Pracownia_programowania/venv/Lib/site-packages/Cython/Utility/CppConvert.pyx
2020-02-01 20:05:44 +01:00

238 lines
6.0 KiB
Cython

# TODO: Figure out how many of the pass-by-value copies the compiler can eliminate.
#################### string.from_py ####################
cdef extern from *:
cdef cppclass string "{{type}}":
string()
string(char* c_str, size_t size)
cdef const char* __Pyx_PyObject_AsStringAndSize(object, Py_ssize_t*) except NULL
@cname("{{cname}}")
cdef string {{cname}}(object o) except *:
cdef Py_ssize_t length = 0
cdef const char* data = __Pyx_PyObject_AsStringAndSize(o, &length)
return string(data, length)
#################### string.to_py ####################
#cimport cython
#from libcpp.string cimport string
cdef extern from *:
cdef cppclass string "{{type}}":
char* data()
size_t size()
{{for py_type in ['PyObject', 'PyUnicode', 'PyStr', 'PyBytes', 'PyByteArray']}}
cdef extern from *:
cdef object __Pyx_{{py_type}}_FromStringAndSize(const char*, size_t)
@cname("{{cname.replace("PyObject", py_type, 1)}}")
cdef inline object {{cname.replace("PyObject", py_type, 1)}}(const string& s):
return __Pyx_{{py_type}}_FromStringAndSize(s.data(), s.size())
{{endfor}}
#################### vector.from_py ####################
cdef extern from *:
cdef cppclass vector "std::vector" [T]:
void push_back(T&)
@cname("{{cname}}")
cdef vector[X] {{cname}}(object o) except *:
cdef vector[X] v
for item in o:
v.push_back(<X>item)
return v
#################### vector.to_py ####################
cdef extern from *:
cdef cppclass vector "const std::vector" [T]:
size_t size()
T& operator[](size_t)
@cname("{{cname}}")
cdef object {{cname}}(vector[X]& v):
return [v[i] for i in range(v.size())]
#################### list.from_py ####################
cdef extern from *:
cdef cppclass cpp_list "std::list" [T]:
void push_back(T&)
@cname("{{cname}}")
cdef cpp_list[X] {{cname}}(object o) except *:
cdef cpp_list[X] l
for item in o:
l.push_back(<X>item)
return l
#################### list.to_py ####################
cimport cython
cdef extern from *:
cdef cppclass cpp_list "std::list" [T]:
cppclass const_iterator:
T& operator*()
const_iterator operator++()
bint operator!=(const_iterator)
const_iterator begin()
const_iterator end()
@cname("{{cname}}")
cdef object {{cname}}(const cpp_list[X]& v):
o = []
cdef cpp_list[X].const_iterator iter = v.begin()
while iter != v.end():
o.append(cython.operator.dereference(iter))
cython.operator.preincrement(iter)
return o
#################### set.from_py ####################
cdef extern from *:
cdef cppclass set "std::{{maybe_unordered}}set" [T]:
void insert(T&)
@cname("{{cname}}")
cdef set[X] {{cname}}(object o) except *:
cdef set[X] s
for item in o:
s.insert(<X>item)
return s
#################### set.to_py ####################
cimport cython
cdef extern from *:
cdef cppclass cpp_set "std::{{maybe_unordered}}set" [T]:
cppclass const_iterator:
T& operator*()
const_iterator operator++()
bint operator!=(const_iterator)
const_iterator begin()
const_iterator end()
@cname("{{cname}}")
cdef object {{cname}}(const cpp_set[X]& s):
o = set()
cdef cpp_set[X].const_iterator iter = s.begin()
while iter != s.end():
o.add(cython.operator.dereference(iter))
cython.operator.preincrement(iter)
return o
#################### pair.from_py ####################
cdef extern from *:
cdef cppclass pair "std::pair" [T, U]:
pair()
pair(T&, U&)
@cname("{{cname}}")
cdef pair[X,Y] {{cname}}(object o) except *:
x, y = o
return pair[X,Y](<X>x, <Y>y)
#################### pair.to_py ####################
cdef extern from *:
cdef cppclass pair "std::pair" [T, U]:
T first
U second
@cname("{{cname}}")
cdef object {{cname}}(const pair[X,Y]& p):
return p.first, p.second
#################### map.from_py ####################
cdef extern from *:
cdef cppclass pair "std::pair" [T, U]:
pair(T&, U&)
cdef cppclass map "std::{{maybe_unordered}}map" [T, U]:
void insert(pair[T, U]&)
cdef cppclass vector "std::vector" [T]:
pass
@cname("{{cname}}")
cdef map[X,Y] {{cname}}(object o) except *:
cdef dict d = o
cdef map[X,Y] m
for key, value in d.iteritems():
m.insert(pair[X,Y](<X>key, <Y>value))
return m
#################### map.to_py ####################
# TODO: Work out const so that this can take a const
# reference rather than pass by value.
cimport cython
cdef extern from *:
cdef cppclass map "std::{{maybe_unordered}}map" [T, U]:
cppclass value_type:
T first
U second
cppclass const_iterator:
value_type& operator*()
const_iterator operator++()
bint operator!=(const_iterator)
const_iterator begin()
const_iterator end()
@cname("{{cname}}")
cdef object {{cname}}(const map[X,Y]& s):
o = {}
cdef const map[X,Y].value_type *key_value
cdef map[X,Y].const_iterator iter = s.begin()
while iter != s.end():
key_value = &cython.operator.dereference(iter)
o[key_value.first] = key_value.second
cython.operator.preincrement(iter)
return o
#################### complex.from_py ####################
cdef extern from *:
cdef cppclass std_complex "std::complex" [T]:
std_complex()
std_complex(T, T) except +
@cname("{{cname}}")
cdef std_complex[X] {{cname}}(object o) except *:
cdef double complex z = o
return std_complex[X](<X>z.real, <X>z.imag)
#################### complex.to_py ####################
cdef extern from *:
cdef cppclass std_complex "std::complex" [T]:
X real()
X imag()
@cname("{{cname}}")
cdef object {{cname}}(const std_complex[X]& z):
cdef double complex tmp
tmp.real = <double>z.real()
tmp.imag = <double>z.imag()
return tmp