public void Should_find_diagonal_words_written_top_left_to_bottom_right()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("java");
Assert.That(actual, Is.EqualTo(Tuple.Create(new Point(1, 1), new Point(4, 4))));
}
public void Should_not_find_words_that_are_not_in_the_puzzle()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("haskell");
Assert.Null(actual);
}
public void Should_find_diagonal_upper_written_top_right_to_bottom_left()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("ruby");
Assert.That(actual, Is.EqualTo(Tuple.Create(new Point(8, 6), new Point(5, 9))));
}
public void Should_find_vertical_words_written_bottom_to_top()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("rust");
Assert.That(actual, Is.EqualTo(Tuple.Create(new Point(9, 5), new Point(9, 2))));
}
public void Should_find_vertical_words_written_top_to_bottom()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("ecmascript");
Assert.That(actual, Is.EqualTo(Tuple.Create(new Point(10, 1), new Point(10, 10))));
}
public void Should_find_horizontal_words_written_right_to_left()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("elixir");
Assert.That(actual, Is.EqualTo(Tuple.Create(new Point(6, 5), new Point(1, 5))));
}
public void Should_find_horizontal_words_written_left_to_right()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("clojure");
Assert.That(actual, Is.EqualTo(Tuple.Create(new Point(1, 10), new Point(7, 10))));
}
public void Should_find_diagonal_upper_written_top_right_to_bottom_left()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("ruby");
Assert.Equal(new Tuple <int, int>(8, 6), actual.Item1);
Assert.Equal(new Tuple <int, int>(5, 9), actual.Item2);
}
public void Should_find_diagonal_words_written_top_left_to_bottom_right()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("java");
Assert.Equal(new Tuple <int, int>(1, 1), actual.Item1);
Assert.Equal(new Tuple <int, int>(4, 4), actual.Item2);
}
public void Should_find_vertical_words_written_bottom_to_top()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("rust");
Assert.Equal(new Tuple <int, int>(9, 5), actual.Item1);
Assert.Equal(new Tuple <int, int>(9, 2), actual.Item2);
}
public void Should_find_vertical_words_written_top_to_bottom()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("ecmascript");
Assert.Equal(new Tuple <int, int>(10, 1), actual.Item1);
Assert.Equal(new Tuple <int, int>(10, 10), actual.Item2);
}
public void Should_find_horizontal_words_written_right_to_left()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("elixir");
Assert.Equal(new Tuple <int, int>(6, 5), actual.Item1);
Assert.Equal(new Tuple <int, int>(1, 5), actual.Item2);
}
public void Should_find_horizontal_words_written_left_to_right()
{
var wordSearch = new WordSearch(Puzzle);
var actual = wordSearch.Find("clojure");
Assert.Equal(new Tuple <int, int>(1, 10), actual.Item1);
Assert.Equal(new Tuple <int, int>(7, 10), actual.Item2);
}
public void Should_be_able_to_search_differently_sized_puzzles()
{
const string differentSizePuzzle =
"qwertyuiopz\n" +
"luamsicrexe\n" +
"abcdefghijk";
var wordSearch = new WordSearch(differentSizePuzzle);
var actual = wordSearch.Find("exercism");
Assert.That(actual, Is.EqualTo(Tuple.Create(new Point(11, 2), new Point(4, 2))));
}
public void Should_be_able_to_search_differently_sized_puzzles()
{
const string differentSizePuzzle =
"qwertyuiopz\n" +
"luamsicrexe\n" +
"abcdefghijk";
var wordSearch = new WordSearch(differentSizePuzzle);
var actual = wordSearch.Find("exercism");
Assert.Equal(new Tuple <int, int>(11, 2), actual.Item1);
Assert.Equal(new Tuple <int, int>(4, 2), actual.Item2);
}