jsix/src/tests/linked_list.cpp

#include <chrono>
#include <iostream>
#include <limits>
#include <random>
#include <vector>
#include "kutil/linked_list.h"
#include "catch.hpp"
#include "container_helpers.h"

using namespace kutil;

const int test_list_size = 100;

template <typename T>
class ListVectorCompare :
	public Catch::MatcherBase<std::vector<list_node<T>>>
{
public:
	using item = list_node<T>;
	using vector = std::vector<item>;

	ListVectorCompare(const linked_list<T> &list, bool reversed) :
		m_list(list), m_reverse(reversed) {}

	virtual bool match (vector const& vec) const override
	{
		size_t index = m_reverse ? vec.size() - 1 : 0;
		for (const T *i : m_list) {
			if (i != &vec[index]) return false;
			index += m_reverse ? -1 : 1;
		}
		return true;
	}

	virtual std::string describe() const override
	{
		return "is the same as the given linked list";
	}

private:
	const linked_list<T> &m_list;
	bool m_reverse;
};

template <typename T>
class IsSorted :
	public Catch::MatcherBase<linked_list<T>>
{
public:
	using item = list_node<T>;
	using list = linked_list<T>;

	IsSorted() {}

	virtual bool match (list const& l) const override
	{
		int big = std::numeric_limits<int>::min();
		for (const T *i : l) {
			if (i->value < big) return false;
			big = i->value;
		}
		return true;
	}

	virtual std::string describe() const override
	{
		return "is sorted";
	}
};

template <typename T>
class ListContainsMatcher :
	public Catch::MatcherBase<linked_list<T>>
{
public:
	using item = list_node<T>;
	using list = linked_list<T>;

	ListContainsMatcher(const item &needle) : m_needle(needle) {}

	virtual bool match (list const& l) const override
	{
		for (const T *i : l)
			if (i == &m_needle) return true;
		return false;
	}

	virtual std::string describe() const override
	{
		return "contains the given item";
	}

	const item &m_needle;
};

template <typename T>
ListVectorCompare<T> IsSameAsList(const linked_list<T> &list, bool reversed = false)
{
	return ListVectorCompare<T>(list, reversed);
}

template <typename T>
ListContainsMatcher<T> ListContains(const list_node<T> &item)
{
	return ListContainsMatcher<T>(item);
}

TEST_CASE( "Linked list tests", "[containers] [list]" )
{
	linked_list<unsortableT> ulist;

	int value = 0;
	std::vector<list_node<unsortableT>> unsortables(test_list_size);
	for (auto &i : unsortables) {
		i.value = value++;
		ulist.push_back(&i);
	}
	CHECK( ulist.length() == test_list_size );
	CHECK_THAT( unsortables, IsSameAsList(ulist) );

	linked_list<unsortableT> ulist_reversed;

	for (auto &i : unsortables) {
		ulist.remove(&i);
		ulist_reversed.push_front(&i);
	}

	CHECK( ulist_reversed.length() == test_list_size );
	CHECK_THAT( unsortables, IsSameAsList(ulist_reversed, true) );

	auto &removed = unsortables[test_list_size / 2];
	ulist_reversed.remove(&removed);
	CHECK( ulist_reversed.length() == test_list_size - 1 );
	CHECK_THAT( ulist_reversed, !ListContains(removed) );
}

TEST_CASE( "Sorted list tests", "[containers] [list]" )
{
	using clock = std::chrono::system_clock;
	unsigned seed = clock::now().time_since_epoch().count();
	std::default_random_engine rng(seed);
	std::uniform_int_distribution<int> gen(1, 1000);

	linked_list<sortableT> slist;
	CHECK( slist.length() == 0 );

	std::vector<list_node<sortableT>> sortables(test_list_size);
	for (auto &i : sortables) {
		i.value = gen(rng);
		slist.sorted_insert(&i);
	}
	CHECK( slist.length() == test_list_size );
	CHECK_THAT( slist, IsSorted<sortableT>() );
}