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#include "MPOD.h"
#include "HVtest_ui.h"

#define HVSLOT 3

static int p1h, pID, rID, tfID;

int CVICALLBACK refreshTimer (int panel, int control, int event, void *callbackData,
                              int eventData1, int eventData2) {
  QueueUserEvent (9000, p1h, P1_REFRESHTIMER);
  return (0);
}

int __stdcall WinMain (HINSTANCE hInstance, HINSTANCE hPrevInstance,
                       LPSTR lpszCmdLine, int nCmdShow) {

  const int mo=3;
  const int ch0=100*mo;
 
  int mainonoff,HVonoffall;
  int HVonoff[4],HVonoff_rID[4]={P1_HVonoff_0,P1_HVonoff_1,P1_HVonoff_2,P1_HVonoff_3};
  int HVvdis_rID[4]={P1_HVvdis_0,P1_HVvdis_1,P1_HVvdis_2,P1_HVvdis_3};
  int HVcdis_rID[4]={P1_HVcdis_0,P1_HVcdis_1,P1_HVcdis_2,P1_HVcdis_3};
  int iret;
  int i, j;
  double ret;
  double HVvset[4],HVcset[4],HVvrise,HVvfall;
  double HVvdis[4],HVcdis[4];
  char cret[2000];
  char cMainSwitch[2][30]= {"Turn system OFF?","Turn system ON?"};

  HSNMP crate1;

  if (InitCVIRTE (hInstance, 0, 0) == 0)
    return -1;    /* out of memory */

  MPOD_Start();
//  MPOD_Open(0,"f9mpod.ijs.si");
  MPOD_Open(0,"arich-mpod1.kek.jp");
  crate1 = crateHsnmp[0];

//  iret=MPOD_GetInt(0,"moduleNumber.0");
//  printf("Module Number = %i\n", iret);
//  strcpy(cret, MPOD_GetString(0,"moduleDescription.ma2"));
//  printf("Module type: %s\n",cret);
//  iret=MPOD_GetIntCh(0,"fanNominalSpeed",0);
//  printf("Fan nominal speed = %i\n", iret);

  if ((p1h = LoadPanel (0, "HVtest_ui.uir", P1)) < 0) return -1;
  DisplayPanel (p1h);

//Initial state
  mainonoff=getMainSwitch(crate1);
  SetCtrlVal (p1h, P1_MSW, mainonoff);
  SetCtrlVal (p1h, P1_MSWLED, mainonoff);
  iret=getMainStatus(crate1);
  SetCtrlVal (p1h, P1_MST, iret);
  iret=getFanNominalSpeed(crate1);
  SetCtrlVal (p1h, P1_MFS, iret);
  if (mainonoff) {
    HVonoffall=0;
    for (i=0;i<4;i++) {
      HVonoff[i]=getChannelSwitch(crate1, ch0+i);
      if (HVonoff[i]) HVonoffall=1;
    }
    for (i=0;i<4;i++) {
      if (!HVonoffall) HVonoff[i]=1;
      SetCtrlVal (p1h, HVonoff_rID[i], HVonoff[i]);
    }
    HVvset[0]=getOutputVoltage(crate1,ch0);
    SetCtrlVal (p1h, P1_HVvset, HVvset[0]);
    HVcset[0]=1e+6*getOutputCurrent(crate1,ch0);
    SetCtrlVal (p1h, P1_HVcset, HVcset[0]);
    HVvrise=getModuleRampSpeedVoltage(crate1,mo);
    SetCtrlVal (p1h, P1_HVvrise, HVvrise);
//    vfall[0]=abs(getOutputFallRate(crate1,ch));
//    SetCtrlVal (p1h, P1_VFA0, vfall[0]);
  }
//  QueueUserEvent (1000, p1h, P1_RESET);
  QueueUserEvent (9000, p1h, P1_REFRESHTIMER);

  do {
    GetUserEvent (1, &pID, &rID);
    switch (rID) {
      case P1_REFRESHTIMER:
        mainonoff=getMainSwitch(crate1);
        SetCtrlVal (p1h, P1_MSW, mainonoff);
        SetCtrlVal (p1h, P1_MSWLED, mainonoff);
        iret=getMainStatus(crate1);
        SetCtrlVal (p1h, P1_MST, iret);
//        ret=getOutputSenseMeasurement(crate1, ch);
        for (i=0;i<4;i++) {
          HVvdis[i]=getOutputTerminalMeasurement(crate1, ch0+i);
          SetCtrlVal (p1h, HVvdis_rID[i], HVvdis[i]);
          HVcdis[i]=1e+6*getCurrentMeasurement(crate1, ch0+i);
          SetCtrlVal (p1h, HVcdis_rID[i], HVcdis[i]);
          PlotStripChart (p1h, P1_G1, HVcdis, 4, 0, 0, VAL_DOUBLE);
        break;
      case P1_MSW:
        GetCtrlVal (p1h, P1_MSW, &mainonoff);
        if (ConfirmPopup("Main switch!!!", cMainSwitch[mainonoff]))
          setMainSwitch(crate1, mainonoff);
        if (mainonoff) {
          Delay(5);
          HVonoffall=0;
          for (i=0; i<4; i++) {
            HVonoff[i]=getChannelSwitch(crate1, ch0+i);
            if (HVonoff[i]) HVonoffall=1;
          }
          for (i=0; i<4; i++) {
            if (!HVonoffall) HVonoff[i]=1;
            SetCtrlVal (p1h, HVonoff_rID[i], HVonoff[i]);
          }
          HVvset[0]=getOutputVoltage(crate1,ch0);
          SetCtrlVal (p1h, P1_HVvset, HVvset[0]);
          HVcset[0]=1e+6*getOutputCurrent(crate1,ch0);
          SetCtrlVal (p1h, P1_HVcset, HVcset[0]);
          HVvrise=getModuleRampSpeedVoltage(crate1,mo);
          SetCtrlVal (p1h, P1_HVvrise, HVvrise);
        }
        break;
    }
    if (!mainonoff) continue;
    switch (rID) {
      case P1_HVonoff:
        GetCtrlVal (p1h, P1_HVonoff, &HVonoffall);
        for (i=0;i<4;isetChannelSwitch(crate1, ch, onoff[0]);
        break;
      case P1_V0:
        GetCtrlVal (p1h, P1_V0, &vset[0]);
        setOutputVoltage(crate1, ch, vset[0]);
        break;
      case P1_C0:
        GetCtrlVal (p1h, P1_C0, &cset[0]);
        cset[0]/=1e+6; //[uA]
        setOutputCurrent(crate1, ch, cset[0]);
        break;
      case P1_VRI0:
        GetCtrlVal (p1h, P1_VRI0, &ret);
        setModuleRampSpeedVoltage(crate1, mo, ret);
        vrise[0]=getModuleRampSpeedVoltage(crate1,mo);
        SetCtrlVal (p1h, P1_VRI0, vrise[0]);
        break;
//      case P1_VFA0:
//        GetCtrlVal (p1h, P1_VFA0, &ret);
//        setOutputFallRate(crate1, ch, ret);
//        vfall[0]=abs(getOutputFallRate(crate1,ch));
//        SetCtrlVal (p1h, P1_VFA0, vfall[0]);
//        break;
    }
  } while ((rID != P1_EXIT));

  DiscardPanel (p1h);

  MPOD_Close(0);
  MPOD_End();

  return 0;
}