public void SetCPULoad(float cpuload)
{
foreach (CurveLoadRecord c in curves)
{
if (c.IsLoadWithinRange(cpuload))
{
current_curve = c.curve;
return;
}
}
throw new Exception(String.Format("No load curve defined for cpuload {0}", cpuload));
}
static void Main(string[] args)
{
var curve_idle = new FanCurve();
curve_idle.AddCurveLine(new FanCurveLine(0, 50, 0.3f, 0.3f));
curve_idle.AddCurveLine(new FanCurveLine(50, 70, 0.3f, 0.7f));
var curve_mid = new FanCurve();
curve_mid.AddCurveLine(new FanCurveLine(0, 55, 0.3f, 0.3f));
curve_mid.AddCurveLine(new FanCurveLine(55, 75, 0.3f, 0.8f));
var curve_high = new FanCurve();
curve_high.AddCurveLine(new FanCurveLine(0, 50, 0.3f, 0.3f));
curve_high.AddCurveLine(new FanCurveLine(50, 70, 0.3f, 0.6f));
curve_high.AddCurveLine(new FanCurveLine(70, 80, 0.6f, 1.0f));
var global_curve = new FanCurvePerLoad();
global_curve.AddCurve(curve_idle, 0, 0.2f);
global_curve.AddCurve(curve_mid, 0.2f, 0.5f);
global_curve.AddCurve(curve_high, 0.5f, 1.0f);
var ard = new ArduinoController();
var c1 = new CPUFanController(ard, global_curve, 1);
var c2 = new CPUFanController(ard, global_curve, 0);
DateTime lasttime = DateTime.Now;
var coreInfo = new CoreInfoProducer();
while (true)
{
var cores = coreInfo.GetCoreInfo();
var cpu0 = cores.FindAll(s => s.cpuno == 0);//Classify cores by CPU
var cpu1 = cores.FindAll(s => s.cpuno == 1);
var cpu0Temp = cpu0.Max(s => s.temp).Value;
var cpu1Temp = cpu1.Max(s => s.temp).Value;
var cpu0Load = cpu0.Average(s => s.load).Value;
var cpu1Load = cpu1.Average(s => s.load).Value;
global_curve.SetCPULoad(cpu0Load);
c1.SendSpeed(cpu0Temp);
global_curve.SetCPULoad(cpu1Load);
c2.SendSpeed(cpu1Temp);
while (ard.ReadRawData() != Convert.ToChar(0))
{
}
; //Remove all pending return information
double waittime = 500f;
while (true)
{
Thread.Sleep(50);
DateTime newtime = DateTime.Now;
double timediff = (newtime - lasttime).TotalMilliseconds;
if (timediff >= waittime)
{
lasttime = lasttime.AddMilliseconds(timediff);
break;
}
}
Console.WriteLine(cpu0Temp);
Console.WriteLine(cpu1Temp);
Console.WriteLine(c1.LastFanSpeed());
Console.WriteLine(c2.LastFanSpeed());
Console.WriteLine("===");
}
}
public void AddCurve(FanCurve curve, float minload, float maxload)
{
curves.Add(new CurveLoadRecord(minload, maxload, curve));
}
public CurveLoadRecord(float minload, float maxload, FanCurve curve)
{
this.minimum_load = minload;
this.maximum_load = maxload;
this.curve = curve;
}
