Index: trunk/MagicSoft/Mars/mcorsika/MCorsikaRunHeader.cc
===================================================================
--- trunk/MagicSoft/Mars/mcorsika/MCorsikaRunHeader.cc	(revision 9359)
+++ trunk/MagicSoft/Mars/mcorsika/MCorsikaRunHeader.cc	(revision 9362)
@@ -66,6 +66,6 @@
 //
 MCorsikaRunHeader::MCorsikaRunHeader(const char *name, const char *title)
-    : fNumObsLevel(0), fZdMin(0), fZdMax(-1), fAzMin(0), fAzMax(0),
-    fViewConeInnerAngle(0), fViewConeOuterAngle(-1)
+    : fNumObsLevel(0), fImpactMax(-1), fZdMin(0), fZdMax(-1),
+    fAzMin(0), fAzMax(0),  fViewConeInnerAngle(0), fViewConeOuterAngle(-1)
 {
     fName  = name  ? name  : "MCorsikaRunHeader";
@@ -183,12 +183,13 @@
     // g[93] angle between array x-direction and magnetic north
 
+    fImpactMax = -1;
+/*
     // This is a trick to use CERARY for storage of the
     // maximum simulated impact
-    fImpactMax = -1;
     if (TMath::Nint(g[84])==1 && TMath::Nint(g[85])==1 &&
         TMath::Nint(g[88])==1 && TMath::Nint(g[89])==1 &&
         g[86]==g[87])
         fImpactMax = g[86];
-
+ */
     fWavelengthMin = g[94];        // Cherenkov bandwidth lower end in nm
     fWavelengthMax = g[95];        // Cherenkov bandwidth upper end in nm
@@ -272,5 +273,5 @@
 
     if (fViewConeOuterAngle>0)
-        *fLog << "ViewCone:       " << fViewConeInnerAngle << UTF8::kDeg << "-" << fViewConeOuterAngle << UTF8::kDeg << endl;
+        *fLog << "ViewCone:       " << fViewConeInnerAngle << UTF8::kDeg << " - " << fViewConeOuterAngle << UTF8::kDeg << endl;
 
     if (fZdMax>=0)
@@ -300,5 +301,5 @@
         *fLog << " CEFFIC";
     if (Has(kAtmext))
-        *fLog << " ATMEXT";
+        *fLog << " ATMEXT" << GetNumAtmosphericModel();
     if (Has(kRefraction))
         *fLog << " AtmRefraction";