1.0) == "double"
	assert m.load_variant(None) == "std::nullptr_t"

	assert m.load_variant_2pass(1) == "int"
	assert m.load_variant_2pass(1.0) == "double"

	assert m.cast_variant() == (5, "Hello")

	assert doc(m.load_variant) == "load_variant(arg0: Union[int, str, float, None]) -> str"


	def test_vec_of_reference_wrapper():
	"""#171: Can't return reference wrappers (or STL structures containing them)"""
	assert str(m.return_vec_of_reference_wrapper(UserType(4))) == \
	"[UserType(1), UserType(2), UserType(3), UserType(4)]"


	def test_stl_pass_by_pointer(msg):
	"""Passing nullptr or None to an STL container pointer is not expected to work"""
	with pytest.raises(TypeError) as excinfo:
	m.stl_pass_by_pointer() # default value is `nullptr`
	assert msg(excinfo.value) == """
	stl_pass_by_pointer(): incompatible function arguments. The following argument types are supported:
	1. (v: List[int]=None) -> List[int]

	Invoked with:
	""" # noqa: E501 line too long

	with pytest.raises(TypeError) as excinfo:
	m.stl_pass_by_pointer(None)
	assert msg(excinfo.value) == """
	stl_pass_by_pointer(): incompatible function arguments. The following argument types are supported:
	1. (v: List[int]=None) -> List[int]

	Invoked with: None
	""" # noqa: E501 line too long

	assert m.stl_pass_by_pointer([1, 2, 3]) == [1, 2, 3]


	def test_missing_header_message():
	"""Trying convert `list` to a `std::vector`, or vice versa, without including
	<pybind11/stl.h> should result in a helpful suggestion in the error message"""
	import pybind11_cross_module_tests as cm

	expected_message = ("Did you forget to `#include <pybind11/stl.h>`? Or <pybind11/complex.h>,\n"
	"<pybind11/functional.h>, <pybind11/chrono.h>, etc. Some automatic\n"
	"conversions are optional and require extra headers to be included\n"
	"when compiling your pybind11 module.")

	with pytest.raises(TypeError) as excinfo:
	cm.missing_header_arg([1.0, 2.0, 3.0])
	assert expected_message in str(excinfo.value)

	with pytest.raises(TypeError) as excinfo:
	cm.missing_header_return()
	assert expected_message in str(excinfo.value)