pybind11/include/pybind/cast.h

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/*
pybind/cast.h: Partial template specializations to cast between
C++ and Python types
Copyright (c) 2015 Wenzel Jakob <wenzel@inf.ethz.ch>
All rights reserved. Use of this source code is governed by a
BSD-style license that can be found in the LICENSE file.
*/
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#pragma once
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#include <pybind/pytypes.h>
#include <pybind/typeid.h>
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#include <array>
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#include <limits>
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NAMESPACE_BEGIN(pybind)
NAMESPACE_BEGIN(detail)
#if defined(_MSC_VER)
#define NOINLINE __declspec(noinline)
#else
#define NOINLINE __attribute__ ((noinline))
#endif
/** Linked list descriptor type for function signatures (produces smaller binaries
compared to a previous solution using std::string and operator +=) */
class descr {
public:
struct entry {
const std::type_info *type = nullptr;
const char *str = nullptr;
entry *next = nullptr;
entry(const std::type_info *type) : type(type) { }
entry(const char *str) : str(str) { }
};
descr() { }
descr(descr &&d) : first(d.first), last(d.last) { d.first = d.last = nullptr; }
NOINLINE descr(const char *str) { first = last = new entry { str }; }
NOINLINE descr(const std::type_info &type) { first = last = new entry { &type }; }
NOINLINE void operator+(const char *str) {
entry *next = new entry { str };
last->next = next;
last = next;
}
NOINLINE void operator+(const std::type_info *type) {
entry *next = new entry { type };
last->next = next;
last = next;
}
NOINLINE void operator+=(descr &&other) {
last->next = other.first;
while (last->next)
last = last->next;
other.first = other.last = nullptr;
}
NOINLINE friend descr operator+(descr &&l, descr &&r) {
descr result(std::move(l));
result += std::move(r);
return result;
}
NOINLINE std::string str() const {
std::string result;
auto const& registered_types = get_internals().registered_types;
for (entry *it = first; it != nullptr; it = it->next) {
if (it->type) {
auto it2 = registered_types.find(it->type);
if (it2 != registered_types.end()) {
result += it2->second.type->tp_name;
} else {
std::string tname(it->type->name());
detail::clean_type_id(tname);
result += tname;
}
} else {
result += it->str;
}
}
return result;
}
NOINLINE ~descr() {
while (first) {
entry *tmp = first->next;
delete first;
first = tmp;
}
}
entry *first = nullptr;
entry *last = nullptr;
};
#undef NOINLINE
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/// Generic type caster for objects stored on the heap
template <typename type> class type_caster {
public:
typedef instance<type> instance_type;
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static descr name() { return typeid(type); }
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type_caster() {
auto const& registered_types = get_internals().registered_types;
auto it = registered_types.find(&typeid(type));
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if (it != registered_types.end())
typeinfo = &it->second;
}
bool load(PyObject *src, bool convert) {
if (src == nullptr || typeinfo == nullptr)
return false;
if (PyType_IsSubtype(Py_TYPE(src), typeinfo->type)) {
value = ((instance_type *) src)->value;
return true;
}
if (convert) {
for (auto &converter : typeinfo->implicit_conversions) {
temp = object(converter(src, typeinfo->type), false);
if (load(temp.ptr(), false))
return true;
}
}
return false;
}
static PyObject *cast(const type &src, return_value_policy policy, PyObject *parent) {
if (policy == return_value_policy::automatic)
policy = return_value_policy::copy;
return cast(&src, policy, parent);
}
static PyObject *cast(const type *_src, return_value_policy policy, PyObject *parent) {
type *src = const_cast<type *>(_src);
if (src == nullptr) {
Py_INCREF(Py_None);
return Py_None;
}
// avoid an issue with internal references matching their parent's address
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bool dont_cache = policy == return_value_policy::reference_internal &&
parent && ((instance<void> *) parent)->value == (void *) src;
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auto& internals = get_internals();
auto it_instance = internals.registered_instances.find(src);
if (it_instance != internals.registered_instances.end() && !dont_cache) {
PyObject *inst = it_instance->second;
Py_INCREF(inst);
return inst;
}
auto it = internals.registered_types.find(&typeid(type));
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if (it == internals.registered_types.end()) {
std::string msg = std::string("Unregistered type : ") + type_id<type>();
PyErr_SetString(PyExc_TypeError, msg.c_str());
return nullptr;
}
auto &type_info = it->second;
instance_type *inst = (instance_type *) PyType_GenericAlloc(type_info.type, 0);
inst->value = src;
inst->owned = true;
inst->parent = nullptr;
if (policy == return_value_policy::automatic)
policy = return_value_policy::take_ownership;
handle_return_value_policy<type>(inst, policy, parent);
PyObject *inst_pyobj = (PyObject *) inst;
type_info.init_holder(inst_pyobj);
if (!dont_cache)
internals.registered_instances[inst->value] = inst_pyobj;
return inst_pyobj;
}
template <class T, typename std::enable_if<std::is_copy_constructible<T>::value, int>::type = 0>
static void handle_return_value_policy(instance<T> *inst, return_value_policy policy, PyObject *parent) {
if (policy == return_value_policy::copy) {
inst->value = new T(*(inst->value));
} else if (policy == return_value_policy::reference) {
inst->owned = false;
} else if (policy == return_value_policy::reference_internal) {
inst->owned = false;
inst->parent = parent;
Py_XINCREF(parent);
}
}
template <class T, typename std::enable_if<!std::is_copy_constructible<T>::value, int>::type = 0>
static void handle_return_value_policy(instance<T> *inst, return_value_policy policy, PyObject *parent) {
if (policy == return_value_policy::copy) {
throw cast_error("return_value_policy = copy, but the object is non-copyable!");
} else if (policy == return_value_policy::reference) {
inst->owned = false;
} else if (policy == return_value_policy::reference_internal) {
inst->owned = false;
inst->parent = parent;
Py_XINCREF(parent);
}
}
operator type*() { return value; }
operator type&() { return *value; }
protected:
type *value = nullptr;
const type_info *typeinfo = nullptr;
object temp;
};
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#define PYBIND_TYPE_CASTER(type, py_name) \
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protected: \
type value; \
public: \
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static descr name() { return py_name; } \
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static PyObject *cast(const type *src, return_value_policy policy, PyObject *parent) { \
return cast(*src, policy, parent); \
} \
operator type*() { return &value; } \
operator type&() { return value; } \
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#define PYBIND_TYPE_CASTER_NUMBER(type, py_type, from_type, to_pytype) \
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template <> class type_caster<type> { \
public: \
bool load(PyObject *src, bool) { \
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py_type py_value = from_type(src); \
if ((py_value == (py_type) -1 && PyErr_Occurred()) || \
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(std::numeric_limits<type>::is_integer && \
sizeof(py_type) != sizeof(type) && \
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(py_value < (py_type) std::numeric_limits<type>::min() || \
py_value > (py_type) std::numeric_limits<type>::max()))) { \
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PyErr_Clear(); \
return false; \
} \
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value = (type) py_value; \
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return true; \
} \
static PyObject *cast(type src, return_value_policy /* policy */, PyObject * /* parent */) { \
return to_pytype((py_type) src); \
} \
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PYBIND_TYPE_CASTER(type, #type); \
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};
#if PY_MAJOR_VERSION >= 3
#define PyLong_AsUnsignedLongLong_Fixed PyLong_AsUnsignedLongLong
#define PyLong_AsLongLong_Fixed PyLong_AsLongLong
#else
inline PY_LONG_LONG PyLong_AsLongLong_Fixed(PyObject *o) {
if (PyInt_Check(o))
return (PY_LONG_LONG) PyLong_AsLong(o);
else
return ::PyLong_AsLongLong(o);
}
inline unsigned PY_LONG_LONG PyLong_AsUnsignedLongLong_Fixed(PyObject *o) {
if (PyInt_Check(o))
return (unsigned PY_LONG_LONG) PyLong_AsUnsignedLong(o);
else
return ::PyLong_AsUnsignedLongLong(o);
}
#endif
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PYBIND_TYPE_CASTER_NUMBER(int8_t, long, PyLong_AsLong, PyLong_FromLong)
PYBIND_TYPE_CASTER_NUMBER(uint8_t, unsigned long, PyLong_AsUnsignedLong, PyLong_FromUnsignedLong)
PYBIND_TYPE_CASTER_NUMBER(int16_t, long, PyLong_AsLong, PyLong_FromLong)
PYBIND_TYPE_CASTER_NUMBER(uint16_t, unsigned long, PyLong_AsUnsignedLong, PyLong_FromUnsignedLong)
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PYBIND_TYPE_CASTER_NUMBER(int32_t, long, PyLong_AsLong, PyLong_FromLong)
PYBIND_TYPE_CASTER_NUMBER(uint32_t, unsigned long, PyLong_AsUnsignedLong, PyLong_FromUnsignedLong)
PYBIND_TYPE_CASTER_NUMBER(int64_t, PY_LONG_LONG, PyLong_AsLongLong_Fixed, PyLong_FromLongLong)
PYBIND_TYPE_CASTER_NUMBER(uint64_t, unsigned PY_LONG_LONG, PyLong_AsUnsignedLongLong_Fixed, PyLong_FromUnsignedLongLong)
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#if defined(__APPLE__) // size_t/ssize_t are separate types on Mac OS X
#if PY_MAJOR_VERSION >= 3
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PYBIND_TYPE_CASTER_NUMBER(ssize_t, Py_ssize_t, PyLong_AsSsize_t, PyLong_FromSsize_t)
PYBIND_TYPE_CASTER_NUMBER(size_t, size_t, PyLong_AsSize_t, PyLong_FromSize_t)
#else
PYBIND_TYPE_CASTER_NUMBER(ssize_t, PY_LONG_LONG, PyLong_AsLongLong_Fixed, PyLong_FromLongLong)
PYBIND_TYPE_CASTER_NUMBER(size_t, unsigned PY_LONG_LONG, PyLong_AsUnsignedLongLong_Fixed, PyLong_FromUnsignedLongLong)
#endif
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#endif
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PYBIND_TYPE_CASTER_NUMBER(float, double, PyFloat_AsDouble, PyFloat_FromDouble)
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PYBIND_TYPE_CASTER_NUMBER(double, double, PyFloat_AsDouble, PyFloat_FromDouble)
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template <> class type_caster<void_type> {
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public:
bool load(PyObject *, bool) { return true; }
static PyObject *cast(void_type, return_value_policy /* policy */, PyObject * /* parent */) {
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Py_INCREF(Py_None);
return Py_None;
}
PYBIND_TYPE_CASTER(void_type, "None");
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};
template <> class type_caster<void> : public type_caster<void_type> {
};
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template <> class type_caster<bool> {
public:
bool load(PyObject *src, bool) {
if (src == Py_True) { value = true; return true; }
else if (src == Py_False) { value = false; return true; }
else return false;
}
static PyObject *cast(bool src, return_value_policy /* policy */, PyObject * /* parent */) {
PyObject *result = src ? Py_True : Py_False;
Py_INCREF(result);
return result;
}
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PYBIND_TYPE_CASTER(bool, "bool");
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};
template <> class type_caster<std::string> {
public:
bool load(PyObject *src, bool) {
#if PY_MAJOR_VERSION >= 3
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const char *ptr = PyUnicode_AsUTF8(src);
#else
const char *ptr = nullptr;
object temp;
if (PyString_Check(src)) {
ptr = PyString_AsString(src);
} else {
temp = object(PyUnicode_AsUTF8String(src), false);
if (temp.ptr() != nullptr)
ptr = PyString_AsString(temp.ptr());
}
#endif
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if (!ptr) { PyErr_Clear(); return false; }
value = std::string(ptr);
return true;
}
static PyObject *cast(const std::string &src, return_value_policy /* policy */, PyObject * /* parent */) {
return PyUnicode_FromString(src.c_str());
}
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PYBIND_TYPE_CASTER(std::string, "str");
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};
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#ifdef HAVE_WCHAR_H
template <> class type_caster<std::wstring> {
public:
bool load(PyObject *src, bool) {
#if PY_MAJOR_VERSION >= 3
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const wchar_t *ptr = PyUnicode_AsWideCharString(src, nullptr);
#else
object temp(PyUnicode_AsUTF16String(src), false);
if (temp.ptr() == nullptr)
return false;
const wchar_t *ptr = (wchar_t*) PyString_AsString(temp.ptr());
#endif
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if (!ptr) { PyErr_Clear(); return false; }
value = std::wstring(ptr);
return true;
}
static PyObject *cast(const std::wstring &src, return_value_policy /* policy */, PyObject * /* parent */) {
#if PY_MAJOR_VERSION >= 3
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return PyUnicode_FromWideChar(src.c_str(), src.length());
#else
return PyUnicode_DecodeUTF16((const char *) src.c_str(), src.length() * 2, "strict", nullptr);
#endif
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}
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PYBIND_TYPE_CASTER(std::wstring, "wstr");
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};
#endif
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template <> class type_caster<char> {
public:
bool load(PyObject *src, bool) {
#if PY_MAJOR_VERSION >= 3
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char *ptr = PyUnicode_AsUTF8(src);
#else
temp = object(PyUnicode_AsLatin1String(src), false);
if (temp.ptr() == nullptr)
return false;
char *ptr = PyString_AsString(temp.ptr());
#endif
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if (!ptr) { PyErr_Clear(); return false; }
value = ptr;
return true;
}
static PyObject *cast(const char *src, return_value_policy /* policy */, PyObject * /* parent */) {
return PyUnicode_FromString(src);
}
static PyObject *cast(char src, return_value_policy /* policy */, PyObject * /* parent */) {
char str[2] = { src, '\0' };
return PyUnicode_DecodeLatin1(str, 1, nullptr);
}
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static descr name() { return "str"; }
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operator char*() { return value; }
operator char() { return *value; }
protected:
char *value;
#if PY_MAJOR_VERSION < 3
object temp;
#endif
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};
template <typename T1, typename T2> class type_caster<std::pair<T1, T2>> {
typedef std::pair<T1, T2> type;
public:
bool load(PyObject *src, bool convert) {
if (!PyTuple_Check(src) || PyTuple_Size(src) != 2)
return false;
if (!first.load(PyTuple_GetItem(src, 0), convert))
return false;
return second.load(PyTuple_GetItem(src, 1), convert);
}
static PyObject *cast(const type &src, return_value_policy policy, PyObject *parent) {
PyObject *o1 = type_caster<typename decay<T1>::type>::cast(src.first, policy, parent);
PyObject *o2 = type_caster<typename decay<T2>::type>::cast(src.second, policy, parent);
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if (!o1 || !o2) {
Py_XDECREF(o1);
Py_XDECREF(o2);
return nullptr;
}
PyObject *tuple = PyTuple_New(2);
PyTuple_SetItem(tuple, 0, o1);
PyTuple_SetItem(tuple, 1, o2);
return tuple;
}
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static descr name() {
class descr result("(");
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result += std::move(type_caster<typename decay<T1>::type>::name());
result += ", ";
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result += std::move(type_caster<typename decay<T2>::type>::name());
result += ")";
return result;
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}
operator type() {
return type(first, second);
}
protected:
type_caster<typename decay<T1>::type> first;
type_caster<typename decay<T2>::type> second;
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};
template <typename... Tuple> class type_caster<std::tuple<Tuple...>> {
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typedef std::tuple<Tuple...> type;
public:
enum { size = sizeof...(Tuple) };
bool load(PyObject *src, bool convert) {
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return load(src, convert, typename make_index_sequence<sizeof...(Tuple)>::type());
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}
static PyObject *cast(const type &src, return_value_policy policy, PyObject *parent) {
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return cast(src, policy, parent, typename make_index_sequence<size>::type());
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}
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static descr name(const char **keywords = nullptr, const char **values = nullptr) {
std::array<class descr, size> names {{
type_caster<typename decay<Tuple>::type>::name()...
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}};
class descr result("(");
for (int i=0; i<size; ++i) {
if (keywords && keywords[i]) {
result += keywords[i];
result += " : ";
}
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result += std::move(names[i]);
if (values && values[i]) {
result += " = ";
result += values[i];
}
if (i+1 < size)
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result += ", ";
}
result += ")";
return result;
}
template <typename ReturnValue, typename Func> typename std::enable_if<!std::is_void<ReturnValue>::value, ReturnValue>::type call(Func &&f) {
return call<ReturnValue>(std::forward<Func>(f), typename make_index_sequence<sizeof...(Tuple)>::type());
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}
template <typename ReturnValue, typename Func> typename std::enable_if<std::is_void<ReturnValue>::value, void_type>::type call(Func &&f) {
call<ReturnValue>(std::forward<Func>(f), typename make_index_sequence<sizeof...(Tuple)>::type());
return void_type();
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}
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operator type() {
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return cast(typename make_index_sequence<sizeof...(Tuple)>::type());
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}
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protected:
template <typename ReturnValue, typename Func, size_t ... Index> ReturnValue call(Func &&f, index_sequence<Index...>) {
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return f((Tuple) std::get<Index>(value)...);
}
template <size_t ... Index> type cast(index_sequence<Index...>) {
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return type((Tuple) std::get<Index>(value)...);
}
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template <size_t ... Indices> bool load(PyObject *src, bool convert, index_sequence<Indices...>) {
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if (!PyTuple_Check(src))
return false;
if (PyTuple_Size(src) != size)
return false;
std::array<bool, size> results {{
(PyTuple_GET_ITEM(src, Indices) != nullptr ? std::get<Indices>(value).load(PyTuple_GET_ITEM(src, Indices), convert) : false)...
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}};
(void) convert; /* avoid a warning when the tuple is empty */
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for (bool r : results)
if (!r)
return false;
return true;
}
/* Implementation: Convert a C++ tuple into a Python tuple */
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template <size_t ... Indices> static PyObject *cast(const type &src, return_value_policy policy, PyObject *parent, index_sequence<Indices...>) {
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std::array<PyObject *, size> results {{
type_caster<typename decay<Tuple>::type>::cast(std::get<Indices>(src), policy, parent)...
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}};
bool success = true;
for (auto result : results)
if (result == nullptr)
success = false;
if (success) {
PyObject *tuple = PyTuple_New(size);
int counter = 0;
for (auto result : results)
PyTuple_SetItem(tuple, counter++, result);
return tuple;
} else {
for (auto result : results) {
Py_XDECREF(result);
}
return nullptr;
}
}
protected:
std::tuple<type_caster<typename decay<Tuple>::type>...> value;
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};
/// Type caster for holder types like std::shared_ptr, etc.
template <typename type, typename holder_type> class type_caster_holder : public type_caster<type> {
public:
typedef type_caster<type> parent;
bool load(PyObject *src, bool convert) {
if (!parent::load(src, convert))
return false;
holder = holder_type(parent::value);
return true;
}
explicit operator type*() { return this->value; }
explicit operator type&() { return *(this->value); }
explicit operator holder_type&() { return holder; }
explicit operator holder_type*() { return &holder; }
protected:
holder_type holder;
};
template <> class type_caster<handle> {
public:
bool load(PyObject *src) {
value = handle(src);
return true;
}
static PyObject *cast(const handle &src, return_value_policy /* policy */, PyObject * /* parent */) {
src.inc_ref();
return (PyObject *) src.ptr();
}
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PYBIND_TYPE_CASTER(handle, "handle");
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};
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#define PYBIND_TYPE_CASTER_PYTYPE(name) \
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template <> class type_caster<name> { \
public: \
bool load(PyObject *src, bool) { value = name(src, true); return true; } \
static PyObject *cast(const name &src, return_value_policy /* policy */, PyObject * /* parent */) { \
src.inc_ref(); return (PyObject *) src.ptr(); \
} \
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PYBIND_TYPE_CASTER(name, #name); \
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};
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PYBIND_TYPE_CASTER_PYTYPE(object) PYBIND_TYPE_CASTER_PYTYPE(buffer)
PYBIND_TYPE_CASTER_PYTYPE(capsule) PYBIND_TYPE_CASTER_PYTYPE(dict)
PYBIND_TYPE_CASTER_PYTYPE(float_) PYBIND_TYPE_CASTER_PYTYPE(int_)
PYBIND_TYPE_CASTER_PYTYPE(list) PYBIND_TYPE_CASTER_PYTYPE(slice)
PYBIND_TYPE_CASTER_PYTYPE(tuple) PYBIND_TYPE_CASTER_PYTYPE(function)
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NAMESPACE_END(detail)
template <typename T> inline T cast(PyObject *object) {
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detail::type_caster<typename detail::decay<T>::type> conv;
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if (!conv.load(object, true))
throw cast_error("Unable to cast Python object to C++ type");
return conv;
}
template <typename T> inline object cast(const T &value, return_value_policy policy = return_value_policy::automatic, PyObject *parent = nullptr) {
if (policy == return_value_policy::automatic)
policy = std::is_pointer<T>::value ? return_value_policy::take_ownership : return_value_policy::copy;
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return object(detail::type_caster<typename detail::decay<T>::type>::cast(value, policy, parent), false);
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}
template <typename T> inline T handle::cast() { return pybind::cast<T>(m_ptr); }
template <> inline void handle::cast() { return; }
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template <typename... Args> inline object handle::call(Args&&... args_) {
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const size_t size = sizeof...(Args);
std::array<PyObject *, size> args{
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{ detail::type_caster<typename detail::decay<Args>::type>::cast(
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std::forward<Args>(args_), return_value_policy::reference, nullptr)... }
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};
bool fail = false;
for (auto result : args)
if (result == nullptr)
fail = true;
if (fail) {
for (auto result : args) {
Py_XDECREF(result);
}
throw cast_error("handle::call(): unable to convert input arguments to Python objects");
}
PyObject *tuple = PyTuple_New(size);
int counter = 0;
for (auto result : args)
PyTuple_SetItem(tuple, counter++, result);
PyObject *result = PyObject_CallObject(m_ptr, tuple);
Py_DECREF(tuple);
if (result == nullptr && PyErr_Occurred())
throw error_already_set();
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return object(result, false);
}
NAMESPACE_END(pybind)