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Diffstat (limited to 'third_party/immer/immer/vector.hpp')
-rw-r--r-- | third_party/immer/immer/vector.hpp | 412 |
1 files changed, 0 insertions, 412 deletions
diff --git a/third_party/immer/immer/vector.hpp b/third_party/immer/immer/vector.hpp deleted file mode 100644 index 4f1a148ccd00..000000000000 --- a/third_party/immer/immer/vector.hpp +++ /dev/null @@ -1,412 +0,0 @@ -// -// immer: immutable data structures for C++ -// Copyright (C) 2016, 2017, 2018 Juan Pedro Bolivar Puente -// -// This software is distributed under the Boost Software License, Version 1.0. -// See accompanying file LICENSE or copy at http://boost.org/LICENSE_1_0.txt -// - -#pragma once - -#include <immer/detail/rbts/rbtree.hpp> -#include <immer/detail/rbts/rbtree_iterator.hpp> -#include <immer/memory_policy.hpp> - -#if IMMER_DEBUG_PRINT -#include <immer/flex_vector.hpp> -#endif - -namespace immer { - -template <typename T, - typename MemoryPolicy, - detail::rbts::bits_t B, - detail::rbts::bits_t BL> -class flex_vector; - -template <typename T, - typename MemoryPolicy, - detail::rbts::bits_t B, - detail::rbts::bits_t BL> -class vector_transient; - -/*! - * Immutable sequential container supporting both random access and - * structural sharing. - * - * @tparam T The type of the values to be stored in the container. - * @tparam MemoryPolicy Memory management policy. See @ref - * memory_policy. - * - * @rst - * - * This cotainer provides a good trade-off between cache locality, - * random access, update performance and structural sharing. It does - * so by storing the data in contiguous chunks of :math:`2^{BL}` - * elements. By default, when ``sizeof(T) == sizeof(void*)`` then - * :math:`B=BL=5`, such that data would be stored in contiguous - * chunks of :math:`32` elements. - * - * You may learn more about the meaning and implications of ``B`` and - * ``BL`` parameters in the :doc:`implementation` section. - * - * .. note:: In several methods we say that their complexity is - * *effectively* :math:`O(...)`. Do not confuse this with the word - * *amortized*, which has a very different meaning. In this - * context, *effective* means that while the - * mathematically rigurous - * complexity might be higher, for all practical matters the - * provided complexity is more useful to think about the actual - * cost of the operation. - * - * **Example** - * .. literalinclude:: ../example/vector/intro.cpp - * :language: c++ - * :start-after: intro/start - * :end-before: intro/end - * - * @endrst - */ -template <typename T, - typename MemoryPolicy = default_memory_policy, - detail::rbts::bits_t B = default_bits, - detail::rbts::bits_t BL = - detail::rbts::derive_bits_leaf<T, MemoryPolicy, B>> -class vector -{ - using impl_t = detail::rbts::rbtree<T, MemoryPolicy, B, BL>; - using flex_t = flex_vector<T, MemoryPolicy, B, BL>; - - using move_t = - std::integral_constant<bool, MemoryPolicy::use_transient_rvalues>; - -public: - static constexpr auto bits = B; - static constexpr auto bits_leaf = BL; - using memory_policy = MemoryPolicy; - - using value_type = T; - using reference = const T&; - using size_type = detail::rbts::size_t; - using difference_type = std::ptrdiff_t; - using const_reference = const T&; - - using iterator = detail::rbts::rbtree_iterator<T, MemoryPolicy, B, BL>; - using const_iterator = iterator; - using reverse_iterator = std::reverse_iterator<iterator>; - - using transient_type = vector_transient<T, MemoryPolicy, B, BL>; - - /*! - * Default constructor. It creates a vector of `size() == 0`. It - * does not allocate memory and its complexity is @f$ O(1) @f$. - */ - vector() = default; - - /*! - * Constructs a vector containing the elements in `values`. - */ - vector(std::initializer_list<T> values) - : impl_{impl_t::from_initializer_list(values)} - {} - - /*! - * Constructs a vector containing the elements in the range - * defined by the input iterator `first` and range sentinel `last`. - */ - template <typename Iter, - typename Sent, - std::enable_if_t<detail::compatible_sentinel_v<Iter, Sent>, - bool> = true> - vector(Iter first, Sent last) - : impl_{impl_t::from_range(first, last)} - {} - - /*! - * Constructs a vector containing the element `val` repeated `n` - * times. - */ - vector(size_type n, T v = {}) - : impl_{impl_t::from_fill(n, v)} - {} - - /*! - * Returns an iterator pointing at the first element of the - * collection. It does not allocate memory and its complexity is - * @f$ O(1) @f$. - */ - IMMER_NODISCARD iterator begin() const { return {impl_}; } - - /*! - * Returns an iterator pointing just after the last element of the - * collection. It does not allocate and its complexity is @f$ O(1) @f$. - */ - IMMER_NODISCARD iterator end() const - { - return {impl_, typename iterator::end_t{}}; - } - - /*! - * Returns an iterator that traverses the collection backwards, - * pointing at the first element of the reversed collection. It - * does not allocate memory and its complexity is @f$ O(1) @f$. - */ - IMMER_NODISCARD reverse_iterator rbegin() const - { - return reverse_iterator{end()}; - } - - /*! - * Returns an iterator that traverses the collection backwards, - * pointing after the last element of the reversed collection. It - * does not allocate memory and its complexity is @f$ O(1) @f$. - */ - IMMER_NODISCARD reverse_iterator rend() const - { - return reverse_iterator{begin()}; - } - - /*! - * Returns the number of elements in the container. It does - * not allocate memory and its complexity is @f$ O(1) @f$. - */ - IMMER_NODISCARD size_type size() const { return impl_.size; } - - /*! - * Returns `true` if there are no elements in the container. It - * does not allocate memory and its complexity is @f$ O(1) @f$. - */ - IMMER_NODISCARD bool empty() const { return impl_.size == 0; } - - /*! - * Access the last element. - */ - IMMER_NODISCARD const T& back() const { return impl_.back(); } - - /*! - * Access the first element. - */ - IMMER_NODISCARD const T& front() const { return impl_.front(); } - - /*! - * Returns a `const` reference to the element at position `index`. - * It is undefined when @f$ 0 index \geq size() @f$. It does not - * allocate memory and its complexity is *effectively* @f$ O(1) - * @f$. - */ - IMMER_NODISCARD reference operator[](size_type index) const - { - return impl_.get(index); - } - - /*! - * Returns a `const` reference to the element at position - * `index`. It throws an `std::out_of_range` exception when @f$ - * index \geq size() @f$. It does not allocate memory and its - * complexity is *effectively* @f$ O(1) @f$. - */ - reference at(size_type index) const { return impl_.get_check(index); } - - /*! - * Returns whether the vectors are equal. - */ - IMMER_NODISCARD bool operator==(const vector& other) const - { - return impl_.equals(other.impl_); - } - IMMER_NODISCARD bool operator!=(const vector& other) const - { - return !(*this == other); - } - - /*! - * Returns a vector with `value` inserted at the end. It may - * allocate memory and its complexity is *effectively* @f$ O(1) @f$. - * - * @rst - * - * **Example** - * .. literalinclude:: ../example/vector/vector.cpp - * :language: c++ - * :dedent: 8 - * :start-after: push-back/start - * :end-before: push-back/end - * - * @endrst - */ - IMMER_NODISCARD vector push_back(value_type value) const& - { - return impl_.push_back(std::move(value)); - } - - IMMER_NODISCARD decltype(auto) push_back(value_type value) && - { - return push_back_move(move_t{}, std::move(value)); - } - - /*! - * Returns a vector containing value `value` at position `idx`. - * Undefined for `index >= size()`. - * It may allocate memory and its complexity is - * *effectively* @f$ O(1) @f$. - * - * @rst - * - * **Example** - * .. literalinclude:: ../example/vector/vector.cpp - * :language: c++ - * :dedent: 8 - * :start-after: set/start - * :end-before: set/end - * - * @endrst - */ - IMMER_NODISCARD vector set(size_type index, value_type value) const& - { - return impl_.assoc(index, std::move(value)); - } - - IMMER_NODISCARD decltype(auto) set(size_type index, value_type value) && - { - return set_move(move_t{}, index, std::move(value)); - } - - /*! - * Returns a vector containing the result of the expression - * `fn((*this)[idx])` at position `idx`. - * Undefined for `0 >= size()`. - * It may allocate memory and its complexity is - * *effectively* @f$ O(1) @f$. - * - * @rst - * - * **Example** - * .. literalinclude:: ../example/vector/vector.cpp - * :language: c++ - * :dedent: 8 - * :start-after: update/start - * :end-before: update/end - * - * @endrst - */ - template <typename FnT> - IMMER_NODISCARD vector update(size_type index, FnT&& fn) const& - { - return impl_.update(index, std::forward<FnT>(fn)); - } - - template <typename FnT> - IMMER_NODISCARD decltype(auto) update(size_type index, FnT&& fn) && - { - return update_move(move_t{}, index, std::forward<FnT>(fn)); - } - - /*! - * Returns a vector containing only the first `min(elems, size())` - * elements. It may allocate memory and its complexity is - * *effectively* @f$ O(1) @f$. - * - * @rst - * - * **Example** - * .. literalinclude:: ../example/vector/vector.cpp - * :language: c++ - * :dedent: 8 - * :start-after: take/start - * :end-before: take/end - * - * @endrst - */ - IMMER_NODISCARD vector take(size_type elems) const& - { - return impl_.take(elems); - } - - IMMER_NODISCARD decltype(auto) take(size_type elems) && - { - return take_move(move_t{}, elems); - } - - /*! - * Returns an @a transient form of this container, an - * `immer::vector_transient`. - */ - IMMER_NODISCARD transient_type transient() const& - { - return transient_type{impl_}; - } - IMMER_NODISCARD transient_type transient() && - { - return transient_type{std::move(impl_)}; - } - - // Semi-private - const impl_t& impl() const { return impl_; } - -#if IMMER_DEBUG_PRINT - void debug_print(std::ostream& out = std::cerr) const - { - flex_t{*this}.debug_print(out); - } -#endif - -private: - friend flex_t; - friend transient_type; - - vector(impl_t impl) - : impl_(std::move(impl)) - { -#if IMMER_DEBUG_PRINT - // force the compiler to generate debug_print, so we can call - // it from a debugger - [](volatile auto) {}(&vector::debug_print); -#endif - } - - vector&& push_back_move(std::true_type, value_type value) - { - impl_.push_back_mut({}, std::move(value)); - return std::move(*this); - } - vector push_back_move(std::false_type, value_type value) - { - return impl_.push_back(std::move(value)); - } - - vector&& set_move(std::true_type, size_type index, value_type value) - { - impl_.assoc_mut({}, index, std::move(value)); - return std::move(*this); - } - vector set_move(std::false_type, size_type index, value_type value) - { - return impl_.assoc(index, std::move(value)); - } - - template <typename Fn> - vector&& update_move(std::true_type, size_type index, Fn&& fn) - { - impl_.update_mut({}, index, std::forward<Fn>(fn)); - return std::move(*this); - } - template <typename Fn> - vector update_move(std::false_type, size_type index, Fn&& fn) - { - return impl_.update(index, std::forward<Fn>(fn)); - } - - vector&& take_move(std::true_type, size_type elems) - { - impl_.take_mut({}, elems); - return std::move(*this); - } - vector take_move(std::false_type, size_type elems) - { - return impl_.take(elems); - } - - impl_t impl_ = impl_t::empty(); -}; - -} // namespace immer |