Пример #1
0
/**
   _validateKeys method of the OS provider Test Client
  */
void OSTestClient::_validateKeys(CIMObjectPath &cimRef, 
                                 Boolean verboseTest)
{
   // don't have a try here - want it to be caught by caller

   Array<CIMKeyBinding> keyBindings = cimRef.getKeyBindings();

   if (verboseTest)
      cout << "Retrieved " << keyBindings.size() << " keys" <<endl;

   for (Uint32 j = 0; j < keyBindings.size(); j++)
   {
      CIMName keyName = keyBindings[j].getName();
      if (verboseTest)
         cout << "checking key " << keyName << endl;
      if (((keyName.equal ("CSCreationClassName")) &&
          (goodCSCreationClassName(
               keyBindings[j].getValue(),
               verboseTest) == false))) 
      {
         errorExit ("CSCreationClassName not CIM_UnitaryComputerSystem");
      }
      else if ((keyName.equal ("CSName")) &&
               (goodCSName(keyBindings[j].getValue(),
                       verboseTest) == false))
      { 
         errorExit ("CSName not correct");
      }
      else if ((keyName.equal ("CreationClassName")) &&
          (goodCreationClassName( 
            keyBindings[j].getValue(),
            verboseTest) == false))
      { 
         errorExit ("CreationClassName not correct");
      }
      else if ((keyName.equal ("Name")) &&
                (goodName( 
                  keyBindings[j].getValue(),
                  verboseTest) == false))
      { 
         errorExit ("Name not correct");
      }
    }  // end for j looping through properties
}
Пример #2
0
/**
   _validateKeys method of the NIS provider Test Client
  */
void NISTestClient::_validateKeys(
    CIMObjectPath &cimRef,
    Boolean verboseTest)
{
    // don't have a try here - want it to be caught by caller
    String keyVal;
    CIMName keyName;
    Array<CIMKeyBinding> keyBindings = cimRef.getKeyBindings();

    if (verboseTest)
        cout << "Retrieved " << keyBindings.size() << " keys" <<endl;

    for (Uint32 j = 0; j < keyBindings.size(); j++)
    {
        keyName = keyBindings[j].getName();
        keyVal = keyBindings[j].getValue();
        if (verboseTest)
            cout << "checking key " << keyName.getString() << endl;

        if (keyName.equal("CreationClassName") &&
            !goodCreationClassName(keyVal, verboseTest))
        {
            errorExit ("CreationClassName not PG_NISServerService");
        }
        else if (keyName.equal("Name") &&
                 !goodName(keyVal, verboseTest))
        {
            errorExit ("Name not correct");
        }
        else if (keyName.equal("SystemCreationClassName") &&
                 !goodSystemCreationClassName(keyVal, verboseTest))
        {
            errorExit ("SystemCreationClassName not correct");
        }
        else if (keyName.equal("SystemName") &&
                 !goodSystemName(keyVal, verboseTest))
        {
            errorExit ("SystemName not correct");
        }
    }
}
Пример #3
0
void plotMSSM(const TString& what="(ggA+bbA)*BRAZh*BRhbb"){
  const double BRZll=0.06726;
  const double fb2pb=1000;
  //TString scale(Form("*%f*%f",BRZll,fb2pb));
  TString scale("");

  TString cname(what);
  cname.ReplaceAll("*","x");
  cname.ReplaceAll("(","U");
  cname.ReplaceAll(")","U");
  cname+="_MSSM_mhmax";
  //
  TString goodName(what);
  goodName.ReplaceAll("mh","m_{h}");
  goodName.ReplaceAll("ggA","#sigma_{gg#rightarrowA}");
  goodName.ReplaceAll("bbA","#sigma_{bb#rightarrowA}");
  goodName.ReplaceAll("BRAZh","B(A#rightarrowZh)");
  goodName.ReplaceAll("BRhbb","B(h#rightarrowbb)");
  //goodName+=("*B(Z#rightarrowll)");
  //goodName+=("[pb] ");
  goodName+=("[GeV] ");
  TString goodType("MSSM m_{h}^{max}");
  //goodName=("#sigma*B(pp#rightarrowA#rightarrowZh#rightarrowllbb) [fb]");
  //goodName=("#sigma*B(pp#rightarrowA) [fb]");
  //goodName=("BR(A#rightarrowZh)");
  //goodName=("BR(h#rightarrowbb)");

  //if (m>0) mass=(Form(" * (mA==%d)",m));
  //TString ok(" * validity * stability * perturbativity * unitarity ");
  //TString ok(" * unitarity");
  TString ok("");


  TChain* ch=new TChain("TreeMSSM");

  ch->Add("lsf_working_dir_M225_20636539/parameter_MSSM.root");
  ch->Add("lsf_working_dir_M250_20636540/parameter_MSSM.root");
  ch->Add("lsf_working_dir_M275_20636541/parameter_MSSM.root");
  ch->Add("lsf_working_dir_M300_20636542/parameter_MSSM.root");
  ch->Add("lsf_working_dir_M325_20636543/parameter_MSSM.root");
  ch->Add("lsf_working_dir_M350_20636544/parameter_MSSM.root");
  ch->Add("lsf_working_dir_M400_20636545/parameter_MSSM.root");
  ch->Add("lsf_working_dir_M500_20636546/parameter_MSSM.root");
  ch->Add("lsf_working_dir_M600_20636547/parameter_MSSM.root");

  //double tanbeta[30]={1,10,20,30,40,50,60,70,80,90,100,120,140,160,180,200,220,240,260,280,300,400,500,600,700,800,900,1000,1100,10000};
  //double tanbeta[51]={0,10,20,30,40,50,60,70,80,90,100,120,140,160,180,200,220,240,260,280,300,320,340,360,380,400,420,440,460,480,500,550,600,650,700,750,800,850,900,950,1000,1100,1200,1300,1400,1500,2000,3000,4000,5000,6000};
  double tanbeta[51]={0,10,20,30,40,50,60,70,80,90,100,120,140,160,180,200,220,240,260,280,300,320,340,360,380,400,420,440,460,500,550,580,600,650,700,750,800,850,900,950,1000,1100,1200,1300,1400,1500,2000,3000,4000,5000,6000};
  Double_t bin_tb[50];
  for (unsigned int i=0; i<50; i++) {
    bin_tb[i]=0.005*(tanbeta[i]+tanbeta[i+1]);
    //cout << "bin_tb[" << i << "]=" << bin_tb[i] << " " << tanbeta[i+1]/100. << endl;
  }

  double mA[11]={200,225,250,275,300,325,350,400,500,600,700};
  Double_t bin_mA[10];
  for (unsigned int i=0; i<=10; ++i) {
    bin_mA[i]=0.5*(mA[i]+mA[i+1]);
    //cout << "bin_mA["<<i<<"]="  << bin_mA[i] << endl;
  }
  bin_mA[10]=650;
  
  TH2F* hggA=new TH2F("hggA","ggA cross section vs tan#beta,m_{A}; m_{A} GeV; tan#beta",9,bin_mA,49,bin_tb);
  hggA->Sumw2();
  //hggA->Draw();
  TString cut=what+scale+ok;
  cout << "CUT: " << cut << endl;
  ch->Project("hggA","tb:mA",cut);

  TStyle *tdrStyle = gROOT->GetStyle("tdrStyle");
  // Double_t level[15]={.01,.02,.05,.1,.2,.5,1.,2.,5.,10.,20.,50.,100.,200.,500.};
  // hggA->SetContour(14,level);
  // hggA->SetMinimum(level[0]);
  //
  //Double_t level[10]={1.,5.,10.,20.,50.,100.,200.,500.,800.,1000.}; // for x-section
  //Double_t level[10]={100,105,110.,115.,120.,123,125.7,127,130.,135.}; // for mh
  Double_t level[10]={1,2,3.,4.,120.,123,125.7,127,130.,135.}; // for mh
  //Double_t level[10]={.01,.1,.2,0.5,0.6,0.65,0.7,0.75,0.8,0.9}; // for BR
  //Double_t level[10]={.01,.02,.05,.07,.1,.15,0.2,0.5,0.75,1.}; // for BR
  hggA->SetContour(9,level);
  hggA->SetMinimum(level[0]);
  
  Double_t level[7]={122.7.,123.7,125.4,126.0,127.7,128.7.,150}; // for mh
  hggA->SetContour(6,level);
  hggA->SetMinimum(90);
  Int_t colors[7] = {kWhite,kGreen,kGreen+2,kBlack,kGreen+2,kGreen,kWhite};
  tdrStyle->SetPalette((sizeof(colors)/sizeof(Int_t)), colors);

// DRAW
  tdrStyle->SetOptStat(0);
  // tdrStyle->SetPadGridX(true);
  // tdrStyle->SetPadGridY(true);
  // tdrStyle->SetPadTopMargin(0.05);
  // tdrStyle->SetPadBottomMargin(0.13);
  tdrStyle->SetTitleYOffset(1.3);
  tdrStyle->SetTitleXOffset(1.6);
  tdrStyle->SetTitleOffset(1.3,"Z");
  // tdrStyle->SetOptLogz(1);
  // tdrStyle->SetOptLogy(1);
  tdrStyle->SetPadRightMargin(0.14);
  //tdrStyle->SetPalette(1);


  tdrStyle->cd();
  gROOT->ForceStyle();

  cout << "Creating canvas " << cname << endl;
  TCanvas* c1=new TCanvas(cname,goodName,1200,600);
  cout << " done " << c1->GetName() << endl;
  c1->Divide(2);

  c1->cd(1);
  hggA->DrawCopy("lego2");
  gPad->SetLogz();
  gPad->SetLogy();
  //gPad->SetPhi(120);
  gPad->SetPhi(-150);
  //gPad->SetTheta(30);
  gPad->UseCurrentStyle();
  gPad->Update();

  TLatex tl;
  tl.SetTextSize(0.04);
  tl.SetNDC();
  tl.DrawLatex(0.1,0.95,goodName);
  tl.SetTextAlign(11);
  tl.DrawLatex(0.1,0.89,goodType);

  c1->cd(2);
 // tdrStyle->SetPadLeftMargin(0.25);

  gPad->UseCurrentStyle();
  gPad->Update();
  hggA->GetXaxis()->SetTitleOffset(1.1);
  hggA->GetYaxis()->SetTitleOffset(1.1);
  hggA->GetZaxis()->SetTitleOffset(100);
  //hggA->Smooth();
  gPad->SetLogy(kFALSE);
  hggA->DrawCopy("zcont1");
  tl.DrawLatex(0.15,0.97,goodName);
  tl.SetTextAlign(11);
  tl.DrawLatex(0.2,0.9,goodType);

  TCanvas* ctmp=new TCanvas(cname,goodName,600,600);
  hggA->GetYaxis()->SetRangeUser(0.1,10.);
  hggA->DrawCopy("zcont1");
  tl.DrawLatex(0.83,0.97,goodName);
  tl.SetTextAlign(11);
  tl.DrawLatex(0.2,0.9,goodType);
  pCan(ctmp,cname+"_Lin");

  // TH1F* test=new TH1F("test","ggA cross section vs tan#beta; tan#beta",27,bin_tb);
  // ch->Project("test","tb",what);
  // test->Draw();


  TCanvas* c2=new TCanvas(cname+"Obs",goodName,800,800);
  gPad->UseCurrentStyle();
  gPad->Update();
  hggA->GetXaxis()->SetTitleOffset(1.1);
  hggA->GetYaxis()->SetTitleOffset(1.1);
  hggA->DrawCopy("cont list");
  gPad->Update();

  //return;
  // Get Contours
   TObjArray *conts = (TObjArray*)gROOT->GetListOfSpecials()->FindObject("contours");
   TList* contLevel = NULL;
   TGraph* curv     = NULL;
   TGraph* gc       = NULL;

   Int_t nGraphs    = 0;
   Int_t TotalConts = 0;

   if (conts == NULL){
      printf("*** No Contours Were Extracted!\n");
      TotalConts = 0;
      return;
   } else {
      TotalConts = conts->GetSize();
   }

   printf("TotalConts = %d\n", TotalConts);

   for(i = 0; i < TotalConts; i++){
      contLevel = (TList*)conts->At(i);
      printf("Contour %d has %d Graphs\n", i, contLevel->GetSize());
      nGraphs += contLevel->GetSize();
   }

   nGraphs = 0;

   TH2F *hr = new TH2F("hr", ";m_{A};tan#beta", 2, 225, 600, 2, 0.1, 100);

   hr->GetXaxis()->SetTitleOffset(1.1);
   hr->GetXaxis()->SetRangeUser(200,650);
   hr->GetYaxis()->SetTitleOffset(1.2);
   hr->GetYaxis()->SetNdivisions(110,kFALSE);
   hr->GetXaxis()->SetNdivisions(20205,kFALSE);
   hr->Draw();
   Double_t x0, y0, z0;
   TLatex l;
   l.SetTextSize(0.03);
   l.SetTextAlign(32);
   char val[20];

   for(i = 0; i < TotalConts; i++){
      contLevel = (TList*)conts->At(i);
      z0 = level[i];
      printf("Z-Level Passed in as:  Z = %f\n", z0);

      // Get first graph from list on curves on this level
      curv = (TGraph*)contLevel->First();
      for(j = 0; j < contLevel->GetSize(); j++){
        // last point
         //curv->GetPoint(curv->GetN()-1, x0, y0);
        // first point
         curv->GetPoint(2, x0, y0);

         // if (z0<0) curv->SetLineColor(kRed);
         // if (z0>0) curv->SetLineColor(kBlue);
         nGraphs ++;
         printf("\tGraph: %d  -- %d Elements\n", nGraphs,curv->GetN());

	 // Draw clones of the graphs to avoid deletions in case the 1st
	 // pad is redrawn.
         gc = (TGraph*)curv->Clone();
         gc->Draw("C");

         if (z0>=.01) sprintf(val,"%0.2f",z0);
         if (z0>=.1) sprintf(val,"%0.2f",z0);
         if (z0>=1) sprintf(val,"%0.0f",z0);
         l.DrawLatex(x0*0.99,y0,val);
         curv = (TGraph*)contLevel->After(curv); // Get Next graph
      }
   }
   gPad->SetLogy();
   gPad->SetGridx();
   gPad->SetGridy();
   gPad->SetRightMargin(0.05);
   gPad->SetTopMargin(0.10);
   c2->Update();
   printf("\n\n\tExtracted %d Contours and %d Graphs \n", TotalConts, nGraphs );



  tl.SetTextAlign(31);
  tl.DrawLatex(0.8,0.85,goodName);

  tl.SetTextAlign(31);
  tl.DrawLatex(0.8,0.77,goodType);


  pCan(c2,cname+"_BW");

   c1->cd(1);
   gPad->SetLogy();
   gPad->SetLogz();
   c1->cd(2);
   gPad->SetLogy();
   c1->Update();
  pCan(c1,cname);
}
Пример #4
0
/**
   _validateProperties method of the NIS provider Test Client
  */
void NISTestClient::_validateProperties(
    CIMInstance &inst,
    Boolean verboseTest)
{
    if (verboseTest)
        cout << "Checking " << inst.getPropertyCount() << " properties" << endl;

    // loop through the properties
    for (Uint32 j=0; j < inst.getPropertyCount(); j++)
    {
        CIMName propertyName = inst.getProperty(j).getName();

        if (verboseTest)
            cout << "Property name: " << propertyName.getString() << endl;

        if (propertyName.equal("CreationClassName"))
        {
            String propertyValue;
            inst.getProperty(j).getValue().get(propertyValue);
            if (goodCreationClassName(propertyValue, verboseTest) == false)
            {
                errorExit ("CreationClassName not PG_NISServerService");
            }
        }  // end if CreationClassName
        else if (propertyName.equal("Name"))
        {
            String propertyValue;
            inst.getProperty(j).getValue().get(propertyValue);
            if (goodName(propertyValue, verboseTest) == false)
            {
                errorExit ("Name not correct");
            }
        }  // end if Name

        else if (propertyName.equal("Caption"))
        {
            String propertyValue;
            inst.getProperty(j).getValue().get(propertyValue);
            if (goodCaption(propertyValue, verboseTest) == false)
            {
                errorExit ("Caption not correct");
            }
        }  // end if Caption

        else if (propertyName.equal("Description"))
        {
            String propertyValue;
            inst.getProperty(j).getValue().get(propertyValue);
            if (goodDescription(propertyValue, verboseTest) == false)
            {
                errorExit ("Description not correct");
            }
        }  // end if Description

        else if (propertyName.equal("ServerWaitFlag"))
        {
            Uint16 propertyValue;
            inst.getProperty(j).getValue().get(propertyValue);
            if (goodServerWaitFlag(propertyValue, verboseTest) == false)
            {
                errorExit ("ServerWaitFlag not correct");
            }
        }  // end if Server Wait Flag

        else if (propertyName.equal("ServerType"))
        {
            Uint16 propertyValue;
            inst.getProperty(j).getValue().get(propertyValue);
            if (goodServerType(propertyValue, verboseTest) == false)
            {
                errorExit ("ServerType not correct");
            }
        }  // end if Server Wait Flag

        else if (propertyName.equal("SystemName"))
        {
            String propertyValue;
            inst.getProperty(j).getValue().get(propertyValue);
            if (goodSystemName(propertyValue, verboseTest) == false)
            {
                errorExit ("SystemName not correct");
            }
        }  // end if SystemName
        else if (propertyName.equal("SystemCreationClassName"))
        {
            String propertyValue;
            inst.getProperty(j).getValue().get(propertyValue);
            if (goodSystemCreationClassName(propertyValue, verboseTest) ==
                    false)
            {
                errorExit ("SystemCreationClassName not correct");
            }
        }  // end if SystemCreationClassName
    }
}
Пример #5
0
/**
   _validateProperties method of the OS provider Test Client
  */
void OSTestClient::_validateProperties(CIMInstance &inst, 
                                       Boolean verboseTest)
{
   // don't have a try here - want it to be caught by caller

   if (verboseTest)
      cout << "Checking " <<inst.getPropertyCount()<<" properties"<<endl;

   // loop through the properties
   for (Uint32 j=0; j < inst.getPropertyCount(); j++)
   {
      CIMName propertyName = inst.getProperty(j).getName();
      if (propertyName.equal ("CSCreationClassName"))
      {
         String propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodCSCreationClassName(propertyValue,
             verboseTest) == false)
         { 
            errorExit ("CSCreationClassName not CIM_UnitaryComputerSystem");
         }
      } // end if CSCreationClassName

      else if (propertyName.equal ("CSName"))
      {
         String propertyValue;
         inst.getProperty(j).getValue().get(propertyValue); 
         if (goodCSName(propertyValue, verboseTest) == false)
         {
            errorExit ("CSName not correct");
         }
      }  // end if CSName

      else if (propertyName.equal ("CreationClassName"))
      {
         String propertyValue;
         inst.getProperty(j).getValue().get(propertyValue); 
         if (goodCreationClassName(propertyValue, 
                                   verboseTest) == false)
         { 
            errorExit ("CreationClassName not CIM_OperatingSystem");
         }
      }  // end if CreationClassName
      else if (propertyName.equal ("Name"))
      {
         String propertyValue;
         inst.getProperty(j).getValue().get(propertyValue); 
         if (goodName(propertyValue, verboseTest) == false) 
         { 
            errorExit ("Name not correct");
         }
      }  // end if Name

      else if (propertyName.equal ("Caption"))
      {
         String propertyValue;
         inst.getProperty(j).getValue().get(propertyValue); 
         if (goodCaption(propertyValue, verboseTest) == false) 
         { 
            errorExit ("Caption not correct");
         }
      }   // end if Caption

      else if (propertyName.equal ("Description")) 
      {
         String propertyValue;
         inst.getProperty(j).getValue().get(propertyValue); 
         if (goodDescription(propertyValue, verboseTest) == false) 
         { 
            errorExit ("Description not correct");
         }
      }   // end if Description

      else if (propertyName.equal ("InstallDate")) 
      {
         CIMDateTime idate;
         inst.getProperty(j).getValue().get(idate);
         if (goodInstallDate(idate, verboseTest) == false) 
         { 
            errorExit ("InstallDate not correct");
         }
      }   //  end if InstallDate

      else if (propertyName.equal ("Status"))
      { 
         String propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodStatus(propertyValue, verboseTest) == false)
         { 
            errorExit ("Status not correct");
         }
      }   // end if Status

      else if (propertyName.equal ("OSType"))
      {
         Uint16 ostype;
         inst.getProperty(j).getValue().get(ostype);
         if (goodOSType(ostype, verboseTest) == false)
         { 
            errorExit ("OSType not correct");
         }
      }   // end if OSType

      else if (propertyName.equal ("OtherTypeDescription"))
      {
         String propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodOtherTypeDescription(propertyValue, 
                                      verboseTest) == false)
         { 
            errorExit ("OtherTypeDescription not correct");
         }
      }   // end if OtherTypeDescription

      else if (propertyName.equal ("Version"))
      {
         String propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodVersion(propertyValue, verboseTest) == false)
         { 
            errorExit ("Version not correct");
         }
      }   // end if Version

      else if (propertyName.equal ("LastBootUpTime"))
      {
         CIMDateTime bdate;
         inst.getProperty(j).getValue().get(bdate);
         if (goodLastBootUpTime(bdate, verboseTest) == false) 
         { 
            errorExit ("LastBootUpTime not correct");
         }
      }   // end if LastBootUpTime
 
      else if (propertyName.equal ("LocalDateTime"))
      {
         CIMDateTime ldate;
         inst.getProperty(j).getValue().get(ldate);
         if (goodLocalDateTime(ldate, verboseTest) == false) 
         { 
            errorExit ("LocalDateTime not correct");
         }
      }   // end if LocalDateTime

      else if (propertyName.equal ("CurrentTimeZone"))
      {
         Sint16 tz;
         inst.getProperty(j).getValue().get(tz);
         if (goodCurrentTimeZone(tz, verboseTest) == false)
         { 
            errorExit ("CurrentTimeZone not correct");
         }
      }   // end if CurrentTimeZone
 
      else if (propertyName.equal ("NumberOfLicensedUsers"))
      {
         Uint32 numlusers;
         inst.getProperty(j).getValue().get(numlusers);
         if (goodNumberOfLicensedUsers(numlusers, 
                                       verboseTest) == false)
         { 
            errorExit ("NumberOfLicensedUsers not correct");
         }
      }   // end if numberOfLicensedUsers
 
      else if (propertyName.equal ("NumberOfUsers"))
      {
         Uint32 numUsers;
         inst.getProperty(j).getValue().get(numUsers);
         if (goodNumberOfUsers(numUsers, 
                               verboseTest) == false)
         { 
            errorExit ("NumberOfUsers not correct");
         }
      }   // end if NumberOfUsers

      else if (propertyName.equal ("NumberOfProcesses"))
      {
         Uint32 numProcs;
         inst.getProperty(j).getValue().get(numProcs);
         if (goodNumberOfProcesses(numProcs,
                               verboseTest) == false)
         { 
            errorExit ("NumberOfProcesses not correct");
         }
      }   // end if NumberOfProcesses 
      
      else if (propertyName.equal ("MaxNumberOfProcesses"))
      {
         Uint32 maxProcs;
         inst.getProperty(j).getValue().get(maxProcs);
         if (goodMaxNumberOfProcesses(maxProcs,
                               verboseTest) == false)
         { 
            errorExit ("MaxNumberOfProcesses not correct");
         }
      }   // end if MaxNumberOfProcesses 

      else if (propertyName.equal ("TotalSwapSpaceSize"))
      {
         Uint64 totalSwap;
         inst.getProperty(j).getValue().get(totalSwap);
         if (goodTotalSwapSpaceSize(totalSwap,
                                    verboseTest) == false)
         { 
            errorExit ("TotalSwapSpaceSize not correct");
         }
      }   // end if TotalSwapSpaceSize

      else if (propertyName.equal ("TotalVirtualMemorySize"))
      {
         Uint64 totalVmem;
         inst.getProperty(j).getValue().get(totalVmem);
         if (goodTotalVirtualMemorySize(totalVmem,
                                    verboseTest) == false)
         { 
            errorExit ("TotalVirtualMemorySize not correct");
         }
      }   // end if TotalVirtualMemorySize

      else if (propertyName.equal ("FreeVirtualMemory"))
      {
         Uint64 freeVmem;
         inst.getProperty(j).getValue().get(freeVmem);
         if (goodFreeVirtualMemory(freeVmem,
                                   verboseTest) == false)
         { 
            errorExit ("FreeVirtualMemory not correct");
         }
      }   // end if FreeVirtualMemory

      else if (propertyName.equal ("FreePhysicalMemory"))
      {
         Uint64 freePmem;
         inst.getProperty(j).getValue().get(freePmem);
         if (goodFreePhysicalMemory(freePmem,
                                   verboseTest) == false)
         { 
            errorExit ("FreePhysicalMemory not correct");
         }
      }   // end if FreePhysicalMemory

      else if (propertyName.equal ("TotalVisibleMemorySize"))
      {
         Uint64 totalVisMem;
         inst.getProperty(j).getValue().get(totalVisMem);
         if (goodTotalVisibleMemorySize(totalVisMem,
                                        verboseTest) == false)
         { 
            errorExit ("TotalVisibleMemorySize not correct");
         }
      }   // end if TotalVisibleMemorySize

      else if (propertyName.equal ("SizeStoredInPagingFiles"))
      {
         Uint64 propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodSizeStoredInPagingFiles(propertyValue,
                                         verboseTest) == false)
         { 
            errorExit ("SizeStoredInPagingFiles not correct");
         }
      }   // end if SizeStoredInPagingFiles 

      else if (propertyName.equal ("FreeSpaceInPagingFiles"))
      {
         Uint64 propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodFreeSpaceInPagingFiles(propertyValue,
                                        verboseTest) == false)
         { 
            errorExit ("FreeSpaceInPagingFiles not correct");
         }
      }   // end if FreeSpaceInPagingFiles 

      else if (propertyName.equal ("MaxProcessMemorySize"))
      {
         Uint64 propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodMaxProcessMemorySize(propertyValue,
                                        verboseTest) == false)
         { 
            errorExit ("MaxProcessMemorySize not correct");
         }
      }   // end if MaxProcessMemorySize 

      else if (propertyName.equal ("Distributed"))
      {
         Boolean propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodDistributed(propertyValue,
                             verboseTest) == false)
         { 
            errorExit ("Distributed not correct");
         }
      }   // end if Distributed 

      else if (propertyName.equal ("MaxProcessesPerUser"))
      {
         Uint32 propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodMaxProcessesPerUser(propertyValue,
                                     verboseTest) == false)
         { 
            errorExit ("MaxProcessesPerUser not correct");
         }
      }   // end if MaxProcessesPerUser 

      else if (propertyName.equal ("OperatingSystemCapability"))
      {
         String propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodOSCapability(propertyValue,
                              verboseTest) == false)
         { 
            errorExit ("OSCapability not correct");
         }
      }   // end if OSCapability

      else if (propertyName.equal ("SystemUpTime"))
      {
         Uint64 propertyValue;
         inst.getProperty(j).getValue().get(propertyValue);
         if (goodSystemUpTime(propertyValue,
                              verboseTest) == false)
         { 
            errorExit ("SystemUpTime not correct");
         }
      }   // end if SystemUptime 

   }  // end of for looping through properties
}