As a follow-up to #117662, this PR provides a comprehensive set of exception tests for the following capacity-related functions in `std::vector`. Specifically, it includes tests for the following functions: - `reserve(size_type)` - `resize(size_type)` and `resize(size_type, const_reference)` - `shrink_to_fit()` Previously, the exception safety tests for these functions were either missing or inadequate. We need a thorough coverage of exception tests to validate that these operations provide strong exception guarantees under various exceptional scenarios.
264 lines
7.6 KiB
C++
264 lines
7.6 KiB
C++
//===----------------------------------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#ifndef TEST_STD_CONTAINERS_SEQUENCES_VECTOR_COMMON_H
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#define TEST_STD_CONTAINERS_SEQUENCES_VECTOR_COMMON_H
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#include <array>
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#include <cassert>
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#include <cstddef>
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#include <cstdlib>
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#include <memory>
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#include <string>
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#include <type_traits>
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#include <utility>
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#include <vector>
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#include "count_new.h"
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#include "test_macros.h"
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struct throwing_t {
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int* throw_after_n_ = nullptr;
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throwing_t() { throw 0; }
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explicit throwing_t(int& throw_after_n) : throw_after_n_(&throw_after_n) {
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if (throw_after_n == 0)
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throw 0;
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--throw_after_n;
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}
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throwing_t(const throwing_t& rhs) : throw_after_n_(rhs.throw_after_n_) {
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if (throw_after_n_ == nullptr || *throw_after_n_ == 0)
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throw 1;
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--*throw_after_n_;
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}
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throwing_t& operator=(const throwing_t& rhs) {
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throw_after_n_ = rhs.throw_after_n_;
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if (throw_after_n_ == nullptr || *throw_after_n_ == 0)
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throw 1;
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--*throw_after_n_;
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return *this;
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}
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friend bool operator==(const throwing_t& lhs, const throwing_t& rhs) {
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return lhs.throw_after_n_ == rhs.throw_after_n_;
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}
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friend bool operator!=(const throwing_t& lhs, const throwing_t& rhs) {
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return lhs.throw_after_n_ != rhs.throw_after_n_;
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}
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};
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#if TEST_STD_VER >= 11
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template <typename T>
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struct move_only_throwing_t {
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T data_;
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int* throw_after_n_ = nullptr;
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bool moved_from_ = false;
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move_only_throwing_t() = default;
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explicit move_only_throwing_t(const T& data, int& throw_after_n) : data_(data), throw_after_n_(&throw_after_n) {
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if (throw_after_n == 0)
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throw 1;
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--throw_after_n;
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}
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explicit move_only_throwing_t(T&& data, int& throw_after_n) : data_(std::move(data)), throw_after_n_(&throw_after_n) {
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if (throw_after_n == 0)
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throw 1;
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--throw_after_n;
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}
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move_only_throwing_t(const move_only_throwing_t&) = delete;
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move_only_throwing_t& operator=(const move_only_throwing_t&) = delete;
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move_only_throwing_t(move_only_throwing_t&& rhs) : data_(std::move(rhs.data_)), throw_after_n_(rhs.throw_after_n_) {
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rhs.throw_after_n_ = nullptr;
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rhs.moved_from_ = true;
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if (throw_after_n_ == nullptr || *throw_after_n_ == 0)
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throw 1;
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--*throw_after_n_;
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}
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move_only_throwing_t& operator=(move_only_throwing_t&& rhs) {
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if (this == &rhs)
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return *this;
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data_ = std::move(rhs.data_);
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throw_after_n_ = rhs.throw_after_n_;
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rhs.moved_from_ = true;
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rhs.throw_after_n_ = nullptr;
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if (throw_after_n_ == nullptr || *throw_after_n_ == 0)
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throw 1;
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--*throw_after_n_;
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return *this;
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}
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friend bool operator==(const move_only_throwing_t& lhs, const move_only_throwing_t& rhs) {
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return lhs.data_ == rhs.data_;
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}
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friend bool operator!=(const move_only_throwing_t& lhs, const move_only_throwing_t& rhs) {
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return lhs.data_ != rhs.data_;
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}
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};
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#endif
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template <typename T>
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struct throwing_data {
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T data_;
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int* throw_after_n_ = nullptr;
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throwing_data() { throw 0; }
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throwing_data(const T& data, int& throw_after_n) : data_(data), throw_after_n_(&throw_after_n) {
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if (throw_after_n == 0)
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throw 0;
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--throw_after_n;
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}
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throwing_data(const throwing_data& rhs) : data_(rhs.data_), throw_after_n_(rhs.throw_after_n_) {
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if (throw_after_n_ == nullptr || *throw_after_n_ == 0)
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throw 1;
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--*throw_after_n_;
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}
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throwing_data& operator=(const throwing_data& rhs) {
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data_ = rhs.data_;
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throw_after_n_ = rhs.throw_after_n_;
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if (throw_after_n_ == nullptr || *throw_after_n_ == 0)
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throw 1;
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--*throw_after_n_;
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return *this;
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}
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friend bool operator==(const throwing_data& lhs, const throwing_data& rhs) {
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return lhs.data_ == rhs.data_ && lhs.throw_after_n_ == rhs.throw_after_n_;
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}
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friend bool operator!=(const throwing_data& lhs, const throwing_data& rhs) { return !(lhs == rhs); }
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};
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template <class T>
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struct throwing_allocator {
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using value_type = T;
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bool throw_on_copy_ = false;
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explicit throwing_allocator(bool throw_on_ctor = true) {
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if (throw_on_ctor)
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throw 0;
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}
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explicit throwing_allocator(bool throw_on_ctor, bool throw_on_copy) : throw_on_copy_(throw_on_copy) {
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if (throw_on_ctor)
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throw 0;
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}
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throwing_allocator(const throwing_allocator& rhs) : throw_on_copy_(rhs.throw_on_copy_) {
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if (throw_on_copy_)
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throw 0;
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}
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template <class U>
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throwing_allocator(const throwing_allocator<U>& rhs) : throw_on_copy_(rhs.throw_on_copy_) {
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if (throw_on_copy_)
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throw 0;
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}
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T* allocate(std::size_t n) { return std::allocator<T>().allocate(n); }
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void deallocate(T* ptr, std::size_t n) { std::allocator<T>().deallocate(ptr, n); }
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template <class U>
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friend bool operator==(const throwing_allocator&, const throwing_allocator<U>&) {
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return true;
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}
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};
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template <class T, class IterCat>
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struct throwing_iterator {
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using iterator_category = IterCat;
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using difference_type = std::ptrdiff_t;
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using value_type = T;
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using reference = T&;
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using pointer = T*;
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int i_;
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T v_;
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explicit throwing_iterator(int i = 0, const T& v = T()) : i_(i), v_(v) {}
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reference operator*() {
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if (i_ == 1)
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throw 1;
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return v_;
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}
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friend bool operator==(const throwing_iterator& lhs, const throwing_iterator& rhs) { return lhs.i_ == rhs.i_; }
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friend bool operator!=(const throwing_iterator& lhs, const throwing_iterator& rhs) { return lhs.i_ != rhs.i_; }
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throwing_iterator& operator++() {
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++i_;
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return *this;
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}
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throwing_iterator operator++(int) {
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auto tmp = *this;
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++i_;
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return tmp;
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}
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};
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inline void check_new_delete_called() {
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assert(globalMemCounter.new_called == globalMemCounter.delete_called);
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assert(globalMemCounter.new_array_called == globalMemCounter.delete_array_called);
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assert(globalMemCounter.aligned_new_called == globalMemCounter.aligned_delete_called);
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assert(globalMemCounter.aligned_new_array_called == globalMemCounter.aligned_delete_array_called);
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}
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template <class T, typename Alloc>
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void use_unspecified_but_valid_state_vector(std::vector<T, Alloc> const& v) {
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assert(v.size() >= 0); // make sure it can be called
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assert(v.capacity() >= 0);
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assert(v.empty() || !v.empty());
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for (auto it = v.begin(); it != v.end(); ++it) {
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auto& element = *it;
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(void)element;
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}
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}
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static const std::array<char, 62> letters = {
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'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K',
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'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', 'a', 'b', 'c', 'd', 'e', 'f',
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'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z'};
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inline std::string getString(std::size_t n, std::size_t len) {
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std::string s;
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s.reserve(len);
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for (std::size_t i = 0; i < len; ++i)
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s += letters[(i * i + n) % letters.size()];
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return s;
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}
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inline std::vector<int> getIntegerInputs(std::size_t n) {
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std::vector<int> v;
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v.reserve(n);
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for (std::size_t i = 0; i < n; ++i)
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v.push_back(static_cast<int>(i * i + n));
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return v;
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}
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inline std::vector<std::string> getStringInputsWithLength(std::size_t n, std::size_t len) {
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std::vector<std::string> v;
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v.reserve(n);
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for (std::size_t i = 0; i < n; ++i)
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v.push_back(getString(i, len));
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return v;
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}
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#endif // TEST_STD_CONTAINERS_SEQUENCES_VECTOR_COMMON_H
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