tomlplusplus/tests/manipulating_arrays.cpp
2021-11-12 20:21:02 +02:00

537 lines
15 KiB
C++

// This file is a part of toml++ and is subject to the the terms of the MIT license.
// Copyright (c) Mark Gillard <mark.gillard@outlook.com.au>
// See https://github.com/marzer/tomlplusplus/blob/master/LICENSE for the full license text.
// SPDX-License-Identifier: MIT
#include "tests.h"
TEST_CASE("arrays - moving")
{
static constexpr auto filename = "foo.toml"sv;
parsing_should_succeed(
FILE_LINE_ARGS,
R"(test = [ "foo" ])"sv,
[&](table&& tbl)
{
// sanity-check initial state of a freshly-parsed array
auto arr1 = tbl["test"].as<array>();
REQUIRE(arr1);
CHECK(arr1->size() == 1u);
CHECK(arr1->source().begin == source_position{ 1, 8 });
CHECK(arr1->source().end == source_position{ 1, 17 });
CHECK(arr1->source().path);
CHECK(*arr1->source().path == filename);
REQUIRE(arr1->get_as<std::string>(0u));
CHECK(*arr1->get_as<std::string>(0u) == "foo"sv);
// sanity check the virtual type checks
CHECK(arr1->type() == node_type::array);
CHECK(!arr1->is_table());
CHECK(arr1->is_array());
CHECK(!arr1->is_array_of_tables());
CHECK(!arr1->is_value());
CHECK(!arr1->is_string());
CHECK(!arr1->is_integer());
CHECK(!arr1->is_floating_point());
CHECK(!arr1->is_number());
CHECK(!arr1->is_boolean());
CHECK(!arr1->is_date());
CHECK(!arr1->is_time());
CHECK(!arr1->is_date_time());
// sanity check the virtual type casts (non-const)
CHECK(!arr1->as_table());
CHECK(arr1->as_array() == arr1);
CHECK(!arr1->as_string());
CHECK(!arr1->as_integer());
CHECK(!arr1->as_floating_point());
CHECK(!arr1->as_boolean());
CHECK(!arr1->as_date());
CHECK(!arr1->as_time());
CHECK(!arr1->as_date_time());
// sanity check the virtual type casts (const)
const auto carr1 = &std::as_const(*arr1);
CHECK(!carr1->as_table());
CHECK(carr1->as_array() == carr1);
CHECK(!carr1->as_string());
CHECK(!carr1->as_integer());
CHECK(!carr1->as_floating_point());
CHECK(!carr1->as_boolean());
CHECK(!carr1->as_date());
CHECK(!carr1->as_time());
CHECK(!carr1->as_date_time());
// sanity-check initial state of default-constructed array
array arr2;
CHECK(arr2.source().begin == source_position{});
CHECK(arr2.source().end == source_position{});
CHECK(!arr2.source().path);
CHECK(arr2.size() == 0u);
// check the results of move-assignment
arr2 = std::move(*arr1);
CHECK(arr2.source().begin == source_position{ 1, 8 });
CHECK(arr2.source().end == source_position{ 1, 17 });
CHECK(arr2.source().path);
CHECK(*arr2.source().path == filename);
CHECK(arr2.size() == 1u);
REQUIRE(arr2.get_as<std::string>(0u));
CHECK(*arr2.get_as<std::string>(0u) == "foo"sv);
// check that moved-from array is now the same as default-constructed
CHECK(arr1->source().begin == source_position{});
CHECK(arr1->source().end == source_position{});
CHECK(!arr1->source().path);
CHECK(arr1->size() == 0u);
// check the results of move-construction
array arr3{ std::move(arr2) };
CHECK(arr3.source().begin == source_position{ 1, 8 });
CHECK(arr3.source().end == source_position{ 1, 17 });
CHECK(arr3.source().path);
CHECK(*arr3.source().path == filename);
CHECK(arr3.size() == 1u);
REQUIRE(arr3.get_as<std::string>(0u));
CHECK(*arr3.get_as<std::string>(0u) == "foo"sv);
// check that moved-from array is now the same as default-constructed
CHECK(arr2.source().begin == source_position{});
CHECK(arr2.source().end == source_position{});
CHECK(!arr2.source().path);
CHECK(arr2.size() == 0u);
},
filename);
}
TEST_CASE("arrays - copying")
{
static constexpr auto filename = "foo.toml"sv;
parsing_should_succeed(
FILE_LINE_ARGS,
R"(test = [ "foo" ])"sv,
[&](table&& tbl)
{
// sanity-check initial state of a freshly-parsed array
auto arr1 = tbl["test"].as<array>();
REQUIRE(arr1);
CHECK(arr1->size() == 1u);
CHECK(arr1->source().begin == source_position{ 1, 8 });
CHECK(arr1->source().end == source_position{ 1, 17 });
CHECK(arr1->source().path);
CHECK(*arr1->source().path == filename);
REQUIRE(arr1->get_as<std::string>(0u));
CHECK(*arr1->get_as<std::string>(0u) == "foo"sv);
// sanity-check initial state of default-constructed array
array arr2;
CHECK(arr2.source().begin == source_position{});
CHECK(arr2.source().end == source_position{});
CHECK(!arr2.source().path);
CHECK(arr2.size() == 0u);
// check the results of copy-assignment
arr2 = *arr1;
CHECK(arr2.source().begin == source_position{});
CHECK(arr2.source().end == source_position{});
CHECK(!arr2.source().path);
CHECK(arr2.size() == 1u);
REQUIRE(arr2.get_as<std::string>(0u));
CHECK(*arr2.get_as<std::string>(0u) == "foo"sv);
CHECK(arr2 == *arr1);
// check the results of copy-construction
array arr3{ arr2 };
CHECK(arr3.source().begin == source_position{});
CHECK(arr3.source().end == source_position{});
CHECK(!arr3.source().path);
CHECK(arr3.size() == 1u);
REQUIRE(arr3.get_as<std::string>(0u));
CHECK(*arr3.get_as<std::string>(0u) == "foo"sv);
CHECK(arr3 == *arr1);
CHECK(arr3 == arr2);
},
filename);
}
TEST_CASE("arrays - construction")
{
{
array arr;
CHECK(arr.size() == 0u);
CHECK(arr.empty());
CHECK(arr.begin() == arr.end());
CHECK(arr.cbegin() == arr.cend());
CHECK(arr.source().begin == source_position{});
CHECK(arr.source().end == source_position{});
CHECK(!arr.source().path);
CHECK(!arr.is_homogeneous());
}
{
array arr{ 42 };
CHECK(arr.size() == 1u);
CHECK(!arr.empty());
CHECK(arr.begin() != arr.end());
CHECK(arr.cbegin() != arr.cend());
REQUIRE(arr.get_as<int64_t>(0u));
CHECK(*arr.get_as<int64_t>(0u) == 42);
CHECK(arr.get(0u) == &arr[0u]);
CHECK(arr.is_homogeneous());
CHECK(arr.is_homogeneous<int64_t>());
CHECK(!arr.is_homogeneous<double>());
CHECK(arr.get(0u) == &arr.at(0u));
const array& carr = arr;
CHECK(carr.size() == 1u);
CHECK(!carr.empty());
CHECK(carr.begin() != carr.end());
CHECK(carr.cbegin() != carr.cend());
REQUIRE(carr.get_as<int64_t>(0u));
CHECK(*carr.get_as<int64_t>(0u) == 42);
CHECK(carr.get(0u) == &carr[0u]);
CHECK(carr.is_homogeneous());
CHECK(carr.is_homogeneous<int64_t>());
CHECK(!carr.is_homogeneous<double>());
CHECK(carr.get(0u) == &carr.at(0u));
}
{
array arr{ 42, "test"sv, 10.0f, array{}, value{ 3 } };
CHECK(arr.size() == 5u);
CHECK(!arr.empty());
REQUIRE(arr.get_as<int64_t>(0u));
CHECK(*arr.get_as<int64_t>(0u) == 42);
CHECK(arr.get(0u) == &arr[0u]);
REQUIRE(arr.get_as<std::string>(1u));
CHECK(*arr.get_as<std::string>(1u) == "test"sv);
CHECK(arr.get(1u) == &arr[1u]);
REQUIRE(arr.get_as<double>(2u));
CHECK(*arr.get_as<double>(2u) == 10.0);
REQUIRE(arr.get_as<array>(3u));
REQUIRE(arr.get_as<int64_t>(4u));
CHECK(*arr.get_as<int64_t>(4u) == 3);
CHECK(!arr.is_homogeneous());
CHECK(arr.get(0u) == &arr.at(0u));
CHECK(arr.get(1u) == &arr.at(1u));
}
#if TOML_ENABLE_WINDOWS_COMPAT
{
array arr{ "mixed", "string"sv, L"test", L"kek"sv };
CHECK(arr.size() == 4u);
CHECK(arr.is_homogeneous());
CHECK(arr.is_homogeneous<std::string>());
CHECK(*arr.get_as<std::string>(0) == "mixed"sv);
CHECK(*arr.get_as<std::string>(1) == "string"sv);
CHECK(*arr.get_as<std::string>(2) == "test"sv);
CHECK(*arr.get_as<std::string>(3) == "kek"sv);
}
#endif // TOML_ENABLE_WINDOWS_COMPAT
}
TEST_CASE("arrays - equality")
{
array arr1{ 1, 2, 3 };
CHECK(arr1 == arr1);
{
auto ilist = { 1, 2, 3 };
CHECK(arr1 == ilist);
CHECK(ilist == arr1);
ilist = { 2, 3, 4 };
CHECK(arr1 != ilist);
CHECK(ilist != arr1);
auto ivec = std::vector{ 1, 2, 3 };
CHECK(arr1 == ivec);
CHECK(ivec == arr1);
ivec = std::vector{ 2, 3, 4 };
CHECK(arr1 != ivec);
CHECK(ivec != arr1);
}
array arr2{ 1, 2, 3 };
CHECK(arr1 == arr2);
array arr3{ 1, 2 };
CHECK(arr1 != arr3);
array arr4{ 1, 2, 3, 4 };
CHECK(arr1 != arr4);
array arr5{ 1, 2, 3.0 };
CHECK(arr1 != arr5);
array arr6{};
CHECK(arr1 != arr6);
CHECK(arr6 == arr6);
array arr7{};
CHECK(arr6 == arr7);
}
TEST_CASE("arrays - insertion and erasure")
{
array arr;
// insert(const_iterator pos, ElemType&& val)
auto it = arr.insert(arr.cbegin(), 42);
CHECK(it == arr.begin());
CHECK(arr.size() == 1u);
CHECK(!arr.empty());
REQUIRE(arr.get_as<int64_t>(0u));
CHECK(*arr.get_as<int64_t>(0u) == 42);
REQUIRE(arr == array{ 42 });
// insert(const_iterator pos, size_t count, ElemType&& val)
it = arr.insert(arr.cend(), 3, 10.0f);
CHECK(it == arr.begin() + 1);
CHECK(arr.size() == 4u);
REQUIRE(arr.get_as<double>(1u));
CHECK(*arr.get_as<double>(1u) == 10.0);
REQUIRE(arr.get_as<double>(2u));
CHECK(*arr.get_as<double>(2u) == 10.0);
REQUIRE(arr.get_as<double>(3u));
CHECK(*arr.get_as<double>(3u) == 10.0);
REQUIRE(arr == array{ 42, 10.0, 10.0, 10.0 });
// emplace(const_iterator pos, Args &&... args) noexcept
it = arr.emplace<array>(arr.cbegin(), 1, 2, 3);
CHECK(it == arr.begin());
CHECK(arr.size() == 5u);
REQUIRE(arr.get_as<array>(0u));
CHECK(arr.get_as<array>(0u)->size() == 3u);
REQUIRE(arr == array{ array{ 1, 2, 3 }, 42, 10.0, 10.0, 10.0 });
// push_back(ElemType&& val) noexcept
{
arr.push_back("test"sv);
auto& val = *arr.back().as_string();
CHECK(arr.size() == 6u);
REQUIRE(arr.get_as<std::string>(5u));
CHECK(*arr.get_as<std::string>(5u) == "test"sv);
CHECK(val == "test"sv);
CHECK(&val == &arr.back());
REQUIRE(arr == array{ array{ 1, 2, 3 }, 42, 10.0, 10.0, 10.0, "test"sv });
}
// decltype(auto) emplace_back(Args&&... args) noexcept
{
decltype(auto) val = arr.emplace_back<std::string>("test2"sv);
CHECK(arr.size() == 7u);
REQUIRE(arr.get_as<std::string>(6u));
CHECK(*arr.get_as<std::string>(6u) == "test2"sv);
CHECK(val == "test2"sv);
CHECK(&val == &arr.back());
REQUIRE(arr == array{ array{ 1, 2, 3 }, 42, 10.0, 10.0, 10.0, "test"sv, "test2"sv });
}
// erase(const_iterator pos) noexcept;
it = arr.erase(arr.cbegin());
REQUIRE(arr == array{ 42, 10.0, 10.0, 10.0, "test"sv, "test2"sv });
CHECK(it == arr.begin());
CHECK(arr.size() == 6u);
// erase(const_iterator first, const_iterator last) noexcept;
it = arr.erase(arr.cbegin() + 2, arr.cbegin() + 4);
REQUIRE(arr == array{ 42, 10.0, "test"sv, "test2"sv });
CHECK(it == arr.begin() + 2);
CHECK(arr.size() == 4u);
arr.pop_back();
REQUIRE(arr == array{ 42, 10.0, "test"sv });
CHECK(arr.size() == 3u);
arr.clear();
REQUIRE(arr == array{});
CHECK(arr.size() == 0u);
CHECK(arr.empty());
// insert(const_iterator pos, Iter first, Iter last)
{
auto vals = std::vector{ 1.0, 2.0, 3.0 };
arr.insert(arr.cbegin(), vals.begin(), vals.end());
CHECK(arr.size() == 3u);
REQUIRE(arr.get_as<double>(0u));
CHECK(*arr.get_as<double>(0u) == 1.0);
REQUIRE(arr.get_as<double>(1u));
CHECK(*arr.get_as<double>(1u) == 2.0);
REQUIRE(arr.get_as<double>(2u));
CHECK(*arr.get_as<double>(2u) == 3.0);
arr.insert(arr.cbegin() + 1, vals.begin(), vals.end());
CHECK(arr.size() == 6u);
REQUIRE(arr.get_as<double>(0u));
CHECK(*arr.get_as<double>(0u) == 1.0);
REQUIRE(arr.get_as<double>(1u));
CHECK(*arr.get_as<double>(1u) == 1.0);
REQUIRE(arr.get_as<double>(2u));
CHECK(*arr.get_as<double>(2u) == 2.0);
REQUIRE(arr.get_as<double>(3u));
CHECK(*arr.get_as<double>(3u) == 3.0);
REQUIRE(arr.get_as<double>(4u));
CHECK(*arr.get_as<double>(4u) == 2.0);
REQUIRE(arr.get_as<double>(5u));
CHECK(*arr.get_as<double>(5u) == 3.0);
}
// insert(const_iterator pos, Iter first, Iter last) (with move iterators)
{
arr.clear();
std::vector<std::string> vals{ "foo", "bar", "kek" };
arr.insert(arr.cbegin(), std::make_move_iterator(vals.begin()), std::make_move_iterator(vals.end()));
CHECK(arr.size() == 3u);
REQUIRE(arr.get_as<std::string>(0));
CHECK(*arr.get_as<std::string>(0) == "foo");
REQUIRE(arr.get_as<std::string>(1));
CHECK(*arr.get_as<std::string>(1) == "bar");
REQUIRE(arr.get_as<std::string>(2));
CHECK(*arr.get_as<std::string>(2) == "kek");
REQUIRE(vals.size() == 3u);
CHECK(vals[0] == "");
CHECK(vals[1] == "");
CHECK(vals[2] == "");
}
// iterator insert(const_iterator pos, std::initializer_list<ElemType> ilist) noexcept
{
arr.clear();
arr.insert(arr.cbegin(), { 1.0, 2.0, 3.0 });
CHECK(arr.size() == 3u);
REQUIRE(arr.get_as<double>(0u));
CHECK(*arr.get_as<double>(0u) == 1.0);
REQUIRE(arr.get_as<double>(1u));
CHECK(*arr.get_as<double>(1u) == 2.0);
REQUIRE(arr.get_as<double>(2u));
CHECK(*arr.get_as<double>(2u) == 3.0);
arr.insert(arr.cbegin() + 1, { 1.0, 2.0, 3.0 });
CHECK(arr.size() == 6u);
REQUIRE(arr.get_as<double>(0u));
CHECK(*arr.get_as<double>(0u) == 1.0);
REQUIRE(arr.get_as<double>(1u));
CHECK(*arr.get_as<double>(1u) == 1.0);
REQUIRE(arr.get_as<double>(2u));
CHECK(*arr.get_as<double>(2u) == 2.0);
REQUIRE(arr.get_as<double>(3u));
CHECK(*arr.get_as<double>(3u) == 3.0);
REQUIRE(arr.get_as<double>(4u));
CHECK(*arr.get_as<double>(4u) == 2.0);
REQUIRE(arr.get_as<double>(5u));
CHECK(*arr.get_as<double>(5u) == 3.0);
}
// iterator replace(const_iterator pos, ElemType&& elem) noexcept
{
arr.clear();
arr.insert(arr.begin(), { 1, 2, 3 });
CHECK(arr == array{ 1, 2, 3 });
arr.replace(arr.begin() + 1u, "two"sv);
CHECK(arr == array{ 1, "two"sv, 3 });
}
#if TOML_ENABLE_WINDOWS_COMPAT
arr.clear();
it = arr.insert(arr.cbegin(), L"test");
CHECK(*arr.get_as<std::string>(0u) == "test"sv);
it = arr.emplace<std::string>(arr.cbegin(), L"test2"sv);
CHECK(*arr.get_as<std::string>(0u) == "test2"sv);
arr.push_back(L"test3"s);
CHECK(*arr.back().as_string() == "test3"sv);
arr.emplace_back<std::string>(L"test4");
CHECK(*arr.back().as_string() == "test4"sv);
#endif // TOML_ENABLE_WINDOWS_COMPAT
}
TEST_CASE("arrays - flattening")
{
{
array arr{
1,
2,
3,
array{ 4, 5 },
6,
array{},
array{ 7,
array{
8,
array{ 9 },
10,
array{},
},
11 },
};
arr.flatten();
CHECK(arr == array{ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 });
}
{
array arr{ array{},
array{ inserter{ array{} } },
array{ array{}, array{ array{}, array{} }, array{} },
array{ array{ array{ array{ array{ array{ 1 } } } } } } };
arr.flatten();
CHECK(arr == array{ 1 });
}
}
TEST_CASE("arrays - pruning")
{
// [ 1, [ 2, [], 3 ], { 4 = 5, 6 = 7 }, [], 8, [{}], 9, 10 ]
const auto arr =
array{ 1, array{ 2, array{}, 3 }, table{ { "4", 5 }, { "6", array{} } }, array{}, 8, array{ table{} }, 9, 10 };
// [ 1, [ 2, 3 ], { 4 = 5, 6 = 7 }, 8, 9, 10 ]
const auto pruned_recursive = array{ 1, array{ 2, 3 }, table{ { "4", 5 } }, 8, 9, 10 };
CHECK(array{ arr }.prune(true) == pruned_recursive);
// [ 1, [ 2, [], 3 ], { 4 = 5, 6 = 7 }, [], 8, [{}], 9, 10 ]
const auto pruned_flat =
array{ 1, array{ 2, array{}, 3 }, table{ { "4", 5 }, { "6", array{} } }, 8, array{ table{} }, 9, 10 };
CHECK(array{ arr }.prune(false) == pruned_flat);
}
TEST_CASE("arrays - resizing and truncation")
{
array arr{ 1, 2, 3, 4, 5 };
CHECK(arr.size() == 5u);
// truncate with no change
arr.truncate(5u);
CHECK(arr.size() == 5u);
CHECK(arr == array{ 1, 2, 3, 4, 5 });
// truncate down to three elements
arr.truncate(3u);
CHECK(arr.size() == 3u);
CHECK(arr == array{ 1, 2, 3 });
// resize down to two elements
arr.resize(2u, 42);
CHECK(arr.size() == 2u);
CHECK(arr == array{ 1, 2 });
// resize with no change
arr.resize(2u, 42);
CHECK(arr.size() == 2u);
CHECK(arr == array{ 1, 2 });
// resize up to six elements
arr.resize(6u, 42);
CHECK(arr.size() == 6u);
CHECK(arr == array{ 1, 2, 42, 42, 42, 42 });
}