public static void Main1(string[] args)
{
var fleet = new Fleet();
// Create a fleet of things to have this output:
// 1. [ ] Get milk
// 2. [ ] Remove the obstacles
// 3. [x] Stand up
// 4. [x] Eat lunch
// Hint: You have to create a Print method also
Thing thing1 = new Thing("Get milk");
fleet.Add(thing1);
Thing thing2 = new Thing("Remove the obstacles");
fleet.Add(thing2);
Thing thing3 = new Thing("Stand up");
thing3.Complete();
fleet.Add(thing3);
Thing thing4 = new Thing("Eat lunch");
thing4.Complete();
fleet.Add(thing4);
PrintThings(fleet);
}
static void Main(string[] args)
{
PostIt postit1 = new PostIt("Orange", "idea 1", "blue");
PostIt postit2 = new PostIt("pink", "Awesome", "black");
PostIt postit3 = new PostIt("yellow", "Superb", "green");
BlogPost b1 = new BlogPost("John Doe", "Lorem ipsum", "Lorem ipsum dolor sit amet.", "2000.05.04");
BlogPost b2 = new BlogPost(" Tim Urban", "Wait but why",
"A popular long-form, stick-figure-illustrated blog about almost everything.", "2010.10.10");
BlogPost b3 = new BlogPost(" William Turton", "ne Engineer Is Trying to Get IBM to Reckon With Trump",
"Daniel Hanley, a cybersecurity engineer at IBM, doesn’t want to be the center of attention. When I asked to take his picture outside one of IBM’s New York City offices, he told me that he wasn’t really into the whole organizer profile thing.",
"2017.03.28");
Animal animal = new Animal();
//Console.WriteLine(animal.hunger);
//Pokemon
List <Pokemon> pokemonOfAsh = InitializePokemon();
// Every pokemon has a name and a type.
// Certain types are effective against others, e.g. water is effective against fire.
// Ash has a few pokemon.
// A wild pokemon appeared!
Pokemon wildPokemon = new Pokemon("Oddish", "leaf", "water");
string choose = "";
// Which pokemon should Ash use?
foreach (Pokemon p in pokemonOfAsh)
{
if (p.IsEffectiveAgainst(wildPokemon))
{
choose = p.Name;
break;
}
}
Console.WriteLine($"I choose you,{choose}");
var fleet = new Fleet();
// Create a fleet of things to have this output:
// 1. [ ] Get milk
// 2. [ ] Remove the obstacles
// 3. [x] Stand up
// 4. [x] Eat lunch
// Hint: You have to create a Print method also
Thing thing1 = new Thing("Get milk");
fleet.Add(thing1);
Thing thing2 = new Thing("Remove the obstacles");
fleet.Add(thing2);
Thing thing3 = new Thing("Stand up");
thing3.Complete();
fleet.Add(thing3);
Thing thing4 = new Thing("Eat lunch");
thing4.Complete();
fleet.Add(thing4);
PrintThings(fleet);
//Diceset
DiceSet diceset = new DiceSet();
diceset.Roll();
while (true)
{
if (diceset.GetCurrent().Distinct().Count() == 1)
{
break;
}
else
{
diceset.Reroll();
}
}
foreach (int i in diceset.GetCurrent())
{
Console.WriteLine(i);
}
//Domino
var dominoes = InitializeDominoes();
// You have the list of Dominoes
// Order them into one snake where the adjacent dominoes have the same numbers on their adjacent sides
// Create a function to write the dominous to the console in the following format
// eg: [2, 4], [4, 3], [3, 5] ...
List <Domino> reorder = new List <Domino>();
reorder.Add(dominoes[0]);
while (reorder.Count != dominoes.Count)
{
foreach (Domino d in dominoes)
{
if ((d.GetValues()[0] == reorder[reorder.Count - 1].GetValues()[1]) & (!reorder.Contains(d)))
{
reorder.Add(d);
}
}
}
foreach (Domino d in reorder)
{
Console.WriteLine(d.GetValues()[0] + " " + d.GetValues()[1]);
}
}