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210c8c218f
* Update attr.h: fix a warning found by static code analyzer Update attr.h: fix a warning found by Visual Studio static code analyzer Severity:Warning Code:C6323 Description: Use of arithmetic operator on Boolean type(s). Location: C:\src\onnxruntime\debug\pybind11\src\pybind11\include\pybind11\attr.h:547 * Update include/pybind11/attr.h Co-authored-by: Henry Schreiner <HenrySchreinerIII@gmail.com> * Update attr.h Co-authored-by: Henry Schreiner <HenrySchreinerIII@gmail.com>
552 lines
21 KiB
C++
552 lines
21 KiB
C++
/*
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pybind11/attr.h: Infrastructure for processing custom
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type and function attributes
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Copyright (c) 2016 Wenzel Jakob <wenzel.jakob@epfl.ch>
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All rights reserved. Use of this source code is governed by a
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BSD-style license that can be found in the LICENSE file.
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*/
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#pragma once
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#include "cast.h"
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PYBIND11_NAMESPACE_BEGIN(PYBIND11_NAMESPACE)
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/// \addtogroup annotations
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/// @{
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/// Annotation for methods
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struct is_method { handle class_; is_method(const handle &c) : class_(c) { } };
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/// Annotation for operators
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struct is_operator { };
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/// Annotation for classes that cannot be subclassed
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struct is_final { };
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/// Annotation for parent scope
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struct scope { handle value; scope(const handle &s) : value(s) { } };
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/// Annotation for documentation
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struct doc { const char *value; doc(const char *value) : value(value) { } };
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/// Annotation for function names
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struct name { const char *value; name(const char *value) : value(value) { } };
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/// Annotation indicating that a function is an overload associated with a given "sibling"
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struct sibling { handle value; sibling(const handle &value) : value(value.ptr()) { } };
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/// Annotation indicating that a class derives from another given type
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template <typename T> struct base {
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PYBIND11_DEPRECATED("base<T>() was deprecated in favor of specifying 'T' as a template argument to class_")
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base() { } // NOLINT(modernize-use-equals-default): breaks MSVC 2015 when adding an attribute
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};
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/// Keep patient alive while nurse lives
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template <size_t Nurse, size_t Patient> struct keep_alive { };
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/// Annotation indicating that a class is involved in a multiple inheritance relationship
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struct multiple_inheritance { };
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/// Annotation which enables dynamic attributes, i.e. adds `__dict__` to a class
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struct dynamic_attr { };
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/// Annotation which enables the buffer protocol for a type
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struct buffer_protocol { };
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/// Annotation which requests that a special metaclass is created for a type
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struct metaclass {
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handle value;
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PYBIND11_DEPRECATED("py::metaclass() is no longer required. It's turned on by default now.")
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metaclass() { } // NOLINT(modernize-use-equals-default): breaks MSVC 2015 when adding an attribute
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/// Override pybind11's default metaclass
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explicit metaclass(handle value) : value(value) { }
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};
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/// Annotation that marks a class as local to the module:
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struct module_local { const bool value; constexpr module_local(bool v = true) : value(v) { } };
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/// Annotation to mark enums as an arithmetic type
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struct arithmetic { };
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/// Mark a function for addition at the beginning of the existing overload chain instead of the end
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struct prepend { };
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/** \rst
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A call policy which places one or more guard variables (``Ts...``) around the function call.
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For example, this definition:
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.. code-block:: cpp
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m.def("foo", foo, py::call_guard<T>());
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is equivalent to the following pseudocode:
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.. code-block:: cpp
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m.def("foo", [](args...) {
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T scope_guard;
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return foo(args...); // forwarded arguments
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});
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\endrst */
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template <typename... Ts> struct call_guard;
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template <> struct call_guard<> { using type = detail::void_type; };
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template <typename T>
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struct call_guard<T> {
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static_assert(std::is_default_constructible<T>::value,
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"The guard type must be default constructible");
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using type = T;
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};
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template <typename T, typename... Ts>
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struct call_guard<T, Ts...> {
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struct type {
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T guard{}; // Compose multiple guard types with left-to-right default-constructor order
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typename call_guard<Ts...>::type next{};
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};
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};
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/// @} annotations
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PYBIND11_NAMESPACE_BEGIN(detail)
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/* Forward declarations */
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enum op_id : int;
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enum op_type : int;
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struct undefined_t;
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template <op_id id, op_type ot, typename L = undefined_t, typename R = undefined_t> struct op_;
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inline void keep_alive_impl(size_t Nurse, size_t Patient, function_call &call, handle ret);
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/// Internal data structure which holds metadata about a keyword argument
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struct argument_record {
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const char *name; ///< Argument name
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const char *descr; ///< Human-readable version of the argument value
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handle value; ///< Associated Python object
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bool convert : 1; ///< True if the argument is allowed to convert when loading
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bool none : 1; ///< True if None is allowed when loading
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argument_record(const char *name, const char *descr, handle value, bool convert, bool none)
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: name(name), descr(descr), value(value), convert(convert), none(none) { }
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};
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/// Internal data structure which holds metadata about a bound function (signature, overloads, etc.)
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struct function_record {
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function_record()
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: is_constructor(false), is_new_style_constructor(false), is_stateless(false),
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is_operator(false), is_method(false), has_args(false),
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has_kwargs(false), has_kw_only_args(false), prepend(false) { }
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/// Function name
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char *name = nullptr; /* why no C++ strings? They generate heavier code.. */
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// User-specified documentation string
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char *doc = nullptr;
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/// Human-readable version of the function signature
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char *signature = nullptr;
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/// List of registered keyword arguments
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std::vector<argument_record> args;
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/// Pointer to lambda function which converts arguments and performs the actual call
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handle (*impl) (function_call &) = nullptr;
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/// Storage for the wrapped function pointer and captured data, if any
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void *data[3] = { };
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/// Pointer to custom destructor for 'data' (if needed)
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void (*free_data) (function_record *ptr) = nullptr;
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/// Return value policy associated with this function
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return_value_policy policy = return_value_policy::automatic;
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/// True if name == '__init__'
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bool is_constructor : 1;
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/// True if this is a new-style `__init__` defined in `detail/init.h`
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bool is_new_style_constructor : 1;
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/// True if this is a stateless function pointer
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bool is_stateless : 1;
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/// True if this is an operator (__add__), etc.
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bool is_operator : 1;
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/// True if this is a method
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bool is_method : 1;
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/// True if the function has a '*args' argument
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bool has_args : 1;
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/// True if the function has a '**kwargs' argument
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bool has_kwargs : 1;
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/// True once a 'py::kw_only' is encountered (any following args are keyword-only)
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bool has_kw_only_args : 1;
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/// True if this function is to be inserted at the beginning of the overload resolution chain
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bool prepend : 1;
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/// Number of arguments (including py::args and/or py::kwargs, if present)
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std::uint16_t nargs;
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/// Number of trailing arguments (counted in `nargs`) that are keyword-only
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std::uint16_t nargs_kw_only = 0;
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/// Number of leading arguments (counted in `nargs`) that are positional-only
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std::uint16_t nargs_pos_only = 0;
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/// Python method object
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PyMethodDef *def = nullptr;
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/// Python handle to the parent scope (a class or a module)
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handle scope;
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/// Python handle to the sibling function representing an overload chain
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handle sibling;
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/// Pointer to next overload
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function_record *next = nullptr;
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};
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/// Special data structure which (temporarily) holds metadata about a bound class
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struct type_record {
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PYBIND11_NOINLINE type_record()
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: multiple_inheritance(false), dynamic_attr(false), buffer_protocol(false),
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default_holder(true), module_local(false), is_final(false) { }
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/// Handle to the parent scope
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handle scope;
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/// Name of the class
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const char *name = nullptr;
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// Pointer to RTTI type_info data structure
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const std::type_info *type = nullptr;
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/// How large is the underlying C++ type?
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size_t type_size = 0;
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/// What is the alignment of the underlying C++ type?
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size_t type_align = 0;
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/// How large is the type's holder?
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size_t holder_size = 0;
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/// The global operator new can be overridden with a class-specific variant
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void *(*operator_new)(size_t) = nullptr;
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/// Function pointer to class_<..>::init_instance
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void (*init_instance)(instance *, const void *) = nullptr;
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/// Function pointer to class_<..>::dealloc
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void (*dealloc)(detail::value_and_holder &) = nullptr;
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/// List of base classes of the newly created type
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list bases;
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/// Optional docstring
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const char *doc = nullptr;
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/// Custom metaclass (optional)
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handle metaclass;
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/// Multiple inheritance marker
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bool multiple_inheritance : 1;
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/// Does the class manage a __dict__?
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bool dynamic_attr : 1;
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/// Does the class implement the buffer protocol?
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bool buffer_protocol : 1;
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/// Is the default (unique_ptr) holder type used?
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bool default_holder : 1;
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/// Is the class definition local to the module shared object?
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bool module_local : 1;
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/// Is the class inheritable from python classes?
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bool is_final : 1;
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PYBIND11_NOINLINE void add_base(const std::type_info &base, void *(*caster)(void *)) {
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auto base_info = detail::get_type_info(base, false);
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if (!base_info) {
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std::string tname(base.name());
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detail::clean_type_id(tname);
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pybind11_fail("generic_type: type \"" + std::string(name) +
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"\" referenced unknown base type \"" + tname + "\"");
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}
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if (default_holder != base_info->default_holder) {
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std::string tname(base.name());
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detail::clean_type_id(tname);
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pybind11_fail("generic_type: type \"" + std::string(name) + "\" " +
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(default_holder ? "does not have" : "has") +
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" a non-default holder type while its base \"" + tname + "\" " +
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(base_info->default_holder ? "does not" : "does"));
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}
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bases.append((PyObject *) base_info->type);
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if (base_info->type->tp_dictoffset != 0)
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dynamic_attr = true;
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if (caster)
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base_info->implicit_casts.emplace_back(type, caster);
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}
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};
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inline function_call::function_call(const function_record &f, handle p) :
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func(f), parent(p) {
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args.reserve(f.nargs);
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args_convert.reserve(f.nargs);
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}
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/// Tag for a new-style `__init__` defined in `detail/init.h`
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struct is_new_style_constructor { };
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/**
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* Partial template specializations to process custom attributes provided to
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* cpp_function_ and class_. These are either used to initialize the respective
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* fields in the type_record and function_record data structures or executed at
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* runtime to deal with custom call policies (e.g. keep_alive).
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*/
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template <typename T, typename SFINAE = void> struct process_attribute;
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template <typename T> struct process_attribute_default {
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/// Default implementation: do nothing
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static void init(const T &, function_record *) { }
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static void init(const T &, type_record *) { }
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static void precall(function_call &) { }
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static void postcall(function_call &, handle) { }
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};
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/// Process an attribute specifying the function's name
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template <> struct process_attribute<name> : process_attribute_default<name> {
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static void init(const name &n, function_record *r) { r->name = const_cast<char *>(n.value); }
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};
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/// Process an attribute specifying the function's docstring
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template <> struct process_attribute<doc> : process_attribute_default<doc> {
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static void init(const doc &n, function_record *r) { r->doc = const_cast<char *>(n.value); }
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};
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/// Process an attribute specifying the function's docstring (provided as a C-style string)
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template <> struct process_attribute<const char *> : process_attribute_default<const char *> {
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static void init(const char *d, function_record *r) { r->doc = const_cast<char *>(d); }
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static void init(const char *d, type_record *r) { r->doc = const_cast<char *>(d); }
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};
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template <> struct process_attribute<char *> : process_attribute<const char *> { };
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/// Process an attribute indicating the function's return value policy
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template <> struct process_attribute<return_value_policy> : process_attribute_default<return_value_policy> {
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static void init(const return_value_policy &p, function_record *r) { r->policy = p; }
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};
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/// Process an attribute which indicates that this is an overloaded function associated with a given sibling
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template <> struct process_attribute<sibling> : process_attribute_default<sibling> {
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static void init(const sibling &s, function_record *r) { r->sibling = s.value; }
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};
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/// Process an attribute which indicates that this function is a method
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template <> struct process_attribute<is_method> : process_attribute_default<is_method> {
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static void init(const is_method &s, function_record *r) { r->is_method = true; r->scope = s.class_; }
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};
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/// Process an attribute which indicates the parent scope of a method
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template <> struct process_attribute<scope> : process_attribute_default<scope> {
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static void init(const scope &s, function_record *r) { r->scope = s.value; }
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};
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/// Process an attribute which indicates that this function is an operator
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template <> struct process_attribute<is_operator> : process_attribute_default<is_operator> {
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static void init(const is_operator &, function_record *r) { r->is_operator = true; }
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};
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template <> struct process_attribute<is_new_style_constructor> : process_attribute_default<is_new_style_constructor> {
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static void init(const is_new_style_constructor &, function_record *r) { r->is_new_style_constructor = true; }
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};
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inline void process_kw_only_arg(const arg &a, function_record *r) {
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if (!a.name || strlen(a.name) == 0)
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pybind11_fail("arg(): cannot specify an unnamed argument after an kw_only() annotation");
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++r->nargs_kw_only;
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}
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/// Process a keyword argument attribute (*without* a default value)
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template <> struct process_attribute<arg> : process_attribute_default<arg> {
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static void init(const arg &a, function_record *r) {
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if (r->is_method && r->args.empty())
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r->args.emplace_back("self", nullptr, handle(), true /*convert*/, false /*none not allowed*/);
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r->args.emplace_back(a.name, nullptr, handle(), !a.flag_noconvert, a.flag_none);
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if (r->has_kw_only_args) process_kw_only_arg(a, r);
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}
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};
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/// Process a keyword argument attribute (*with* a default value)
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template <> struct process_attribute<arg_v> : process_attribute_default<arg_v> {
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static void init(const arg_v &a, function_record *r) {
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if (r->is_method && r->args.empty())
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r->args.emplace_back("self", nullptr /*descr*/, handle() /*parent*/, true /*convert*/, false /*none not allowed*/);
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if (!a.value) {
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#if !defined(NDEBUG)
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std::string descr("'");
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if (a.name) descr += std::string(a.name) + ": ";
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descr += a.type + "'";
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if (r->is_method) {
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if (r->name)
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descr += " in method '" + (std::string) str(r->scope) + "." + (std::string) r->name + "'";
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else
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descr += " in method of '" + (std::string) str(r->scope) + "'";
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} else if (r->name) {
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descr += " in function '" + (std::string) r->name + "'";
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}
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pybind11_fail("arg(): could not convert default argument "
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+ descr + " into a Python object (type not registered yet?)");
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#else
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pybind11_fail("arg(): could not convert default argument "
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"into a Python object (type not registered yet?). "
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"Compile in debug mode for more information.");
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#endif
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}
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r->args.emplace_back(a.name, a.descr, a.value.inc_ref(), !a.flag_noconvert, a.flag_none);
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if (r->has_kw_only_args) process_kw_only_arg(a, r);
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}
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};
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/// Process a keyword-only-arguments-follow pseudo argument
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template <> struct process_attribute<kw_only> : process_attribute_default<kw_only> {
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static void init(const kw_only &, function_record *r) {
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r->has_kw_only_args = true;
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}
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};
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/// Process a positional-only-argument maker
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template <> struct process_attribute<pos_only> : process_attribute_default<pos_only> {
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static void init(const pos_only &, function_record *r) {
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r->nargs_pos_only = static_cast<std::uint16_t>(r->args.size());
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}
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};
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/// Process a parent class attribute. Single inheritance only (class_ itself already guarantees that)
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template <typename T>
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struct process_attribute<T, enable_if_t<is_pyobject<T>::value>> : process_attribute_default<handle> {
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static void init(const handle &h, type_record *r) { r->bases.append(h); }
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};
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/// Process a parent class attribute (deprecated, does not support multiple inheritance)
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template <typename T>
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struct process_attribute<base<T>> : process_attribute_default<base<T>> {
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static void init(const base<T> &, type_record *r) { r->add_base(typeid(T), nullptr); }
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};
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/// Process a multiple inheritance attribute
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template <>
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struct process_attribute<multiple_inheritance> : process_attribute_default<multiple_inheritance> {
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static void init(const multiple_inheritance &, type_record *r) { r->multiple_inheritance = true; }
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};
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template <>
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struct process_attribute<dynamic_attr> : process_attribute_default<dynamic_attr> {
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static void init(const dynamic_attr &, type_record *r) { r->dynamic_attr = true; }
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};
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template <>
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struct process_attribute<is_final> : process_attribute_default<is_final> {
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static void init(const is_final &, type_record *r) { r->is_final = true; }
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};
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template <>
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struct process_attribute<buffer_protocol> : process_attribute_default<buffer_protocol> {
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static void init(const buffer_protocol &, type_record *r) { r->buffer_protocol = true; }
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};
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template <>
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struct process_attribute<metaclass> : process_attribute_default<metaclass> {
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static void init(const metaclass &m, type_record *r) { r->metaclass = m.value; }
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};
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template <>
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struct process_attribute<module_local> : process_attribute_default<module_local> {
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static void init(const module_local &l, type_record *r) { r->module_local = l.value; }
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};
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/// Process a 'prepend' attribute, putting this at the beginning of the overload chain
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template <>
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struct process_attribute<prepend> : process_attribute_default<prepend> {
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static void init(const prepend &, function_record *r) { r->prepend = true; }
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};
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/// Process an 'arithmetic' attribute for enums (does nothing here)
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template <>
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struct process_attribute<arithmetic> : process_attribute_default<arithmetic> {};
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template <typename... Ts>
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struct process_attribute<call_guard<Ts...>> : process_attribute_default<call_guard<Ts...>> { };
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/**
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* Process a keep_alive call policy -- invokes keep_alive_impl during the
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* pre-call handler if both Nurse, Patient != 0 and use the post-call handler
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* otherwise
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*/
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template <size_t Nurse, size_t Patient> struct process_attribute<keep_alive<Nurse, Patient>> : public process_attribute_default<keep_alive<Nurse, Patient>> {
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template <size_t N = Nurse, size_t P = Patient, enable_if_t<N != 0 && P != 0, int> = 0>
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static void precall(function_call &call) { keep_alive_impl(Nurse, Patient, call, handle()); }
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template <size_t N = Nurse, size_t P = Patient, enable_if_t<N != 0 && P != 0, int> = 0>
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static void postcall(function_call &, handle) { }
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template <size_t N = Nurse, size_t P = Patient, enable_if_t<N == 0 || P == 0, int> = 0>
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static void precall(function_call &) { }
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template <size_t N = Nurse, size_t P = Patient, enable_if_t<N == 0 || P == 0, int> = 0>
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static void postcall(function_call &call, handle ret) { keep_alive_impl(Nurse, Patient, call, ret); }
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};
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/// Recursively iterate over variadic template arguments
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template <typename... Args> struct process_attributes {
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static void init(const Args&... args, function_record *r) {
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int unused[] = { 0, (process_attribute<typename std::decay<Args>::type>::init(args, r), 0) ... };
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ignore_unused(unused);
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|
}
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|
static void init(const Args&... args, type_record *r) {
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int unused[] = { 0, (process_attribute<typename std::decay<Args>::type>::init(args, r), 0) ... };
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ignore_unused(unused);
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|
}
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|
static void precall(function_call &call) {
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|
int unused[] = { 0, (process_attribute<typename std::decay<Args>::type>::precall(call), 0) ... };
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|
ignore_unused(unused);
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|
}
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|
static void postcall(function_call &call, handle fn_ret) {
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|
int unused[] = { 0, (process_attribute<typename std::decay<Args>::type>::postcall(call, fn_ret), 0) ... };
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|
ignore_unused(unused);
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|
}
|
|
};
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|
|
template <typename T>
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|
using is_call_guard = is_instantiation<call_guard, T>;
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|
|
|
/// Extract the ``type`` from the first `call_guard` in `Extras...` (or `void_type` if none found)
|
|
template <typename... Extra>
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|
using extract_guard_t = typename exactly_one_t<is_call_guard, call_guard<>, Extra...>::type;
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|
|
|
/// Check the number of named arguments at compile time
|
|
template <typename... Extra,
|
|
size_t named = constexpr_sum(std::is_base_of<arg, Extra>::value...),
|
|
size_t self = constexpr_sum(std::is_same<is_method, Extra>::value...)>
|
|
constexpr bool expected_num_args(size_t nargs, bool has_args, bool has_kwargs) {
|
|
return named == 0 || (self + named + size_t(has_args) + size_t(has_kwargs)) == nargs;
|
|
}
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|
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PYBIND11_NAMESPACE_END(detail)
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PYBIND11_NAMESPACE_END(PYBIND11_NAMESPACE)
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