static void Main(string[] args)
{
if (args.Length > 0)
{
ConsoleAppUtils.ParseArgs(args, out string inputFile, out string outputFile);
UtilsW.ReadInputFromFile(inputFile, ' ', out int[,] res);
try
{
Nine logic = new Nine(res);
logic.Process2(out int[,] res1, out int rm);
UtilsW.WriteInputIntoFile(outputFile, res1);
Console.WriteLine("Минимальная сумма по столбцам: {0}", rm.ToString());
}
catch (Exception except)
{
Console.WriteLine(except);
}
Console.ReadKey();
}
else
{
Console.WriteLine("Аргументы командной строки не заданы");
Console.ReadKey();
}
}
static void Main(string[] args)
{
if (args.Length > 0)
{
AllocConsole();
ConsoleAppUtils.ParseArgs(args, out string inputFile, out string outputFile);
UtilsW.ReadInputFromFile(inputFile, ' ', out int[,] res);
try
{
Nine logic = new Nine(res);
logic.Process2(out int[,] res1, out int rm);
UtilsW.WriteInputIntoFile(outputFile, res1);
Console.WriteLine("Минимальная сумма по столбцам: {0}", rm.ToString());
}
catch (Exception except)
{
Console.WriteLine(except);
}
Console.ReadKey();
}
else
{
FreeConsole();
Application.EnableVisualStyles();
Application.SetCompatibleTextRenderingDefault(false);
Application.Run(new Form1());
}
}
public void Nine()
{
var problem = new Nine();
var result = (ulong)problem.Solve();
result.Should().Be(31875000);
}
public static void RunTen()
{
Queue <int> myQueue = new Queue <int>();
Console.WriteLine("Enter an int to use as n");
int n = Nine.ReadInt();
Console.WriteLine("Enter an int to use as max");
int M = Nine.ReadInt(); //max numbers
Console.WriteLine("--------------------------");
myQueue.Enqueue(n);
for (int i = 0; i < M; i++)
{
int x = myQueue.Dequeue();
if (x * 2 < M && myQueue.Count < M)
{
myQueue.Enqueue(x * 2);
}
if (x + 2 < M && myQueue.Count < M)
{
myQueue.Enqueue(x + 2);
}
if (x + 1 < M && myQueue.Count < M)
{
myQueue.Enqueue(x + 1);
}
}
Nine.PrintQueue(myQueue);
}
private void ParseResult(string[] right)
{
for (int i = 0; i < right.Length; i++)
{
var str = right[i];
if (str.Length == One.Length && str.All(b => One.Contains(b)))
{
ResultArray[i] = 1;
}
if (str.Length == Four.Length && str.All(b => Four.Contains(b)))
{
ResultArray[i] = 4;
}
if (str.Length == Seven.Length && str.All(b => Seven.Contains(b)))
{
ResultArray[i] = 7;
}
if (str.Length == Eight.Length && str.All(b => Eight.Contains(b)))
{
ResultArray[i] = 8;
}
//Part 2
//6 parts - 0,6,9
if (str.Length == Zero.Length && str.All(b => Zero.Contains(b)))
{
ResultArray[i] = 0;
}
if (str.Length == Six.Length && str.All(b => Six.Contains(b)))
{
ResultArray[i] = 6;
}
if (str.Length == Nine.Length && str.All(b => Nine.Contains(b)))
{
ResultArray[i] = 9;
}
//5 parts - 2,3,5
if (str.Length == Two.Length && str.All(b => Two.Contains(b)))
{
ResultArray[i] = 2;
}
if (str.Length == Three.Length && str.All(b => Three.Contains(b)))
{
ResultArray[i] = 3;
}
if (str.Length == Five.Length && str.All(b => Five.Contains(b)))
{
ResultArray[i] = 5;
}
}
if (ResultArray.Any(a => a < 0))
{
throw new Exception();
}
//Part 2
ResultNumber = Convert.ToInt32(ResultArray[0].ToString() + ResultArray[1].ToString() + ResultArray[2].ToString() + ResultArray[3].ToString());
}
public TryOutNumbers(Color color)
{
zero = new Zero(color);
one = new One(color);
two = new Two(color);
three = new Three(color);
four = new Four(color);
five = new Five(color);
six = new Six(color);
seven = new Seven(color);
eight = new Eight(color);
nine = new Nine(color);
}
/// <summary>
/// Use second set of persian characters in unicode ( '\u06F0', '\u06F1', ... , '\u06F9' )
/// </summary>
public void UseSecondNumerics()
{
Zero.SetData('\u06F0');
One.SetData('\u06F1');
Two.SetData('\u06F2');
Three.SetData('\u06F3');
Four.SetData('\u06F4');
Five.SetData('\u06F5');
Six.SetData('\u06F6');
Seven.SetData('\u06F7');
Eight.SetData('\u06F8');
Nine.SetData('\u06F9');
}
private void Go_Click(object sender, EventArgs e)
{
try
{
int[,] arr2 = DataGridViewUtils.GridToArray2 <int>(arr2FromDataGridView);
Nine logic = new Nine(arr2);
DataGridViewUtils.ArrayToGrid(arr2ToDataGridView, logic.Process());
}
catch (Exception except)
{
FormsUtils.ErrorMessageBox(except);
}
}
/// <summary>
/// Use first set of persian characters in unicode ( '\u0660', '\u0661', ... , '\u0669' )
/// </summary>
public void UseFirstNumerics()
{
Zero.SetData('\u0660');
One.SetData('\u0661');
Two.SetData('\u0662');
Three.SetData('\u0663');
Four.SetData('\u0664');
Five.SetData('\u0665');
Six.SetData('\u0666');
Seven.SetData('\u0667');
Eight.SetData('\u0668');
Nine.SetData('\u0669');
}
public List <int> GetList(List <int> answer)
{
One?.GetList(answer);
answer.Add(value);
Two?.GetList(answer);
Three?.GetList(answer);
Four?.GetList(answer);
Five?.GetList(answer);
Six?.GetList(answer);
Seven?.GetList(answer);
Eight?.GetList(answer);
Nine?.GetList(answer);
O?.GetList(answer);
return(answer);
}
private void Go_Click(object sender, EventArgs e)
{
try
{
int[,] arr2 = DataGridViewUtils.GridToArray2 <int>(arr2FromDataGridView);
Nine logic = new Nine(arr2);
logic.Process2(out int[,] res, out int resmin);
DataGridViewUtils.ArrayToGrid(arr2ToDataGridView, res);
labelres.Text = resmin.ToString();
label3.Show();
}
catch (Exception except)
{
FormsUtils.ErrorMessageBox(except);
}
}
public static void Dispose()
{
GrassTexture.Dispose();
WaterTexture.Dispose();
ForestTexture.Dispose();
HouseTexture.Dispose();
MountainTexture.Dispose();
Building.Dispose();
Zero.Dispose();
One.Dispose();
Two.Dispose();
Three.Dispose();
Five.Dispose();
Six.Dispose();
Eight.Dispose();
Nine.Dispose();
Turbine.Dispose();
}
private void Parse(string[] left)
{
One = left.Where(a => a.Count() == 2).FirstOrDefault();
Four = left.Where(a => a.Count() == 4).FirstOrDefault();
Seven = left.Where(a => a.Count() == 3).FirstOrDefault();
Eight = "abcdefg";
//6 parts - 0,6,9
Six = left.Where(a => a.Count() == 6).Single(a => One.All(b => a.Contains(b)) == false);
char rightUp = Eight.First(a => Six.Contains(a) == false);
string leftUpAndMiddle = string.Concat(Four.Where(a => One.Contains(a) == false));
Nine = left.Where(a => a.Count() == 6).First(a => (a.All(b => Six.Contains(b)) == false) && leftUpAndMiddle.All(b => a.Contains(b)));
Zero = left.Where(a => a.Count() == 6).First(a => (a.All(b => Nine.Contains(b)) == false) && (a.All(b => Six.Contains(b)) == false));
//5 parts - 2,3,5
Three = left.Where(a => a.Count() == 5).Single(a => One.All(b => a.Contains(b)));
Two = left.Where(a => a.Count() == 5).Single(a => a.Contains(rightUp) && (a.All(b => Three.Contains(b)) == false));
Five = left.Where(a => a.Count() == 5).First(a => (a.All(b => Two.Contains(b)) == false) && (a.All(b => Three.Contains(b)) == false));
}
public static float[,] getControlPointsFor(int start)
{
switch (start)
{
case (-1):
return(Null.getInstance().getControlPoints());
case 0:
return(Zero.getInstance().getControlPoints());
case 1:
return(One.getInstance().getControlPoints());
case 2:
return(Two.getInstance().getControlPoints());
case 3:
return(Three.getInstance().getControlPoints());
case 4:
return(Four.getInstance().getControlPoints());
case 5:
return(Five.getInstance().getControlPoints());
case 6:
return(Six.getInstance().getControlPoints());
case 7:
return(Seven.getInstance().getControlPoints());
case 8:
return(Eight.getInstance().getControlPoints());
case 9:
return(Nine.getInstance().getControlPoints());
default:
throw new ArgumentException("Unsupported number requested");
}
}
static void Main(string[] args)
{
if (args.Length > 0)
{
ConsoleAppUtils.ParseArgs(args, out string inputFile, out string outputFile);
UtilsW.ReadInputFromFile(inputFile, ' ', out int[,] res);
try
{
Nine logic = new Nine(res);
UtilsW.WriteInputIntoFile(outputFile, logic.Process());
}
catch (Exception except)
{
Console.WriteLine(except);
Console.ReadKey();
}
}
else
{
Console.WriteLine("Аргументы командной строки не заданы");
Console.ReadKey();
}
}
void ReleaseDesignerOutlets()
{
if (Clear != null)
{
Clear.Dispose();
Clear = null;
}
if (Decimal != null)
{
Decimal.Dispose();
Decimal = null;
}
if (Divise != null)
{
Divise.Dispose();
Divise = null;
}
if (Eight != null)
{
Eight.Dispose();
Eight = null;
}
if (Equals != null)
{
Equals.Dispose();
Equals = null;
}
if (Five != null)
{
Five.Dispose();
Five = null;
}
if (Four != null)
{
Four.Dispose();
Four = null;
}
if (Minus != null)
{
Minus.Dispose();
Minus = null;
}
if (Multiply != null)
{
Multiply.Dispose();
Multiply = null;
}
if (Nine != null)
{
Nine.Dispose();
Nine = null;
}
if (One != null)
{
One.Dispose();
One = null;
}
if (Plus != null)
{
Plus.Dispose();
Plus = null;
}
if (ResultField != null)
{
ResultField.Dispose();
ResultField = null;
}
if (Seven != null)
{
Seven.Dispose();
Seven = null;
}
if (Six != null)
{
Six.Dispose();
Six = null;
}
if (Three != null)
{
Three.Dispose();
Three = null;
}
if (ToggleSign != null)
{
ToggleSign.Dispose();
ToggleSign = null;
}
if (Two != null)
{
Two.Dispose();
Two = null;
}
if (Zero != null)
{
Zero.Dispose();
Zero = null;
}
}
/*Functionality Added to make the calculator work with Keyboard NumberPad
* When the correct Key is detected it will fire off the corresponding button press*/
private void Window_KeyDownPreview(object sender, KeyEventArgs e)
{
switch (e.Key)
{
case Key.NumPad0:
Zero.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.NumPad1:
One.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.NumPad2:
Two.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.NumPad3:
Three.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.NumPad4:
Four.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.NumPad5:
Five.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.NumPad6:
Six.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.NumPad7:
Seven.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.NumPad8:
Eight.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.NumPad9:
Nine.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.Add:
Plus.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.Subtract:
Minus.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.Multiply:
Multiply.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.Divide:
Divide.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
case Key.Enter:
Equals.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
break;
}
}
public void AddVertex(Vector3 position, Nine.Imaging.Color color, Vector2 uv)
=> this.AddVertex(position, new Vector4(color.R / 255, color.G / 255, color.B / 255, 1.0f), uv);
public void AddVertex(Vector3 position, Nine.Imaging.Color color)
=> this.AddVertex(position, color, Vector2.Zero);
//OFF
/*************************************************************
* Obsługa przycisków
*************************************************************/
private void Window_KeyDown(object sender, KeyEventArgs e)
{
if (e.Key == Key.D1 || e.Key == Key.NumPad1)
{
One.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.D2 || e.Key == Key.NumPad2)
{
Two.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.D3 || e.Key == Key.NumPad3)
{
Three.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.D4 || e.Key == Key.NumPad4)
{
Four.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.D5 || e.Key == Key.NumPad5)
{
Five.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.D6 || e.Key == Key.NumPad6)
{
Six.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.D7 || e.Key == Key.NumPad7)
{
Seven.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.D8 || e.Key == Key.NumPad8)
{
if (Keyboard.IsKeyDown(Key.LeftShift))
{
Star.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else
{
Eight.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
}
else if (e.Key == Key.D9 || e.Key == Key.NumPad9)
{
Nine.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.D0 || e.Key == Key.NumPad0)
{
Zero.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
/**********************************************************/
/*else if (e.Key == Key.Enter)
* {
* Equals.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
* }*/
else if (e.Key == Key.OemComma || e.Key == Key.OemPeriod || e.Key == Key.Decimal)
{
Dot.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.OemMinus || e.Key == Key.Subtract)
{
Minus.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.OemPlus || e.Key == Key.Add)
{
Plus.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.Delete)
{
AC.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.Back)
{
C.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.Divide || e.Key == Key.OemBackslash || e.Key == Key.OemQuestion || e.Key == Key.Oem5)
{
Slash.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.Multiply)
{
Star.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.P)
{
MP.RaiseEvent(new RoutedEventArgs(Button.ClickEvent));
}
else if (e.Key == Key.Escape)
{
Application.Current.Shutdown();
}
Console.WriteLine(e.Key.ToString());
}
public void Advance()
{
//advance the program by one cycle
//check if reached end of memory;
if (pc >= 4095)
{
Debug.WriteLine("ERR: reached end of memory");
}
else if (currentInstruction == "0000")
{
Debug.WriteLine("ERR: empty opcode");
}
//parse current instruction and set it to a variable
currentInstruction = String.Format("{0:X2}", memory[pc]) + String.Format("{0:X2}", memory[pc + 1]);
byteInstruction = memory[pc];
Debug.WriteLine("Instruction as byte: " + byteInstruction);
//parse x
x = Convert.ToInt16(Convert.ToString(currentInstruction[1]), 16);
//parsy y
y = Convert.ToInt16(Convert.ToString(currentInstruction[2]), 16);
//parse n
n = Convert.ToInt16(Convert.ToString(currentInstruction[3]), 16);
//parse kk
kk = Convert.ToInt16(currentInstruction.Substring(2), 16);
//parse nnn
nnn = Convert.ToInt16(currentInstruction.Substring(1), 16);
Debug.WriteLine($"\npc={pc}");
Debug.WriteLine($"The current instruction is:{currentInstruction} ");
//set drawflag to false by default
drawFlag = false;
//switch for all possible instructions
//TODO: replace this
switch (currentInstruction)
{
case "00E0":
Debug.WriteLine("00E0");
if (!usedInstructions.Contains("00E0"))
{
usedInstructions.Add("00E0");
}
Instructions.clr(this);
return;
case "00EE":
Debug.WriteLine("00EE");
if (!usedInstructions.Contains("00EE"))
{
usedInstructions.Add("00EE");
}
Instructions.ret(this);
return;
case var dummy when One_addr.IsMatch(dummy):
Debug.WriteLine("1nnn");
if (!usedInstructions.Contains("1nnn"))
{
usedInstructions.Add("1nnn");
}
Instructions.jmp(this);
return;
case var dummy when Two_addr.IsMatch(dummy):
Debug.WriteLine("2nnn");
if (!usedInstructions.Contains("2nnn"))
{
usedInstructions.Add("2nnn");
}
Instructions.call(this);
return;
case var dummy when Three.IsMatch(dummy):
Debug.WriteLine("3xkk");
if (!usedInstructions.Contains("3xkk"))
{
usedInstructions.Add("3xkk");
}
Instructions.skp_if_kk(this);
return;
case var dummy when Four.IsMatch(dummy):
Debug.WriteLine("4xkk");
if (!usedInstructions.Contains("4xkk"))
{
usedInstructions.Add("4xkk");
}
Instructions.skp_not_kk(this);
return;
case var dummy when Five.IsMatch(dummy):
Debug.WriteLine("5xy0");
if (!usedInstructions.Contains("5xy0"))
{
usedInstructions.Add("5xy0");
}
Instructions.skp_if_x_y(this);
return;
case var dummy when Six.IsMatch(dummy):
Debug.WriteLine("6xkk");
if (!usedInstructions.Contains("6xkk"))
{
usedInstructions.Add("6xkk");
}
Instructions.ld_vx_kk(this);
return;
case var dummy when Seven.IsMatch(dummy):
Debug.WriteLine("7xkk");
if (!usedInstructions.Contains("7xkk"))
{
usedInstructions.Add("7xkk");
}
Instructions.add_vx_kk(this);
return;
case var dummy when Eight_load.IsMatch(dummy):
Debug.WriteLine("8xy0");
if (!usedInstructions.Contains("8xy0"))
{
usedInstructions.Add("8xy0");
}
Instructions.ld_vx_vy(this);
return;
case var dummy when Eight_or.IsMatch(dummy):
Debug.WriteLine("8xy1");
if (!usedInstructions.Contains("8xy1"))
{
usedInstructions.Add("8xy1");
}
Instructions.or_vx_vy(this);
return;
case var dummy when Eight_and.IsMatch(dummy):
Debug.WriteLine("8xy2");
if (!usedInstructions.Contains("8xy2"))
{
usedInstructions.Add("8xy2");
}
Instructions.and_vx_vy(this);
return;
case var dummy when Eight_xor.IsMatch(dummy):
Debug.WriteLine("8xy3");
if (!usedInstructions.Contains("8xy3"))
{
usedInstructions.Add("8xy3");
}
Instructions.xor_vx_vy(this);
return;
case var dummy when Eight_add.IsMatch(dummy):
Debug.WriteLine("8xy4");
if (!usedInstructions.Contains("8xy4"))
{
usedInstructions.Add("8xy4");
}
Instructions.add_vx_vy(this);
return;
case var dummy when Eight_sub.IsMatch(dummy):
Debug.WriteLine("8xy5");
if (!usedInstructions.Contains("8xy5"))
{
usedInstructions.Add("8xy5");
}
Instructions.sub_vx_vy(this);
return;
case var dummy when Eight_shr.IsMatch(dummy):
Debug.WriteLine("8xy6");
if (!usedInstructions.Contains("8xy6"))
{
usedInstructions.Add("8xy6");
}
Instructions.shr_vx_vy(this);
return;
case var dummy when Eight_subn.IsMatch(dummy):
Debug.WriteLine("8xy7");
Instructions.subn_vy_vx(this);
return;
case var dummy when Eight_shl.IsMatch(dummy):
Debug.WriteLine("8xyE");
if (!usedInstructions.Contains("8xyE"))
{
usedInstructions.Add("8xyE");
}
Instructions.shl_vx_vy(this);
return;
case var dummy when Nine.IsMatch(dummy):
Debug.WriteLine("9xy0");
if (!usedInstructions.Contains("9xy0"))
{
usedInstructions.Add("9xy0");
}
Instructions.skp_not_equal(this);
return;
case var dummy when A_addr.IsMatch(dummy):
if (!usedInstructions.Contains("Annn"))
{
usedInstructions.Add("Annn");
}
Debug.WriteLine($"Annn where nnn = {currentInstruction.Substring(1, 3)}");
Instructions.ld_i_nnn(this);
return;
case var dummy when B_addr.IsMatch(dummy):
Debug.WriteLine("Bnnn");
if (!usedInstructions.Contains("Bnnn"))
{
usedInstructions.Add("Bnnn");
}
Instructions.jmp_v0_nnn(this);
return;
case var dummy when C_addr.IsMatch(dummy):
Debug.WriteLine("Cxkk");
if (!usedInstructions.Contains("Cxkk"))
{
usedInstructions.Add("Cxkk");
}
Instructions.ld_vx_rand(this);
return;
#region draw_func
//huomionarvoista:
// optimoinnin vuoksi voisi olla fiksua keksiä tapa vähentää type conversioneita
// huom. mahdolliset bugit jotka mainittu edellisissä kommenteissa
case var dummy when D_addr.IsMatch(dummy):
stopwatch.Start();
Debug.WriteLine("Dxyn");
if (!usedInstructions.Contains("Dxyn"))
{
usedInstructions.Add("Dxyn");
}
Instructions.drw(this);
stopwatch.Stop();
Debug.WriteLine($"draw function elapsed ms = {stopwatch.ElapsedMilliseconds}");
stopwatch.Reset();
break;
#endregion
case var dummy when E_skp.IsMatch(dummy):
Debug.WriteLine("Ex9E");
if (!usedInstructions.Contains("Ex9E"))
{
usedInstructions.Add("Ex9E");
}
Instructions.skp_vx(this);
return;
case var dummy when E_sknp.IsMatch(dummy):
Debug.WriteLine("ExA1");
if (!usedInstructions.Contains("ExA1"))
{
usedInstructions.Add("ExA1");
}
Instructions.sknp_vx(this);
return;
case var dummy when F_load_from_dt.IsMatch(dummy):
Debug.WriteLine("Fx07");
if (!usedInstructions.Contains("Fx07"))
{
usedInstructions.Add("Fx07");
}
Instructions.ld_vx_dt(this);
Debug.WriteLine($"registers[{x}] = {registers[x]}");
return;
case var dummy when F_load_key.IsMatch(dummy):
Debug.WriteLine("Fx0A");
if (!usedInstructions.Contains("Fx0A"))
{
usedInstructions.Add("Fx0");
}
Instructions.ld_vx_key(this);
return;
case var dummy when F_load_to_dt.IsMatch(dummy):
Debug.WriteLine("Fx15");
if (!usedInstructions.Contains("Fx15"))
{
usedInstructions.Add("Fx15");
}
Instructions.ld_dt_vx(this);
Debug.WriteLine($"delayTimer has been set to {delayTimer}");
return;
case var dummy when F_load_to_st.IsMatch(dummy):
Debug.WriteLine("Fx18");
if (!usedInstructions.Contains("Annn"))
{
usedInstructions.Add("Annn");
}
Instructions.ld_st_vx(this);
return;
case var dummy when Add_i_vx.IsMatch(dummy):
Debug.WriteLine("Fx1E");
if (!usedInstructions.Contains("Fx1E"))
{
usedInstructions.Add("Fx1E");
}
Instructions.add_i_vx(this);
return;
case var dummy when Load_f_vx.IsMatch(dummy):
Debug.WriteLine("Fx29");
if (!usedInstructions.Contains("Fx29"))
{
usedInstructions.Add("Fx29");
}
Instructions.ld_f_vx(this);
return;
case var dummy when Load_b_vx.IsMatch(dummy):
Debug.WriteLine("Fx33");
if (!usedInstructions.Contains("Fx33"))
{
usedInstructions.Add("Fx33");
}
Instructions.ld_bcd(this);
return;
case var dummy when Load_i_vx.IsMatch(dummy):
Debug.WriteLine("Fx55");
if (!usedInstructions.Contains("Fx55"))
{
usedInstructions.Add("Fx55");
}
Instructions.ld_i_vx(this);
return;
case var dummy when Load_vx_i.IsMatch(dummy):
Debug.WriteLine("Fx65");
if (!usedInstructions.Contains("Fx65"))
{
usedInstructions.Add("Fx65");
}
Instructions.ld_vx_i(this);
return;
default:
Debug.WriteLine("Unknown instruction");
pc += 2;
return;
}
}