private void timer_Tick(object sender, EventArgs e) { computer.Accept(updateVisitor); treeView.Invalidate(); plotPanel.InvalidatePlot(); systemTray.Redraw(); if (gadget != null) { gadget.Redraw(); } if (wmiProvider != null) { wmiProvider.Update(); } if (logSensors != null && logSensors.Value && delayCount >= 4) { logger.Log(); } if (delayCount < 4) { delayCount++; } }
private void timer_Tick(object sender, EventArgs e) { computer.Accept(updateVisitor); treeView.Invalidate(); plotPanel.InvalidatePlot(); systemTray.Redraw(); if (gadget != null) { gadget.Redraw(); } if (wmiProvider != null) { wmiProvider.Update(); } if (logSensors != null && logSensors.Value && delayCount >= 4) { logger.Log(); } if (delayCount < 4) { delayCount++; } if (this.emailNotificationManager.ChechIfNotificationShouldBeSend()) { this.emailNotificationManager.SendReport(); } }
private void timer_Tick(object sender, EventArgs e) { // Stop the timer. Needed when an update is slower than the interval itself. timer.Enabled = false; if (firstTick == null) { firstTick = DateTime.Now; } computer.Accept(updateVisitor); treeView.Invalidate(); plotPanel.InvalidatePlot(); systemTray.Redraw(); if (gadget != null) { gadget.Redraw(); } if (wmiProvider != null) { wmiProvider.Update(); } if (logSensors != null && logSensors.Value && DateTime.Now - firstTick >= warmup) { logger.Log(); } timer.Enabled = true; }
private void timer_Tick(object sender, EventArgs e) { computer.Accept(updateVisitor); treeView.Invalidate(); plotPanel.InvalidatePlot(); systemTray.Redraw(); if (gadget != null) { gadget.Redraw(); } if (wmiProvider != null) { wmiProvider.Update(); } }
private void timer_Tick(object sender, EventArgs e) { computer.Accept(updateVisitor); treeView.Invalidate(); plotPanel.InvalidatePlot(); systemTray.Redraw(); if (gadget != null) { gadget.Redraw(); } if (wmiProvider != null) { wmiProvider.Update(); } if (logSensors != null) { if (logSensors.Value && delayCount >= 4) { logger.Log(); } if (delayCount < 4) { delayCount++; } } else { logSensors = new UserOption("logSensorsMenuItem", false, logSensorsMenuItem, settings); if (logSensors.Value && delayCount >= 4) { logger.Log(); } if (delayCount < 4) { delayCount++; } } }
public void SendData(bool hardwareOnly) { computer.Accept(updateVisitor); if (sendSerialData) { var gpuMaxTemp = Math.Max( (int)MaxTemp(computer, HardwareType.GpuNvidia), (int)MaxTemp(computer, HardwareType.GpuAti) ); var gpuMaxUsage = Math.Max( (int)UsageInPercent(computer, HardwareType.GpuAti, "GPU Core"), (int)UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Core") ); var gpuMaxMemory = Math.Max( (int)UsageInPercent(computer, HardwareType.GpuAti, "GPU Memory"), (int)UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Memory") ); List <float> data = new List <float> { (int)MaxTemp(computer, HardwareType.CPU), gpuMaxTemp, (int)MaxTemp(computer, HardwareType.Mainboard), (int)MaxTemp(computer, HardwareType.HDD), (int)UsageInPercent(computer, HardwareType.CPU, "CPU Total"), gpuMaxUsage, (int)UsageInPercent(computer, HardwareType.RAM, "Memory"), gpuMaxMemory }; for (int i = 1; i < 17; i++) { data.Add((int)MaxTemp(computer, HardwareType.CPU, $"CPU Core #{i}")); data.Add((int)UsageInPercent(computer, HardwareType.CPU, $"CPU Core #{i}")); } if (!hardwareOnly) { data.AddRange(new float[] { // Right group. settings.GetValue("nMaxFan", 100), settings.GetValue("nMinFan", 20), settings.GetValue("nMaxTemp", 100), settings.GetValue("nMinTemp", 10), // Flags settings.GetValue("chkManualFan", false) ? 1 : 0, settings.GetValue("chkManualColor", false) ? 1 : 0, // Sliders. settings.GetValue("sldManualFan", 50), settings.GetValue("sldManualColor", 500), settings.GetValue("sldLedBrightness", 50), settings.GetValue("sldPlotInterval", 5), settings.GetValue("cboMaxTempSource", 0), }); } ; string tmp = string.Join(";", data.Select(T => T.ToString()).ToArray()); serial.Write(Encoding.ASCII.GetBytes(tmp)); serial.Write(Encoding.ASCII.GetBytes("E")); } treeView.Invalidate(); plotPanel.InvalidatePlot(); systemTray.Redraw(); if (gadget != null) { gadget.Redraw(); } if (wmiProvider != null) { wmiProvider.Update(); } if (logSensors.Value && delayCount >= 4) { logger.Log(); } if (delayCount < 4) { delayCount++; } }
private void timer_Tick(object sender, EventArgs e) { computer.Accept(updateVisitor); { string tmp = ""; tmp += string.Format("GPU: {0}C\r", (int)MaxTemp(computer, HardwareType.GpuAti) + AvgTemp(computer, HardwareType.GpuNvidia)); tmp += string.Format("CPU: {0}C\r", (int)MaxTemp(computer, HardwareType.CPU)); tmp += string.Format("Mainboard: {0}C\r", (int)MaxTemp(computer, HardwareType.Mainboard)); tmp += string.Format("HDD: {0}C\r", (int)MaxTemp(computer, HardwareType.HDD)); serial.Write(new byte[] { 0 }); serial.Write(Encoding.ASCII.GetBytes(tmp)); serial.Write(new byte[] { 1 }); /*var gpus = computer.Hardware.Where(x => x.HardwareType == HardwareType.GpuAti || x.HardwareType == HardwareType.GpuNvidia).ToArray(); * if (gpus.Any()) * { * var gpu = gpus.First(); * var temps = gpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray(); * if (temps.Any()) * { * var temp = temps.Average(x => x.Value.Value); * tmp += string.Format("gpu: {0}C\r", (int)temp); * } * } * * var cpus = computer.Hardware.Where(x => x.HardwareType == HardwareType.CPU).ToArray(); * * if (cpus.Any()) * { * var cpu = cpus.First(); * var temps = cpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray(); * if (temps.Any()) * { * var temp = temps.Average(x => x.Value.Value); * tmp += string.Format("cpu: {0}C\r", (int)temp); * } * } * * var mainboard = computer.Hardware.Where(x => x.HardwareType == HardwareType.Mainboard).Single(); * { * var temps = mainboard.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray(); * if (temps.Any()) * { * var temp = temps.Average(x => x.Value.Value); * tmp += string.Format("mainboard: {0}C\r", (int)temp); * } * } * * var hdds = computer.Hardware.Where(x => x.HardwareType == HardwareType.CPU).ToArray(); * * if (hdds.Any()) * { * var cpu = cpus.First(); * var temps = cpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray(); * if (temps.Any()) * { * var temp = temps.Average(x => x.Value.Value); * tmp += string.Format("hdd: {0}C\r", (int)temp); * } * }*/ } treeView.Invalidate(); plotPanel.InvalidatePlot(); systemTray.Redraw(); if (gadget != null) { gadget.Redraw(); } if (wmiProvider != null) { wmiProvider.Update(); } if (logSensors.Value && delayCount >= 4) { logger.Log(); } if (delayCount < 4) { delayCount++; } }
public void timer_Tick(object sender, EventArgs e) { computer.Accept(updateVisitor); { /*string tmp = ""; * tmp += string.Format("{0};", (int)MaxTemp(computer, HardwareType.GpuAti) + AvgTemp(computer, HardwareType.GpuNvidia)); * tmp += string.Format("{0};", (int)MaxTemp(computer, HardwareType.CPU)); * tmp += string.Format("{0};", (int)MaxTemp(computer, HardwareType.Mainboard)); * tmp += string.Format("{0};", (int)MaxTemp(computer, HardwareType.HDD)); * tmp += string.Format("{0};", (int)(UsageInPercent(computer, HardwareType.GpuAti, "GPU Core") + UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Core"))); * tmp += string.Format("{0};", (int)UsageInPercent(computer, HardwareType.CPU, "CPU Total")); * tmp += string.Format("{0};", (int)UsageInPercent(computer, HardwareType.RAM, "Memory")); * tmp += string.Format("{0};", (int)UsageInPercent(computer, HardwareType.GpuAti, "GPU Memory") + UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Memory"));*/ var gpuMaxTemp = Math.Max( (int)MaxTemp(computer, HardwareType.GpuNvidia), (int)MaxTemp(computer, HardwareType.GpuAti) ); var gpuMaxUsage = Math.Max( (int)UsageInPercent(computer, HardwareType.GpuAti, "GPU Core"), (int)UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Core") ); var gpuMaxMemory = Math.Max( (int)UsageInPercent(computer, HardwareType.GpuAti, "GPU Memory"), (int)UsageInPercent(computer, HardwareType.GpuNvidia, "GPU Memory") ); List <float> data = new List <float> { (int)MaxTemp(computer, HardwareType.CPU), gpuMaxTemp, (int)MaxTemp(computer, HardwareType.Mainboard), (int)MaxTemp(computer, HardwareType.HDD), (int)UsageInPercent(computer, HardwareType.CPU, "CPU Total"), (int)gpuMaxUsage, (int)UsageInPercent(computer, HardwareType.RAM, "Memory"), (int)gpuMaxMemory, // Right group. settings.GetValue("nMaxFan", 100), settings.GetValue("nMinFan", 20), settings.GetValue("nMaxTemp", 100), settings.GetValue("nMinTemp", 10), // Flags settings.GetValue("chkManualFan", false) ? 1 : 0, settings.GetValue("chkManualColor", false) ? 1 : 0, // Sliders. settings.GetValue("sldManualFan", 50), settings.GetValue("sldManualColor", 500), settings.GetValue("sldLedBrightness", 50), settings.GetValue("sldPlotInterval", 5), settings.GetValue("cboMaxTempSource", 0), }; string tmp = string.Join(";", data.Select(T => T.ToString()).ToArray()); serial.Write(Encoding.ASCII.GetBytes(tmp)); serial.Write(Encoding.ASCII.GetBytes("E")); /*var gpus = computer.Hardware.Where(x => x.HardwareType == HardwareType.GpuAti || x.HardwareType == HardwareType.GpuNvidia).ToArray(); * if (gpus.Any()) * { * var gpu = gpus.First(); * var temps = gpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray(); * if (temps.Any()) * { * var temp = temps.Average(x => x.Value.Value); * tmp += string.Format("gpu: {0}C\r", (int)temp); * } * } * * var cpus = computer.Hardware.Where(x => x.HardwareType == HardwareType.CPU).ToArray(); * * if (cpus.Any()) * { * var cpu = cpus.First(); * var temps = cpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray(); * if (temps.Any()) * { * var temp = temps.Average(x => x.Value.Value); * tmp += string.Format("cpu: {0}C\r", (int)temp); * } * } * * var mainboard = computer.Hardware.Where(x => x.HardwareType == HardwareType.Mainboard).Single(); * { * var temps = mainboard.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray(); * if (temps.Any()) * { * var temp = temps.Average(x => x.Value.Value); * tmp += string.Format("mainboard: {0}C\r", (int)temp); * } * } * * var hdds = computer.Hardware.Where(x => x.HardwareType == HardwareType.CPU).ToArray(); * * if (hdds.Any()) * { * var cpu = cpus.First(); * var temps = cpu.Sensors.Where(x => x.SensorType == SensorType.Temperature).ToArray(); * if (temps.Any()) * { * var temp = temps.Average(x => x.Value.Value); * tmp += string.Format("hdd: {0}C\r", (int)temp); * } * }*/ } treeView.Invalidate(); plotPanel.InvalidatePlot(); systemTray.Redraw(); if (gadget != null) { gadget.Redraw(); } if (wmiProvider != null) { wmiProvider.Update(); } if (logSensors.Value && delayCount >= 4) { logger.Log(); } if (delayCount < 4) { delayCount++; } }