// @(#)root/gpad:$Name:  $:$Id: TClassTree.cxx,v 1.7 2005/09/02 10:33:48 brun Exp $
// Author: Rene Brun   01/12/98

/*************************************************************************
 * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers.               *
 * All rights reserved.                                                  *
 *                                                                       *
 * For the licensing terms see $ROOTSYS/LICENSE.                         *
 * For the list of contributors see $ROOTSYS/README/CREDITS.             *
 *************************************************************************/

#ifdef HAVE_CONFIG
#include "config.h"
#endif

#include "TROOT.h"
#include "TClassTree.h"
#include "TClassTable.h"
#include "TBaseClass.h"
#include "TDataMember.h"
#include "TDataType.h"
#include "TRealData.h"
#include "TMethod.h"
#include "TMethodArg.h"
#include "TPad.h"
#include "TPaveClass.h"
#include "TArrow.h"
#include "TText.h"
#include "TSystem.h"
#include "TObjString.h"
#include "TFile.h"
#include "Riostream.h"

const Int_t kIsClassTree = BIT(7);
const Int_t kUsedByData  = BIT(11);
const Int_t kUsedByFunc  = BIT(12);
const Int_t kUsedByCode  = BIT(13);
const Int_t kUsedByClass = BIT(14);
const Int_t kUsingData   = BIT(15);
const Int_t kUsingFunc   = BIT(16);
const Int_t kUsingCode   = BIT(17);
const Int_t kUsingClass  = BIT(18);
const Int_t kUsedByCode1 = BIT(19);
const Int_t kIsaPointer  = BIT(20);
const Int_t kIsBasic     = BIT(21);

static Float_t gXsize, gYsize, gDx, gDy, gLabdx, gLabdy, gDxx, gCsize;
static Int_t *gNtsons, *gNsons;

ClassImp(TClassTree)

//______________________________________________________________________________
//
// Draw inheritance tree and their relations for a list of classes
// The following options are supported
//   - Direct inheritance (default)
//   - Multiple inheritance
//   - Composition
//   - References by data members and member functions
//   - References from Code
//
// The list of classes is specified:
//   - either in the TClassTree constructor as a second argument
//   - or the parameter to TClassTRee::Draw
//
// Note that the ClassTree viewer can also be started from the canvas
// pull down menu "Classes".
//
// In the list of classes, class names are separated by a ":"
// wildcarding is supported.
// The following formats are supported, eg in TClassTree::Draw
//   1- Draw("ClassA")
//         Draw inheritance tree for ClassA
//         Show all classes referenced by ClassA
//   2- Draw("*ClassB")
//         Draw inheritance tree for ClassB
//         and all the classes deriving from ClassB
//   3- Draw(">ClassC")
//         Draw inheritance tree for ClassC
//         Show classes referencing ClassC
//   4- Draw("ClassD<")
//         Draw inheritance tree for ClassD
//         Show classes referenced by ClassD
//         Show all classes referencing ClassD
//   5- Draw("Cla*")
//         Draw inheritance tree for all classes with name starting with "Cla"
//         Show classes referenced by these classes
//   6- Draw("ClassA:ClassB<")
//         Draw inheritance tree for ClassA
//         Show all classes referenced by ClassA
//         Draw inheritance tree for ClassB
//         Show classes referenced by ClassB
//         Show all classes referencing ClassB
//
//  example;  Draw("TTree<")
//         Draw inheritance tree for the Root class TTree
//         Show all classes referenced by TTree
//         Show all classes using TTree
//
// By default, only direct inheritance is drawn.
// Use TClassTree::ShowLinks(option) to show additional references
//   option = "H" to show links to embedded classes
//   option = "M" to show multiple inheritance
//   option = "R" to show pointers to other classes from data members
//   option = "C" to show classes used by the code(implementation) of a class
//
// The following picture is produced directly by:
//       TClassTree ct("ct","*TH1")
// It shows all the classes derived from the base class TH1.
//
/* */ //

//
// The ClassTree class uses the services of the class TPaveClass to
// show the class names. By clicking with the right mouse button in
// one TPaveClass object, one can invoke the following functions of TClassTree:
//   - ShowLinks(option) with by default option = "HMR"
//   - Draw(classes). By default the class drawn is the one being pointed
//   - ShowClassesUsedBy(classes) (by default the pointed class)
//   - ShowClassesUsing(classes) (by default the pointed class)
//
//  The following picture has been generated with the following statements
//       TClassTree tc1("tc1","TObject");
//       tc1.SetShowLinks("HMR");
//
//
/* */ //

//
// Note that in case of embedded classes or pointers to classes,
// the corresponding dashed lines or arrows respectively start
// in the TPaveClass object at an X position reflecting the position
// in the list of data members.
//
//  - References by data members to other classes are show with a full red line
//  - Multiple inheritance is shown with a dashed blue line
//  - "Has a" relation is shown with a dotted cyan line
//  - References from code is shown by a full green line
//
//  Use TClassTree::SetSourceDir to specify the search path for source files.
//  By default the search path includes the ROOTSYS/src directory, the current
//  directory and the subdirectory src.
//
//  The first time TClassTree::Draw is invoked, all the classes in the
//  current application are processed, including the parsing of the code
//  to find all classes referenced by the include statements.
//  This process may take a few seconds. The following commands will be
//  much faster.
//
//  A TClassTree object may be saved in a Root file.
//  This object can be processed later by a Root program that ignores
//  the original classes. This interesting possibility allows to send
//  the class structure of an application to a colleague who does not have
//  your classes.
//  Example:
//    TFile f("myClasses.root","recreate")
//    TClassTree *ct = new TClassTree("ct","ATLF*")
//    ct->Write();
//  You can send at this point the file myClass.root to a colleague who can
//  run the following Root basic session
//     TFile f("myClass.root"); //connect the file
//     tt.ls();                 //to list all classes and titles
//     tt.Draw("ATLFDisplay")   //show class ATLFDisplay with all its dependencies
//  At this point, one has still access to all the classes present
//  in the original session and select any combination of these classes
//  to be displayed.

//______________________________________________________________________________
 TClassTree::TClassTree()
{
//*-*-*-*-*-*-*-*-*-*-*-*TClassTree default constructor*-*-*-*-*-*-*-*-*-*-*
//*-*                    ==============================

   fShowCod  = 0;
   fShowHas  = 0;
   fShowMul  = 0;
   fShowRef  = 0;
   fNclasses = 0;
   fCstatus  = 0;
   fParents  = 0;
   fCparent  = 0;
   fCpointer = 0;
   fCnames   = 0;
   fCtitles  = 0;
   fOptions  = 0;
   fLinks    = 0;
   fDerived  = 0;
   fNdata    = 0;
   SetLabelDx();
   SetYoffset(0);
#ifdef ROOTSRCDIR
   SetSourceDir(".:src:" ROOTSRCDIR "/src");
#else
   SetSourceDir(".:src:$ROOTSYS/src");
#endif
}

//_____________________________________________________________________________
 TClassTree::TClassTree(const char *name, const char *classes)
           :TNamed(name,classes)
{
//*-*-*-*-*-*-*-*-*-*-*TClassTree constructor*-*-*-*-*-*-*-*-*-*-*-*-*-*-*
//*-*                  ======================

   fShowCod  = 0;
   fShowHas  = 0;
   fShowMul  = 0;
   fShowRef  = 0;
   fNclasses = 0;
   fCstatus  = 0;
   fParents  = 0;
   fCparent  = 0;
   fCpointer = 0;
   fCnames   = 0;
   fCtitles  = 0;
   fOptions  = 0;
   fLinks    = 0;
   fDerived  = 0;
   fNdata    = 0;
   SetLabelDx();
   SetYoffset(0);
#ifdef ROOTSRCDIR
   SetSourceDir(".:src:" ROOTSRCDIR "/src");
#else
   SetSourceDir(".:src:$ROOTSYS/src");
#endif

   // draw list of classes (if specified)
   if (classes && strlen(classes)) {
      fClasses = classes;
      Draw();
   }
}

//______________________________________________________________________________
 TClassTree::~TClassTree()
{
//*-*-*-*-*-*-*-*-*-*TClassTree default destructor*-*-*-*-*-*-*-*-*-*-*-*
//*-*                =============================

   for (Int_t i=0;i<fNclasses;i++) {
      //delete fOptions[i];
      if (fLinks[i]) fLinks[i]->Delete();
      //delete fLinks[i];
      //if (fDerived[i]) {delete [] fDerived[i]; fDerived[i] = 0;}
   }
   delete [] fCnames;
   delete [] fCtitles;
   delete [] fCstatus;
   delete [] fParents;
   delete [] fCparent;
   delete [] fCpointer;
   delete [] fOptions;
   delete [] fLinks;
   delete [] fDerived;
   delete [] fNdata;
}

//______________________________________________________________________________
 void TClassTree::Draw(const char *classes)
{
// Draw the inheritance tree and relations for the list of classes
// see this class header for the syntax and examples

   if (!gPad) {
      if (gROOT->GetMakeDefCanvas())
      (gROOT->GetMakeDefCanvas())();
   }
   Init();
   if (classes && strlen(classes)) fClasses = classes;
   for (Int_t i=0;i<fNclasses;i++) {
      fCstatus[i]  = 0;
      fCparent[i] = -1;
    }
   Paint();
}

//______________________________________________________________________________
 Int_t TClassTree::FindClass(const char *classname)
{
//  Find class number corresponding to classname in list of local classes

   for (Int_t i=0;i<fNclasses;i++) {
      if(!fCnames[i]->CompareTo(classname)) return i;
   }
   return -1;
}

//______________________________________________________________________________
 void TClassTree::FindClassesUsedBy(Int_t iclass)
{
//  Select all classes used/referenced by the class number iclass

   fCstatus[iclass] = 1;
   Int_t i;
   TObjString *os;
   TList *los = fLinks[iclass];
   TIter next(los);
   while ((os = (TObjString*)next())) {
      i = FindClass(os->GetName());
      if (i < 0) continue;
      if (fCstatus[i]) continue;
      Int_t udata  = os->TestBit(kUsedByData);
      Int_t ufunc  = os->TestBit(kUsedByFunc);
      Int_t ucode  = os->TestBit(kUsedByCode);
      Int_t uclass = os->TestBit(kUsedByClass);
      if (udata || ufunc || ucode || uclass) {
         fCstatus[i] = 1;
      }
   }
}

//______________________________________________________________________________
 void TClassTree::FindClassesUsing(Int_t iclass)
{
//  Select all classes using/referencing the class number iclass

   // loop on all classes
   fCstatus[iclass] = 1;
   Int_t i;
   TObjString *os;
   TList *los = fLinks[iclass];
   TIter next(los);
   while ((os = (TObjString*)next())) {
      i = FindClass(os->GetName());
      if (i < 0) continue;
      if (fCstatus[i]) continue;
      Int_t udata  = os->TestBit(kUsingData);
      Int_t ufunc  = os->TestBit(kUsingFunc);
      Int_t ucode  = os->TestBit(kUsingCode);
      Int_t uclass = os->TestBit(kUsingClass);
      if (udata || ufunc || ucode || uclass) {
         fCstatus[i] = 1;
      }
   }
}

//______________________________________________________________________________
 void TClassTree::FindClassPosition(const char *classname, Float_t &x, Float_t &y)
{
// Search the TPaveClass object in the pad with label=classname
// returns the x and y position of the center of the pave.

   TIter next(gPad->GetListOfPrimitives());
   TObject *obj;
   TPaveClass *pave;
   while((obj=next())) {
      if (obj->InheritsFrom(TPaveClass::Class())) {
         pave = (TPaveClass*)obj;
         if (!strcmp(pave->GetLabel(),classname)) {
            x = 0.5*(pave->GetX1() + pave->GetX2());
            y = 0.5*(pave->GetY1() + pave->GetY2());
            return;
         }
      }
   }
   x = y = 0;
}

//_____________________________________________________________________________
 void TClassTree::Init()
{
// Initialize the data structures

   if (fNclasses) return;

   // fill the classes structures
   gClassTable->Init();
   fNclasses   = gClassTable->Classes();   //number of classes in the application
   fCnames     = new TString*[fNclasses];  //class names
   fCtitles    = new TString*[fNclasses];  //class titles (given in ClassDef)
   fCstatus    = new Int_t[fNclasses];     //=0 if not used in current expression
   fParents    = new Int_t[fNclasses];     //parent number of classes (permanent)
   fCparent    = new Int_t[fNclasses];     //parent number of classes (local to expression)
   fNdata      = new Int_t[fNclasses];     //number of data members per class
   fCpointer   = new TClass*[fNclasses];   //pointers to the TClass
   fOptions    = new TString*[fNclasses];  //options per class
   fLinks      = new TList*[fNclasses];    //list of classes referencing/referenced
   fDerived    = new char*[fNclasses];     //derivation matrix

   Int_t i,j;
   for (i=0;i<fNclasses;i++) {
      fCnames[i]   = new TString(gClassTable->Next());
      fCpointer[i] = gROOT->GetClass(fCnames[i]->Data());
      fCtitles[i]  = new TString(fCpointer[i]->GetTitle());
      fCstatus[i]  = 0;
      fOptions[i]  = new TString("ID");
      fLinks[i]    = new TList();
      fDerived[i]  = new char[fNclasses];
   }
   TBaseClass *clbase;
   TClass *cl;
   for (i=0;i<fNclasses;i++) {
      TList *lm = fCpointer[i]->GetListOfDataMembers();
      if (lm) fNdata[i] = lm->GetSize();
      else    fNdata[i] = 0;
      // build derivation matrix
      char *derived = fDerived[i];
      for (j=0;j<fNclasses;j++) {
         derived[j] = 0;
         if (fCpointer[i]->InheritsFrom(fCpointer[j])) {
            derived[j] = 1;
         }
      }
      //build list of class parent
      fParents[i] = -1;
      TList *lb = fCpointer[i]->GetListOfBases();
      if (!lb) continue;
      clbase = (TBaseClass*)lb->First();
      if (clbase == 0) continue;
      cl = (TClass*)clbase->GetClassPointer();
      for (j=0;j<fNclasses;j++) {
         if(cl == fCpointer[j]) {
            fParents[i] = j;
            break;
         }
      }
   }
   //now the real & hard stuff
   for (i=0;i<fNclasses;i++) {
      ScanClasses(i);
   }
}

//_____________________________________________________________________________
 void TClassTree::ls(Option_t *) const
{
// list classes names and titles
   char line[500];
   for (Int_t i=0;i<fNclasses;i++) {
      sprintf(line,"%s%s",fCnames[i]->Data(),"...........................");
      sprintf(&line[30],"%s",fCtitles[i]->Data());
      line[79] = 0;
      printf("%5d %s\n",i,line);
   }
}

//_____________________________________________________________________________
 TObjString *TClassTree::Mark(const char *classname, TList *los, Int_t abit)
{
// set bit abit in class classname in list los

   if (!los) return 0;
   TObjString *os = (TObjString*)los->FindObject(classname);
   if (!os) {
      os = new TObjString(classname);
      los->Add(os);
   }
   os->SetBit(abit);
   return os;
}

//______________________________________________________________________________
 void TClassTree::Paint(Option_t *)
{
// Draw the current class setting in fClasses and fStatus

   //delete primitives belonging to a previous paint
   if (gPad) {
      TIter next(gPad->GetListOfPrimitives());
      TObject *obj;
      while((obj=next())) {
         if (obj->TestBit(kIsClassTree)) delete obj;
      }
   }

   Int_t nch      = strlen(GetClasses());
   if (nch == 0) return;
   char *classes  = new char[nch+1];
   gNsons   = new Int_t[fNclasses];
   gNtsons  = new Int_t[fNclasses];
   strcpy(classes,GetClasses());
   Int_t i,j;
   char *derived;
   char *ptr = strtok(classes,":");
    //mark referenced classes
   while (ptr) {
      nch = strlen(ptr);
      if (ptr[0] == '*') {
         j = FindClass(&ptr[1]);
         if (j >= 0) {
            for (i=0;i<fNclasses;i++) {
               derived = fDerived[i];
               if(derived[j]) fCstatus[i] = 1;
            }
         }
      } else if (ptr[0] == '>') {
         for (i=0;i<fNclasses;i++) {
            if(fCnames[i]->Contains(&ptr[1])) {
               FindClassesUsing(i);
               fCstatus[i] = 2;
               break;
            }
         }
      } else if (ptr[nch-1] == '<') {
         ptr[nch-1] = 0;
         for (i=0;i<fNclasses;i++) {
            if(fCnames[i]->Contains(ptr)) {
               FindClassesUsedBy(i);
               FindClassesUsing(i);
               fCstatus[i] = 2;
               break;
            }
         }
      } else if (ptr[nch-1] == '*') {
         ptr[nch-1] = 0;
         for (i=0;i<fNclasses;i++) {
            if(fCnames[i]->Contains(ptr)) fCstatus[i] = 1;
         }
      } else {
         for (i=0;i<fNclasses;i++) {
            if(!fCnames[i]->CompareTo(ptr)) {
               FindClassesUsedBy(i);
               fCstatus[i] = 2;
               break;
            }
         }
      }
      ptr = strtok(0,":");
   }
    //mark base classes of referenced classes
   for (i=0;i<fNclasses;i++) {
      gNsons[i] = gNtsons[i] = 0;
   }
   for (i=0;i<fNclasses;i++) {
      if (fCstatus[i] == 0) continue;
      derived = fDerived[i];
      for (j=0;j<fNclasses;j++) {
         if (j == i) continue;
         if(derived[j]) {
            fCstatus[j] = 1;
         }
      }
   }
    //find parent class number for selected classes
   for (i=0;i<fNclasses;i++) {
      if (fCstatus[i] == 0) continue;
      j = fParents[i];
      if (j >=0 ) {
         fCparent[i] = j;
         gNsons[j]++;
      }
   }
    //compute total number of sons for each node
   Int_t maxlev = 1;
   Int_t icl,ip;
   for (i=0;i<fNclasses;i++) {
      if (fCstatus[i] == 0) continue;
      if (gNsons[i] != 0) continue;
      icl = i;
      Int_t nlevel = 1;
      while (fCparent[icl] >= 0) {
         nlevel++;
         if (nlevel > maxlev) maxlev = nlevel;
         ip = fCparent[icl];
         gNtsons[ip]++;
         icl = ip;
      }
   }

    //compute levels, number and list of sons
   Int_t ndiv=0;
   Int_t nmore = 0;
   for (i=0;i<fNclasses;i++) {
      if (fCstatus[i] == 0) continue;
      if (fCparent[i] < 0) {
         ndiv += gNtsons[i]+1;
         nmore++;
      }
   }
   ndiv++;

   // We are now ready to draw the active nodes
   Float_t xmin = gPad->GetX1();
   Float_t xmax = gPad->GetX2();
   Float_t ymin = gPad->GetY1();
   Float_t ymax = gPad->GetY2();
   Float_t ytop = gYsize/20;
   gXsize = xmax - xmin;
   gYsize = ymax - ymin;
   gDy = (gYsize-ytop)/(ndiv);
   if (gDy > gYsize/10.) gDy = gYsize/10.;
   gDx = 0.9*gXsize/5;
   if (maxlev > 5) gDx = 0.97*gXsize/maxlev;
   Float_t y  = ymax -ytop;
   gLabdx = fLabelDx*gXsize;
   if (gLabdx > 0.95*gDx) gLabdx = 0.95*gDx;
   gLabdy = 0.3*gDy;
   gDxx = 0.5*gXsize/26.;
   Float_t xleft  = xmin +gDxx;
   Float_t ymore  = 0.5*nmore*gDy+fYoffset*gYsize;
   Int_t dxpixels = gPad->XtoAbsPixel(gLabdx) - gPad->XtoAbsPixel(0);
   Int_t dypixels = gPad->YtoAbsPixel(0)     - gPad->YtoAbsPixel(gLabdy);
   gCsize  = dxpixels/(10.*dypixels);
   gCsize = TMath::Max(gCsize,Float_t(0.75));
   gCsize = TMath::Min(gCsize,Float_t(1.1));
   // draw classes level 0
   for (i=0;i<fNclasses;i++) {
      if (fCstatus[i] == 0) continue;
      if (fCparent[i] < 0) {
         y -= gDy+0.5*gNtsons[i]*gDy;
         if (!fCnames[i]->CompareTo("TObject")) y += ymore;
         PaintClass(i,xleft,y);
         y -= 0.5*gNtsons[i]*gDy;
      }
   }

    // show all types of links corresponding to selected options
    if (fShowCod) ShowCod();
    if (fShowHas) ShowHas();
    if (fShowMul) ShowMul();
    if (fShowRef) ShowRef();

    nch      = strlen(GetClasses());
    xmax = 0.3;
    if (nch > 20) xmax = 0.5;
    if (nch > 50) xmax = 0.7;
    if (nch > 70) xmax = 0.9;
    TPaveClass *ptitle = new TPaveClass(xmin +0.1*gXsize/26.
                                      ,ymin+gYsize-0.9*gYsize/20.
                                      ,xmin+xmax*gXsize
                                      ,ymin+gYsize-0.1*gYsize/26.
                                      ,GetClasses(),this);
    ptitle->SetFillColor(42);
    ptitle->SetBit(kIsClassTree);
    ptitle->Draw();

   //cleanup
   delete [] classes;
   delete [] gNsons;
   delete [] gNtsons;
}

//______________________________________________________________________________
 void TClassTree::PaintClass(Int_t iclass, Float_t xleft, Float_t y)
{
// Paint one class level

   Float_t u[2],yu=0,yl=0;
   Int_t ns = gNsons[iclass];
   u[0] = xleft;
   u[1] = u[0]+gDxx;
   if(ns != 0) u[1] = u[0]+gDx;
   TLine *line = new TLine(u[0],y,u[1],y);
   line->SetBit(kIsClassTree);
   line->Draw();
   Int_t icobject = FindClass("TObject");
   TPaveClass *label = new TPaveClass(xleft+gDxx,y-gLabdy,xleft+gLabdx,y+gLabdy,fCnames[iclass]->Data(),this);
   char *derived = fDerived[iclass];
   if (icobject >= 0 && !derived[icobject]) label->SetFillColor(30);
   if (fCstatus[iclass] > 1) label->SetFillColor(kYellow);
   label->SetTextSize(gCsize);
   label->SetBit(kIsClassTree);
   label->SetToolTipText(fCtitles[iclass]->Data(),500);
   label->Draw();
   if (ns == 0) return;

   // drawing sons
   y +=  0.5*gNtsons[iclass]*gDy;
   Int_t first =0;
   for (Int_t i=0;i<fNclasses;i++) {
      if(fCparent[i] != iclass) continue;
      if (gNtsons[i] > 1) y -= 0.5*gNtsons[i]*gDy;
      else               y -= 0.5*gDy;
      if (!first) {first=1; yu = y;}
      PaintClass(i,u[1],y);
      yl = y;
      if (gNtsons[i] > 1) y -= 0.5*gNtsons[i]*gDy;
      else               y -= 0.5*gDy;
   }
   if (ns == 1) return;
   line = new TLine(u[1],yl,u[1],yu);
   line->SetBit(kIsClassTree);
   line->Draw();
}

//______________________________________________________________________________
 void TClassTree::SaveAs(const char *filename)
{
// save current configuration in a Root file
// if filename is blank, the name of the file will be the current objectname.root
// all the current settings are preserved
// the Root file produced can be looked at by a another Root session
// with no access to the original classes.

   if (!filename || strlen(filename) == 0) {
      char fname[100];
      sprintf(fname,"%s.root",GetName());
      TFile local(fname,"recreate");
      if (local.IsZombie()) return;
      Write();
      printf("TClassTree::SaveAs, file: %s has been written\n",fname);
   } else {
      TFile local(filename,"recreate");
      if (local.IsZombie()) return;
      Write();
      printf("TClassTree::SaveAs, file: %s has been written\n",filename);
   }
}

//______________________________________________________________________________
 void TClassTree::ScanClasses(Int_t iclass)
{
//  Select all classes used by/referenced/referencing the class number iclass
//  and build the list of these classes

   Int_t ic, icl;
   TList *los = fLinks[iclass];
   TList *losref = 0;
   TObjString *os;

   // scan list of data members
   // =========================
   TClass *cl = fCpointer[iclass];
   TDataMember *dm;
   TList *lm = cl->GetListOfDataMembers();
   if (lm) {
      TIter      next(lm);
      Int_t imember = 0;
      while ((dm = (TDataMember *) next())) {
         imember++;
         ic = FindClass(dm->GetTypeName());
         if (ic < 0 || ic == iclass) continue;
         losref = fLinks[ic];
         os = Mark(fCnames[ic]->Data(),los,kUsedByData);
         os->SetBit(kIsaPointer,dm->IsaPointer());
         os->SetBit(kIsBasic,dm->IsBasic());
         os->SetUniqueID(imember);
         Mark(fCnames[iclass]->Data(),losref,kUsingData);
      }
   }

   // scan base classes
   // =================
   char *derived = fDerived[iclass];
   TBaseClass *clbase;
   Int_t numb = 0;
   TList *lb = fCpointer[iclass]->GetListOfBases();
   if (lb) {
      TIter nextb(lb);
      while ((clbase = (TBaseClass*)nextb())) {
         numb++;
         if (numb == 1) continue;
         ic = FindClass(clbase->GetName());
         derived[ic] = 2;
      }
      for (ic=0;ic<fNclasses;ic++) {
         if (ic == iclass) continue;
         if (derived[ic]) {
            losref = fLinks[ic];
            Mark(fCnames[ic]->Data(),los,kUsedByClass);
            Mark(fCnames[iclass]->Data(),losref,kUsingClass);
         }
      }
   }

   // scan member functions
   // =====================
   char *star, *cref;
   TMethod *method;
   TMethodArg *methodarg;
   TList *lf = cl->GetListOfMethods();
   if (lf) {
      TIter nextm(lf);
      char name[100];
      while ((method = (TMethod*) nextm())) {
         // check return type
         strcpy(name,method->GetReturnTypeName());
         star = strstr(name,"*");
         if (star) *star = 0;
         cref = strstr(name,"&");
         if (cref) *cref = 0;
         ic = FindClass(name);
         if (ic < 0 || ic == iclass) continue;
         losref = fLinks[ic];
         Mark(fCnames[ic]->Data(),los,kUsedByFunc);
         Mark(fCnames[iclass]->Data(),losref,kUsingFunc);

         // now loop on all method arguments
         // ================================
         TIter nexta(method->GetListOfMethodArgs());
         while ((methodarg = (TMethodArg*) nexta())) {
            strcpy(name,methodarg->GetTypeName());
            star = strstr(name,"*");
            if (star) *star = 0;
            cref = strstr(name,"&");
            if (cref) *cref = 0;
            ic = FindClass(name);
            if (ic < 0 || ic == iclass) continue;
            losref = fLinks[ic];
            Mark(fCnames[ic]->Data(),los,kUsedByFunc);
            Mark(fCnames[iclass]->Data(),losref,kUsingFunc);
         }
      }
   }

   // Look into the source code to search the list of includes
   // here we assume that include file names are classes file names
   // we stop reading the code when
   //   - a class member function is found
   //   - any class constructor is found
   const char *source = gSystem->BaseName( gSystem->UnixPathName(cl->GetImplFileName()));
   char *sourceName = gSystem->Which( fSourceDir.Data(), source , kReadPermission );
   if (!sourceName) return;
   char cname[100];
   sprintf(cname,"%s::",fCnames[iclass]->Data());
   Int_t ncn = strlen(cname);
       // open source file
   ifstream sourceFile;
   sourceFile.open( sourceName, ios::in
   Int_t nlines = 0;
   if( sourceFile.good() ) {
      const Int_t kMAXLEN=500;
      char line[kMAXLEN];
      while( !sourceFile.eof() ) {
         sourceFile.getline( line, kMAXLEN-1 );
         if( sourceFile.eof() ) break;
         Int_t nblank = strspn(line," ");
         if (!strncmp(&line[nblank],"//",2)) continue;
         char *cc = strstr(line,"::");
         if (cc) {
            *cc = 0;
            if (!strncmp(&line[nblank],cname,ncn)) break;  //reach class member function
            Int_t nl = strlen(&line[nblank]);
            if (!strncmp(&line[nblank],cc+2,nl))   break;  //reach any class constructor
         }
         nlines++; if (nlines > 1000) break;
         char *inc = strstr(line,"#include");
         if (inc) {
            char *ch = strstr(line,".h");
            if (!ch) continue;
            *ch = 0;
            char *start = strstr(line,"<");
            if (!start) start = strstr(line,"\"");
            if (!start) continue;
            start++;
            while ((start < ch) && (*start == ' ')) start++;
            icl = FindClass(start);
            if (icl < 0 || icl == iclass) continue;
            // mark this include being used by this class
            losref = fLinks[icl];
            Mark(fCnames[icl]->Data(),los,kUsedByCode1);
            Mark(fCnames[icl]->Data(),los,kUsedByCode);
            Mark(fCnames[iclass]->Data(),losref,kUsingCode);
            // and also the base classes of the class in the include
            derived = fDerived[icl];
            for (ic=0;ic<fNclasses;ic++) {
               if (ic == icl) continue;
               if (derived[ic]) {
                  losref = fLinks[ic];
                  Mark(fCnames[ic]->Data(),los,kUsedByCode);
                  Mark(fCnames[iclass]->Data(),losref,kUsingCode);
               }
            }
         }
      }
   }
   sourceFile.close();
}

//______________________________________________________________________________
 void TClassTree::SetClasses(const char *classes, Option_t *)
{
// Set the list of classes for which the hierarchy is to be drawn
// See Paint for the syntax

   if (classes == 0) return;
   fClasses = classes;
   for (Int_t i=0;i<fNclasses;i++) {
      fCstatus[i]  = 0;
      fCparent[i] = -1;
    }
   if (gPad) Paint();
}

//______________________________________________________________________________
 void TClassTree::SetLabelDx(Float_t labeldx)
{
// Set the size along x of the TPavellabel showing the class name

   fLabelDx = labeldx;
   if (gPad) Paint();
}

//______________________________________________________________________________
 void TClassTree::SetYoffset(Float_t offset)
{
// Set the offset at the top of the picture
// The default offset is computed automatically taking into account
// classes not inheriting from TObject.

   fYoffset = offset;
   if (gPad) Paint();
}

//______________________________________________________________________________
 void TClassTree::ShowClassesUsedBy(const char *classes)
{
// mark classes used by the list of classes in classes

   Int_t i,j;
   Int_t nch = strlen(classes);
   char *ptr = new char[nch+1];
   strcpy(ptr,classes);
   if (ptr[0] == '*') {
      i = FindClass(&ptr[1]);
      if (i >= 0) {
         char *derived = fDerived[i];
         for (j=0;j<fNclasses;j++) {
            if(derived[j]) FindClassesUsedBy(j);
         }
      }
   } else if (ptr[nch-1] == '*') {
      ptr[nch-1] = 0;
      for (j=0;j<fNclasses;j++) {
         if(fCnames[j]->Contains(ptr)) FindClassesUsedBy(j);
      }
   } else {
      for (j=0;j<fNclasses;j++) {
         if(!fCnames[j]->CompareTo(ptr)) FindClassesUsedBy(j);
      }
   }
   delete [] ptr;
   if (gPad) Paint();
}

//______________________________________________________________________________
 void TClassTree::ShowClassesUsing(const char *classes)
{
// mark classes using any class in the list of classes in classes

   Int_t i,j;
   Int_t nch = strlen(classes);
   char *ptr = new char[nch+1];
   strcpy(ptr,classes);
   if (ptr[0] == '*') {
      i = FindClass(&ptr[1]);
      if (i >= 0) {
         char *derived = fDerived[i];
         for (j=0;j<fNclasses;j++) {
            if(derived[j]) FindClassesUsing(j);
         }
      }
   } else if (ptr[nch-1] == '*') {
      ptr[nch-1] = 0;
      for (j=0;j<fNclasses;j++) {
         if(fCnames[j]->Contains(ptr)) FindClassesUsing(j);
      }
   } else {
      for (j=0;j<fNclasses;j++) {
         if(!fCnames[j]->CompareTo(ptr)) FindClassesUsing(j);
      }
   }
   delete [] ptr;
   if (gPad) Paint();
}

//______________________________________________________________________________
 void TClassTree::ShowCod()
{
// Draw the Code References relationships


   TIter next(gPad->GetListOfPrimitives());
   TObject *obj;
   TObjString *os;
   TPaveClass *pave;
   Int_t ic,icl;
   Float_t x,y,x1,y1;
   //iterate on all TPaveClass objects in the pad
   while((obj=next())) {
      if (obj->InheritsFrom(TPaveClass::Class())) {
         pave = (TPaveClass*)obj;
         icl = FindClass(pave->GetLabel());
         if (icl < 0) continue;
         char *derived = fDerived[icl];
         x  = 0.5*(pave->GetX1() + pave->GetX2());
         y  = 0.5*(pave->GetY1() + pave->GetY2());
         TIter nextos(fLinks[icl]);
         //iterate on all classes in the list of classes of this class
         while((os=(TObjString*)nextos())) {
            if (!os->TestBit(kUsedByCode1)) continue;
            ic = FindClass(os->GetName());
            if (derived[ic]) continue;
            FindClassPosition(os->GetName(),x1,y1);
            if (x1 == 0 || y1 == 0) continue; //may be pointed class was not drawn
            TArrow *arrow = new TArrow(x,y,x1,y1,0.008,"|>");
            arrow->SetLineColor(kGreen);
            arrow->SetFillColor(kGreen);
            arrow->SetBit(kIsClassTree);
            arrow->Draw();
         }
      }
   }
}

//______________________________________________________________________________
 void TClassTree::ShowHas()
{
// Draw the "Has a" relationships

   TIter next(gPad->GetListOfPrimitives());
   TObject *obj;
   TObjString *os;
   TPaveClass *pave;
   Int_t icl;
   Float_t y,x1,y1,dx;
   //iterate on all TPaveClass objects in the pad
   while((obj=next())) {
      if (obj->InheritsFrom(TPaveClass::Class())) {
         pave = (TPaveClass*)obj;
         icl = FindClass(pave->GetLabel());
         if (icl < 0) continue;
         y  = 0.5*(pave->GetY1() + pave->GetY2());
         Int_t nmembers = fNdata[icl];
         if (nmembers == 0) continue;
         dx = (pave->GetX2() - pave->GetX1())/nmembers;
         TIter nextos(fLinks[icl]);
         //iterate on all classes in the list of classes of this class
         while((os=(TObjString*)nextos())) {
            if (!os->TestBit(kUsedByData)) continue;
            if (os->TestBit(kIsaPointer)) continue;
            if (os->TestBit(kIsBasic)) continue;
            FindClassPosition(os->GetName(),x1,y1);
            if (x1 == 0 || y1 == 0) continue; //may be base class was not drawn
            Int_t imember = os->GetUniqueID();
            TLine *line = new TLine(pave->GetX1()+(imember+0.5)*dx,y,x1,y1);
            line->SetLineStyle(3);
            line->SetLineColor(6);
            line->SetBit(kIsClassTree);
            line->Draw();
         }
      }
   }
}

//______________________________________________________________________________
 void TClassTree::ShowLinks(Option_t *option)
{
// Set link options in the ClassTree object
//   "C"  show References from code
//   "H"  show Has a relations
//   "M"  show Multiple Inheritance
//   "R"  show References from data members

   TString opt = option;
   opt.ToUpper();
   fShowCod = fShowHas = fShowMul = fShowRef = 0;
   if (opt.Contains("C")) fShowCod = 1;
   if (opt.Contains("H")) fShowHas = 1;
   if (opt.Contains("M")) fShowMul = 1;
   if (opt.Contains("R")) fShowRef = 1;
   if (gPad) Paint();
}

//______________________________________________________________________________
 void TClassTree::ShowMul()
{
// Draw the Multiple inheritance relationships

   TIter next(gPad->GetListOfPrimitives());
   TObject *obj;
   TObjString *os;
   TPaveClass *pave;
   Int_t ic,icl;
   Float_t x,y,x1,y1;
   //iterate on all TPaveClass objects in the pad
   while((obj=next())) {
      if (obj->InheritsFrom(TPaveClass::Class())) {
         pave = (TPaveClass*)obj;
         icl = FindClass(pave->GetLabel());
         if (icl < 0) continue;
         char *derived = fDerived[icl];
         x = 0.5*(pave->GetX1() + pave->GetX2());
         y = 0.5*(pave->GetY1() + pave->GetY2());
         TIter nextos(fLinks[icl]);
         //iterate on all classes in the list of classes of this class
         while((os=(TObjString*)nextos())) {
            if (!os->TestBit(kUsedByClass)) continue;
            ic = FindClass(os->GetName());
            if (derived[ic] != 2) continue; //keep only multiple inheritance
            FindClassPosition(os->GetName(),x1,y1);
            if (x1 == 0 || y1 == 0) continue; //may be base class was not drawn
            TLine *line = new TLine(x,y,x1,y1);
            line->SetBit(kIsClassTree);
            line->SetLineStyle(2);
            line->SetLineColor(kBlue);
            line->Draw();
         }
      }
   }
}

//______________________________________________________________________________
 void TClassTree::ShowRef()
{
// Draw the References relationships (other than inheritance or composition)


   TIter next(gPad->GetListOfPrimitives());
   TObject *obj;
   TObjString *os;
   TPaveClass *pave;
   Int_t ic,icl;
   Float_t y,x1,y1,dx;
   Int_t icc = FindClass("TClass");
   //iterate on all TPaveClass objects in the pad
   while((obj=next())) {
      if (obj->InheritsFrom(TPaveClass::Class())) {
         pave = (TPaveClass*)obj;
         icl = FindClass(pave->GetLabel());
         if (icl < 0) continue;
         y  = 0.5*(pave->GetY1() + pave->GetY2());
         Int_t nmembers = fNdata[icl];
         if (nmembers == 0) continue;
         dx = (pave->GetX2() - pave->GetX1())/nmembers;
         TIter nextos(fLinks[icl]);
         //iterate on all classes in the list of classes of this class
         while((os=(TObjString*)nextos())) {
            if (!os->TestBit(kUsedByData)) continue;
            ic = FindClass(os->GetName());
            if (!os->TestBit(kIsaPointer)) continue;
            if (os->TestBit(kIsBasic)) continue;
            if (ic == icc) continue; // do not show relations with TClass
            FindClassPosition(os->GetName(),x1,y1);
            if (x1 == 0 || y1 == 0) continue; //may be pointed class was not drawn
            Int_t imember = os->GetUniqueID();
            TArrow *arrow = new TArrow(pave->GetX1()+(imember+0.5)*dx,y,x1,y1,0.008,"|>");
            arrow->SetLineColor(kRed);
            arrow->SetFillColor(kRed);
            arrow->SetBit(kIsClassTree);
            arrow->Draw();
         }
      }
   }
}


//______________________________________________________________________________
 void TClassTree::Streamer(TBuffer &R__b)
{
   // Stream an object of class TClassTree.
   // the status of the object is saved and can be replayed in a subsequent session

   Int_t i;
   if (R__b.IsReading()) {
      Version_t R__v = R__b.ReadVersion(); if (R__v) { }
      TNamed::Streamer(R__b);
      fClasses.Streamer(R__b);
      R__b >> fYoffset;
      R__b >> fLabelDx;
      R__b >> fNclasses;
      R__b >> fShowCod;
      R__b >> fShowMul;
      R__b >> fShowHas;
      R__b >> fShowRef;
      fCnames     = new TString*[fNclasses];
      fCtitles    = new TString*[fNclasses];
      fCstatus    = new Int_t[fNclasses];
      fParents    = new Int_t[fNclasses];
      fCparent    = new Int_t[fNclasses];
      fNdata      = new Int_t[fNclasses];
      fCpointer   = new TClass*[fNclasses];
      fOptions    = new TString*[fNclasses];
      fLinks      = new TList*[fNclasses];
      fDerived    = new char*[fNclasses];
      for (i=0;i<fNclasses;i++) {
         R__b >> fCstatus[i];
         R__b >> fParents[i];
         R__b >> fNdata[i];
         fCnames[i]  = new TString();
         fCtitles[i] = new TString();
         fOptions[i] = new TString();
         fCnames[i]->Streamer(R__b);
         fCtitles[i]->Streamer(R__b);
         fOptions[i]->Streamer(R__b);
         fLinks[i] = new TList();
         fLinks[i]->Streamer(R__b);
         fDerived[i] = new char[fNclasses];
         R__b.ReadFastArray(fDerived[i],fNclasses);
      }
      fSourceDir.Streamer(R__b);
   } else {
      R__b.WriteVersion(TClassTree::IsA());
      TNamed::Streamer(R__b);
      fClasses.Streamer(R__b);
      R__b << fYoffset;
      R__b << fLabelDx;
      R__b << fNclasses;
      R__b << fShowCod;
      R__b << fShowMul;
      R__b << fShowHas;
      R__b << fShowRef;
      for (i=0;i<fNclasses;i++) {
         R__b << fCstatus[i];
         R__b << fParents[i];
         R__b << fNdata[i];
         fCnames[i]->Streamer(R__b);
         fCtitles[i]->Streamer(R__b);
         fOptions[i]->Streamer(R__b);
         fLinks[i]->Streamer(R__b);
         R__b.WriteFastArray(fDerived[i],fNclasses);
      }
      fSourceDir.Streamer(R__b);
   }
}




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