tvl-depot/third_party/immer/test/box/recursive.cpp

//
// 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
//

#include <immer/algorithm.hpp>
#include <immer/box.hpp>
#include <immer/flex_vector.hpp>
#include <immer/map.hpp>
#include <immer/set.hpp>
#include <immer/vector.hpp>

#include <catch.hpp>

struct rec_vec
{
    int data;
    immer::vector<immer::box<rec_vec>> children;
};

TEST_CASE("recursive vector")
{
    auto v1 = rec_vec{42,
                      {rec_vec{12, {}},
                       rec_vec{13, {rec_vec{5, {}}, rec_vec{7, {}}}},
                       rec_vec{15, {}}}};
    CHECK(v1.data == 42);
    CHECK(v1.children[0]->data == 12);
    CHECK(v1.children[1]->children[0]->data == 5);
}

struct rec_fvec
{
    int data;
    immer::flex_vector<immer::box<rec_fvec>> children;
};

TEST_CASE("recursive flex_vector")
{
    auto v1 = rec_fvec{42,
                       {rec_fvec{12, {}},
                        rec_fvec{13, {rec_fvec{5, {}}, rec_fvec{7, {}}}},
                        rec_fvec{15, {}}}};
    CHECK(v1.data == 42);
    CHECK(v1.children[0]->data == 12);
    CHECK(v1.children[1]->children[0]->data == 5);
}

struct rec_map
{
    int data;
    immer::map<std::string, immer::box<rec_map>> children;
};

TEST_CASE("recursive map")
{
    auto v1 = rec_map{42, {}};
    auto v2 = rec_map{43, v1.children.set("hello", rec_map{12, {}})};
    auto v3 = rec_map{44, v2.children.set("world", rec_map{13, {}})};

    CHECK(v3.data == 44);
    CHECK(v3.children["hello"]->data == 12);
    CHECK(v3.children["world"]->data == 13);
}

struct rec_set
{
    int data;
    immer::set<immer::box<rec_set>> children;

    bool operator==(const rec_set& other) const
    {
        return data == other.data && children == other.children;
    }
    bool operator!=(const rec_set& other) const { return !(*this == other); }
};

namespace std {

template <>
struct hash<rec_set>
{
    auto operator()(const rec_set& s)
    {
        return std::hash<decltype(s.data)>{}(s.data) ^
               immer::accumulate(
                   s.children, std::size_t{}, [](auto ac, auto v) {
                       return std::hash<decltype(v)>{}(v);
                   });
    }
};

} // namespace std

TEST_CASE("recursive set")
{
    auto v1 = rec_set{42, {}};
    auto v2 = rec_set{43, v1.children.insert(rec_set{12, {}})};
    auto v3 = rec_set{44, v2.children.insert(rec_set{13, {}})};

    CHECK(v3.data == 44);
    CHECK(v3.children.count(rec_set{12, {}}) == 1);
    CHECK(v3.children.count(rec_set{13, {}}) == 1);
    CHECK(v3.children.count(rec_set{14, {}}) == 0);
}
Squashed 'third_party/immer/' content from commit ad3e3556d git-subtree-dir: third_party/immer git-subtree-split: ad3e3556d38bb75966dd24c61a774970a7c7957e 2020-07-15 09:20:18 +02:00			`//`
			`// 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`
			`//`

			`#include <immer/algorithm.hpp>`
			`#include <immer/box.hpp>`
			`#include <immer/flex_vector.hpp>`
			`#include <immer/map.hpp>`
			`#include <immer/set.hpp>`
			`#include <immer/vector.hpp>`

			`#include <catch.hpp>`

			`struct rec_vec`
			`{`
			`int data;`
			`immer::vector<immer::box<rec_vec>> children;`
			`};`

			`TEST_CASE("recursive vector")`
			`{`
			`auto v1 = rec_vec{42,`
			`{rec_vec{12, {}},`
			`rec_vec{13, {rec_vec{5, {}}, rec_vec{7, {}}}},`
			`rec_vec{15, {}}}};`
			`CHECK(v1.data == 42);`
			`CHECK(v1.children[0]->data == 12);`
			`CHECK(v1.children[1]->children[0]->data == 5);`
			`}`

			`struct rec_fvec`
			`{`
			`int data;`
			`immer::flex_vector<immer::box<rec_fvec>> children;`
			`};`

			`TEST_CASE("recursive flex_vector")`
			`{`
			`auto v1 = rec_fvec{42,`
			`{rec_fvec{12, {}},`
			`rec_fvec{13, {rec_fvec{5, {}}, rec_fvec{7, {}}}},`
			`rec_fvec{15, {}}}};`
			`CHECK(v1.data == 42);`
			`CHECK(v1.children[0]->data == 12);`
			`CHECK(v1.children[1]->children[0]->data == 5);`
			`}`

			`struct rec_map`
			`{`
			`int data;`
			`immer::map<std::string, immer::box<rec_map>> children;`
			`};`

			`TEST_CASE("recursive map")`
			`{`
			`auto v1 = rec_map{42, {}};`
			`auto v2 = rec_map{43, v1.children.set("hello", rec_map{12, {}})};`
			`auto v3 = rec_map{44, v2.children.set("world", rec_map{13, {}})};`

			`CHECK(v3.data == 44);`
			`CHECK(v3.children["hello"]->data == 12);`
			`CHECK(v3.children["world"]->data == 13);`
			`}`

			`struct rec_set`
			`{`
			`int data;`
			`immer::set<immer::box<rec_set>> children;`

			`bool operator==(const rec_set& other) const`
			`{`
			`return data == other.data && children == other.children;`
			`}`
			`bool operator!=(const rec_set& other) const { return !(*this == other); }`
			`};`

			`namespace std {`

			`template <>`
			`struct hash<rec_set>`
			`{`
			`auto operator()(const rec_set& s)`
			`{`
			`return std::hash<decltype(s.data)>{}(s.data) ^`
			`immer::accumulate(`
			`s.children, std::size_t{}, [](auto ac, auto v) {`
			`return std::hash<decltype(v)>{}(v);`
			`});`
			`}`
			`};`

			`} // namespace std`

			`TEST_CASE("recursive set")`
			`{`
			`auto v1 = rec_set{42, {}};`
			`auto v2 = rec_set{43, v1.children.insert(rec_set{12, {}})};`
			`auto v3 = rec_set{44, v2.children.insert(rec_set{13, {}})};`

			`CHECK(v3.data == 44);`
			`CHECK(v3.children.count(rec_set{12, {}}) == 1);`
			`CHECK(v3.children.count(rec_set{13, {}}) == 1);`
			`CHECK(v3.children.count(rec_set{14, {}}) == 0);`
			`}`