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# mode: run
# tag: cpp, werror, no-cpp-locals
from libcpp.vector cimport vector
cdef extern from "shapes.h" namespace "shapes":
cdef cppclass Shape:
float area()
cdef cppclass Ellipse(Shape):
Ellipse(int a, int b) except + nogil
cdef cppclass Circle(Ellipse):
int radius
Circle(int r) except +
cdef cppclass Rectangle(Shape):
int width
int height
Rectangle() except +
Rectangle(int h, int w) except +
int method(int x)
int method(bint b)
cdef cppclass Square(Rectangle):
int side
Square(int s) except +
cdef cppclass Empty(Shape):
pass
cdef cppclass EmptyWithDocstring(Shape):
"""
This is a docstring !
"""
int constructor_count, destructor_count
def test_new_del():
"""
>>> test_new_del()
2 0
2 2
"""
c,d = constructor_count, destructor_count
cdef Rectangle *rect = new Rectangle(10, 20)
cdef Circle *circ = new Circle(15)
print constructor_count-c, destructor_count-d
del rect, circ
print constructor_count-c, destructor_count-d
def test_default_constructor():
"""
>>> test_default_constructor()
0.0
"""
shape = new Empty()
try:
return shape.area()
finally:
del shape
def test_constructor_nogil():
"""
>>> test_constructor_nogil()
True
"""
with nogil:
shape = new Ellipse(4, 5)
try:
return 62 < shape.area() < 63 or shape.area()
finally:
del shape
def test_rect_area(w, h):
"""
>>> test_rect_area(3, 4)
12.0
"""
cdef Rectangle *rect = new Rectangle(w, h)
try:
return rect.area()
finally:
del rect
def test_overload_bint_int():
"""
>>> test_overload_bint_int()
202
201
"""
cdef Rectangle *rect1 = new Rectangle(10, 20)
cdef Rectangle *rect2 = new Rectangle(10, 20)
try:
print rect1.method(<int> 2)
print rect2.method(<bint> True)
finally:
del rect1
del rect2
def test_square_area(w):
"""
>>> test_square_area(15)
(225.0, 225.0)
"""
cdef Square *sqr = new Square(w)
cdef Rectangle *rect = sqr
try:
return rect.area(), sqr.area()
finally:
del sqr
cdef double get_area(Rectangle s):
return s.area()
def test_value_call(int w):
"""
>>> test_value_call(5)
(25.0, 25.0)
"""
cdef Square *sqr = new Square(w)
cdef Rectangle *rect = sqr
try:
return get_area(sqr[0]), get_area(rect[0])
finally:
del sqr
cdef struct StructWithEmpty:
Empty empty
def get_destructor_count():
return destructor_count
def test_stack_allocation(int w, int h):
"""
>>> d = test_stack_allocation(10, 12)
125
>>> get_destructor_count() - d
1
"""
cdef Rectangle rect
rect.width = w
rect.height = h
print rect.method(<int>5)
return destructor_count
def test_stack_allocation_in_struct():
"""
>>> d = test_stack_allocation_in_struct()
>>> get_destructor_count() - d
1
"""
cdef StructWithEmpty swe
sizeof(swe.empty) # use it for something
return destructor_count
cdef class EmptyHolder:
cdef Empty empty
cdef class AnotherEmptyHolder(EmptyHolder):
cdef Empty another_empty
cdef class EmptyViaStructHolder:
cdef StructWithEmpty swe
def test_class_member():
"""
>>> test_class_member()
"""
start_constructor_count = constructor_count
start_destructor_count = destructor_count
e1 = EmptyHolder()
assert constructor_count - start_constructor_count == 1, \
constructor_count - start_constructor_count
e2 = EmptyHolder()
assert constructor_count - start_constructor_count == 2, \
constructor_count - start_constructor_count
del e1, e2
assert destructor_count - start_destructor_count == 2, \
destructor_count - start_destructor_count
def test_derived_class_member():
"""
>>> test_derived_class_member()
"""
start_constructor_count = constructor_count
start_destructor_count = destructor_count
e = AnotherEmptyHolder()
assert constructor_count - start_constructor_count == 2, \
constructor_count - start_constructor_count
del e
assert destructor_count - start_destructor_count == 2, \
destructor_count - start_destructor_count
def test_class_in_struct_member():
"""
>>> test_class_in_struct_member()
"""
start_constructor_count = constructor_count
start_destructor_count = destructor_count
e = EmptyViaStructHolder()
#assert constructor_count - start_constructor_count == 1, \
# constructor_count - start_constructor_count
del e
assert destructor_count - start_destructor_count == 1, \
destructor_count - start_destructor_count
cdef class TemplateClassMember:
cdef vector[int] x
cdef vector[vector[Empty]] vec
def test_template_class_member():
"""
>>> test_template_class_member()
"""
cdef vector[Empty] inner
inner.push_back(Empty())
inner.push_back(Empty())
o = TemplateClassMember()
o.vec.push_back(inner)
start_destructor_count = destructor_count
del o
assert destructor_count - start_destructor_count == 2, \
destructor_count - start_destructor_count
ctypedef vector[int]* vector_int_ptr
cdef vector[vector_int_ptr] create_to_delete() except *:
cdef vector[vector_int_ptr] v
v.push_back(new vector[int]())
return v
cdef int f(int x):
return x
def test_nested_del():
"""
>>> test_nested_del()
"""
cdef vector[vector_int_ptr] v
v.push_back(new vector[int]())
del v[0]
del create_to_delete()[f(f(0))]
def test_nested_del_repeat():
"""
>>> test_nested_del_repeat()
"""
cdef vector[vector_int_ptr] v
v.push_back(new vector[int]())
del v[0]
del create_to_delete()[f(f(0))]
del create_to_delete()[f(f(0))]
del create_to_delete()[f(f(0))]
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