2 #include "TKDNodeInfo.h"
4 #include "TClonesArray.h"
8 #include "TObjString.h"
17 //_________________________________________________________________
20 ,TKDInterpolatorBase()
22 // Default constructor. To be used with care since in this case building
23 // of data structure is completly left to the user responsability.
26 //_________________________________________________________________
27 TKDPDF::TKDPDF(Int_t npoints, Int_t ndim, UInt_t bsize, Float_t **data) :
28 TKDTreeIF(npoints, ndim, bsize, data)
29 ,TKDInterpolatorBase(ndim)
31 // Wrapper constructor for the TKDTree.
37 //_________________________________________________________________
38 TKDPDF::TKDPDF(TTree *t, const Char_t *var, const Char_t *cut, UInt_t bsize, Long64_t nentries, Long64_t firstentry) :
40 ,TKDInterpolatorBase()
42 // Alocate data from a tree. The variables which have to be analysed are
43 // defined in the "var" parameter as a colon separated list. The format should
44 // be identical to that used by TTree::Draw().
48 TObjArray *vars = TString(var).Tokenize(":");
49 fNDim = vars->GetEntriesFast(); fNDimm = 2*fNDim;
51 if(fNDim > 6/*kDimMax*/) Warning("TKDPDF(TTree*, const Char_t, const Char_t, UInt_t)", "Variable number exceed maximum dimension %d. Results are unpredictable.", 6/*kDimMax*/);
56 for(int idim=0; idim<fNDim; idim++){
57 if(!(np = t->Draw(((TObjString*)(*vars)[idim])->GetName(), cut, "goff", nentries, firstentry))){
58 Warning("TKDPDF(TTree*, const Char_t, const Char_t, UInt_t)", "Can not access data for keys %s. Key defined on tree :", ((TObjString*)(*vars)[idim])->GetName());
59 TIterator *it = (t->GetListOfLeaves())->MakeIterator();
61 while((o = (*it)())) printf("\t%s\n", o->GetName());
66 //Info("TKDPDF(TTree*, const Char_t, const Char_t, UInt_t)", Form("Allocating %d data points in %d dimensions.", fNpoints, fNDim));
67 fData = new Float_t*[fNDim];
68 for(int jdim=fNDim; jdim--;) fData[jdim] = new Float_t[fNPoints];
72 for(int ip=0; ip<fNPoints; ip++) fData[idim][ip] = (Float_t)v[ip];
78 //_________________________________________________________________
83 //_________________________________________________________________
84 Bool_t TKDPDF::Build(Int_t)
86 // Fill interpolator's data array i.e.
87 // - estimation points
88 // - corresponding PDF values
91 if(!fBoundaries) MakeBoundaries();
92 fLambda = 1 + fNDim + (fNDim*(fNDim+1)>>1);
93 //printf("after MakeBoundaries() %d\n", memory());
95 // allocate interpolation nodes
96 Int_t fNTNodes = fNPoints/fBucketSize + ((fNPoints%fBucketSize)?1:0);/*TKDTreeIF::GetNTNodes();*/
97 TKDInterpolatorBase::Build(fNTNodes);
99 TKDNodeInfo *node = NULL;
100 Float_t *bounds = NULL;
102 for(int inode=0, tnode = fNNodes; inode<fNTNodes-1; inode++, tnode++){
103 node = (TKDNodeInfo*)(*fNodes)[inode];
104 node->Val()[0] = Float_t(fBucketSize)/fNPoints;
105 bounds = GetBoundary(tnode);
106 for(int idim=0; idim<fNDim; idim++) node->Val()[0] /= (bounds[2*idim+1] - bounds[2*idim]);
107 node->Val()[1] = node->Val()[0]/TMath::Sqrt(float(fBucketSize));
109 indexPoints = GetPointsIndexes(tnode);
110 // loop points in this terminal node
111 for(int idim=0; idim<fNDim; idim++){
112 node->Data()[idim] = 0.;
113 for(int ip = 0; ip<fBucketSize; ip++) node->Data()[idim] += fData[idim][indexPoints[ip]];
114 node->Data()[idim] /= fBucketSize;
116 memcpy(&(node->Data()[fNDim]), bounds, fNDimm*sizeof(Float_t));
119 // analyze last (incomplete) terminal node
120 Int_t counts = fNPoints%fBucketSize;
121 counts = counts ? counts : fBucketSize;
122 Int_t inode = fNTNodes - 1, tnode = inode + fNNodes;
123 node = (TKDNodeInfo*)(*fNodes)[inode];
124 node->Val()[0] = Float_t(counts)/fNPoints;
125 bounds = GetBoundary(tnode);
126 for(int idim=0; idim<fNDim; idim++){
127 Float_t dx = bounds[2*idim+1]-bounds[2*idim];
129 Warning("TKDPDF::Build()", "Terminal bucket index[%d] too narrow on the %d dimension.", inode, idim);
132 node->Val()[0] /= (bounds[2*idim+1] - bounds[2*idim]);
134 node->Val()[1] = node->Val()[0]/TMath::Sqrt(float(counts));
136 // loop points in this terminal node
137 indexPoints = GetPointsIndexes(tnode);
138 for(int idim=0; idim<fNDim; idim++){
139 node->Data()[idim] = 0.;
140 for(int ip = 0; ip<counts; ip++) node->Data()[idim] += fData[idim][indexPoints[ip]];
141 node->Data()[idim] /= counts;
143 memcpy(&(node->Data()[fNDim]), bounds, fNDimm*sizeof(Float_t));
145 delete [] fBoundaries;
152 //_________________________________________________________________
153 void TKDPDF::DrawNode(Int_t tnode, UInt_t ax1, UInt_t ax2)
155 // Draw node "node" and the data points within.
158 // This function creates some graphical objects
159 // but don't delete it. Abusing this function may cause memory leaks !
161 if(tnode < 0 || tnode >= GetNTNodes()){
162 Warning("DrawNode()", "Terminal node %d outside defined range.", tnode);
168 // select zone of interest in the indexes array
169 Int_t *index = GetPointsIndexes(tnode);
170 Int_t nPoints = (tnode == 2*fNNodes) ? fNPoints%fBucketSize : fBucketSize;
173 TGraph *g = new TGraph(nPoints);
174 g->SetMarkerStyle(7);
175 for(int ip = 0; ip<nPoints; ip++) g->SetPoint(ip, fData[ax1][index[ip]], fData[ax2][index[ip]]);
177 // draw estimation point
178 TKDNodeInfo *node = (TKDNodeInfo*)(*fNodes)[inode];
179 TMarker *m=new TMarker(node->Data()[ax1], node->Data()[ax2], 20);
180 m->SetMarkerColor(2);
181 m->SetMarkerSize(1.7);
184 Float_t *bounds = GetBoundary(tnode);
185 TBox *n = new TBox(bounds[2*ax1], bounds[2*ax2], bounds[2*ax1+1], bounds[2*ax2+1]);