mirror of
https://github.com/pybind/pybind11.git
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Use semi-constexpr signatures on MSVC
MSCV does not allow `&typeid(T)` in constexpr contexts, but the string part of the type signature can still be constexpr. In order to avoid `typeid` as long as possible, `descr` is modified to collect type information as template parameters instead of constexpr `typeid`. The actual `std::type_info` pointers are only collected in the end, as a `constexpr` (gcc/clang) or regular (MSVC) function call. Not only does it significantly reduce binary size on MSVC, gcc/clang benefit a little bit as well, since they can skip some intermediate `std::type_info*` arrays.
This commit is contained in:
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c10ac6cf1f
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@ -87,9 +87,8 @@ In addition to the core functionality, pybind11 provides some extra goodies:
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[reported](http://graylab.jhu.edu/RosettaCon2016/PyRosetta-4.pdf) a binary
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[reported](http://graylab.jhu.edu/RosettaCon2016/PyRosetta-4.pdf) a binary
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size reduction of **5.4x** and compile time reduction by **5.8x**.
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size reduction of **5.4x** and compile time reduction by **5.8x**.
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- When supported by the compiler, two new C++14 features (relaxed constexpr and
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- Function signatures are precomputed at compile time (using ``constexpr``),
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return value deduction) are used to precompute function signatures at compile
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leading to smaller binaries.
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time, leading to smaller binaries.
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- With little extra effort, C++ types can be pickled and unpickled similar to
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- With little extra effort, C++ types can be pickled and unpickled similar to
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regular Python objects.
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regular Python objects.
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@ -9,7 +9,11 @@ Starting with version 1.8.0, pybind11 releases use a `semantic versioning
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v2.3.0 (Not yet released)
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v2.3.0 (Not yet released)
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-----------------------------------------------------
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-----------------------------------------------------
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* TBD
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* Significantly reduced module binary size (10-20%) when compiled in C++11 mode
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with GCC/Clang, or in any mode with MSVC. Function signatures are now always
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precomputed at compile time (this was previously only available in C++14 mode
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for non-MSVC compilers).
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`#934 <https://github.com/pybind/pybind11/pull/934>`_.
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v2.2.1 (September 14, 2017)
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v2.2.1 (September 14, 2017)
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-----------------------------------------------------
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-----------------------------------------------------
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30
docs/faq.rst
30
docs/faq.rst
@ -228,36 +228,6 @@ In addition to decreasing binary size, ``-fvisibility=hidden`` also avoids
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potential serious issues when loading multiple modules and is required for
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potential serious issues when loading multiple modules and is required for
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proper pybind operation. See the previous FAQ entry for more details.
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proper pybind operation. See the previous FAQ entry for more details.
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Another aspect that can require a fair bit of code are function signature
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descriptions. pybind11 automatically generates human-readable function
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signatures for docstrings, e.g.:
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.. code-block:: none
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| __init__(...)
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| __init__(*args, **kwargs)
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| Overloaded function.
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| 1. __init__(example.Example1) -> NoneType
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| Docstring for overload #1 goes here
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| 2. __init__(example.Example1, int) -> NoneType
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| Docstring for overload #2 goes here
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| 3. __init__(example.Example1, example.Example1) -> NoneType
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| Docstring for overload #3 goes here
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In C++11 mode, these are generated at run time using string concatenation,
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which can amount to 10-20% of the size of the resulting binary. If you can,
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enable C++14 language features (using ``-std=c++14`` for GCC/Clang), in which
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case signatures are efficiently pre-generated at compile time. Unfortunately,
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Visual Studio's C++14 support (``constexpr``) is not good enough as of April
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2016, so it always uses the more expensive run-time approach.
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Working with ancient Visual Studio 2009 builds on Windows
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Working with ancient Visual Studio 2009 builds on Windows
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=========================================================
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=========================================================
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@ -77,9 +77,8 @@ In addition to the core functionality, pybind11 provides some extra goodies:
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of `PyRosetta`_, an enormous Boost.Python binding project, reported a binary
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of `PyRosetta`_, an enormous Boost.Python binding project, reported a binary
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size reduction of **5.4x** and compile time reduction by **5.8x**.
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size reduction of **5.4x** and compile time reduction by **5.8x**.
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- When supported by the compiler, two new C++14 features (relaxed constexpr and
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- Function signatures are precomputed at compile time (using ``constexpr``),
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return value deduction) are used to precompute function signatures at compile
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leading to smaller binaries.
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time, leading to smaller binaries.
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- With little extra effort, C++ types can be pickled and unpickled similar to
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- With little extra effort, C++ types can be pickled and unpickled similar to
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regular Python objects.
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regular Python objects.
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@ -14,99 +14,85 @@
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NAMESPACE_BEGIN(PYBIND11_NAMESPACE)
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NAMESPACE_BEGIN(PYBIND11_NAMESPACE)
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NAMESPACE_BEGIN(detail)
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NAMESPACE_BEGIN(detail)
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#if !defined(_MSC_VER)
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# define PYBIND11_DESCR_CONSTEXPR static constexpr
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#else
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# define PYBIND11_DESCR_CONSTEXPR const
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#endif
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/* Concatenate type signatures at compile time */
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/* Concatenate type signatures at compile time */
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template <size_t Size1, size_t Size2> class descr {
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template <size_t N, typename... Ts>
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template <size_t Size1_, size_t Size2_> friend class descr;
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struct descr {
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public:
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char text[N + 1];
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constexpr descr() = default;
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constexpr descr(char const (&text) [Size1+1], const std::type_info * const (&types)[Size2+1])
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constexpr descr() : text{'\0'} { }
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: descr(text, types,
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constexpr descr(char const (&s)[N+1]) : descr(s, make_index_sequence<N>()) { }
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make_index_sequence<Size1>(),
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make_index_sequence<Size2>()) { }
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constexpr const char *text() const { return m_text; }
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template <size_t... Is>
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constexpr const std::type_info * const * types() const { return m_types; }
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constexpr descr(char const (&s)[N+1], index_sequence<Is...>) : text{s[Is]..., '\0'} { }
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template <size_t OtherSize1, size_t OtherSize2>
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template <typename... Chars>
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constexpr descr<Size1 + OtherSize1, Size2 + OtherSize2> operator+(const descr<OtherSize1, OtherSize2> &other) const {
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constexpr descr(char c, Chars... cs) : text{c, static_cast<char>(cs)..., '\0'} { }
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return concat(other,
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make_index_sequence<Size1>(),
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static constexpr std::array<const std::type_info *, sizeof...(Ts) + 1> types() {
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make_index_sequence<Size2>(),
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return {{&typeid(Ts)..., nullptr}};
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make_index_sequence<OtherSize1>(),
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make_index_sequence<OtherSize2>());
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}
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}
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protected:
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template <size_t... Indices1, size_t... Indices2>
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constexpr descr(
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char const (&text) [Size1+1],
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const std::type_info * const (&types) [Size2+1],
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index_sequence<Indices1...>, index_sequence<Indices2...>)
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: m_text{text[Indices1]..., '\0'},
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m_types{types[Indices2]..., nullptr } {}
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template <size_t OtherSize1, size_t OtherSize2, size_t... Indices1,
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size_t... Indices2, size_t... OtherIndices1, size_t... OtherIndices2>
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constexpr descr<Size1 + OtherSize1, Size2 + OtherSize2>
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concat(const descr<OtherSize1, OtherSize2> &other,
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index_sequence<Indices1...>, index_sequence<Indices2...>,
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index_sequence<OtherIndices1...>, index_sequence<OtherIndices2...>) const {
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return descr<Size1 + OtherSize1, Size2 + OtherSize2>(
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{ m_text[Indices1]..., other.m_text[OtherIndices1]..., '\0' },
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{ m_types[Indices2]..., other.m_types[OtherIndices2]..., nullptr }
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);
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}
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protected:
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char m_text[Size1 + 1];
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const std::type_info * m_types[Size2 + 1];
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};
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};
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template <size_t Size> constexpr descr<Size - 1, 0> _(char const(&text)[Size]) {
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template <size_t N1, size_t N2, typename... Ts1, typename... Ts2, size_t... Is1, size_t... Is2>
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return descr<Size - 1, 0>(text, { nullptr });
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constexpr descr<N1 + N2, Ts1..., Ts2...> plus_impl(const descr<N1, Ts1...> &a, const descr<N2, Ts2...> &b,
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index_sequence<Is1...>, index_sequence<Is2...>) {
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return {a.text[Is1]..., b.text[Is2]...};
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}
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}
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template <size_t N1, size_t N2, typename... Ts1, typename... Ts2>
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constexpr descr<N1 + N2, Ts1..., Ts2...> operator+(const descr<N1, Ts1...> &a, const descr<N2, Ts2...> &b) {
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return plus_impl(a, b, make_index_sequence<N1>(), make_index_sequence<N2>());
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}
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template <size_t N>
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constexpr descr<N - 1> _(char const(&text)[N]) { return descr<N - 1>(text); }
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constexpr descr<0> _(char const(&)[1]) { return {}; }
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template <size_t Rem, size_t... Digits> struct int_to_str : int_to_str<Rem/10, Rem%10, Digits...> { };
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template <size_t Rem, size_t... Digits> struct int_to_str : int_to_str<Rem/10, Rem%10, Digits...> { };
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template <size_t...Digits> struct int_to_str<0, Digits...> {
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template <size_t...Digits> struct int_to_str<0, Digits...> {
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static constexpr auto digits = descr<sizeof...(Digits), 0>({ ('0' + Digits)..., '\0' }, { nullptr });
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static constexpr auto digits = descr<sizeof...(Digits)>(('0' + Digits)...);
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};
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};
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// Ternary description (like std::conditional)
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// Ternary description (like std::conditional)
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template <bool B, size_t Size1, size_t Size2>
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template <bool B, size_t N1, size_t N2>
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constexpr enable_if_t<B, descr<Size1 - 1, 0>> _(char const(&text1)[Size1], char const(&)[Size2]) {
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constexpr enable_if_t<B, descr<N1 - 1>> _(char const(&text1)[N1], char const(&)[N2]) {
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return _(text1);
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return _(text1);
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}
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}
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template <bool B, size_t Size1, size_t Size2>
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template <bool B, size_t N1, size_t N2>
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constexpr enable_if_t<!B, descr<Size2 - 1, 0>> _(char const(&)[Size1], char const(&text2)[Size2]) {
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constexpr enable_if_t<!B, descr<N2 - 1>> _(char const(&)[N1], char const(&text2)[N2]) {
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return _(text2);
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return _(text2);
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}
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}
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template <bool B, size_t SizeA1, size_t SizeA2, size_t SizeB1, size_t SizeB2>
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constexpr enable_if_t<B, descr<SizeA1, SizeA2>> _(descr<SizeA1, SizeA2> d, descr<SizeB1, SizeB2>) { return d; }
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template <bool B, typename T1, typename T2>
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template <bool B, size_t SizeA1, size_t SizeA2, size_t SizeB1, size_t SizeB2>
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constexpr enable_if_t<B, T1> _(const T1 &d, const T2 &) { return d; }
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constexpr enable_if_t<!B, descr<SizeB1, SizeB2>> _(descr<SizeA1, SizeA2>, descr<SizeB1, SizeB2> d) { return d; }
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template <bool B, typename T1, typename T2>
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constexpr enable_if_t<!B, T2> _(const T1 &, const T2 &d) { return d; }
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template <size_t Size> auto constexpr _() -> decltype(int_to_str<Size / 10, Size % 10>::digits) {
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template <size_t Size> auto constexpr _() -> decltype(int_to_str<Size / 10, Size % 10>::digits) {
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return int_to_str<Size / 10, Size % 10>::digits;
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return int_to_str<Size / 10, Size % 10>::digits;
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}
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}
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template <typename Type> constexpr descr<1, 1> _() {
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template <typename Type> constexpr descr<1, Type> _() { return {'%'}; }
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return descr<1, 1>({ '%', '\0' }, { &typeid(Type), nullptr });
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}
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constexpr descr<0, 0> concat() { return _(""); }
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constexpr descr<0> concat() { return {}; }
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template <size_t Size1, size_t Size2>
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template <size_t N, typename... Ts>
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constexpr descr<Size1, Size2> concat(descr<Size1, Size2> descr) { return descr; }
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constexpr descr<N, Ts...> concat(const descr<N, Ts...> &descr) { return descr; }
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template <size_t Size1, size_t Size2, typename... Args>
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template <size_t N, typename... Ts, typename... Args>
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constexpr auto concat(descr<Size1, Size2> d, Args... args)
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constexpr auto concat(const descr<N, Ts...> &d, const Args &...args)
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-> decltype(descr<Size1 + 2, Size2>{} + concat(args...)) {
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-> decltype(std::declval<descr<N + 2, Ts...>>() + concat(args...)) {
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return d + _(", ") + concat(args...);
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return d + _(", ") + concat(args...);
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}
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}
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template <size_t Size1, size_t Size2>
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template <size_t N, typename... Ts>
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constexpr descr<Size1 + 2, Size2> type_descr(descr<Size1, Size2> descr) {
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constexpr descr<N + 2, Ts...> type_descr(const descr<N, Ts...> &descr) {
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return _("{") + descr + _("}");
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return _("{") + descr + _("}");
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}
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}
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struct format_descriptor<T, detail::enable_if_t<detail::array_info<T>::is_array>> {
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struct format_descriptor<T, detail::enable_if_t<detail::array_info<T>::is_array>> {
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static std::string format() {
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static std::string format() {
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using detail::_;
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using detail::_;
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constexpr auto extents = _("(") + detail::array_info<T>::extents + _(")");
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static constexpr auto extents = _("(") + detail::array_info<T>::extents + _(")");
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return extents.text() + format_descriptor<detail::remove_all_extents_t<T>>::format();
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return extents.text + format_descriptor<detail::remove_all_extents_t<T>>::format();
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}
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}
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};
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};
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/// Special internal constructor for functors, lambda functions, etc.
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/// Special internal constructor for functors, lambda functions, etc.
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template <typename Func, typename Return, typename... Args, typename... Extra>
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template <typename Func, typename Return, typename... Args, typename... Extra>
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void initialize(Func &&f, Return (*)(Args...), const Extra&... extra) {
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void initialize(Func &&f, Return (*)(Args...), const Extra&... extra) {
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using namespace detail;
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struct capture { detail::remove_reference_t<Func> f; };
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struct capture { detail::remove_reference_t<Func> f; };
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/* Store the function including any extra state it might have (e.g. a lambda capture object) */
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/* Store the function including any extra state it might have (e.g. a lambda capture object) */
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detail::process_attributes<Extra...>::init(extra..., rec);
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detail::process_attributes<Extra...>::init(extra..., rec);
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/* Generate a readable signature describing the function's arguments and return value types */
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/* Generate a readable signature describing the function's arguments and return value types */
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using detail::descr; using detail::_;
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static constexpr auto signature = _("(") + cast_in::arg_names + _(") -> ") + cast_out::name;
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constexpr auto signature = _("(") + cast_in::arg_names + _(") -> ") + cast_out::name;
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PYBIND11_DESCR_CONSTEXPR auto types = decltype(signature)::types();
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/* Register the function with Python from generic (non-templated) code */
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/* Register the function with Python from generic (non-templated) code */
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initialize_generic(rec, signature.text(), signature.types(), sizeof...(Args));
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initialize_generic(rec, signature.text, types.data(), sizeof...(Args));
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if (cast_in::has_args) rec->has_args = true;
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if (cast_in::has_args) rec->has_args = true;
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if (cast_in::has_kwargs) rec->has_kwargs = true;
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if (cast_in::has_kwargs) rec->has_kwargs = true;
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