/// <summary> /// MouseEvent /// </summary> /// <param name="m"></param> protected override void WndProc(ref Message m) { switch (m.Msg) { case 0x84: base.WndProc(ref m); if ((int)m.Result == 0x1) { m.Result = (IntPtr)0x2; } return; } base.WndProc(ref m); if (m.Msg == 0x0312 && m.WParam.ToInt32() == MYACTION_HOTKEY_ID) { if (running == false) { running = true; OnOff.BackColor = Color.FromArgb(0, 192, 0); TIMER.Start(); //Go to AcceptQ MoveCursor(new Point(960, 718)); } else { running = false; OnOff.BackColor = Color.FromArgb(192, 0, 0); TIMER.Stop(); } } base.WndProc(ref m); }
/// <summary> /// MouseEvent /// </summary> /// <param name="m"></param> protected override void WndProc(ref Message m) { switch (m.Msg) { case 0x84: base.WndProc(ref m); if ((int)m.Result == 0x1) { m.Result = (IntPtr)0x2; } return; } base.WndProc(ref m); if (m.Msg == 0x0312 && m.WParam.ToInt32() == MYACTION_HOTKEY_ID) { if (running == false) { running = true; OnOff.BackColor = Color.FromArgb(0, 192, 0); Jams = JAM.Text.Split(',').ToList(); Delay = DelayCount.Value; TIMER.Interval = Convert.ToInt32(Delay * 1000);///s to ms TIMER.Start(); } else { running = false; OnOff.BackColor = Color.FromArgb(192, 0, 0); TIMER.Stop(); } } base.WndProc(ref m); }
private void TIMER_Tick(object sender, EventArgs e) { TIMER.Stop(); Regex regx1 = new Regex("(\\*Type:)(?<type>.+) (method name:)(?<method>.+)"); Regex regx2 = new Regex("(\\*Param Name:)(?<varname>[\\w\\W]*)"); Regex regx3 = new Regex("(?<var>[\\w\\W]*)"); ListViewItem item = null; bool isDumpingVars = false; int i = 0; try { listViewXDE.BeginUpdate(); lock (monitorQueue) { string strTmp = ""; while (monitorQueue.Count > 0) { i++; MonitorEntry entry = monitorQueue.Dequeue(); if (regx1.IsMatch(entry.writeBuffer)) //beginning of method dump { if (isDumpingVars && item != null) { item.SubItems.Add(strTmp); isDumpingVars = false; //close previous method dump strTmp = ""; listViewXDE.Items[listViewXDE.Items.Count - 1].EnsureVisible(); } Match m1 = regx1.Match(entry.writeBuffer); item = listViewXDE.Items.Add(entry.timeStamp.ToLongTimeString()); string strType = m1.Groups["type"].ToString(); item.SubItems.Add(strType); string strMethodName = m1.Groups["method"].ToString(); item.SubItems.Add(strMethodName); } else if (regx2.IsMatch(entry.writeBuffer)) //beginning of var name { Match m2 = regx2.Match(entry.writeBuffer); strTmp += m2.Groups["varname"].ToString().Replace("\r\n", "").Replace("\r", "") + ":"; isDumpingVars = true; } else if (isDumpingVars) { Match m3 = regx3.Match(entry.writeBuffer); strTmp += m3.Groups["var"].ToString(); } } listViewXDE.EndUpdate(); } } finally { TIMER.Start(); } }
public GameBoyEmu(uint width, uint height, uint x = 0, uint y = 0) : base("GameBoyEmu", width, height, x, y) { Rom = Files.TetrisRom; mmu = new MMU(); cpu = new CPU(mmu); ppu = new PPU(); timer = new TIMER(); joypad = new JOYPAD(); mmu.loadGamePak(Rom); }
private void EndOfGame() { TIMER.Stop(); Win = new TextBox(); Win.Enabled = false;; Win.Multiline = true; Win.Height = this.Height; Win.Width = this.Width; Win.BackColor = this.ForeColor = Color.Aqua; Win.BorderStyle = BorderStyle.None; VisibleData(false); Win.Parent = pictureBox1; gBuff.Graphics.FillRectangle(sb, new Rectangle(0, 0, pictureBox1.Width, pictureBox1.Height)); Win.Location = new System.Drawing.Point(pictureBox1.Width / 3, pictureBox1.Height / 3); Win.Text = "Игра окончена!\r\nРезультат:" + (plus - minus).ToString(); Win.Font = new Font("Microsoft Sans Serif", 24, FontStyle.Bold); Controls.Add(Win); }
private void TIMER_Tick(object sender, EventArgs e) { var pixel = GetColorAt(new Point(765, 190)); DoMouseClick(); if (pixel.R == 0 && pixel.G == 0 && pixel.B == 0) { TIMER.Stop(); running = false; this.BackColor = Color.Maroon; Thread.Sleep(300); Run(); } }
public void agora(int ticket) { if (PASSFLAG && NUMBERFLAG && month.value != 0 && year.value != 0 || CARD.value != 0) { date = DateTime.Now.ToString("M/d/yyyy"); if (ticket == 1) { price = 1.5f; type = "Β'Ζώνη"; } else if (ticket == 2) { price = 1.1f; type = "Κανονικό"; } else if (ticket == 3) { price = 0.8f; type = "Φοιτητικό"; } else { price = 0.6f; type = "Μαθητικό"; } if (!File.Exists(path3)) { using (StreamWriter save = File.CreateText(path3)) { save.WriteLine("UserName" + ' ' + "Type" + ' ' + "price" + ' ' + "date"); save.WriteLine(currentusername + ' ' + type + ' ' + price + ' ' + date); } } else { using (StreamWriter save = File.AppendText(path3)) { save.WriteLine(currentusername + ' ' + type + ' ' + price + ' ' + date); } } using (StreamWriter save = File.CreateText(path4)) { save.WriteLine("OK"); } TIMER.SetActive(true); } }
private void btnStop_Click(object sender, EventArgs e) { switch (isMonitoring) { case false: TIMER.Start(); isMonitoring = true; btnStop.Text = "Stop"; break; case true: TIMER.Stop(); isMonitoring = false; btnStop.Text = "Start"; break; } }
private void Form1_Load(object sender, EventArgs e) { Objects = new List <Ball>(); this.Size = pictureBox1.Size; Plus.Location = new System.Drawing.Point(Plus.Location.X, 5); shtr.Location = new System.Drawing.Point(shtr.Location.X, 5); pictureBox1.Dock = DockStyle.Fill; CoordinatesDelta = new Point { X = this.Width / 2, Y = this.Height / 2 }; sb = new SolidBrush(this.BackColor); TIMER.Start(); Ball.acceleration_koef = 0.005; Cue.MaxForce = 5; StartingPosition(); context = BufferedGraphicsManager.Current; context.MaximumBuffer = new Size(pictureBox1.Width + 1, pictureBox1.Height + 1); gBuff = context.Allocate(pictureBox1.CreateGraphics(), new Rectangle(0, 0, pictureBox1.Width, pictureBox1.Height)); DrawToBuffer(gBuff.Graphics, TimeSpeed); }
static int EntryPoint() { // Create and start the thread for receiving and parsing the tuple RX rx = new RX(); Thread rxTh = new Thread(new ThreadStart(rx.start_rx)); rxTh.Start(); TIMER timer = new TIMER(); Thread timerTh = new Thread(new ThreadStart(timer.start_timer)); timerTh.Start(); TABLES tables = new TABLES(); tables.reset_tables(); Thread bw_tmpTh = new Thread(new ThreadStart(tables.update_bw_tmp)); bw_tmpTh.Start(); Thread tablesTh = new Thread(new ThreadStart(tables.update_tables)); tablesTh.Start(); while (true) { if (rst | clear) { timer.reset_timer(); tables.reset_raw_entry(); tables.reset_bw_tmp(); tables.reset_total_entries(); } Kiwi.Pause(); } return(0); }
private void Form1_KeyDown(object sender, KeyEventArgs e) { if (e.KeyCode == Keys.A) { cue.Expand(0.1); } if (e.KeyCode == Keys.D) { cue.Expand(-0.1); } if (e.KeyCode == Keys.C) { cue.ChangeOwner(NextBall(cue.Owner.Numb)); } if (e.KeyCode == Keys.F) { if (HitMode) { DoHit(); HitMode = false; } else { bo = new BallOut("Шары не остановились"); shtr.Text = shtr.Text.Replace(minus.ToString(), (minus + 50).ToString()); minus += 50; bo.Owner = this; bo.Show(); } } if (e.KeyCode == Keys.L) { EndOfGame(); } if (e.KeyCode == Keys.Escape) { TIMER.Stop(); Menu m = new Menu(pictureBox1.Image); m.Owner = this; m.ShowDialog(); if (m.DialogResult == DialogResult.Cancel) { this.Close(); } if (m.DialogResult == DialogResult.Retry) { VisibleData(true); StartingPosition(); HitMode = true; } TIMER.Start(); } if (e.KeyCode == Keys.Up || e.KeyCode == Keys.Right) { if (TimeSpeed < 5) { timelabel.Text = timelabel.Text.Replace((char)(TimeSpeed + 48), (char)(TimeSpeed * 2 + 48)); TimeSpeed *= 2; } } if (e.KeyCode == Keys.Down || e.KeyCode == Keys.Left) { if (TimeSpeed > 1) { timelabel.Text = timelabel.Text.Replace((char)(TimeSpeed + 48), (char)(TimeSpeed / 2 + 48)); TimeSpeed /= 2; } } }
//----------------------------------------------------------------------------- // Name: DXUtil.Timer() // Desc: Performs timer opertations. Use the following commands: // TIMER.RESET - to reset the timer // TIMER.START - to start the timer // TIMER.STOP - to stop (or pause) the timer // TIMER.ADVANCE - to advance the timer by 0.001 seconds // TIMER.GETABSOLUTETIME - to get the absolute system time // TIMER.GETAPPTIME - to get the current time // TIMER.GETELAPSEDTIME - to get the time that elapsed between // TIMER_GETELAPSEDTIME calls //----------------------------------------------------------------------------- public static float Timer(TIMER command) { if (!m_bTimerInitialized) { m_bTimerInitialized = true; // Use QueryPerformanceFrequency() to get frequency of timer. If QPF is // not supported, we will timeGetTime() which returns milliseconds. long qwTicksPerSec = 0; m_bUsingQPF = QueryPerformanceFrequency(ref qwTicksPerSec); if (m_bUsingQPF) { m_llQPFTicksPerSec = qwTicksPerSec; // in msec } } if (m_bUsingQPF) { double fTime; double fElapsedTime; long qwTime = 0; // Get either the current time or the stop time, depending // on whether we're stopped and what command was sent if (m_llStopTime != 0 && command != TIMER.START && command != TIMER.GETABSOLUTETIME) { qwTime = m_llStopTime; } else { QueryPerformanceCounter(ref qwTime); } switch (command) { case TIMER.GETELAPSEDTIME: { // Return the elapsed time fElapsedTime = (double)(qwTime - m_llLastElapsedTime) / (double)m_llQPFTicksPerSec; m_llLastElapsedTime = qwTime; return((float)fElapsedTime); } case TIMER.GETAPPTIME: { // Return the current time double fAppTime = (double)(qwTime - m_llBaseTime) / (double)m_llQPFTicksPerSec; return((float)fAppTime); } case TIMER.RESET: { // Reset the timer m_llBaseTime = qwTime; m_llLastElapsedTime = qwTime; m_llStopTime = 0; m_bTimerStopped = false; return(0.0f); } case TIMER.START: { // Start the timer if (m_bTimerStopped) { m_llBaseTime += qwTime - m_llStopTime; } m_llStopTime = 0; m_llLastElapsedTime = qwTime; m_bTimerStopped = false; return(0.0f); } case TIMER.STOP: { // Stop the timer m_llStopTime = qwTime; m_llLastElapsedTime = qwTime; m_bTimerStopped = true; return(0.0f); } case TIMER.ADVANCE: { // Advance the timer by millisecond m_llStopTime += m_llQPFTicksPerSec / 1000; return(0.0f); } case TIMER.GETABSOLUTETIME: { fTime = qwTime / (double)m_llQPFTicksPerSec; return((float)fTime); } default: return(-1.0f); // Invalid command specified } } else { // Get the time using timeGetTime() double fTime; double fElapsedTime; // Get either the current time or the stop time, depending // on whether we're stopped and what command was sent if (m_fStopTime != 0.0 && command != TIMER.START && command != TIMER.GETABSOLUTETIME) { fTime = m_fStopTime; } else { fTime = timeGetTime(); } switch (command) { case TIMER.GETELAPSEDTIME: { // Return the elapsed time fElapsedTime = (double)(fTime - m_fLastElapsedTime); m_fLastElapsedTime = fTime; return((float)fElapsedTime); } case TIMER.GETAPPTIME: { // Return the current time return((float)(fTime - m_fBaseTime)); } case TIMER.RESET: { // Reset the timer m_fBaseTime = fTime; m_fLastElapsedTime = fTime; m_fStopTime = 0; m_bTimerStopped = false; return(0.0f); } case TIMER.START: { // Start the timer if (m_bTimerStopped) { m_fBaseTime += fTime - m_fStopTime; } m_fStopTime = 0.0f; m_fLastElapsedTime = fTime; m_bTimerStopped = false; return(0.0f); } case TIMER.STOP: { // Stop the timer m_fStopTime = fTime; m_fLastElapsedTime = fTime; m_bTimerStopped = true; return(0.0f); } case TIMER.ADVANCE: { // Advance the timer by 1/10th second m_fStopTime += 0.1f; return(0.0f); } case TIMER.GETABSOLUTETIME: { return((float)fTime); } default: return(-1.0f); // Invalid command specified } } }
private void TIMER_Tick(object sender, EventArgs e) { TIMER.Stop(); try { /* * Add new monitoring entries... */ LIST_Accesses.BeginUpdate(); lock (MonitorQueue) { while (MonitorQueue.Count > 0) { MonitorEntry Entry = MonitorQueue.Dequeue(); ListViewItem Item = LIST_Accesses.Items.Insert(0, Entry.ClientPID.ToString()); Item.SubItems.Add(Entry.Timestamp.ToString("hh:mm:ss." + ((Entry.Timestamp.Ticks / 10000) % 1000).ToString())); Item.SubItems.Add(Entry.Access); } } LIST_Accesses.EndUpdate(); /* * Update internal process list... */ lock (ProcessList) { Boolean HasChanged = false; if (ProcessList.Count == LIST_Processes.Items.Count) { for (int i = 0; i < ProcessList.Count; i++) { if (ProcessList[i].Id != Int32.Parse(LIST_Processes.Items[i].SubItems[1].Text)) { HasChanged = true; break; } } } else { HasChanged = true; } if (HasChanged) { Int32 SelIndex = 0; if (LIST_Processes.SelectedIndices.Count > 0) { SelIndex = LIST_Processes.SelectedIndices[0]; } LIST_Processes.BeginUpdate(); LIST_Processes.Items.Clear(); for (int i = 0; i < ProcessList.Count; i++) { ProcessInfo Proc = ProcessList[i]; ListViewItem Item = LIST_Processes.Items.Add(""); Item.SubItems.Add(Proc.Id.ToString()); if (Proc.Is64Bit) { Item.SubItems.Add("x64"); } else { Item.SubItems.Add("x86"); } Item.SubItems.Add(System.IO.Path.GetFileName(Proc.FileName)); Item.SubItems.Add(Proc.User); Item.SubItems.Add(Proc.FileName); Item.Checked = HookedProcesses.Contains(Proc.Id); } if (SelIndex >= LIST_Processes.Items.Count) { SelIndex = LIST_Processes.Items.Count - 1; } LIST_Processes.Items[SelIndex].Selected = true; LIST_Processes.Items[SelIndex].EnsureVisible(); LIST_Processes.EndUpdate(); } /* * Update list of hooked processes... */ for (int i = 0; i < HookedProcesses.Count; i++) { if (!ActivePIDList.Contains(HookedProcesses[i])) { HookedProcesses.RemoveAt(i--); } } } } finally { TIMER.Start(); } }
private HID HID; // TODO: HID is the same across both cores? public CTR() { ARM9Bus = new Bus(); ARM11Bus = new Bus(); HID = new HID(); // ARM9 exclusive memory ROM Boot9 = new ROM("boot9.bin", "ARM9 BootROM"); RAM ITCM9 = new RAM(0x8000, "Instruction TCM"); RAM DTCM9 = new RAM(0x4000, "Data TCM"); RAM WRAM9 = new RAM(0x100000, "AHB Work RAM"); CFG9 ARM9CFG9 = new CFG9(); IRQ ARM9IRQ = new IRQ(); NDMA ARM9NDMA = new NDMA(); TIMER ARM9TIMER = new TIMER(); XDMA ARM9CDMA = new XDMA(); PRNG ARM9PRNG = new PRNG(); OTP ARM9OTP = new OTP(); ARM9OTP.SetOTP("otp.bin"); PXI ARM9PXI = new PXI(7); PXI ARM11PXI = new PXI(6); ARM9PXI.AttachEndpoint(ARM11PXI); ARM11PXI.AttachEndpoint(ARM9PXI); // Quick hack: set up the ARM9 to infinitely spin in place for (uint Index = 0; Index < ITCM9.Size(); Index += 4) { ITCM9.WriteWord(Index, 0xEAFFFFFE); // b . } ARM9Bus.Attach(Boot9, 0xFFFF0000); ARM9Bus.Attach(ITCM9, 0x00000000); // ITCM mirrors, these are a hack ARM9Bus.Attach(ITCM9, 0x01FF8000); // and should be moved to the ARM9Bus.Attach(ITCM9, 0x07FF8000); // MMU/MPU layer ARM9Bus.Attach(DTCM9, 0xFFF00000); // same goes to DTCM ARM9Bus.Attach(WRAM9, 0x08000000); // ARM11 exclusive memory ROM Boot11 = new ROM("boot11.bin", "ARM11 BootROM"); RAM PMR11 = new RAM(0x00002000, "MPCore PMR"); ARM11Bus.Attach(Boot11, 0x00000000); ARM11Bus.Attach(Boot11, 0x00010000); ARM11Bus.Attach(PMR11, 0x17E00000); ARM11Bus.Attach(Boot11, 0xFFFF0000); // Shared memory RAM AXIWRAM = new RAM(0x100000, "AXI Work RAM"); RAM FCRAM = new RAM(0x08000000, "Fast-Cycle RAM"); RAM VRAM = new RAM(0x600000, "Video RAM"); ARM9Bus.Attach(AXIWRAM, 0x1FF00000); ARM9Bus.Attach(FCRAM, 0x20000000); ARM9Bus.Attach(VRAM, 0x18000000); ARM11Bus.Attach(AXIWRAM, 0x1FF00000); ARM11Bus.Attach(FCRAM, 0x20000000); ARM11Bus.Attach(VRAM, 0x18000000); // IO Devices ARM9Bus.Attach(ARM9CFG9, 0x10000000); ARM9Bus.Attach(ARM9IRQ, 0x10001000); ARM9Bus.Attach(ARM9NDMA, 0x10002000); ARM9Bus.Attach(ARM9TIMER, 0x10003000); ARM9Bus.Attach(ARM9PXI, 0x10008000); ARM9Bus.Attach(ARM9CDMA, 0x1000C000); ARM9Bus.Attach(ARM9CDMA, 0x1000CD00); // Mirror? ARM9Bus.Attach(ARM9PRNG, 0x10011000); ARM9Bus.Attach(ARM9OTP, 0x10012000); ARM9Bus.Attach(HID, 0x10146000); ARM11Bus.Attach(HID, 0x10146000); ARM9Bus.Attach(ARM11PXI, 0x10163000); ARM11Bus.Attach(ARM11PXI, 0x10163000); ARM9Core = new Interpreter(ARM9Bus, true); ARM11Core = new Interpreter(ARM11Bus); ARM9Thread = new Thread(Run9); ARM11Thread = new Thread(Run11); ARM9Enabled = false; ARM11Enabled = false; }