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convenience wrapper for constructing iterators (fixes #142)
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@ -45,6 +45,7 @@ pybind11 can map the following core C++ features to Python
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- Callbacks
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- Custom operators
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- STL data structures
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- Iterators and ranges
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- Smart pointers with reference counting like `std::shared_ptr`
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- Internal references with correct reference counting
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- C++ classes with virtual (and pure virtual) methods can be extended in Python
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@ -78,6 +79,9 @@ In addition to the core functionality, pybind11 provides some extra goodies:
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return value deduction) are used to precompute function signatures at compile
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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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regular Python objects.
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## Supported compilers
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1. Clang/LLVM (any non-ancient version with C++11 support)
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@ -387,8 +387,8 @@ out of the box with just the core :file:`pybind11/pybind11.h` header.
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The file :file:`example/example2.cpp` contains a complete example that
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demonstrates how to pass STL data types in more detail.
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Binding sequence data types, the slicing protocol, etc.
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=======================================================
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Binding sequence data types, iterators, the slicing protocol, etc.
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==================================================================
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Please refer to the supplemental example for details.
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@ -7,8 +7,12 @@ Changelog
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----------------------
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* For polymorphic types, use RTTI to try to return the closest type registered with pybind11.
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* Pickling support for serializing and unserializing C++ instances to a byte stream in Python
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* Added a variadic ``make_tuple()`` function
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* Address a rare issue that could confuse the current virtual function dispatcher
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* Added a convenience routine ``make_iterator()`` which turns a range indicated
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by a pair of C++ iterators into a iterable Python object
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* Added ``len()`` and a variadic ``make_tuple()`` function
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* Addressed a rare issue that could confuse the current virtual function dispatcher
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* Added a ``get_include()`` function to the Python module that returns the path
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of the directory containing the installed pybind11 header files
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* Documentation improvements: import issues, symbol visibility, pickling, limitations
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1.4 (April 7, 2016)
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@ -37,6 +37,7 @@ The following core C++ features can be mapped to Python
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- Instance attributes and static attributes
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- Exceptions
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- Enumerations
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- Iterators and ranges
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- Callbacks
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- Custom operators
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- STL data structures
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@ -74,6 +75,9 @@ In addition to the core functionality, pybind11 provides some extra goodies:
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return value deduction) are used to precompute function signatures at compile
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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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regular Python objects.
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Supported compilers
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*******************
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@ -101,28 +101,14 @@ public:
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size_t size() const { return m_size; }
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const float *begin() const { return m_data; }
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const float *end() const { return m_data+m_size; }
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private:
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size_t m_size;
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float *m_data;
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};
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namespace {
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// Special iterator data structure for python
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struct PySequenceIterator {
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PySequenceIterator(const Sequence &seq, py::object ref) : seq(seq), ref(ref) { }
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float next() {
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if (index == seq.size())
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throw py::stop_iteration();
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return seq[index++];
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}
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const Sequence &seq;
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py::object ref; // keep a reference
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size_t index = 0;
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};
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};
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void init_ex6(py::module &m) {
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py::class_<Sequence> seq(m, "Sequence");
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@ -141,7 +127,8 @@ void init_ex6(py::module &m) {
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})
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.def("__len__", &Sequence::size)
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/// Optional sequence protocol operations
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.def("__iter__", [](py::object s) { return PySequenceIterator(s.cast<const Sequence &>(), s); })
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.def("__iter__", [](const Sequence &s) { return py::make_iterator(s.begin(), s.end()); },
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py::keep_alive<0, 1>() /* Essential: keep object alive while iterator exists */)
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.def("__contains__", [](const Sequence &s, float v) { return s.contains(v); })
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.def("__reversed__", [](const Sequence &s) -> Sequence { return s.reversed(); })
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/// Slicing protocol (optional)
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@ -170,7 +157,30 @@ void init_ex6(py::module &m) {
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.def(py::self != py::self);
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// Could also define py::self + py::self for concatenation, etc.
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#if 0
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// Obsolete: special data structure for exposing custom iterator types to python
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// kept here for illustrative purposes because there might be some use cases which
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// are not covered by the much simpler py::make_iterator
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struct PySequenceIterator {
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PySequenceIterator(const Sequence &seq, py::object ref) : seq(seq), ref(ref) { }
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float next() {
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if (index == seq.size())
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throw py::stop_iteration();
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return seq[index++];
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}
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const Sequence &seq;
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py::object ref; // keep a reference
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size_t index = 0;
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};
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py::class_<PySequenceIterator>(seq, "Iterator")
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.def("__iter__", [](PySequenceIterator &it) -> PySequenceIterator& { return it; })
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.def("__next__", &PySequenceIterator::next);
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On the actual Sequence object, the iterator would be constructed as follows:
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.def("__iter__", [](py::object s) { return PySequenceIterator(s.cast<const Sequence &>(), s); })
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#endif
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}
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@ -546,9 +546,12 @@ protected:
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internals.registered_types_cpp[std::type_index(*(rec->type))] = tinfo;
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internals.registered_types_py[type] = tinfo;
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auto scope_module = (object) rec->scope.attr("__module__");
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if (!scope_module)
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scope_module = (object) rec->scope.attr("__name__");
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object scope_module;
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if (rec->scope) {
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scope_module = (object) rec->scope.attr("__module__");
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if (!scope_module)
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scope_module = (object) rec->scope.attr("__name__");
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}
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std::string full_name = (scope_module ? ((std::string) scope_module.str() + "." + rec->name)
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: std::string(rec->name));
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@ -560,7 +563,9 @@ protected:
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#if PY_MAJOR_VERSION >= 3 && PY_MINOR_VERSION >= 3
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/* Qualified names for Python >= 3.3 */
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auto scope_qualname = (object) rec->scope.attr("__qualname__");
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object scope_qualname;
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if (rec->scope)
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scope_qualname = (object) rec->scope.attr("__qualname__");
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if (scope_qualname) {
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type->ht_qualname = PyUnicode_FromFormat(
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"%U.%U", scope_qualname.ptr(), name.ptr());
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@ -608,7 +613,8 @@ protected:
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attr("__module__") = scope_module;
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/* Register type with the parent scope */
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rec->scope.attr(handle(type->ht_name)) = *this;
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if (rec->scope)
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rec->scope.attr(handle(type->ht_name)) = *this;
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type_holder.release();
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}
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@ -985,10 +991,28 @@ PYBIND11_NOINLINE inline void keep_alive_impl(int Nurse, int Patient, handle arg
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(void) wr.release();
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}
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template <typename Iterator> struct iterator_state { Iterator it, end; };
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NAMESPACE_END(detail)
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template <typename... Args> detail::init<Args...> init() { return detail::init<Args...>(); }
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template <typename Iterator, typename... Extra> iterator make_iterator(Iterator first, Iterator last, Extra&&... extra) {
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typedef detail::iterator_state<Iterator> state;
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if (!detail::get_type_info(typeid(state))) {
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class_<state>(handle(), "")
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.def("__iter__", [](state &s) -> state& { return s; })
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.def("__next__", [](state &s) -> decltype(*std::declval<Iterator>()) & {
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if (s.it == s.end)
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throw stop_iteration();
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return *s.it++;
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}, return_value_policy::reference_internal, std::forward<Extra>(extra)...);
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}
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return (iterator) cast(state { first, last });
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}
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template <typename InputType, typename OutputType> void implicitly_convertible() {
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auto implicit_caster = [](PyObject *obj, PyTypeObject *type) -> PyObject * {
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if (!detail::type_caster<InputType>().load(obj, false))
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@ -86,22 +86,6 @@ public:
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}
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};
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class iterator : public object {
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public:
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iterator(handle obj, bool borrowed = false) : object(obj, borrowed) { ++*this; }
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iterator& operator++() {
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if (ptr())
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value = object(PyIter_Next(m_ptr), false);
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return *this;
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}
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bool operator==(const iterator &it) const { return *it == **this; }
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bool operator!=(const iterator &it) const { return *it != **this; }
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const handle &operator*() const { return value; }
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bool check() const { return PyIter_Check(ptr()); }
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private:
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object value;
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};
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NAMESPACE_BEGIN(detail)
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inline handle get_function(handle value) {
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if (value) {
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@ -230,12 +214,6 @@ private:
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NAMESPACE_END(detail)
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inline detail::accessor handle::operator[](handle key) const { return detail::accessor(ptr(), key.ptr(), false); }
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inline detail::accessor handle::operator[](const char *key) const { return detail::accessor(ptr(), key, false); }
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inline detail::accessor handle::attr(handle key) const { return detail::accessor(ptr(), key.ptr(), true); }
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inline detail::accessor handle::attr(const char *key) const { return detail::accessor(ptr(), key, true); }
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inline iterator handle::begin() const { return iterator(PyObject_GetIter(ptr())); }
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inline iterator handle::end() const { return iterator(nullptr); }
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#define PYBIND11_OBJECT_CVT(Name, Parent, CheckFun, CvtStmt) \
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Name(const handle &h, bool borrowed) : Parent(h, borrowed) { CvtStmt; } \
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@ -252,6 +230,33 @@ inline iterator handle::end() const { return iterator(nullptr); }
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PYBIND11_OBJECT(Name, Parent, CheckFun) \
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Name() : Parent() { }
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class iterator : public object {
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public:
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PYBIND11_OBJECT_DEFAULT(iterator, object, PyIter_Check)
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iterator(handle obj, bool borrowed = false) : object(obj, borrowed) { }
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iterator& operator++() {
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if (ptr())
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value = object(PyIter_Next(m_ptr), false);
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return *this;
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}
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bool operator==(const iterator &it) const { return *it == **this; }
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bool operator!=(const iterator &it) const { return *it != **this; }
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const handle &operator*() const {
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if (m_ptr && !value)
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value = object(PyIter_Next(m_ptr), false);
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return value;
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}
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private:
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mutable object value;
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};
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inline detail::accessor handle::operator[](handle key) const { return detail::accessor(ptr(), key.ptr(), false); }
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inline detail::accessor handle::operator[](const char *key) const { return detail::accessor(ptr(), key, false); }
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inline detail::accessor handle::attr(handle key) const { return detail::accessor(ptr(), key.ptr(), true); }
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inline detail::accessor handle::attr(const char *key) const { return detail::accessor(ptr(), key, true); }
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inline iterator handle::begin() const { return iterator(PyObject_GetIter(ptr())); }
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inline iterator handle::end() const { return iterator(nullptr); }
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class str : public object {
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public:
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PYBIND11_OBJECT_DEFAULT(str, object, PyUnicode_Check)
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