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This includes * Testing both positive and negative path through the matchers * Testing them with types whose `begin` and `end` member functions require ADL * Testing them with types that return different types from `begin` and `end`
546 lines
17 KiB
C++
546 lines
17 KiB
C++
// Distributed under the Boost Software License, Version 1.0. (See accompanying
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// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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#include <catch2/catch_test_macros.hpp>
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#include <catch2/matchers/catch_matchers_container_properties.hpp>
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#include <catch2/matchers/catch_matchers_contains.hpp>
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#include <catch2/matchers/catch_matchers_floating_point.hpp>
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#include <catch2/matchers/catch_matchers_quantifiers.hpp>
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#include <catch2/matchers/catch_matchers_predicate.hpp>
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#include <catch2/matchers/catch_matchers_string.hpp>
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#include <array>
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#include <cmath>
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#include <list>
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#include <map>
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#include <vector>
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namespace {
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namespace unrelated {
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class needs_ADL_begin {
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std::array<int, 5> elements{ {1, 2, 3, 4, 5} };
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public:
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using iterator = std::array<int, 5>::iterator;
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using const_iterator = std::array<int, 5>::const_iterator;
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const_iterator Begin() const { return elements.begin(); }
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const_iterator End() const { return elements.end(); }
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friend const_iterator begin(needs_ADL_begin const& lhs) {
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return lhs.Begin();
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}
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friend const_iterator end(needs_ADL_begin const& rhs) {
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return rhs.End();
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}
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};
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} // end unrelated namespace
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#if defined(__clang__)
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# pragma clang diagnostic push
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# pragma clang diagnostic ignored "-Wunused-function"
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#endif
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class has_different_begin_end_types {
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std::array<int, 5> elements{ {1, 2, 3, 4, 5} };
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// Different type for the "end" iterator
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struct iterator_end {};
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// Just a fake forward iterator, that only compares to a different
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// type (so we can test two-type ranges).
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struct iterator {
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int const* start;
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int const* end;
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using iterator_category = std::forward_iterator_tag;
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using difference_type = std::ptrdiff_t;
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using value_type = int;
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using reference = int const&;
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using pointer = int const*;
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friend bool operator==( iterator iter, iterator_end ) {
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return iter.start == iter.end;
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}
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friend bool operator!=( iterator iter, iterator_end ) {
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return iter.start != iter.end;
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}
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iterator& operator++() {
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++start;
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return *this;
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}
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iterator operator++(int) {
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auto tmp(*this);
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++start;
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return tmp;
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}
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reference operator*() const {
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return *start;
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}
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pointer operator->() const {
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return start;
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}
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};
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public:
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iterator begin() const {
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return { elements.data(), elements.data() + elements.size() };
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}
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iterator_end end() const {
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return {};
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}
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};
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#if defined(__clang__)
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# pragma clang diagnostic pop
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#endif
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struct with_mocked_iterator_access {
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static constexpr size_t data_size = 5;
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std::array<int, data_size> elements{ {1, 2, 3, 4, 5} };
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std::array<bool, data_size> touched{};
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std::array<bool, data_size> derefed{};
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// We want to check which elements were touched when iterating, so
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// we can check whether iterator-using code traverses range correctly
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struct iterator {
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with_mocked_iterator_access* m_origin;
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size_t m_origin_idx;
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using iterator_category = std::forward_iterator_tag;
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using difference_type = std::ptrdiff_t;
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using value_type = int;
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using reference = int const&;
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using pointer = int const*;
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friend bool operator==(iterator lhs, iterator rhs) {
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return lhs.m_origin == rhs.m_origin
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&& lhs.m_origin_idx == rhs.m_origin_idx;
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}
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friend bool operator!=(iterator lhs, iterator rhs) {
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return !(lhs == rhs);
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}
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iterator& operator++() {
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++m_origin_idx;
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assert(m_origin_idx < data_size + 1 && "Outside of valid alloc");
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if (m_origin_idx < data_size) {
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m_origin->touched[m_origin_idx] = true;
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}
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return *this;
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}
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iterator operator++(int) {
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auto tmp(*this);
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++(*this);
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return tmp;
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}
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reference operator*() const {
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assert(m_origin_idx < data_size && "Attempted to deref invalid position");
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m_origin->derefed[m_origin_idx] = true;
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return m_origin->elements[m_origin_idx];
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}
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pointer operator->() const {
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assert(m_origin_idx < data_size && "Attempted to deref invalid position");
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return &m_origin->elements[m_origin_idx];
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}
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};
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iterator begin() const {
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// Const-cast away to avoid overcomplicating the iterators
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// We should actually fix this over time
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return { const_cast<with_mocked_iterator_access*>(this), 0 };
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}
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iterator end() const {
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return { const_cast<with_mocked_iterator_access*>(this), data_size };
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}
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};
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} // end anon namespace
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namespace Catch {
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template <>
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struct StringMaker<with_mocked_iterator_access> {
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static std::string convert(with_mocked_iterator_access const& access) {
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// We have to avoid the type's iterators, because we check
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// their use in tests
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return ::Catch::Detail::stringify(access.elements);
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}
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};
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}
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struct MoveOnlyTestElement {
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int num = 0;
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MoveOnlyTestElement(int n) :num(n) {}
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MoveOnlyTestElement(MoveOnlyTestElement&& rhs) = default;
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MoveOnlyTestElement& operator=(MoveOnlyTestElement&& rhs) = default;
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friend bool operator==(MoveOnlyTestElement const& lhs, MoveOnlyTestElement const& rhs) {
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return lhs.num == rhs.num;
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}
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friend std::ostream& operator<<(std::ostream& out, MoveOnlyTestElement const& elem) {
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out << elem.num;
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return out;
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}
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};
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TEST_CASE("Basic use of the Contains range matcher", "[matchers][templated][contains]") {
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using Catch::Matchers::Contains;
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SECTION("Different argument ranges, same element type, default comparison") {
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std::array<int, 3> a{ { 1,2,3 } };
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std::vector<int> b{ 0,1,2 };
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std::list<int> c{ 4,5,6 };
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// A contains 1
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REQUIRE_THAT(a, Contains(1));
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// B contains 1
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REQUIRE_THAT(b, Contains(1));
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// C does not contain 1
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REQUIRE_THAT(c, !Contains(1));
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}
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SECTION("Different argument ranges, same element type, custom comparison") {
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std::array<int, 3> a{ { 1,2,3 } };
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std::vector<int> b{ 0,1,2 };
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std::list<int> c{ 4,5,6 };
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auto close_enough = [](int lhs, int rhs) { return std::abs(lhs - rhs) <= 1; };
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// A contains 1, which is "close enough" to 0
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REQUIRE_THAT(a, Contains(0, close_enough));
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// B contains 0 directly
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REQUIRE_THAT(b, Contains(0, close_enough));
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// C does not contain anything "close enough" to 0
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REQUIRE_THAT(c, !Contains(0, close_enough));
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}
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SECTION("Different element type, custom comparisons") {
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std::array<std::string, 3> a{ { "abc", "abcd" , "abcde" } };
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REQUIRE_THAT(a, Contains(4, [](auto&& lhs, size_t sz) {
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return lhs.size() == sz;
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}));
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}
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SECTION("Can handle type that requires ADL-found free function begin and end") {
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unrelated::needs_ADL_begin in;
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REQUIRE_THAT(in, Contains(1));
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REQUIRE_THAT(in, !Contains(8));
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}
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SECTION("Initialization with move only types") {
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std::array<MoveOnlyTestElement, 3> in{ { MoveOnlyTestElement{ 1 }, MoveOnlyTestElement{ 2 }, MoveOnlyTestElement{ 3 } } };
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REQUIRE_THAT(in, Contains(MoveOnlyTestElement{ 2 }));
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REQUIRE_THAT(in, !Contains(MoveOnlyTestElement{ 9 }));
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}
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SECTION("Matching using matcher") {
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std::array<double, 4> in{ {1, 2, 3} };
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REQUIRE_THAT(in, Contains(Catch::Matchers::WithinAbs(0.5, 0.5)));
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}
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}
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namespace {
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struct has_empty {
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bool empty() const { return false; }
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};
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namespace unrelated {
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struct ADL_empty {
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bool Empty() const { return true; }
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friend bool empty(ADL_empty e) {
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return e.Empty();
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}
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};
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} // end namespace unrelated
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} // end unnamed namespace
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TEST_CASE("Basic use of the Empty range matcher", "[matchers][templated][empty]") {
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using Catch::Matchers::IsEmpty;
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SECTION("Simple, std-provided containers") {
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std::array<int, 0> empty_array{};
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std::array<double, 1> non_empty_array{};
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REQUIRE_THAT(empty_array, IsEmpty());
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REQUIRE_THAT(non_empty_array, !IsEmpty());
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std::vector<std::string> empty_vec;
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std::vector<char> non_empty_vec{ 'a', 'b', 'c' };
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REQUIRE_THAT(empty_vec, IsEmpty());
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REQUIRE_THAT(non_empty_vec, !IsEmpty());
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std::list<std::list<std::list<int>>> inner_lists_are_empty;
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inner_lists_are_empty.push_back({});
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REQUIRE_THAT(inner_lists_are_empty, !IsEmpty());
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REQUIRE_THAT(inner_lists_are_empty.front(), IsEmpty());
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}
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SECTION("Type with empty") {
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REQUIRE_THAT(has_empty{}, !IsEmpty());
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}
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SECTION("Type requires ADL found empty free function") {
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REQUIRE_THAT(unrelated::ADL_empty{}, IsEmpty());
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}
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}
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namespace {
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class LessThanMatcher final : public Catch::Matchers::MatcherBase<size_t> {
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size_t m_target;
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public:
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explicit LessThanMatcher(size_t target):
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m_target(target)
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{}
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bool match(size_t const& size) const override {
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return size < m_target;
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}
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std::string describe() const override {
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return "is less than " + std::to_string(m_target);
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}
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};
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LessThanMatcher Lt(size_t sz) {
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return LessThanMatcher{ sz };
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}
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namespace unrelated {
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struct ADL_size {
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size_t sz() const {
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return 12;
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}
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friend size_t size(ADL_size s) {
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return s.sz();
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}
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};
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} // end namespace unrelated
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struct has_size {
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size_t size() const {
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return 13;
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}
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};
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} // end unnamed namespace
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TEST_CASE("Usage of the SizeIs range matcher", "[matchers][templated][size]") {
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using Catch::Matchers::SizeIs;
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SECTION("Some with stdlib containers") {
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std::vector<int> empty_vec;
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REQUIRE_THAT(empty_vec, SizeIs(0));
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REQUIRE_THAT(empty_vec, !SizeIs(2));
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REQUIRE_THAT(empty_vec, SizeIs(Lt(2)));
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std::array<int, 2> arr{};
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REQUIRE_THAT(arr, SizeIs(2));
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REQUIRE_THAT(arr, SizeIs( Lt(3)));
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REQUIRE_THAT(arr, !SizeIs(!Lt(3)));
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std::map<int, int> map{ {1, 1}, {2, 2}, {3, 3} };
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REQUIRE_THAT(map, SizeIs(3));
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}
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SECTION("Type requires ADL found size free function") {
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REQUIRE_THAT(unrelated::ADL_size{}, SizeIs(12));
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}
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SECTION("Type has size member") {
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REQUIRE_THAT(has_size{}, SizeIs(13));
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}
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}
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TEST_CASE("Usage of AllMatch range matcher", "[matchers][templated][quantifiers]") {
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using Catch::Matchers::AllMatch;
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using Catch::Matchers::Predicate;
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SECTION("Basic usage") {
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using Catch::Matchers::Contains;
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using Catch::Matchers::SizeIs;
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std::array<std::array<int, 5>, 5> data{{
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{{ 0, 1, 2, 3, 5 }},
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{{ 4,-3,-2, 5, 0 }},
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{{ 0, 0, 0, 5, 0 }},
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{{ 0,-5, 0, 5, 0 }},
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{{ 1, 0, 0,-1, 5 }}
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}};
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REQUIRE_THAT(data, AllMatch(SizeIs(5)));
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REQUIRE_THAT(data, !AllMatch(Contains(0) && Contains(1)));
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}
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SECTION("Type requires ADL found begin and end") {
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unrelated::needs_ADL_begin needs_adl;
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REQUIRE_THAT( needs_adl, AllMatch( Predicate<int>( []( int elem ) {
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return elem < 6;
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} ) ) );
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}
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SECTION("Shortcircuiting") {
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with_mocked_iterator_access mocked;
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SECTION("All are read") {
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auto allMatch = AllMatch(Predicate<int>([](int elem) {
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return elem < 10;
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}));
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REQUIRE_THAT(mocked, allMatch);
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REQUIRE(mocked.derefed[0]);
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REQUIRE(mocked.derefed[1]);
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REQUIRE(mocked.derefed[2]);
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REQUIRE(mocked.derefed[3]);
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REQUIRE(mocked.derefed[4]);
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}
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SECTION("Short-circuited") {
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auto allMatch = AllMatch(Predicate<int>([](int elem) {
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return elem < 3;
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}));
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REQUIRE_THAT(mocked, !allMatch);
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REQUIRE(mocked.derefed[0]);
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REQUIRE(mocked.derefed[1]);
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REQUIRE(mocked.derefed[2]);
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REQUIRE_FALSE(mocked.derefed[3]);
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REQUIRE_FALSE(mocked.derefed[4]);
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}
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}
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}
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TEST_CASE("Usage of AnyMatch range matcher", "[matchers][templated][quantifiers]") {
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using Catch::Matchers::AnyMatch;
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using Catch::Matchers::Predicate;
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SECTION("Basic usage") {
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using Catch::Matchers::Contains;
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using Catch::Matchers::SizeIs;
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std::array<std::array<int, 5>, 5> data{ {
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{{ 0, 1, 2, 3, 5 }},
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{{ 4,-3,-2, 5, 0 }},
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{{ 0, 0, 0, 5, 0 }},
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{{ 0,-5, 0, 5, 0 }},
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{{ 1, 0, 0,-1, 5 }}
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} };
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REQUIRE_THAT(data, AnyMatch(SizeIs(5)));
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REQUIRE_THAT(data, !AnyMatch(Contains(0) && Contains(10)));
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}
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SECTION("Type requires ADL found begin and end") {
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unrelated::needs_ADL_begin needs_adl;
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REQUIRE_THAT( needs_adl, AnyMatch( Predicate<int>( []( int elem ) {
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return elem < 3;
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} ) ) );
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}
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SECTION("Shortcircuiting") {
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with_mocked_iterator_access mocked;
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SECTION("All are read") {
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auto anyMatch = AnyMatch(
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Predicate<int>( []( int elem ) { return elem > 10; } ) );
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REQUIRE_THAT( mocked, !anyMatch );
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REQUIRE( mocked.derefed[0] );
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REQUIRE( mocked.derefed[1] );
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REQUIRE( mocked.derefed[2] );
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REQUIRE( mocked.derefed[3] );
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REQUIRE( mocked.derefed[4] );
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}
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SECTION("Short-circuited") {
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auto anyMatch = AnyMatch(
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Predicate<int>( []( int elem ) { return elem < 3; } ) );
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REQUIRE_THAT( mocked, anyMatch );
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REQUIRE( mocked.derefed[0] );
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REQUIRE_FALSE( mocked.derefed[1] );
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REQUIRE_FALSE( mocked.derefed[2] );
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REQUIRE_FALSE( mocked.derefed[3] );
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REQUIRE_FALSE( mocked.derefed[4] );
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}
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}
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}
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TEST_CASE("Usage of NoneMatch range matcher", "[matchers][templated][quantifiers]") {
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using Catch::Matchers::NoneMatch;
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using Catch::Matchers::Predicate;
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SECTION("Basic usage") {
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using Catch::Matchers::Contains;
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using Catch::Matchers::SizeIs;
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std::array<std::array<int, 5>, 5> data{ {
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{{ 0, 1, 2, 3, 5 }},
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{{ 4,-3,-2, 5, 0 }},
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{{ 0, 0, 0, 5, 0 }},
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{{ 0,-5, 0, 5, 0 }},
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{{ 1, 0, 0,-1, 5 }}
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} };
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REQUIRE_THAT(data, NoneMatch(SizeIs(6)));
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REQUIRE_THAT(data, !NoneMatch(Contains(0) && Contains(1)));
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}
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SECTION( "Type requires ADL found begin and end" ) {
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unrelated::needs_ADL_begin needs_adl;
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REQUIRE_THAT( needs_adl, NoneMatch( Predicate<int>( []( int elem ) {
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return elem > 6;
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} ) ) );
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}
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SECTION("Shortcircuiting") {
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with_mocked_iterator_access mocked;
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SECTION("All are read") {
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auto noneMatch = NoneMatch(
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Predicate<int>([](int elem) { return elem > 10; }));
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REQUIRE_THAT(mocked, noneMatch);
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REQUIRE(mocked.derefed[0]);
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REQUIRE(mocked.derefed[1]);
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REQUIRE(mocked.derefed[2]);
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REQUIRE(mocked.derefed[3]);
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REQUIRE(mocked.derefed[4]);
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}
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SECTION("Short-circuited") {
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auto noneMatch = NoneMatch(
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Predicate<int>([](int elem) { return elem < 3; }));
|
|
REQUIRE_THAT(mocked, !noneMatch);
|
|
REQUIRE(mocked.derefed[0]);
|
|
REQUIRE_FALSE(mocked.derefed[1]);
|
|
REQUIRE_FALSE(mocked.derefed[2]);
|
|
REQUIRE_FALSE(mocked.derefed[3]);
|
|
REQUIRE_FALSE(mocked.derefed[4]);
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
// This is a C++17 extension, and GCC refuses to compile such code
|
|
// unless it is set to C++17 or later
|
|
#if defined(CATCH_CPP17_OR_GREATER)
|
|
|
|
TEST_CASE( "The quantifier range matchers support types with different types returned from begin and end",
|
|
"[matchers][templated][quantifiers][approvals]" ) {
|
|
using Catch::Matchers::AllMatch;
|
|
using Catch::Matchers::AnyMatch;
|
|
using Catch::Matchers::NoneMatch;
|
|
|
|
using Catch::Matchers::Predicate;
|
|
|
|
has_different_begin_end_types diff_types;
|
|
REQUIRE_THAT( diff_types, !AllMatch( Predicate<int>( []( int elem ) {
|
|
return elem < 3;
|
|
} ) ) );
|
|
|
|
REQUIRE_THAT( diff_types, AnyMatch( Predicate<int>( []( int elem ) {
|
|
return elem < 2;
|
|
} ) ) );
|
|
|
|
REQUIRE_THAT( diff_types, !NoneMatch( Predicate<int>( []( int elem ) {
|
|
return elem < 3;
|
|
} ) ) );
|
|
}
|
|
|
|
#endif
|