| /* |
| pybind11/detail/common.h -- Basic macros |
| |
| Copyright (c) 2016 Wenzel Jakob <wenzel.jakob@epfl.ch> |
| |
| All rights reserved. Use of this source code is governed by a |
| BSD-style license that can be found in the LICENSE file. |
| */ |
| |
| #pragma once |
| |
| #if !defined(NAMESPACE_BEGIN) |
| # define NAMESPACE_BEGIN(name) namespace name { |
| #endif |
| #if !defined(NAMESPACE_END) |
| # define NAMESPACE_END(name) } |
| #endif |
| |
| // Robust support for some features and loading modules compiled against different pybind versions |
| // requires forcing hidden visibility on pybind code, so we enforce this by setting the attribute on |
| // the main `pybind11` namespace. |
| #if !defined(PYBIND11_NAMESPACE) |
| # ifdef __GNUG__ |
| # define PYBIND11_NAMESPACE pybind11 __attribute__((visibility("hidden"))) |
| # else |
| # define PYBIND11_NAMESPACE pybind11 |
| # endif |
| #endif |
| |
| #if !defined(_MSC_VER) && !defined(__INTEL_COMPILER) |
| # if __cplusplus >= 201402L |
| # define PYBIND11_CPP14 |
| # if __cplusplus > 201402L /* Temporary: should be updated to >= the final C++17 value once known */ |
| # define PYBIND11_CPP17 |
| # endif |
| # endif |
| #elif defined(_MSC_VER) |
| // MSVC sets _MSVC_LANG rather than __cplusplus (supposedly until the standard is fully implemented) |
| # if _MSVC_LANG >= 201402L |
| # define PYBIND11_CPP14 |
| # if _MSVC_LANG > 201402L && _MSC_VER >= 1910 |
| # define PYBIND11_CPP17 |
| # endif |
| # endif |
| #endif |
| |
| // Compiler version assertions |
| #if defined(__INTEL_COMPILER) |
| # if __INTEL_COMPILER < 1500 |
| # error pybind11 requires Intel C++ compiler v15 or newer |
| # endif |
| #elif defined(__clang__) && !defined(__apple_build_version__) |
| # if __clang_major__ < 3 || (__clang_major__ == 3 && __clang_minor__ < 3) |
| # error pybind11 requires clang 3.3 or newer |
| # endif |
| #elif defined(__clang__) |
| // Apple changes clang version macros to its Xcode version; the first Xcode release based on |
| // (upstream) clang 3.3 was Xcode 5: |
| # if __clang_major__ < 5 |
| # error pybind11 requires Xcode/clang 5.0 or newer |
| # endif |
| #elif defined(__GNUG__) |
| # if __GNUC__ < 4 || (__GNUC__ == 4 && __GNUC_MINOR__ < 8) |
| # error pybind11 requires gcc 4.8 or newer |
| # endif |
| #elif defined(_MSC_VER) |
| // Pybind hits various compiler bugs in 2015u2 and earlier, and also makes use of some stl features |
| // (e.g. std::negation) added in 2015u3: |
| # if _MSC_FULL_VER < 190024210 |
| # error pybind11 requires MSVC 2015 update 3 or newer |
| # endif |
| #endif |
| |
| #if !defined(PYBIND11_EXPORT) |
| # if defined(WIN32) || defined(_WIN32) |
| # define PYBIND11_EXPORT __declspec(dllexport) |
| # else |
| # define PYBIND11_EXPORT __attribute__ ((visibility("default"))) |
| # endif |
| #endif |
| |
| #if defined(_MSC_VER) |
| # define PYBIND11_NOINLINE __declspec(noinline) |
| #else |
| # define PYBIND11_NOINLINE __attribute__ ((noinline)) |
| #endif |
| |
| #if defined(PYBIND11_CPP14) |
| # define PYBIND11_DEPRECATED(reason) [[deprecated(reason)]] |
| #else |
| # define PYBIND11_DEPRECATED(reason) __attribute__((deprecated(reason))) |
| #endif |
| |
| #define PYBIND11_VERSION_MAJOR 2 |
| #define PYBIND11_VERSION_MINOR 2 |
| #define PYBIND11_VERSION_PATCH 1 |
| |
| /// Include Python header, disable linking to pythonX_d.lib on Windows in debug mode |
| #if defined(_MSC_VER) |
| # if (PY_MAJOR_VERSION == 3 && PY_MINOR_VERSION < 4) |
| # define HAVE_ROUND 1 |
| # endif |
| # pragma warning(push) |
| # pragma warning(disable: 4510 4610 4512 4005) |
| # if defined(_DEBUG) |
| # define PYBIND11_DEBUG_MARKER |
| # undef _DEBUG |
| # endif |
| #endif |
| |
| #include <Python.h> |
| #include <frameobject.h> |
| #include <pythread.h> |
| |
| #if defined(_WIN32) && (defined(min) || defined(max)) |
| # error Macro clash with min and max -- define NOMINMAX when compiling your program on Windows |
| #endif |
| |
| #if defined(isalnum) |
| # undef isalnum |
| # undef isalpha |
| # undef islower |
| # undef isspace |
| # undef isupper |
| # undef tolower |
| # undef toupper |
| #endif |
| |
| #if defined(_MSC_VER) |
| # if defined(PYBIND11_DEBUG_MARKER) |
| # define _DEBUG |
| # undef PYBIND11_DEBUG_MARKER |
| # endif |
| # pragma warning(pop) |
| #endif |
| |
| #include <cstddef> |
| #include <cstring> |
| #include <forward_list> |
| #include <vector> |
| #include <string> |
| #include <stdexcept> |
| #include <unordered_set> |
| #include <unordered_map> |
| #include <memory> |
| #include <typeindex> |
| #include <type_traits> |
| |
| #if PY_MAJOR_VERSION >= 3 /// Compatibility macros for various Python versions |
| #define PYBIND11_INSTANCE_METHOD_NEW(ptr, class_) PyInstanceMethod_New(ptr) |
| #define PYBIND11_INSTANCE_METHOD_CHECK PyInstanceMethod_Check |
| #define PYBIND11_INSTANCE_METHOD_GET_FUNCTION PyInstanceMethod_GET_FUNCTION |
| #define PYBIND11_BYTES_CHECK PyBytes_Check |
| #define PYBIND11_BYTES_FROM_STRING PyBytes_FromString |
| #define PYBIND11_BYTES_FROM_STRING_AND_SIZE PyBytes_FromStringAndSize |
| #define PYBIND11_BYTES_AS_STRING_AND_SIZE PyBytes_AsStringAndSize |
| #define PYBIND11_BYTES_AS_STRING PyBytes_AsString |
| #define PYBIND11_BYTES_SIZE PyBytes_Size |
| #define PYBIND11_LONG_CHECK(o) PyLong_Check(o) |
| #define PYBIND11_LONG_AS_LONGLONG(o) PyLong_AsLongLong(o) |
| #define PYBIND11_BYTES_NAME "bytes" |
| #define PYBIND11_STRING_NAME "str" |
| #define PYBIND11_SLICE_OBJECT PyObject |
| #define PYBIND11_FROM_STRING PyUnicode_FromString |
| #define PYBIND11_STR_TYPE ::pybind11::str |
| #define PYBIND11_BOOL_ATTR "__bool__" |
| #define PYBIND11_NB_BOOL(ptr) ((ptr)->nb_bool) |
| #define PYBIND11_PLUGIN_IMPL(name) \ |
| extern "C" PYBIND11_EXPORT PyObject *PyInit_##name() |
| |
| #else |
| #define PYBIND11_INSTANCE_METHOD_NEW(ptr, class_) PyMethod_New(ptr, nullptr, class_) |
| #define PYBIND11_INSTANCE_METHOD_CHECK PyMethod_Check |
| #define PYBIND11_INSTANCE_METHOD_GET_FUNCTION PyMethod_GET_FUNCTION |
| #define PYBIND11_BYTES_CHECK PyString_Check |
| #define PYBIND11_BYTES_FROM_STRING PyString_FromString |
| #define PYBIND11_BYTES_FROM_STRING_AND_SIZE PyString_FromStringAndSize |
| #define PYBIND11_BYTES_AS_STRING_AND_SIZE PyString_AsStringAndSize |
| #define PYBIND11_BYTES_AS_STRING PyString_AsString |
| #define PYBIND11_BYTES_SIZE PyString_Size |
| #define PYBIND11_LONG_CHECK(o) (PyInt_Check(o) || PyLong_Check(o)) |
| #define PYBIND11_LONG_AS_LONGLONG(o) (PyInt_Check(o) ? (long long) PyLong_AsLong(o) : PyLong_AsLongLong(o)) |
| #define PYBIND11_BYTES_NAME "str" |
| #define PYBIND11_STRING_NAME "unicode" |
| #define PYBIND11_SLICE_OBJECT PySliceObject |
| #define PYBIND11_FROM_STRING PyString_FromString |
| #define PYBIND11_STR_TYPE ::pybind11::bytes |
| #define PYBIND11_BOOL_ATTR "__nonzero__" |
| #define PYBIND11_NB_BOOL(ptr) ((ptr)->nb_nonzero) |
| #define PYBIND11_PLUGIN_IMPL(name) \ |
| static PyObject *pybind11_init_wrapper(); \ |
| extern "C" PYBIND11_EXPORT void init##name() { \ |
| (void)pybind11_init_wrapper(); \ |
| } \ |
| PyObject *pybind11_init_wrapper() |
| #endif |
| |
| #if PY_VERSION_HEX >= 0x03050000 && PY_VERSION_HEX < 0x03050200 |
| extern "C" { |
| struct _Py_atomic_address { void *value; }; |
| PyAPI_DATA(_Py_atomic_address) _PyThreadState_Current; |
| } |
| #endif |
| |
| #define PYBIND11_TRY_NEXT_OVERLOAD ((PyObject *) 1) // special failure return code |
| #define PYBIND11_STRINGIFY(x) #x |
| #define PYBIND11_TOSTRING(x) PYBIND11_STRINGIFY(x) |
| #define PYBIND11_CONCAT(first, second) first##second |
| |
| /** \rst |
| ***Deprecated in favor of PYBIND11_MODULE*** |
| |
| This macro creates the entry point that will be invoked when the Python interpreter |
| imports a plugin library. Please create a `module` in the function body and return |
| the pointer to its underlying Python object at the end. |
| |
| .. code-block:: cpp |
| |
| PYBIND11_PLUGIN(example) { |
| pybind11::module m("example", "pybind11 example plugin"); |
| /// Set up bindings here |
| return m.ptr(); |
| } |
| \endrst */ |
| #define PYBIND11_PLUGIN(name) \ |
| PYBIND11_DEPRECATED("PYBIND11_PLUGIN is deprecated, use PYBIND11_MODULE") \ |
| static PyObject *pybind11_init(); \ |
| PYBIND11_PLUGIN_IMPL(name) { \ |
| int major, minor; \ |
| if (sscanf(Py_GetVersion(), "%i.%i", &major, &minor) != 2) { \ |
| PyErr_SetString(PyExc_ImportError, "Can't parse Python version."); \ |
| return nullptr; \ |
| } else if (major != PY_MAJOR_VERSION || minor != PY_MINOR_VERSION) { \ |
| PyErr_Format(PyExc_ImportError, \ |
| "Python version mismatch: module was compiled for " \ |
| "version %i.%i, while the interpreter is running " \ |
| "version %i.%i.", PY_MAJOR_VERSION, PY_MINOR_VERSION, \ |
| major, minor); \ |
| return nullptr; \ |
| } \ |
| try { \ |
| return pybind11_init(); \ |
| } catch (pybind11::error_already_set &e) { \ |
| PyErr_SetString(PyExc_ImportError, e.what()); \ |
| return nullptr; \ |
| } catch (const std::exception &e) { \ |
| PyErr_SetString(PyExc_ImportError, e.what()); \ |
| return nullptr; \ |
| } \ |
| } \ |
| PyObject *pybind11_init() |
| |
| /** \rst |
| This macro creates the entry point that will be invoked when the Python interpreter |
| imports an extension module. The module name is given as the fist argument and it |
| should not be in quotes. The second macro argument defines a variable of type |
| `py::module` which can be used to initialize the module. |
| |
| .. code-block:: cpp |
| |
| PYBIND11_MODULE(example, m) { |
| m.doc() = "pybind11 example module"; |
| |
| // Add bindings here |
| m.def("foo", []() { |
| return "Hello, World!"; |
| }); |
| } |
| \endrst */ |
| #define PYBIND11_MODULE(name, variable) \ |
| static void PYBIND11_CONCAT(pybind11_init_, name)(pybind11::module &); \ |
| PYBIND11_PLUGIN_IMPL(name) { \ |
| int major, minor; \ |
| if (sscanf(Py_GetVersion(), "%i.%i", &major, &minor) != 2) { \ |
| PyErr_SetString(PyExc_ImportError, "Can't parse Python version."); \ |
| return nullptr; \ |
| } else if (major != PY_MAJOR_VERSION || minor != PY_MINOR_VERSION) { \ |
| PyErr_Format(PyExc_ImportError, \ |
| "Python version mismatch: module was compiled for " \ |
| "version %i.%i, while the interpreter is running " \ |
| "version %i.%i.", PY_MAJOR_VERSION, PY_MINOR_VERSION, \ |
| major, minor); \ |
| return nullptr; \ |
| } \ |
| auto m = pybind11::module(PYBIND11_TOSTRING(name)); \ |
| try { \ |
| PYBIND11_CONCAT(pybind11_init_, name)(m); \ |
| return m.ptr(); \ |
| } catch (pybind11::error_already_set &e) { \ |
| PyErr_SetString(PyExc_ImportError, e.what()); \ |
| return nullptr; \ |
| } catch (const std::exception &e) { \ |
| PyErr_SetString(PyExc_ImportError, e.what()); \ |
| return nullptr; \ |
| } \ |
| } \ |
| void PYBIND11_CONCAT(pybind11_init_, name)(pybind11::module &variable) |
| |
| |
| NAMESPACE_BEGIN(PYBIND11_NAMESPACE) |
| |
| using ssize_t = Py_ssize_t; |
| using size_t = std::size_t; |
| |
| /// Approach used to cast a previously unknown C++ instance into a Python object |
| enum class return_value_policy : uint8_t { |
| /** This is the default return value policy, which falls back to the policy |
| return_value_policy::take_ownership when the return value is a pointer. |
| Otherwise, it uses return_value::move or return_value::copy for rvalue |
| and lvalue references, respectively. See below for a description of what |
| all of these different policies do. */ |
| automatic = 0, |
| |
| /** As above, but use policy return_value_policy::reference when the return |
| value is a pointer. This is the default conversion policy for function |
| arguments when calling Python functions manually from C++ code (i.e. via |
| handle::operator()). You probably won't need to use this. */ |
| automatic_reference, |
| |
| /** Reference an existing object (i.e. do not create a new copy) and take |
| ownership. Python will call the destructor and delete operator when the |
| object’s reference count reaches zero. Undefined behavior ensues when |
| the C++ side does the same.. */ |
| take_ownership, |
| |
| /** Create a new copy of the returned object, which will be owned by |
| Python. This policy is comparably safe because the lifetimes of the two |
| instances are decoupled. */ |
| copy, |
| |
| /** Use std::move to move the return value contents into a new instance |
| that will be owned by Python. This policy is comparably safe because the |
| lifetimes of the two instances (move source and destination) are |
| decoupled. */ |
| move, |
| |
| /** Reference an existing object, but do not take ownership. The C++ side |
| is responsible for managing the object’s lifetime and deallocating it |
| when it is no longer used. Warning: undefined behavior will ensue when |
| the C++ side deletes an object that is still referenced and used by |
| Python. */ |
| reference, |
| |
| /** This policy only applies to methods and properties. It references the |
| object without taking ownership similar to the above |
| return_value_policy::reference policy. In contrast to that policy, the |
| function or property’s implicit this argument (called the parent) is |
| considered to be the the owner of the return value (the child). |
| pybind11 then couples the lifetime of the parent to the child via a |
| reference relationship that ensures that the parent cannot be garbage |
| collected while Python is still using the child. More advanced |
| variations of this scheme are also possible using combinations of |
| return_value_policy::reference and the keep_alive call policy */ |
| reference_internal |
| }; |
| |
| NAMESPACE_BEGIN(detail) |
| |
| inline static constexpr int log2(size_t n, int k = 0) { return (n <= 1) ? k : log2(n >> 1, k + 1); } |
| |
| // Returns the size as a multiple of sizeof(void *), rounded up. |
| inline static constexpr size_t size_in_ptrs(size_t s) { return 1 + ((s - 1) >> log2(sizeof(void *))); } |
| |
| /** |
| * The space to allocate for simple layout instance holders (see below) in multiple of the size of |
| * a pointer (e.g. 2 means 16 bytes on 64-bit architectures). The default is the minimum required |
| * to holder either a std::unique_ptr or std::shared_ptr (which is almost always |
| * sizeof(std::shared_ptr<T>)). |
| */ |
| constexpr size_t instance_simple_holder_in_ptrs() { |
| static_assert(sizeof(std::shared_ptr<int>) >= sizeof(std::unique_ptr<int>), |
| "pybind assumes std::shared_ptrs are at least as big as std::unique_ptrs"); |
| return size_in_ptrs(sizeof(std::shared_ptr<int>)); |
| } |
| |
| // Forward declarations |
| struct type_info; |
| struct value_and_holder; |
| |
| /// The 'instance' type which needs to be standard layout (need to be able to use 'offsetof') |
| struct instance { |
| PyObject_HEAD |
| /// Storage for pointers and holder; see simple_layout, below, for a description |
| union { |
| void *simple_value_holder[1 + instance_simple_holder_in_ptrs()]; |
| struct { |
| void **values_and_holders; |
| uint8_t *status; |
| } nonsimple; |
| }; |
| /// Weak references (needed for keep alive): |
| PyObject *weakrefs; |
| /// If true, the pointer is owned which means we're free to manage it with a holder. |
| bool owned : 1; |
| /** |
| * An instance has two possible value/holder layouts. |
| * |
| * Simple layout (when this flag is true), means the `simple_value_holder` is set with a pointer |
| * and the holder object governing that pointer, i.e. [val1*][holder]. This layout is applied |
| * whenever there is no python-side multiple inheritance of bound C++ types *and* the type's |
| * holder will fit in the default space (which is large enough to hold either a std::unique_ptr |
| * or std::shared_ptr). |
| * |
| * Non-simple layout applies when using custom holders that require more space than `shared_ptr` |
| * (which is typically the size of two pointers), or when multiple inheritance is used on the |
| * python side. Non-simple layout allocates the required amount of memory to have multiple |
| * bound C++ classes as parents. Under this layout, `nonsimple.values_and_holders` is set to a |
| * pointer to allocated space of the required space to hold a a sequence of value pointers and |
| * holders followed `status`, a set of bit flags (1 byte each), i.e. |
| * [val1*][holder1][val2*][holder2]...[bb...] where each [block] is rounded up to a multiple of |
| * `sizeof(void *)`. `nonsimple.holder_constructed` is, for convenience, a pointer to the |
| * beginning of the [bb...] block (but not independently allocated). |
| * |
| * Status bits indicate whether the associated holder is constructed (& |
| * status_holder_constructed) and whether the value pointer is registered (& |
| * status_instance_registered) in `registered_instances`. |
| */ |
| bool simple_layout : 1; |
| /// For simple layout, tracks whether the holder has been constructed |
| bool simple_holder_constructed : 1; |
| /// For simple layout, tracks whether the instance is registered in `registered_instances` |
| bool simple_instance_registered : 1; |
| /// If true, get_internals().patients has an entry for this object |
| bool has_patients : 1; |
| |
| /// Initializes all of the above type/values/holders data (but not the instance values themselves) |
| void allocate_layout(); |
| |
| /// Destroys/deallocates all of the above |
| void deallocate_layout(); |
| |
| /// Returns the value_and_holder wrapper for the given type (or the first, if `find_type` |
| /// omitted). Returns a default-constructed (with `.inst = nullptr`) object on failure if |
| /// `throw_if_missing` is false. |
| value_and_holder get_value_and_holder(const type_info *find_type = nullptr, bool throw_if_missing = true); |
| |
| /// Bit values for the non-simple status flags |
| static constexpr uint8_t status_holder_constructed = 1; |
| static constexpr uint8_t status_instance_registered = 2; |
| }; |
| |
| static_assert(std::is_standard_layout<instance>::value, "Internal error: `pybind11::detail::instance` is not standard layout!"); |
| |
| /// from __cpp_future__ import (convenient aliases from C++14/17) |
| #if defined(PYBIND11_CPP14) && (!defined(_MSC_VER) || _MSC_VER >= 1910) |
| using std::enable_if_t; |
| using std::conditional_t; |
| using std::remove_cv_t; |
| using std::remove_reference_t; |
| #else |
| template <bool B, typename T = void> using enable_if_t = typename std::enable_if<B, T>::type; |
| template <bool B, typename T, typename F> using conditional_t = typename std::conditional<B, T, F>::type; |
| template <typename T> using remove_cv_t = typename std::remove_cv<T>::type; |
| template <typename T> using remove_reference_t = typename std::remove_reference<T>::type; |
| #endif |
| |
| /// Index sequences |
| #if defined(PYBIND11_CPP14) |
| using std::index_sequence; |
| using std::make_index_sequence; |
| #else |
| template<size_t ...> struct index_sequence { }; |
| template<size_t N, size_t ...S> struct make_index_sequence_impl : make_index_sequence_impl <N - 1, N - 1, S...> { }; |
| template<size_t ...S> struct make_index_sequence_impl <0, S...> { typedef index_sequence<S...> type; }; |
| template<size_t N> using make_index_sequence = typename make_index_sequence_impl<N>::type; |
| #endif |
| |
| /// Make an index sequence of the indices of true arguments |
| template <typename ISeq, size_t, bool...> struct select_indices_impl { using type = ISeq; }; |
| template <size_t... IPrev, size_t I, bool B, bool... Bs> struct select_indices_impl<index_sequence<IPrev...>, I, B, Bs...> |
| : select_indices_impl<conditional_t<B, index_sequence<IPrev..., I>, index_sequence<IPrev...>>, I + 1, Bs...> {}; |
| template <bool... Bs> using select_indices = typename select_indices_impl<index_sequence<>, 0, Bs...>::type; |
| |
| /// Backports of std::bool_constant and std::negation to accomodate older compilers |
| template <bool B> using bool_constant = std::integral_constant<bool, B>; |
| template <typename T> struct negation : bool_constant<!T::value> { }; |
| |
| template <typename...> struct void_t_impl { using type = void; }; |
| template <typename... Ts> using void_t = typename void_t_impl<Ts...>::type; |
| |
| /// Compile-time all/any/none of that check the boolean value of all template types |
| #ifdef __cpp_fold_expressions |
| template <class... Ts> using all_of = bool_constant<(Ts::value && ...)>; |
| template <class... Ts> using any_of = bool_constant<(Ts::value || ...)>; |
| #elif !defined(_MSC_VER) |
| template <bool...> struct bools {}; |
| template <class... Ts> using all_of = std::is_same< |
| bools<Ts::value..., true>, |
| bools<true, Ts::value...>>; |
| template <class... Ts> using any_of = negation<all_of<negation<Ts>...>>; |
| #else |
| // MSVC has trouble with the above, but supports std::conjunction, which we can use instead (albeit |
| // at a slight loss of compilation efficiency). |
| template <class... Ts> using all_of = std::conjunction<Ts...>; |
| template <class... Ts> using any_of = std::disjunction<Ts...>; |
| #endif |
| template <class... Ts> using none_of = negation<any_of<Ts...>>; |
| |
| template <class T, template<class> class... Predicates> using satisfies_all_of = all_of<Predicates<T>...>; |
| template <class T, template<class> class... Predicates> using satisfies_any_of = any_of<Predicates<T>...>; |
| template <class T, template<class> class... Predicates> using satisfies_none_of = none_of<Predicates<T>...>; |
| |
| /// Strip the class from a method type |
| template <typename T> struct remove_class { }; |
| template <typename C, typename R, typename... A> struct remove_class<R (C::*)(A...)> { typedef R type(A...); }; |
| template <typename C, typename R, typename... A> struct remove_class<R (C::*)(A...) const> { typedef R type(A...); }; |
| |
| /// Helper template to strip away type modifiers |
| template <typename T> struct intrinsic_type { typedef T type; }; |
| template <typename T> struct intrinsic_type<const T> { typedef typename intrinsic_type<T>::type type; }; |
| template <typename T> struct intrinsic_type<T*> { typedef typename intrinsic_type<T>::type type; }; |
| template <typename T> struct intrinsic_type<T&> { typedef typename intrinsic_type<T>::type type; }; |
| template <typename T> struct intrinsic_type<T&&> { typedef typename intrinsic_type<T>::type type; }; |
| template <typename T, size_t N> struct intrinsic_type<const T[N]> { typedef typename intrinsic_type<T>::type type; }; |
| template <typename T, size_t N> struct intrinsic_type<T[N]> { typedef typename intrinsic_type<T>::type type; }; |
| template <typename T> using intrinsic_t = typename intrinsic_type<T>::type; |
| |
| /// Helper type to replace 'void' in some expressions |
| struct void_type { }; |
| |
| /// Helper template which holds a list of types |
| template <typename...> struct type_list { }; |
| |
| /// Compile-time integer sum |
| #ifdef __cpp_fold_expressions |
| template <typename... Ts> constexpr size_t constexpr_sum(Ts... ns) { return (0 + ... + size_t{ns}); } |
| #else |
| constexpr size_t constexpr_sum() { return 0; } |
| template <typename T, typename... Ts> |
| constexpr size_t constexpr_sum(T n, Ts... ns) { return size_t{n} + constexpr_sum(ns...); } |
| #endif |
| |
| NAMESPACE_BEGIN(constexpr_impl) |
| /// Implementation details for constexpr functions |
| constexpr int first(int i) { return i; } |
| template <typename T, typename... Ts> |
| constexpr int first(int i, T v, Ts... vs) { return v ? i : first(i + 1, vs...); } |
| |
| constexpr int last(int /*i*/, int result) { return result; } |
| template <typename T, typename... Ts> |
| constexpr int last(int i, int result, T v, Ts... vs) { return last(i + 1, v ? i : result, vs...); } |
| NAMESPACE_END(constexpr_impl) |
| |
| /// Return the index of the first type in Ts which satisfies Predicate<T>. Returns sizeof...(Ts) if |
| /// none match. |
| template <template<typename> class Predicate, typename... Ts> |
| constexpr int constexpr_first() { return constexpr_impl::first(0, Predicate<Ts>::value...); } |
| |
| /// Return the index of the last type in Ts which satisfies Predicate<T>, or -1 if none match. |
| template <template<typename> class Predicate, typename... Ts> |
| constexpr int constexpr_last() { return constexpr_impl::last(0, -1, Predicate<Ts>::value...); } |
| |
| /// Return the Nth element from the parameter pack |
| template <size_t N, typename T, typename... Ts> |
| struct pack_element { using type = typename pack_element<N - 1, Ts...>::type; }; |
| template <typename T, typename... Ts> |
| struct pack_element<0, T, Ts...> { using type = T; }; |
| |
| /// Return the one and only type which matches the predicate, or Default if none match. |
| /// If more than one type matches the predicate, fail at compile-time. |
| template <template<typename> class Predicate, typename Default, typename... Ts> |
| struct exactly_one { |
| static constexpr auto found = constexpr_sum(Predicate<Ts>::value...); |
| static_assert(found <= 1, "Found more than one type matching the predicate"); |
| |
| static constexpr auto index = found ? constexpr_first<Predicate, Ts...>() : 0; |
| using type = conditional_t<found, typename pack_element<index, Ts...>::type, Default>; |
| }; |
| template <template<typename> class P, typename Default> |
| struct exactly_one<P, Default> { using type = Default; }; |
| |
| template <template<typename> class Predicate, typename Default, typename... Ts> |
| using exactly_one_t = typename exactly_one<Predicate, Default, Ts...>::type; |
| |
| /// Defer the evaluation of type T until types Us are instantiated |
| template <typename T, typename... /*Us*/> struct deferred_type { using type = T; }; |
| template <typename T, typename... Us> using deferred_t = typename deferred_type<T, Us...>::type; |
| |
| /// Like is_base_of, but requires a strict base (i.e. `is_strict_base_of<T, T>::value == false`, |
| /// unlike `std::is_base_of`) |
| template <typename Base, typename Derived> using is_strict_base_of = bool_constant< |
| std::is_base_of<Base, Derived>::value && !std::is_same<Base, Derived>::value>; |
| |
| template <template<typename...> class Base> |
| struct is_template_base_of_impl { |
| template <typename... Us> static std::true_type check(Base<Us...> *); |
| static std::false_type check(...); |
| }; |
| |
| /// Check if a template is the base of a type. For example: |
| /// `is_template_base_of<Base, T>` is true if `struct T : Base<U> {}` where U can be anything |
| template <template<typename...> class Base, typename T> |
| #if !defined(_MSC_VER) |
| using is_template_base_of = decltype(is_template_base_of_impl<Base>::check((intrinsic_t<T>*)nullptr)); |
| #else // MSVC2015 has trouble with decltype in template aliases |
| struct is_template_base_of : decltype(is_template_base_of_impl<Base>::check((intrinsic_t<T>*)nullptr)) { }; |
| #endif |
| |
| /// Check if T is an instantiation of the template `Class`. For example: |
| /// `is_instantiation<shared_ptr, T>` is true if `T == shared_ptr<U>` where U can be anything. |
| template <template<typename...> class Class, typename T> |
| struct is_instantiation : std::false_type { }; |
| template <template<typename...> class Class, typename... Us> |
| struct is_instantiation<Class, Class<Us...>> : std::true_type { }; |
| |
| /// Check if T is std::shared_ptr<U> where U can be anything |
| template <typename T> using is_shared_ptr = is_instantiation<std::shared_ptr, T>; |
| |
| /// Check if T looks like an input iterator |
| template <typename T, typename = void> struct is_input_iterator : std::false_type {}; |
| template <typename T> |
| struct is_input_iterator<T, void_t<decltype(*std::declval<T &>()), decltype(++std::declval<T &>())>> |
| : std::true_type {}; |
| |
| template <typename T> using is_function_pointer = bool_constant< |
| std::is_pointer<T>::value && std::is_function<typename std::remove_pointer<T>::type>::value>; |
| |
| template <typename F> struct strip_function_object { |
| using type = typename remove_class<decltype(&F::operator())>::type; |
| }; |
| |
| // Extracts the function signature from a function, function pointer or lambda. |
| template <typename Function, typename F = remove_reference_t<Function>> |
| using function_signature_t = conditional_t< |
| std::is_function<F>::value, |
| F, |
| typename conditional_t< |
| std::is_pointer<F>::value || std::is_member_pointer<F>::value, |
| std::remove_pointer<F>, |
| strip_function_object<F> |
| >::type |
| >; |
| |
| /// Returns true if the type looks like a lambda: that is, isn't a function, pointer or member |
| /// pointer. Note that this can catch all sorts of other things, too; this is intended to be used |
| /// in a place where passing a lambda makes sense. |
| template <typename T> using is_lambda = satisfies_none_of<remove_reference_t<T>, |
| std::is_function, std::is_pointer, std::is_member_pointer>; |
| |
| /// Ignore that a variable is unused in compiler warnings |
| inline void ignore_unused(const int *) { } |
| |
| /// Apply a function over each element of a parameter pack |
| #ifdef __cpp_fold_expressions |
| #define PYBIND11_EXPAND_SIDE_EFFECTS(PATTERN) (((PATTERN), void()), ...) |
| #else |
| using expand_side_effects = bool[]; |
| #define PYBIND11_EXPAND_SIDE_EFFECTS(PATTERN) pybind11::detail::expand_side_effects{ ((PATTERN), void(), false)..., false } |
| #endif |
| |
| NAMESPACE_END(detail) |
| |
| /// C++ bindings of builtin Python exceptions |
| class builtin_exception : public std::runtime_error { |
| public: |
| using std::runtime_error::runtime_error; |
| /// Set the error using the Python C API |
| virtual void set_error() const = 0; |
| }; |
| |
| #define PYBIND11_RUNTIME_EXCEPTION(name, type) \ |
| class name : public builtin_exception { public: \ |
| using builtin_exception::builtin_exception; \ |
| name() : name("") { } \ |
| void set_error() const override { PyErr_SetString(type, what()); } \ |
| }; |
| |
| PYBIND11_RUNTIME_EXCEPTION(stop_iteration, PyExc_StopIteration) |
| PYBIND11_RUNTIME_EXCEPTION(index_error, PyExc_IndexError) |
| PYBIND11_RUNTIME_EXCEPTION(key_error, PyExc_KeyError) |
| PYBIND11_RUNTIME_EXCEPTION(value_error, PyExc_ValueError) |
| PYBIND11_RUNTIME_EXCEPTION(type_error, PyExc_TypeError) |
| PYBIND11_RUNTIME_EXCEPTION(cast_error, PyExc_RuntimeError) /// Thrown when pybind11::cast or handle::call fail due to a type casting error |
| PYBIND11_RUNTIME_EXCEPTION(reference_cast_error, PyExc_RuntimeError) /// Used internally |
| |
| [[noreturn]] PYBIND11_NOINLINE inline void pybind11_fail(const char *reason) { throw std::runtime_error(reason); } |
| [[noreturn]] PYBIND11_NOINLINE inline void pybind11_fail(const std::string &reason) { throw std::runtime_error(reason); } |
| |
| template <typename T, typename SFINAE = void> struct format_descriptor { }; |
| |
| NAMESPACE_BEGIN(detail) |
| // Returns the index of the given type in the type char array below, and in the list in numpy.h |
| // The order here is: bool; 8 ints ((signed,unsigned)x(8,16,32,64)bits); float,double,long double; |
| // complex float,double,long double. Note that the long double types only participate when long |
| // double is actually longer than double (it isn't under MSVC). |
| // NB: not only the string below but also complex.h and numpy.h rely on this order. |
| template <typename T, typename SFINAE = void> struct is_fmt_numeric { static constexpr bool value = false; }; |
| template <typename T> struct is_fmt_numeric<T, enable_if_t<std::is_arithmetic<T>::value>> { |
| static constexpr bool value = true; |
| static constexpr int index = std::is_same<T, bool>::value ? 0 : 1 + ( |
| std::is_integral<T>::value ? detail::log2(sizeof(T))*2 + std::is_unsigned<T>::value : 8 + ( |
| std::is_same<T, double>::value ? 1 : std::is_same<T, long double>::value ? 2 : 0)); |
| }; |
| NAMESPACE_END(detail) |
| |
| template <typename T> struct format_descriptor<T, detail::enable_if_t<std::is_arithmetic<T>::value>> { |
| static constexpr const char c = "?bBhHiIqQfdg"[detail::is_fmt_numeric<T>::index]; |
| static constexpr const char value[2] = { c, '\0' }; |
| static std::string format() { return std::string(1, c); } |
| }; |
| |
| template <typename T> constexpr const char format_descriptor< |
| T, detail::enable_if_t<std::is_arithmetic<T>::value>>::value[2]; |
| |
| /// RAII wrapper that temporarily clears any Python error state |
| struct error_scope { |
| PyObject *type, *value, *trace; |
| error_scope() { PyErr_Fetch(&type, &value, &trace); } |
| ~error_scope() { PyErr_Restore(type, value, trace); } |
| }; |
| |
| /// Dummy destructor wrapper that can be used to expose classes with a private destructor |
| struct nodelete { template <typename T> void operator()(T*) { } }; |
| |
| // overload_cast requires variable templates: C++14 |
| #if defined(PYBIND11_CPP14) |
| #define PYBIND11_OVERLOAD_CAST 1 |
| |
| NAMESPACE_BEGIN(detail) |
| template <typename... Args> |
| struct overload_cast_impl { |
| constexpr overload_cast_impl() {} // MSVC 2015 needs this |
| |
| template <typename Return> |
| constexpr auto operator()(Return (*pf)(Args...)) const noexcept |
| -> decltype(pf) { return pf; } |
| |
| template <typename Return, typename Class> |
| constexpr auto operator()(Return (Class::*pmf)(Args...), std::false_type = {}) const noexcept |
| -> decltype(pmf) { return pmf; } |
| |
| template <typename Return, typename Class> |
| constexpr auto operator()(Return (Class::*pmf)(Args...) const, std::true_type) const noexcept |
| -> decltype(pmf) { return pmf; } |
| }; |
| NAMESPACE_END(detail) |
| |
| /// Syntax sugar for resolving overloaded function pointers: |
| /// - regular: static_cast<Return (Class::*)(Arg0, Arg1, Arg2)>(&Class::func) |
| /// - sweet: overload_cast<Arg0, Arg1, Arg2>(&Class::func) |
| template <typename... Args> |
| static constexpr detail::overload_cast_impl<Args...> overload_cast = {}; |
| // MSVC 2015 only accepts this particular initialization syntax for this variable template. |
| |
| /// Const member function selector for overload_cast |
| /// - regular: static_cast<Return (Class::*)(Arg) const>(&Class::func) |
| /// - sweet: overload_cast<Arg>(&Class::func, const_) |
| static constexpr auto const_ = std::true_type{}; |
| |
| #else // no overload_cast: providing something that static_assert-fails: |
| template <typename... Args> struct overload_cast { |
| static_assert(detail::deferred_t<std::false_type, Args...>::value, |
| "pybind11::overload_cast<...> requires compiling in C++14 mode"); |
| }; |
| #endif // overload_cast |
| |
| NAMESPACE_BEGIN(detail) |
| |
| // Adaptor for converting arbitrary container arguments into a vector; implicitly convertible from |
| // any standard container (or C-style array) supporting std::begin/std::end, any singleton |
| // arithmetic type (if T is arithmetic), or explicitly constructible from an iterator pair. |
| template <typename T> |
| class any_container { |
| std::vector<T> v; |
| public: |
| any_container() = default; |
| |
| // Can construct from a pair of iterators |
| template <typename It, typename = enable_if_t<is_input_iterator<It>::value>> |
| any_container(It first, It last) : v(first, last) { } |
| |
| // Implicit conversion constructor from any arbitrary container type with values convertible to T |
| template <typename Container, typename = enable_if_t<std::is_convertible<decltype(*std::begin(std::declval<const Container &>())), T>::value>> |
| any_container(const Container &c) : any_container(std::begin(c), std::end(c)) { } |
| |
| // initializer_list's aren't deducible, so don't get matched by the above template; we need this |
| // to explicitly allow implicit conversion from one: |
| template <typename TIn, typename = enable_if_t<std::is_convertible<TIn, T>::value>> |
| any_container(const std::initializer_list<TIn> &c) : any_container(c.begin(), c.end()) { } |
| |
| // Avoid copying if given an rvalue vector of the correct type. |
| any_container(std::vector<T> &&v) : v(std::move(v)) { } |
| |
| // Moves the vector out of an rvalue any_container |
| operator std::vector<T> &&() && { return std::move(v); } |
| |
| // Dereferencing obtains a reference to the underlying vector |
| std::vector<T> &operator*() { return v; } |
| const std::vector<T> &operator*() const { return v; } |
| |
| // -> lets you call methods on the underlying vector |
| std::vector<T> *operator->() { return &v; } |
| const std::vector<T> *operator->() const { return &v; } |
| }; |
| |
| NAMESPACE_END(detail) |
| |
| |
| |
| NAMESPACE_END(PYBIND11_NAMESPACE) |