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* Add make_value_iterator (#3271) * Add make_value_iterator This is the counterpart to make_key_iterator, and will allow implementing a `value` method in `bind_map` (although doing so is left for a subsequent PR). I made a few design changes to reduce copy-and-paste boilerplate. Previously detail::iterator_state had a boolean template parameter to indicate whether it was being used for make_iterator or make_key_iterator. I replaced the boolean with a class that determines how to dereference the iterator. This allows for a generic implementation of `__next__`. I also added the ValueType and Extra... parameters to the iterator_state template args, because I think it was a bug that they were missing: if make_iterator is called twice with different values of these, only the first set has effect (because the state class is only registered once). There is still a potential issue in that the *values* of the extra arguments are latched on the first call, but since most policies are empty classes this should be even less common. * Add some remove_cv_t to appease clang-tidy * Make iterator_access and friends take reference For some reason I'd accidentally made it take a const value, which caused some issues with third-party packages. * Another attempt to remove remove_cv_t from iterators Some of the return types were const (non-reference) types because of the pecularities of decltype: `decltype((*it).first)` is the *declared* type of the member of the pair, rather than the type of the expression. So if the reference type of the iterator is `pair<const int, int> &`, then the decltype is `const int`. Wrapping an extra set of parentheses to form `decltype(((*it).first))` would instead give `const int &`. This means that the existing make_key_iterator actually returns by value from `__next__`, rather than by reference. Since for mapping types, keys are always const, this probably hasn't been noticed, but it will affect make_value_iterator if the Python code tries to mutate the returned objects. I've changed things to use double parentheses so that make_iterator, make_key_iterator and make_value_iterator should now all return the reference type of the iterator. I'll still need to add a test for that; for now I'm just checking whether I can keep Clang-Tidy happy. * Add back some NOLINTNEXTLINE to appease Clang-Tidy This is favoured over using remove_cv_t because in some cases a const value return type is deliberate (particularly for Eigen). * Add a unit test for iterator referencing Ensure that make_iterator, make_key_iterator and make_value_iterator return references to the container elements, rather than copies. The test for make_key_iterator fails to compile on master, which gives me confidence that this branch has fixed it. * Make the iterator_access etc operator() const I'm actually a little surprised it compiled at all given that the operator() is called on a temporary, but I don't claim to fully understand all the different value types in C++11. * Attempt to work around compiler bugs https://godbolt.org/ shows an example where ICC gets the wrong result for a decltype used as the default for a template argument, and CI also showed problems with PGI. This is a shot in the dark to see if it fixes things. * Make a test constructor explicit (Clang-Tidy) * Fix unit test on GCC 4.8.5 It seems to require the arguments to the std::pair constructor to be implicitly convertible to the types in the pair, rather than just requiring is_constructible. * Remove DOXYGEN_SHOULD_SKIP_THIS guards Now that a complex decltype expression has been replaced by a simpler nested type, I'm hoping Doxygen will be able to build it without issues. * Add comment to explain iterator_state template params * fix: regression in #3271 Co-authored-by: Bruce Merry <1963944+bmerry@users.noreply.github.com>
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@ -63,6 +63,9 @@ Convenience functions converting to Python types
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.. doxygenfunction:: make_key_iterator(Iterator, Sentinel, Extra &&...)
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.. doxygenfunction:: make_key_iterator(Type &, Extra&&...)
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.. doxygenfunction:: make_value_iterator(Iterator, Sentinel, Extra &&...)
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.. doxygenfunction:: make_value_iterator(Type &, Extra&&...)
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.. _extras:
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Passing extra arguments to ``def`` or ``class_``
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@ -1955,25 +1955,54 @@ inline std::pair<decltype(internals::registered_types_py)::iterator, bool> all_t
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return res;
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}
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template <typename Iterator, typename Sentinel, bool KeyIterator, return_value_policy Policy>
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/* There are a large number of apparently unused template arguments because
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* each combination requires a separate py::class_ registration.
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*/
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template <typename Access, return_value_policy Policy, typename Iterator, typename Sentinel, typename ValueType, typename... Extra>
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struct iterator_state {
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Iterator it;
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Sentinel end;
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bool first_or_done;
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};
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PYBIND11_NAMESPACE_END(detail)
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// Note: these helpers take the iterator by non-const reference because some
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// iterators in the wild can't be dereferenced when const. C++ needs the extra parens in decltype
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// to enforce an lvalue. The & after Iterator is required for MSVC < 16.9. SFINAE cannot be
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// reused for result_type due to bugs in ICC, NVCC, and PGI compilers. See PR #3293.
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template <typename Iterator, typename SFINAE = decltype((*std::declval<Iterator &>()))>
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struct iterator_access {
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using result_type = decltype((*std::declval<Iterator &>()));
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// NOLINTNEXTLINE(readability-const-return-type) // PR #3263
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result_type operator()(Iterator &it) const {
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return *it;
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}
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};
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/// Makes a python iterator from a first and past-the-end C++ InputIterator.
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template <return_value_policy Policy = return_value_policy::reference_internal,
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template <typename Iterator, typename SFINAE = decltype(((*std::declval<Iterator &>()).first)) >
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struct iterator_key_access {
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using result_type = decltype(((*std::declval<Iterator &>()).first));
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result_type operator()(Iterator &it) const {
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return (*it).first;
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}
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};
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template <typename Iterator, typename SFINAE = decltype(((*std::declval<Iterator &>()).second))>
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struct iterator_value_access {
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using result_type = decltype(((*std::declval<Iterator &>()).second));
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result_type operator()(Iterator &it) const {
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return (*it).second;
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}
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};
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template <typename Access,
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return_value_policy Policy,
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typename Iterator,
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typename Sentinel,
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#ifndef DOXYGEN_SHOULD_SKIP_THIS // Issue in breathe 4.26.1
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typename ValueType = decltype(*std::declval<Iterator>()),
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#endif
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typename ValueType,
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typename... Extra>
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iterator make_iterator(Iterator first, Sentinel last, Extra &&... extra) {
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using state = detail::iterator_state<Iterator, Sentinel, false, Policy>;
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iterator make_iterator_impl(Iterator first, Sentinel last, Extra &&... extra) {
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using state = detail::iterator_state<Access, Policy, Iterator, Sentinel, ValueType, Extra...>;
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// TODO: state captures only the types of Extra, not the values
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if (!detail::get_type_info(typeid(state), false)) {
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class_<state>(handle(), "iterator", pybind11::module_local())
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@ -1987,7 +2016,7 @@ iterator make_iterator(Iterator first, Sentinel last, Extra &&... extra) {
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s.first_or_done = true;
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throw stop_iteration();
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}
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return *s.it;
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return Access()(s.it);
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// NOLINTNEXTLINE(readability-const-return-type) // PR #3263
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}, std::forward<Extra>(extra)..., Policy);
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}
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@ -1995,35 +2024,55 @@ iterator make_iterator(Iterator first, Sentinel last, Extra &&... extra) {
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return cast(state{first, last, true});
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}
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/// Makes an python iterator over the keys (`.first`) of a iterator over pairs from a
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PYBIND11_NAMESPACE_END(detail)
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/// Makes a python iterator from a first and past-the-end C++ InputIterator.
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template <return_value_policy Policy = return_value_policy::reference_internal,
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typename Iterator,
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typename Sentinel,
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typename ValueType = typename detail::iterator_access<Iterator>::result_type,
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typename... Extra>
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iterator make_iterator(Iterator first, Sentinel last, Extra &&... extra) {
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return detail::make_iterator_impl<
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detail::iterator_access<Iterator>,
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Policy,
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Iterator,
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Sentinel,
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ValueType,
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Extra...>(first, last, std::forward<Extra>(extra)...);
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}
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/// Makes a python iterator over the keys (`.first`) of a iterator over pairs from a
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/// first and past-the-end InputIterator.
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template <return_value_policy Policy = return_value_policy::reference_internal,
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typename Iterator,
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typename Sentinel,
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#ifndef DOXYGEN_SHOULD_SKIP_THIS // Issue in breathe 4.26.1
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typename KeyType = decltype((*std::declval<Iterator>()).first),
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#endif
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typename KeyType = typename detail::iterator_key_access<Iterator>::result_type,
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typename... Extra>
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iterator make_key_iterator(Iterator first, Sentinel last, Extra &&...extra) {
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using state = detail::iterator_state<Iterator, Sentinel, true, Policy>;
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return detail::make_iterator_impl<
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detail::iterator_key_access<Iterator>,
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Policy,
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Iterator,
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Sentinel,
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KeyType,
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Extra...>(first, last, std::forward<Extra>(extra)...);
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}
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if (!detail::get_type_info(typeid(state), false)) {
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class_<state>(handle(), "iterator", pybind11::module_local())
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.def("__iter__", [](state &s) -> state& { return s; })
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.def("__next__", [](state &s) -> detail::remove_cv_t<KeyType> {
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if (!s.first_or_done)
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++s.it;
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else
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s.first_or_done = false;
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if (s.it == s.end) {
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s.first_or_done = true;
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throw stop_iteration();
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}
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return (*s.it).first;
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}, std::forward<Extra>(extra)..., Policy);
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}
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return cast(state{first, last, true});
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/// Makes a python iterator over the values (`.second`) of a iterator over pairs from a
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/// first and past-the-end InputIterator.
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template <return_value_policy Policy = return_value_policy::reference_internal,
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typename Iterator,
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typename Sentinel,
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typename ValueType = typename detail::iterator_value_access<Iterator>::result_type,
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typename... Extra>
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iterator make_value_iterator(Iterator first, Sentinel last, Extra &&...extra) {
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return detail::make_iterator_impl<
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detail::iterator_value_access<Iterator>,
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Policy, Iterator,
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Sentinel,
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ValueType,
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Extra...>(first, last, std::forward<Extra>(extra)...);
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}
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/// Makes an iterator over values of an stl container or other container supporting
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@ -2040,6 +2089,13 @@ template <return_value_policy Policy = return_value_policy::reference_internal,
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return make_key_iterator<Policy>(std::begin(value), std::end(value), extra...);
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}
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/// Makes an iterator over the values (`.second`) of a stl map-like container supporting
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/// `std::begin()`/`std::end()`
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template <return_value_policy Policy = return_value_policy::reference_internal,
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typename Type, typename... Extra> iterator make_value_iterator(Type &value, Extra&&... extra) {
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return make_value_iterator<Policy>(std::begin(value), std::end(value), extra...);
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}
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template <typename InputType, typename OutputType> void implicitly_convertible() {
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struct set_flag {
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bool &flag;
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@ -15,6 +15,7 @@
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#include <algorithm>
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#include <utility>
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#include <vector>
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#ifdef PYBIND11_HAS_OPTIONAL
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#include <optional>
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@ -37,6 +38,29 @@ bool operator==(const NonZeroIterator<std::pair<A, B>>& it, const NonZeroSentine
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return !(*it).first || !(*it).second;
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}
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class NonCopyableInt {
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public:
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explicit NonCopyableInt(int value) : value_(value) {}
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NonCopyableInt(const NonCopyableInt &) = delete;
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NonCopyableInt(NonCopyableInt &&other) noexcept : value_(other.value_) {
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other.value_ = -1; // detect when an unwanted move occurs
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}
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NonCopyableInt &operator=(const NonCopyableInt &) = delete;
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NonCopyableInt &operator=(NonCopyableInt &&other) noexcept {
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value_ = other.value_;
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other.value_ = -1; // detect when an unwanted move occurs
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return *this;
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}
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int get() const { return value_; }
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void set(int value) { value_ = value; }
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~NonCopyableInt() = default;
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private:
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int value_;
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};
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using NonCopyableIntPair = std::pair<NonCopyableInt, NonCopyableInt>;
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PYBIND11_MAKE_OPAQUE(std::vector<NonCopyableInt>);
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PYBIND11_MAKE_OPAQUE(std::vector<NonCopyableIntPair>);
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template <typename PythonType>
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py::list test_random_access_iterator(PythonType x) {
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if (x.size() < 5)
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@ -288,6 +312,10 @@ TEST_SUBMODULE(sequences_and_iterators, m) {
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.def(
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"items",
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[](const StringMap &map) { return py::make_iterator(map.begin(), map.end()); },
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py::keep_alive<0, 1>())
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.def(
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"values",
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[](const StringMap &map) { return py::make_value_iterator(map.begin(), map.end()); },
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py::keep_alive<0, 1>());
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// test_generalized_iterators
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@ -308,19 +336,62 @@ TEST_SUBMODULE(sequences_and_iterators, m) {
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.def("nonzero_keys", [](const IntPairs& s) {
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return py::make_key_iterator(NonZeroIterator<std::pair<int, int>>(s.begin()), NonZeroSentinel());
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}, py::keep_alive<0, 1>())
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.def("nonzero_values", [](const IntPairs& s) {
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return py::make_value_iterator(NonZeroIterator<std::pair<int, int>>(s.begin()), NonZeroSentinel());
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}, py::keep_alive<0, 1>())
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// test single-argument make_iterator
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.def("simple_iterator", [](IntPairs& self) {
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return py::make_iterator(self);
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}, py::keep_alive<0, 1>())
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.def("simple_keys", [](IntPairs& self) {
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return py::make_key_iterator(self);
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}, py::keep_alive<0, 1>())
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.def("simple_values", [](IntPairs& self) {
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return py::make_value_iterator(self);
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}, py::keep_alive<0, 1>())
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// test iterator with keep_alive (doesn't work so not used at runtime, but tests compile)
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.def("make_iterator_keep_alive", [](IntPairs& self) {
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return py::make_iterator(self, py::keep_alive<0, 1>());
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// Test iterator with an Extra (doesn't do anything useful, so not used
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// at runtime, but tests need to be able to compile with the correct
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// overload. See PR #3293.
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.def("_make_iterator_extras", [](IntPairs& self) {
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return py::make_iterator(self, py::call_guard<int>());
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}, py::keep_alive<0, 1>())
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.def("_make_key_extras", [](IntPairs& self) {
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return py::make_key_iterator(self, py::call_guard<int>());
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}, py::keep_alive<0, 1>())
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.def("_make_value_extras", [](IntPairs& self) {
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return py::make_value_iterator(self, py::call_guard<int>());
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}, py::keep_alive<0, 1>())
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;
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// test_iterater_referencing
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py::class_<NonCopyableInt>(m, "NonCopyableInt")
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.def(py::init<int>())
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.def("set", &NonCopyableInt::set)
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.def("__int__", &NonCopyableInt::get)
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;
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py::class_<std::vector<NonCopyableInt>>(m, "VectorNonCopyableInt")
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.def(py::init<>())
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.def("append", [](std::vector<NonCopyableInt> &vec, int value) {
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vec.emplace_back(value);
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})
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.def("__iter__", [](std::vector<NonCopyableInt> &vec) {
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return py::make_iterator(vec.begin(), vec.end());
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})
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;
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py::class_<std::vector<NonCopyableIntPair>>(m, "VectorNonCopyableIntPair")
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.def(py::init<>())
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.def("append", [](std::vector<NonCopyableIntPair> &vec, const std::pair<int, int> &value) {
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vec.emplace_back(NonCopyableInt(value.first), NonCopyableInt(value.second));
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})
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.def("keys", [](std::vector<NonCopyableIntPair> &vec) {
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return py::make_key_iterator(vec.begin(), vec.end());
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})
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.def("values", [](std::vector<NonCopyableIntPair> &vec) {
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return py::make_value_iterator(vec.begin(), vec.end());
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})
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;
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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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@ -36,6 +36,10 @@ def test_generalized_iterators():
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assert list(m.IntPairs([(1, 2), (2, 0), (0, 3), (4, 5)]).nonzero_keys()) == [1]
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assert list(m.IntPairs([(0, 3), (1, 2), (3, 4)]).nonzero_keys()) == []
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assert list(m.IntPairs([(1, 2), (3, 4), (0, 5)]).nonzero_values()) == [2, 4]
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assert list(m.IntPairs([(1, 2), (2, 0), (0, 3), (4, 5)]).nonzero_values()) == [2]
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assert list(m.IntPairs([(0, 3), (1, 2), (3, 4)]).nonzero_values()) == []
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# __next__ must continue to raise StopIteration
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it = m.IntPairs([(0, 0)]).nonzero()
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for _ in range(3):
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(0, 5),
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]
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assert list(m.IntPairs([(1, 2), (3, 4), (0, 5)]).simple_keys()) == [1, 3, 0]
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assert list(m.IntPairs([(1, 2), (3, 4), (0, 5)]).simple_values()) == [2, 4, 5]
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def test_iterator_referencing():
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"""Test that iterators reference rather than copy their referents."""
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vec = m.VectorNonCopyableInt()
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vec.append(3)
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vec.append(5)
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assert [int(x) for x in vec] == [3, 5]
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# Increment everything to make sure the referents can be mutated
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for x in vec:
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x.set(int(x) + 1)
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assert [int(x) for x in vec] == [4, 6]
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vec = m.VectorNonCopyableIntPair()
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vec.append([3, 4])
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vec.append([5, 7])
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assert [int(x) for x in vec.keys()] == [3, 5]
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assert [int(x) for x in vec.values()] == [4, 7]
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for x in vec.keys():
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x.set(int(x) + 1)
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for x in vec.values():
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x.set(int(x) + 10)
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assert [int(x) for x in vec.keys()] == [4, 6]
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assert [int(x) for x in vec.values()] == [14, 17]
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def test_sliceable():
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@ -160,6 +189,7 @@ def test_map_iterator():
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assert sm[k] == expected[k]
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for k, v in sm.items():
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assert v == expected[k]
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assert list(sm.values()) == [expected[k] for k in sm]
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it = iter(m.StringMap({}))
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for _ in range(3): # __next__ must continue to raise StopIteration
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