#include <assert.h>
#ifdef WIN32
# include <float.h>
#endif
#include "RConfigure.h"
#include "Riosfwd.h"
#include "Riostream.h"
#include "TROOT.h"
#include "TBaseClass.h"
#include "TSystem.h"
#include "TBuffer.h"
#include "TMath.h"
#include "TClass.h"
#include "TBrowser.h"
#include "TString.h"
#include "TInterpreter.h"
#include "TDataSetIter.h"
#include "TTable.h"
#include "TTableDescriptor.h"
#include "TColumnView.h"
#include "TGaxis.h"
#include "TH1.h"
#include "TH2.h"
#include "TProfile.h"
#include "TVirtualPad.h"
#include "TEventList.h"
#include "TPolyMarker.h"
#include "TView.h"
#include "TGaxis.h"
#include "TPolyMarker3D.h"
#include "THLimitsFinder.h"
#include "TTableMap.h"
static TH1 *gCurrentTableHist = 0;
static const char *gDtorName = "dtor";
static Int_t gNbins[4] = {100,100,100,100};
static Float_t gVmin[4] = {0,0,0,0};
static Float_t gVmax[4] = {20,20,20,20};
const char *TTable::fgTypeName[] = {
"NAN", "float", "int", "long", "short", "double",
"unsigned int", "unsigned long","unsigned short",
"unsigned char", "char", "Ptr_t"
};
static void ArrayLayout(UInt_t *layout,const UInt_t *size, Int_t dim)
{
if (dim && layout && size) {
if (++layout[dim-1] >= size[dim-1]) {
layout[dim-1] = 0;
dim--;
ArrayLayout(layout,size, dim);
}
}
}
ClassImp(TTable)
TTableDescriptor *TTable::GetTableDescriptors() const {
assert(0);
return new TTableDescriptor(this);
}
void TTable::AsString(void *buf, EColumnType type, Int_t width,std::ostream &out) const
{
int prevPrec = out.precision();
const std::ios_base::fmtflags prevFmt = out.flags();
switch (type) {
case kFloat:
out << std::dec << std::setw(width) << std::setprecision(width-3) << *(float *)buf;
break;
case kInt:
out << std::dec << std::setw(width) << *(int *)buf;
break;
case kLong:
out << std::dec << std::setw(width) << *(Long_t *)buf;
break;
case kShort:
out << std::dec << std::setw(width) << *(short *)buf;
break;
case kDouble:
out << std::dec << std::setw(width) << std::setprecision(width-3) << *(double *)buf;
break;
case kUInt:
out << std::dec << std::setw(width) << *(unsigned int *)buf;
break;
case kULong:
out << std::dec << std::setw(width) << *(ULong_t *)buf;
break;
case kUShort:
out << std::setw(width) << "0x" << std::hex << *(unsigned short *)buf;
break;
case kUChar:
out << std::setw(width) << "0x" << std::hex << int(*(unsigned char *)buf);
break;
case kChar:
out << std::setw(width) << *(char *)buf;
break;
case kBool:
out << std::setw(width) << *(Bool_t *)buf;
break;
case kPtr:
out << "->" << std::setw(width) << *(void **)buf;
break;
default:
out << "\"NaN\"";
break;
};
out.precision(prevPrec);
out.setf(prevFmt);
}
const char *TTable::GetTypeName(TTable::EColumnType type)
{
return fgTypeName[type];
}
TTable::EColumnType TTable::GetTypeId(const char *typeName)
{
Int_t allTypes = sizeof(fgTypeName)/sizeof(const char *);
for (int i = 0; i < allTypes; i++)
if (!strcmp(fgTypeName[i],typeName)) return EColumnType(i);
return kNAN;
}
const void *TTable::At(Int_t i) const
{
if (!BoundsOk("TTable::At", i)) {
Warning("TTable::At","%s.%s",GetName(),GetType());
i = 0;
}
return (const void *)(fTable+i*fSize);
}
Int_t TTable::CopyRows(const TTable *srcTable, Long_t srcRow, Long_t dstRow, Long_t nRows, Bool_t expand)
{
assert(!TestBit(kIsNotOwn));
if (!(srcTable && srcTable->GetNRows()) || srcRow > srcTable->GetNRows()-1 ) return 0;
if (strcmp(GetType(),srcTable->GetType())) {
if (!nRows) nRows = srcTable->GetNRows();
Long_t tSize = GetTableSize();
Long_t extraRows = (tSize - dstRow) - nRows;
if (extraRows < 0) {
if (expand) {
ReAllocate(tSize - extraRows);
extraRows = 0;
}
nRows += extraRows;
}
if (dstRow+nRows > GetNRows()) SetNRows(dstRow+nRows);
::memmove((*this)[dstRow],(*srcTable)[srcRow],(size_t)GetRowSize()*nRows);
return nRows;
} else
Error("CopyRows",
"This table is <%s> but the src table has a wrong type <%s>",GetType()
,srcTable->GetType());
return 0;
}
void TTable::DeleteRows(Long_t indx, UInt_t nRows)
{
if (CopyRows(this, indx+nRows, indx, GetNRows()-indx-nRows))
SetUsedRows(GetNRows() - nRows);
}
TH1 *TTable::Draw(TCut varexp, TCut selection, Option_t *option, Int_t nentries, Int_t firstentry)
{
return TTable::Draw(varexp.GetTitle(), selection.GetTitle(), option, nentries, firstentry);
}
TH1 *TTable::Draw(const char *varexp00, const char *selection, Option_t *option,Int_t nentries, Int_t firstentry)
{
if (GetNRows() == 0 || varexp00 == 0 || varexp00[0]==0) return 0;
TString opt;
const char *hdefault = "htemp";
Int_t i,j,action;
Int_t hkeep = 0;
opt = option;
opt.ToLower();
char *varexp0 = StrDup(varexp00);
char *hname = strstr(varexp0,">>");
TH1 *oldh1 = 0;
TEventList *elist = 0;
Bool_t profile = kFALSE;
gCurrentTableHist = 0;
if (hname) {
*hname = 0;
hname += 2;
hkeep = 1;
i = strcspn(varexp0,">>");
Bool_t hnameplus = kFALSE;
while (*hname == ' ') hname++;
if (*hname == '+') {
hnameplus = kTRUE;
hname++;
while (*hname == ' ') hname++;
j = strlen(hname)-1;
while (j) {
if (hname[j] != ' ') break;
hname[j] = 0;
j--;
}
}
if (i) {
oldh1 = (TH1*)gDirectory->Get(hname);
if (oldh1 && !hnameplus) oldh1->Reset();
} else {
elist = (TEventList*)gDirectory->Get(hname);
if (!elist) {
elist = new TEventList(hname,selection,1000,0);
}
if (elist && !hnameplus) elist->Reset();
}
}
if (!hname || *hname==0) {
hkeep = 0;
if (gDirectory) {
oldh1 = (TH1*)gDirectory->Get(hdefault);
if (oldh1 ) { oldh1->Delete(); oldh1 = 0;}
}
}
const Char_t *expressions[] ={varexp0,0,0,0,selection};
Int_t maxExpressions = sizeof(expressions)/sizeof(Char_t *);
Char_t *nextColon = varexp0;
Int_t colIndex = 1;
while ((nextColon = strchr(nextColon,':')) && ( colIndex < maxExpressions - 1 ) ) {
*nextColon = 0;
nextColon++;
expressions[colIndex] = nextColon;
colIndex++;
}
expressions[colIndex] = selection;
Printf(" Draw %s for <%s>\n", varexp00, selection);
Char_t *exprFileName = MakeExpression(expressions,colIndex+1);
if (!exprFileName) {
delete [] varexp0;
return 0;
}
Int_t dimension = colIndex;
TString title = expressions[0];
for (i=1;i<colIndex;i++) {
title += ":";
title += expressions[i];
}
Int_t nsel = strlen(selection);
if (nsel > 1) {
if (nsel < 80-title.Length()) {
title += "{";
title += selection;
title += "}";
} else
title += "{...}";
}
const Char_t *htitle = title.Data();
if (oldh1) {
Int_t mustdelete = 0;
if (oldh1->InheritsFrom(TProfile::Class())) profile = kTRUE;
if (opt.Contains("prof")) {
if (!profile) mustdelete = 1;
} else {
if (oldh1->GetDimension() != dimension) mustdelete = 1;
}
if (mustdelete) {
Warning("Draw","Deleting old histogram with different dimensions");
delete oldh1; oldh1 = 0;
}
}
if (!gPad && !opt.Contains("goff") && dimension > 0) {
gROOT->MakeDefCanvas();
}
if (dimension == 1) {
action = 1;
if (!oldh1) {
gNbins[0] = 100;
if (gPad && opt.Contains("same")) {
TH1 *oldhtemp = (TH1*)gPad->FindObject(hdefault);
if (oldhtemp) {
gNbins[0] = oldhtemp->GetXaxis()->GetNbins();
gVmin[0] = oldhtemp->GetXaxis()->GetXmin();
gVmax[0] = oldhtemp->GetXaxis()->GetXmax();
} else {
gVmin[0] = gPad->GetUxmin();
gVmax[0] = gPad->GetUxmax();
}
} else {
action = -1;
}
}
TH1F *h1;
if (oldh1) {
h1 = (TH1F*)oldh1;
gNbins[0] = h1->GetXaxis()->GetNbins();
} else {
h1 = new TH1F(hname,htitle,gNbins[0],gVmin[0],gVmax[0]);
if (!hkeep) {
h1->SetBit(kCanDelete);
h1->SetDirectory(0);
}
if (opt.Length() && opt[0] == 'e') h1->Sumw2();
}
EntryLoop(exprFileName,action, h1, nentries, firstentry, option);
if (!opt.Contains("goff")) h1->Draw(option);
} else if (dimension == 2) {
action = 2;
if (!opt.Contains("same") && gPad) gPad->Clear();
if (!oldh1 || !opt.Contains("same")) {
gNbins[0] = 40;
gNbins[1] = 40;
if (opt.Contains("prof")) gNbins[1] = 100;
if (opt.Contains("same")) {
TH1 *oldhtemp = (TH1*)gPad->FindObject(hdefault);
if (oldhtemp) {
gNbins[1] = oldhtemp->GetXaxis()->GetNbins();
gVmin[1] = oldhtemp->GetXaxis()->GetXmin();
gVmax[1] = oldhtemp->GetXaxis()->GetXmax();
gNbins[0] = oldhtemp->GetYaxis()->GetNbins();
gVmin[0] = oldhtemp->GetYaxis()->GetXmin();
gVmax[0] = oldhtemp->GetYaxis()->GetXmax();
} else {
gNbins[1] = 40;
gVmin[1] = gPad->GetUxmin();
gVmax[1] = gPad->GetUxmax();
gNbins[0] = 40;
gVmin[0] = gPad->GetUymin();
gVmax[0] = gPad->GetUymax();
}
} else {
action = -2;
}
}
if (profile || opt.Contains("prof")) {
TProfile *hp;
if (oldh1) {
action = 4;
hp = (TProfile*)oldh1;
} else {
if (action < 0) action = -4;
if (opt.Contains("profs"))
hp = new TProfile(hname,htitle,gNbins[1],gVmin[1], gVmax[1],"s");
else
hp = new TProfile(hname,htitle,gNbins[1],gVmin[1], gVmax[1],"");
if (!hkeep) {
hp->SetBit(kCanDelete);
hp->SetDirectory(0);
}
}
EntryLoop(exprFileName,action,hp,nentries, firstentry, option);
if (!opt.Contains("goff")) hp->Draw(option);
} else {
TH2F *h2;
if (oldh1) {
h2 = (TH2F*)oldh1;
} else {
h2 = new TH2F(hname,htitle,gNbins[1],gVmin[1], gVmax[1], gNbins[0], gVmin[0], gVmax[0]);
if (!hkeep) {
const Int_t kNoStats = BIT(9);
h2->SetBit(kCanDelete);
h2->SetBit(kNoStats);
h2->SetDirectory(0);
}
}
Int_t noscat = strlen(option);
if (opt.Contains("same")) noscat -= 4;
if (noscat) {
EntryLoop(exprFileName,action,h2,nentries, firstentry, option);
if (!opt.Contains("goff")) h2->Draw(option);
} else {
action = 12;
if (!oldh1 && !opt.Contains("same")) action = -12;
EntryLoop(exprFileName,action,h2,nentries, firstentry, option);
if (oldh1 && !opt.Contains("goff")) h2->Draw(option);
}
}
} else if (dimension == 3) {
action = 13;
if (!opt.Contains("same")) action = -13;
EntryLoop(exprFileName,action,0,nentries, firstentry, option);
}
delete [] exprFileName;
delete [] varexp0;
return gCurrentTableHist;
}
static void FindGoodLimits(Int_t nbins, Int_t &newbins, Float_t &xmin, Float_t &xmax)
{
Double_t binlow=0,binhigh=0,binwidth=0;
Int_t n;
Double_t dx = 0.1*(xmax-xmin);
Double_t umin = xmin - dx;
Double_t umax = xmax + dx;
if (umin < 0 && xmin >= 0) umin = 0;
if (umax > 0 && xmax <= 0) umax = 0;
#if ROOT_VERSION_CODE >= ROOT_VERSION(3,03,5)
THLimitsFinder::Optimize(umin,umax,nbins,binlow,binhigh,n,binwidth,"");
#else
TGaxis::Optimize(umin,umax,nbins,binlow,binhigh,n,binwidth,"");
#endif
if (binwidth <= 0 || binwidth > 1.e+39) {
xmin = -1;
xmax = 1;
} else {
xmin = binlow;
xmax = binhigh;
}
newbins = nbins;
}
Bool_t TTable::EntryLoop(const Char_t *exprFileName,Int_t &action, TObject *obj
,Int_t nentries, Int_t firstentry, Option_t *option)
{
Double_t rmin[3],rmax[3];
if (gInterpreter->LoadFile((Char_t *)exprFileName) < 0) {
Error("EntryLoop","Error: loading file %s",exprFileName);
return kFALSE;
}
const Char_t *funcName = "SelectionQWERTY";
#ifdef BYTECODE
const Char_t *argtypes = "Float_t *,float **, int&, int& ";
Long_t offset;
G__ClassInfo globals;
G__MethodInfo func = globals.GetMethod(funcName,argtypes,&offset);
struct G__bytecodefunc *pbc = func.GetBytecode();
if(!pbc) {
Error("EntryLoop","Bytecode compilation %s",funcName);
G__unloadfile((Char_t *)exprFileName);
return kFALSE;
}
#endif
int i;
int nRows = GetNRows();
TTableDescriptor *tabsDsc = GetRowDescriptors();
tableDescriptor_st *descTable = tabsDsc->GetTable();
Float_t results[] = {1,1,1,1,1};
Char_t **addressArray = (Char_t **)new ULong_t[tabsDsc->GetNRows()];
Char_t *thisTable = (Char_t *)GetArray();
const Char_t *argtypes = "Float_t *,float **, int&, int& ";
Long_t offset;
ClassInfo_t *globals = gInterpreter->ClassInfo_Factory();
CallFunc_t *callfunc = gInterpreter->CallFunc_Factory();
gInterpreter->CallFunc_SetFunc(callfunc,globals,funcName,argtypes,&offset);
gInterpreter->CallFunc_SetArg(callfunc,(Long_t)(&results[0]));
gInterpreter->CallFunc_SetArg(callfunc,(Long_t)(addressArray));
gInterpreter->CallFunc_SetArg(callfunc,(Long_t)(&i));
gInterpreter->CallFunc_SetArg(callfunc,(Long_t)(&nRows));
#define CALLMETHOD gInterpreter->CallFunc_Exec(callfunc,0);
#define TAKEACTION_BEGIN \
descTable = tabsDsc->GetTable(); \
for (i=0; i < tabsDsc->GetNRows(); i++,descTable++ ) \
addressArray[i] = addressEntry + descTable->fOffset; \
for(i=firstentry;i<lastEntry;i++) { \
CALLMETHOD
#define TAKEACTION_END for (int j=0; j < tabsDsc->GetNRows(); j++ ) addressArray[j] += rSize;}
if (firstentry < nRows ) {
Long_t rSize = GetRowSize();
Char_t *addressEntry = thisTable + rSize*firstentry;
Int_t lastEntry = TMath::Min(UInt_t(firstentry+nentries),UInt_t(nRows));
if (action < 0) {
gVmin[0] = gVmin[1] = gVmin[2] = 1e30;
gVmax[0] = gVmax[1] = gVmax[2] = -gVmin[0];
}
Int_t nchans = 0;
switch ( action ) {
case -1: {
TAKEACTION_BEGIN
if (results[1]) {
if (gVmin[0] > results[0]) gVmin[0] = results[0];
if (gVmax[0] < results[0]) gVmax[0] = results[0];
}
TAKEACTION_END
nchans = gNbins[0];
if (gVmin[0] >= gVmax[0]) { gVmin[0] -= 1; gVmax[0] += 1;}
FindGoodLimits(nchans,gNbins[0],gVmin[0],gVmax[0]);
((TH1 *)obj)->SetBins(gNbins[0],gVmin[0],gVmax[0]);
}
case 1:
TAKEACTION_BEGIN
if (results[1]) ((TH1 *)obj)->Fill(Axis_t(results[0]),Stat_t(results[1]));
TAKEACTION_END
gCurrentTableHist = ((TH1 *)obj);
break;
case -2:
TAKEACTION_BEGIN
if (results[2]) {
if (gVmin[0] > results[1]) gVmin[0] = results[1];
if (gVmax[0] < results[1]) gVmax[0] = results[1];
if (gVmin[1] > results[0]) gVmin[1] = results[0];
if (gVmax[1] < results[0]) gVmax[1] = results[0];
}
TAKEACTION_END
nchans = gNbins[0];
if (gVmin[0] >= gVmax[0]) { gVmin[0] -= 1; gVmax[0] += 1;}
FindGoodLimits(nchans,gNbins[0],gVmin[0],gVmax[0]);
if (gVmin[1] >= gVmax[1]) { gVmin[1] -= 1; gVmax[1] += 1;}
FindGoodLimits(nchans,gNbins[1],gVmin[1],gVmax[1]);
((TH1*)obj)->SetBins(gNbins[1],gVmin[1],gVmax[1],gNbins[0],gVmin[0],gVmax[0]);
case 2:
if (obj->IsA() == TH2F::Class()) {
TAKEACTION_BEGIN
if (results[2]) ((TH2F*)obj)->Fill(Axis_t(results[0]),Axis_t(results[1]),Stat_t(results[2]));
TAKEACTION_END
} else if (obj->IsA() == TH2S::Class()) {
TAKEACTION_BEGIN
if (results[2]) ((TH2S*)obj)->Fill(Axis_t(results[0]),Axis_t(results[1]),Stat_t(results[2]));
TAKEACTION_END
} else if (obj->IsA() == TH2C::Class()) {
TAKEACTION_BEGIN
if (results[2]) ((TH2C*)obj)->Fill(Axis_t(results[0]),Axis_t(results[1]),Stat_t(results[2]));
TAKEACTION_END
} else if (obj->IsA() == TH2D::Class()) {
TAKEACTION_BEGIN
if (results[2]) ((TH2D*)obj)->Fill(Axis_t(results[0]),Axis_t(results[1]),Stat_t(results[2]));
TAKEACTION_END
}
gCurrentTableHist = ((TH1 *)obj);
break;
case -4:
TAKEACTION_BEGIN
if (results[2]) {
if (gVmin[0] > results[1]) gVmin[0] = results[1];
if (gVmax[0] < results[1]) gVmax[0] = results[1];
if (gVmin[1] > results[0]) gVmin[1] = results[0];
if (gVmax[1] < results[0]) gVmax[1] = results[0];
}
TAKEACTION_END
nchans = gNbins[1];
if (gVmin[1] >= gVmax[1]) { gVmin[1] -= 1; gVmax[1] += 1;}
FindGoodLimits(nchans,gNbins[1],gVmin[1],gVmax[1]);
((TProfile*)obj)->SetBins(gNbins[1],gVmin[1],gVmax[1]);
case 4:
TAKEACTION_BEGIN
if (results[2]) ((TProfile*)obj)->Fill(Axis_t(results[0]),Axis_t(results[1]),Stat_t(results[2]));
TAKEACTION_END
break;
case -12:
TAKEACTION_BEGIN
if (results[2]) {
if (gVmin[0] > results[1]) gVmin[0] = results[1];
if (gVmax[0] < results[1]) gVmax[0] = results[1];
if (gVmin[1] > results[0]) gVmin[1] = results[0];
if (gVmax[1] < results[0]) gVmax[1] = results[0];
}
TAKEACTION_END
nchans = gNbins[0];
if (gVmin[0] >= gVmax[0]) { gVmin[0] -= 1; gVmax[0] += 1;}
FindGoodLimits(nchans,gNbins[0],gVmin[0],gVmax[0]);
if (gVmin[1] >= gVmax[1]) { gVmin[1] -= 1; gVmax[1] += 1;}
FindGoodLimits(nchans,gNbins[1],gVmin[1],gVmax[1]);
((TH2F*)obj)->SetBins(gNbins[1],gVmin[1],gVmax[1],gNbins[0],gVmin[0],gVmax[0]);
case 12: {
if (!strstr(option,"same") && !strstr(option,"goff")) {
((TH2F*)obj)->DrawCopy(option);
gPad->Update();
}
Float_t *x = new Float_t[lastEntry-firstentry];
Float_t *y = new Float_t[lastEntry-firstentry];
Float_t u, v;
Float_t umin = gPad->GetUxmin();
Float_t umax = gPad->GetUxmax();
Float_t vmin = gPad->GetUymin();
Float_t vmax = gPad->GetUymax();
Int_t pointIndex = 0;
TAKEACTION_BEGIN
if (results[2]) {
u = gPad->XtoPad(results[0]);
v = gPad->YtoPad(results[1]);
if (u < umin) u = umin;
if (u > umax) u = umax;
if (v < vmin) v = vmin;
if (v > vmax) v = vmax;
x[pointIndex] = u;
y[pointIndex] = v;
pointIndex++;
}
TAKEACTION_END
if (pointIndex && !strstr(option,"goff")) {
TPolyMarker *pm = new TPolyMarker(pointIndex,x,y);
pm->Draw();
pm->SetBit(kCanDelete);
}
if (!((TH2F*)obj)->TestBit(kCanDelete))
if (pointIndex)
for(i=0;i<pointIndex;i++) ((TH2F*)obj)->Fill(x[i], y[i]);
delete [] x; delete [] y;
gCurrentTableHist = ((TH1*)obj);
}
break;
case -13:
TAKEACTION_BEGIN
if (results[3]) {
if (gVmin[0] > results[2]) gVmin[0] = results[2];
if (gVmax[0] < results[2]) gVmax[0] = results[2];
if (gVmin[1] > results[1]) gVmin[1] = results[1];
if (gVmax[1] < results[1]) gVmax[1] = results[1];
if (gVmin[2] > results[0]) gVmin[2] = results[0];
if (gVmax[2] < results[0]) gVmax[2] = results[0];
}
TAKEACTION_END
rmin[0] = gVmin[2]; rmin[1] = gVmin[1]; rmin[2] = gVmin[0];
rmax[0] = gVmax[2]; rmax[1] = gVmax[1]; rmax[2] = gVmax[0];
gPad->Clear();
gPad->Range(-1,-1,1,1);
TView::CreateView(1,rmin,rmax);
case 13: {
TPolyMarker3D *pm3d = new TPolyMarker3D(lastEntry-firstentry);
pm3d->SetBit(kCanDelete);
TAKEACTION_BEGIN
if (results[3]) pm3d->SetNextPoint(results[0],results[1],results[2]);
TAKEACTION_END
pm3d->Draw();
}
break;
default:
Error("EntryLoop","unknown action \"%d\" for table <%s>", action, GetName());
break;
};
}
gInterpreter->CallFunc_Delete(callfunc);
gInterpreter->ClassInfo_Delete(globals);
gInterpreter->UnloadFile((Char_t *)exprFileName);
delete [] addressArray;
return kTRUE;
}
TTable::TTable(const char *name, Int_t size) : TDataSet(name),
fSize(size),fN(0), fTable(0),fMaxIndex(0)
{
if (size == 0) Warning("TTable(0)","Wrong table format");
}
TTable::TTable(const char *name, Int_t n,Int_t size) : TDataSet(name),
fSize(size),fN(0),fTable(0),fMaxIndex(0)
{
if (n > 0) Set(n);
}
TTable::TTable(const char *name, Int_t n, Char_t *table,Int_t size) : TDataSet(name),
fSize(size),fN(0),fTable(0),fMaxIndex(0)
{
Set(n, table);
}
TTable::TTable(const char *name, const char *type, Int_t n, Char_t *array, Int_t size)
: TDataSet(name),fSize(size),fTable(0),fMaxIndex(0)
{
fTable = array;
SetType(type);
SetfN(n);
}
TTable::TTable(const TTable &table):TDataSet(table)
{
fTable = 0;
SetUsedRows(table.GetNRows());
fSize = table.GetRowSize();
SetfN(table.fN);
Set(table.fN, table.fTable);
}
TTable &TTable::operator=(const TTable &rhs)
{
if (strcmp(GetType(),rhs.GetType()) == 0) {
if (this != &rhs && rhs.GetNRows() >0 ){
Set(rhs.GetNRows(), rhs.fTable);
SetUsedRows(rhs.GetNRows());
}
} else
Error("operator=","Can not copy <%s> table into <%s> table", rhs.GetType(),GetType());
return *this;
}
TTable::~TTable()
{
Delete();
}
void TTable::Adopt(Int_t n, void *arr)
{
Clear();
SetfN(n); SetUsedRows(n);
fTable = (char *)arr;
}
Int_t TTable::AddAt(const void *row)
{
Int_t gap = GetTableSize() - GetNRows();
if (gap < 1) ReAllocate(GetTableSize() + TMath::Max(1,Int_t(0.3*GetTableSize())));
Int_t indx = GetNRows();
AddAt(row,indx);
return indx;
}
void TTable::AddAt(const void *row, Int_t i)
{
if (!BoundsOk("TTable::AddAt", i))
i = 0;
if (row) memcpy(fTable+i*fSize,row,fSize);
else memset(fTable+i*fSize,127,fSize);
SetUsedRows(TMath::Max((Int_t)i+1,Int_t(fMaxIndex)));
}
void TTable::CopyStruct(Char_t *dest, const Char_t *src)
{
::memcpy(dest,src,fSize*fN);
}
void TTable::CopySet(TTable &array)
{
array.Set(fN);
CopyStruct(array.fTable,fTable);
}
const Char_t *TTable::GetColumnComment(Int_t columnIndex) const {
TDataSetIter nextComment(GetRowDescriptors()->MakeCommentField(kFALSE));
TDataSet *nxc = 0;
for (int i=0; i<= columnIndex; i++) nxc = nextComment();
return nxc ? nxc->GetTitle() : 0;
}
Long_t TTable::AppendRows(const void *row, UInt_t nRows)
{
if (!TestBit(kIsNotOwn) && row && nRows ) {
Int_t indx = GetNRows();
ReAllocate(nRows);
::memmove(fTable+indx*fSize,row,fSize*nRows);
}
return TestBit(kIsNotOwn) ? 0 : GetSize();
}
Long_t TTable::InsertRows(const void *row, Long_t indx, UInt_t nRows)
{
Long_t nShifted = 0;
if (nRows > 0) {
nShifted = CopyRows(this, indx, indx+nRows, GetNRows()+nRows);
::memmove(fTable+indx*fSize,row,fSize*nRows);
}
return nShifted;
}
void *TTable::ReAllocate()
{
ReAlloc(GetNRows()+1);
return (void *)fTable;
}
void *TTable::ReAllocate(Int_t newsize)
{
if (newsize > fN) ReAlloc(newsize);
return (void *)fTable;
}
void TTable::ReAlloc(Int_t newsize)
{
if (!TestBit(kIsNotOwn) && newsize > 0) {
void *arr = 0;
Int_t sleepCounter = 0;
while (!(arr = realloc(fTable,fSize*newsize))) {
sleepCounter++;
Warning("ReAlloc",
"Not enough memory to Reallocate %d bytes for table <%s::%s>. Please cancel some jobs",
newsize, GetType(),GetName());
gSystem->Sleep(1000*600);
if (sleepCounter > 30) {
Error("ReAlloc","I can not wait anymore. Good bye");
assert(0);
}
}
SetfN(newsize);
fTable = (char *)arr;
}
}
Char_t *TTable::Create()
{
if (!fTable) {
void *ptr = 0;
Int_t sleepCounter = 0;
while (!(ptr = malloc(fSize*fN))) {
sleepCounter++;
Warning("Create",
"Not enough memory to allocate %d rows for table <%s::%s>. Please cancel some jobs",
fN, GetType(),GetName());
gSystem->Sleep(1000*600);
if (sleepCounter > 30){
Error("Create","I can not wait anymore. Good bye");
assert(0);
}
}
fTable = (Char_t *)ptr;
memset(fTable,0,fSize*fN);
}
return fTable;
}
void TTable::Browse(TBrowser *b){
if (!b) return;
TDataSet::Browse(b);
Int_t nrows = TMath::Min(Int_t(GetNRows()),6);
if (nrows == 0) nrows = 1;
Print(0,nrows);
UInt_t nCol = GetNumberOfColumns();
for (UInt_t i = 0;i<nCol;i++){
TColumnView *view = 0;
UInt_t nDim = GetDimensions(i);
const Char_t *colName = GetColumnName(i);
if (!nDim) {
if( GetColumnType(i)== kPtr) {
UInt_t offset = GetOffset(i);
TTableMap *m = *(TTableMap **)(((char *)GetArray())+offset);
if (m) {
TString nameMap = "*";
nameMap += m->Table()->GetName();
b->Add(m,nameMap.Data());
}
} else {
view = new TColumnView(GetColumnName(i),this);
view->SetBit(kCanDelete);
b->Add(view,view->GetName());
}
} else {
const UInt_t *indx = GetIndexArray(i);
UInt_t totalSize = 1;
UInt_t k;
for (k=0;k<nDim; k++) totalSize *= indx[k];
for (k=0;k<totalSize;k++) {
TString buffer;
buffer.Form("%s[%d]",colName,k);
view = new TColumnView(buffer,this);
view->SetBit(kCanDelete);
b->Add(view,view->GetName());
}
}
}
}
void TTable::Clear(Option_t *opt)
{
if (!fTable) return;
Bool_t dtor = kFALSE;
dtor = opt && (strcmp(opt,gDtorName)==0);
if (!opt || !opt[0] || dtor ) {
if (! TestBit(kIsNotOwn)) {
if (!dtor) ResetMap();
free(fTable);
}
fTable = 0;
fMaxIndex = 0;
SetfN(0);
return;
}
}
void TTable::Delete(Option_t *opt)
{
Clear(gDtorName);
TDataSet::Delete(opt);
}
TClass *TTable::GetRowClass() const
{
TClass *cl = 0;
TTableDescriptor *dsc = GetRowDescriptors();
if (dsc) cl = dsc->RowClass();
else Error("GetRowClass()","Table descriptor of <%s::%s> table lost",
GetName(),GetType());
return cl;
}
Long_t TTable::GetNRows() const {
return fMaxIndex;
}
Long_t TTable::GetRowSize() const {
return fSize;
}
Long_t TTable::GetTableSize() const {
return fN;
}
void TTable::Fit(const char *formula ,const char *varexp, const char *selection,Option_t *option ,Option_t *goption,Int_t nentries, Int_t firstentry)
{
TString opt(option);
opt += "goff";
Draw(varexp,selection,opt,nentries,firstentry);
TH1 *hfit = gCurrentTableHist;
if (hfit) {
Printf("hname=%s, formula=%s, option=%s, goption=%s\n",hfit->GetName(),formula,option,goption);
Bool_t canDeleteBit = hfit->TestBit(kCanDelete);
if (canDeleteBit) hfit->ResetBit(kCanDelete);
hfit->Fit(formula,option,goption);
if (TestBit(canDeleteBit)) hfit->SetBit(kCanDelete);
}
else Printf("ERROR hfit=0\n");
}
const Char_t *TTable::GetType() const
{
return GetTitle();
}
Bool_t TTable::IsFolder() const {
return kTRUE;
#if 0
return
(fList && fList->Last() ? kTRUE : kFALSE)
||
(GetNRows() > 0);
#endif
}
Int_t TTable::NaN()
{
EColumnType code;
char const *cell,*colname,*table;
double word;
int icol,irow,colsize,wordsize,nwords,iword,nerr,offset;
TTableDescriptor *rowDes = GetRowDescriptors();
assert(rowDes!=0);
table = (const char*)GetArray();
int ncols = rowDes->GetNumberOfColumns();
int lrow = GetRowSize();
int nrows = GetNRows ();
nerr =0;
for (icol=0; icol < ncols; icol++) {
code = rowDes->GetColumnType(icol);
if (code!=kFloat && code!=kDouble) continue;
offset = rowDes->GetOffset (icol);
colsize = rowDes->GetColumnSize(icol);
wordsize = rowDes->GetTypeSize (icol);
nwords = colsize/wordsize;
for (irow=0; irow < nrows; irow++) {
cell = table + offset + irow*lrow;
for (iword=0;iword<nwords; iword++,cell+=wordsize) {
word = (code==kDouble) ? *(double*)cell : *(float*)cell;
if (TMath::Finite(word)) continue;
nerr++; colname = rowDes->GetColumnName(icol);
Warning("NaN"," Table %s.%s.%d\n",GetName(),colname,irow);
}
}
}
return nerr;
}
TTable *TTable::New(const Char_t *name, const Char_t *type, void *array, UInt_t size)
{
TTable *table = 0;
if (type && name) {
TString tableType(type);
TString t = tableType.Strip();
TString classname("St_");
classname += t;
TClass *cl = TClass::GetClass(classname);
if (cl) {
table = (TTable *)cl->New();
if (table) {
table->SetTablePointer(array);
table->SetName(name);
table->SetfN(size);
table->SetUsedRows(size);
}
}
}
return table;
}
Bool_t TTable::OutOfBoundsError(const char *where, Int_t i) const
{
Error(where, "index %d out of bounds (size: %d, this: 0x%lx)", i, fN, (Long_t)this);
return kFALSE;
}
Char_t *TTable::Print(Char_t *strbuf,Int_t lenbuf) const
{
Int_t iOut = 0;
TTableDescriptor *dscT = GetRowDescriptors();
if (!dscT ) {
Error("Print"," No dictionary entry for <%s> structure", GetTitle());
if (lenbuf>0) iOut += snprintf(strbuf,lenbuf," *** Errror ***");
return strbuf;
}
TROOT::IndentLevel();
if (lenbuf>0) {
Char_t *typenam = new Char_t [strlen(dscT->GetName())+1];
strlcpy(typenam,dscT->GetName(),strlen(dscT->GetName())+1);
Char_t *last = strrchr(typenam,'_');
Char_t *eon = 0;
if (last) eon = strstr(last,"_st");
if (eon) *eon = '\0';
iOut += snprintf(strbuf+iOut,lenbuf-iOut,"struct %s {",typenam);
delete [] typenam;
} else {
std::cout << "struct " << dscT->GetName() << " {" << std::endl;
}
TTableDescriptor::iterator dsc = dscT->begin();
TTableDescriptor::iterator dscE = dscT->end();
TDataSetIter nextComment(dscT->MakeCommentField(kFALSE));
for (;dsc != dscE; dsc++) {
TROOT::IndentLevel();
TString name = GetTypeName(EColumnType((*dsc).fType));
if (lenbuf>0) {
name.ReplaceAll("unsigned char","octet");
name.ReplaceAll("int","long");
iOut += snprintf(strbuf+iOut,lenbuf-iOut," %s %s",name.Data(),(*dsc).fColumnName);
} else
std::cout << '\t'<< name.Data() << '\t'<< (*dsc).fColumnName;
Int_t indx;
Int_t dim = (*dsc).fDimensions;
for (indx = 0; indx < dim; indx++) {
if (lenbuf>0)
iOut += snprintf(strbuf+iOut,lenbuf-iOut,"[%d]",(*dsc).fIndexArray[indx]);
else
std::cout << "[" << std::dec << (*dsc).fIndexArray[indx]<<"]";
}
TDataSet *nxc = nextComment();
if (lenbuf>0)
iOut += snprintf(strbuf+iOut,lenbuf-iOut, ";");
else {
const char *title = nxc ? nxc->GetTitle() : " ";
std::cout << ";\t//" << title << std::endl;
}
}
TROOT::IndentLevel();
if (lenbuf>0)
iOut += snprintf(strbuf+iOut,lenbuf-iOut, "}");
else
std::cout << "}" << std::endl;
return strbuf;
}
const Char_t *TTable::PrintHeader() const
{
std::cout << std::endl << " ---------------------------------------------------------------------------------------" << std::endl
<< " " << Path()
<<" Allocated rows: "<<fN
<<"\t Used rows: "<<fMaxIndex
<<"\t Row size: " << fSize << " bytes"
<<std::endl;
return 0;
}
const Char_t *TTable::Print(Int_t row, Int_t rownumber, const Char_t *, const Char_t *) const
{
Int_t const width = 8;
Int_t rowStep = 10;
Int_t rowNumber = rownumber;
if (row > Int_t(GetSize()) || GetSize() == UInt_t(0)) {
PrintHeader();
std::cout << " ======================================================================================" << std::endl
<< " There are " << GetSize() << " allocated rows for this table only" << std::endl
<< " ======================================================================================" << std::endl;
return 0;
}
if (rowNumber > Int_t(GetSize()-row)) rowNumber = GetSize()-row;
if (!rowNumber) return 0;
rowStep = TMath::Min(rowStep,rowNumber);
Int_t cdate = 0;
Int_t ctime = 0;
UInt_t *cdatime = 0;
Bool_t isdate = kFALSE;
TTableDescriptor *dscT = GetRowDescriptors();
if (!dscT ) return 0;
const Char_t *startRow = (const Char_t *)GetArray() + row*GetRowSize();
Int_t rowCount = rowNumber;
Int_t thisLoopLenth = 0;
const Char_t *nextRow = 0;
while (rowCount) {
PrintHeader();
if (GetNRows() == 0) {
std::cout << " ======================================================================================" << std::endl
<< " There is NO filled row in this table" << std::endl
<< " ======================================================================================" << std::endl;
return 0;
}
std::cout << " Table: " << dscT->GetName()<< "\t";
for (Int_t j = row+rowNumber-rowCount; j<row+rowNumber-rowCount+rowStep && j < row+rowNumber ;j++) {
Int_t hW = width-2;
if (j>=10) hW -= (int)TMath::Log10(float(j))-1;
std::cout << std::setw(hW) << "["<<j<<"]";
std::cout << " :" ;
}
std::cout << std::endl
<< " ======================================================================================" << std::endl;
TTableDescriptor::iterator member = dscT->begin();
TTableDescriptor::iterator dscE = dscT->end();
TDataSetIter nextComment(dscT->MakeCommentField(kFALSE));
for (; member != dscE; member++){
TString membertype = GetTypeName(EColumnType((*member).fType));
isdate = kFALSE;
if (strcmp((*member).fColumnName,"fDatime") == 0 && EColumnType((*member).fType) == kUInt)
isdate = kTRUE;
std::cout << membertype.Data();
Int_t dim = (*member).fDimensions;
Int_t indx = 0;
UInt_t *arrayLayout = 0;
if (dim) {
arrayLayout = new UInt_t[dim];
memset(arrayLayout,0,dim*sizeof(Int_t));
}
Int_t arrayLength = 1;
while (indx < dim ){
arrayLength *= (*member).fIndexArray[indx];
indx++;
}
Int_t offset = (*member).fOffset;
Int_t thisStepRows;
thisLoopLenth = TMath::Min(rowCount,rowStep);
Int_t indexOffset;
Bool_t breakLoop = kFALSE;
for (indexOffset=0; indexOffset < arrayLength && !breakLoop; indexOffset++) {
nextRow = startRow;
if (!indexOffset) std::cout << "\t" << (*member).fColumnName;
else std::cout << "\t" << std::setw(strlen((*member).fColumnName)) << " ";
if (dim) {
for (Int_t i=0;i<dim;i++) std::cout << "["<<std::dec<<arrayLayout[i]<<"]";
ArrayLayout(arrayLayout,(*member).fIndexArray,dim);
}
std::cout << "\t";
if ( strlen((*member).fColumnName)+3*dim < 8) std::cout << "\t";
for (thisStepRows = 0;thisStepRows < thisLoopLenth; thisStepRows++,nextRow += GetRowSize()) {
const char *pointer = nextRow + offset + indexOffset*(*member).fTypeSize;
if (isdate) {
cdatime = (UInt_t*)pointer;
TDatime::GetDateTime(cdatime[0],cdate,ctime);
std::cout << cdate << "/" << ctime;
} else if ((*member).fType == kChar && dim == 1) {
char charbuffer[11];
strlcpy(charbuffer,pointer,TMath::Min(10,arrayLength)+1);
charbuffer[10] = 0;
std::cout << "\"" << charbuffer;
if (arrayLength > 10)
std::cout << " . . . ";
std::cout << "\"";
breakLoop = kTRUE;
} else {
AsString((void *)pointer,EColumnType((*member).fType),width,std::cout);
std::cout << " :";
}
}
if (indexOffset==0) {
TDataSet *nxc = nextComment();
std::cout << " " << (const char *)(nxc ? nxc->GetTitle() : "no comment");
}
std::cout << std::endl;
}
if (arrayLayout) delete [] arrayLayout;
}
rowCount -= thisLoopLenth;
startRow = nextRow;
}
std::cout << "---------------------------------------------------------------------------------------" << std::endl;
return 0;
}
void TTable::PrintContents(Option_t *) const
{
TDataSet::PrintContents();
TROOT::IndentLevel();
Printf("\tclass %s: public TTable\t --> Allocated rows: %d\t Used rows: %d\t Row size: %d bytes\n",
IsA()->GetName(),int(fN),int(fMaxIndex),int(fSize));
}
void TTable::Project(const char *hname, const char *varexp, const char *selection, Option_t *option,Int_t nentries, Int_t firstentry)
{
TString var;
var.Form("%s>>%s",varexp,hname);
TString opt(option);
opt += "goff";
Draw(var,selection,opt,nentries,firstentry);
}
Int_t TTable::Purge(Option_t *opt)
{
ReAllocate();
return TDataSet::Purge(opt);
}
void TTable::SavePrimitive(std::ostream &out, Option_t * )
{
UInt_t arrayLayout[10],arraySize[10];
const unsigned char *pointer=0,*startRow=0;
int i,rowCount;unsigned char ic;
out << "TDataSet *CreateTable() { " << std::endl;
Int_t rowNumber = GetNRows();
TTableDescriptor *dscT = GetRowDescriptors();
if (!rowNumber || !dscT ) {
out << "// The output table was bad-defined!" << std::endl
<< " fprintf(stderr, \"Bad table found. Please remove me\\n\");" << std::endl
<< " return 0; } " << std::endl;
return;
}
startRow = (const UChar_t *)GetArray();
assert(startRow!=0);
const Char_t *rowId = "row";
const Char_t *tableId = "tableSet";
const char *className = IsA()->GetName();
out << "// -----------------------------------------------------------------" << std::endl;
out << "// " << Path()
<< " Allocated rows: "<< rowNumber
<<" Used rows: "<< rowNumber
<<" Row size: " << fSize << " bytes" << std::endl;
out << "// " << " Table: " << dscT->GetName()<<"[0]--> "
<< dscT->GetName()<<"["<<rowNumber-1 <<"]" << std::endl;
out << "// ====================================================================" << std::endl;
out << "// ------ Test whether this table share library was loaded ------" << std::endl;
out << " if (!TClass::GetClass(\"" << className << "\")) return 0;" << std::endl;
out << dscT->GetName() << " " << rowId << ";" << std::endl
<< className << " *" << tableId << " = new "
<< className
<< "(\""<<GetName()<<"\"," << GetNRows() << ");" << std::endl
<< "//" <<std::endl ;
TDataSetIter nextComment(dscT->MakeCommentField(kFALSE));
for (rowCount=0;rowCount<rowNumber; rowCount++,startRow += fSize, nextComment.Reset()) {
out << "memset(" << "&" << rowId << ",0," << tableId << "->GetRowSize()" << ");" << std::endl ;
TTableDescriptor::iterator member = dscT->begin();
TTableDescriptor::iterator dscE = dscT->end();
for (; member != dscE; member++) {
TString memberType = GetTypeName(EColumnType((*member).fType));
TString memberName((*member).fColumnName);
TDataSet *nxc = nextComment();
TString memberTitle(nxc ? nxc->GetTitle() : "no comment");
Int_t offset = (*member).fOffset;
int mayBeName = 0;
if (memberName.Index("name",0,TString::kIgnoreCase)>=0) mayBeName=1999;
if (memberName.Index("file",0,TString::kIgnoreCase)>=0) mayBeName=1999;
int typeSize = (*member).fTypeSize;
Int_t dim = (*member).fDimensions;
if (dim) memset(arrayLayout,0,dim*sizeof(Int_t));
Int_t arrayLength = 1;
for (int indx=0;indx < dim ;indx++){
arraySize[indx] = (*member).fIndexArray[indx];;
arrayLength *= arraySize[indx];
}
int charLen = (memberType.CompareTo("char")==0);
if (charLen) {
charLen=arrayLength;
pointer = startRow + offset;
if (mayBeName) {
charLen = strlen((const char*)pointer)+1;
if (charLen>arrayLength) charLen = arrayLength;
} else {
for(;charLen && !pointer[charLen-1];charLen--){;}
if (!charLen) charLen=1;
}
out << " memcpy(&" << rowId << "." << (const char*)memberName;
out << ",\"";
for (int ii=0; ii<charLen;ii++) {
ic = pointer[ii];
if (ic && (isalnum(ic)
|| strchr("!#$%&()*+-,./:;<>=?@{}[]_|~",ic))) {
out << ic;
} else {
out << "\\x" << std::setw(2) << std::setfill('0') << std::hex << (unsigned)ic ;
out << std::setw(1) << std::setfill(' ') << std::dec;
}
}
out << "\"," << std::dec << charLen << ");";
out << "// " << (const char*)memberTitle << std::endl;
continue;
}
Int_t indexOffset;
for (indexOffset=0; indexOffset < arrayLength ; indexOffset++) {
out << std::setw(3) << " " ;
out << " " << rowId << "." << (const char*)memberName;
if (dim) {
for (i=0;i<dim;i++) {out << "["<<std::dec<<arrayLayout[i]<<"]";}
ArrayLayout(arrayLayout,arraySize,dim);}
out << "\t = ";
pointer = startRow + offset + indexOffset*typeSize;
AsString((void *)pointer,EColumnType((*member).fType),10,out);
if (indexOffset==0) out << "; // " << (const char*)memberTitle;
out << ";" << std::endl;
}
}
out << tableId << "->AddAt(&" << rowId <<");" << std::endl;
}
out << "// ----------------- end of code ---------------" << std::endl
<< " return (TDataSet *)tableSet;" << std::endl
<< "}" << std::endl;
return;
}
void TTable::Set(Int_t n)
{
if (n < 0) return;
if (fN != n) Clear();
SetfN(n);
if (fN == 0) return;
Create();
if (TTable::GetNRows()) Reset();
}
void TTable::SetTablePointer(void *table)
{
if (fTable) free(fTable);
fTable = (Char_t *)table;
}
void TTable::SetType(const char *const type)
{
SetTitle(type);
}
static Char_t *GetExpressionFileName()
{
const Char_t *tempDirs = gSystem->Getenv("TEMP");
if (!tempDirs) tempDirs = gSystem->Getenv("TMP");
if (!tempDirs) tempDirs = "/tmp";
if (gSystem->AccessPathName(tempDirs)) tempDirs = ".";
if (gSystem->AccessPathName(tempDirs)) return 0;
TString fileName;
fileName.Form("Selection.C.%d.tmp",gSystem->GetPid());
return gSystem->ConcatFileName(tempDirs,fileName.Data());
}
Char_t *TTable::MakeExpression(const Char_t *expressions[],Int_t nExpressions)
{
const Char_t *typeNames[] = {"NAN","float", "int", "long", "short", "double"
,"unsigned int","unsigned long", "unsigned short","unsigned char"
,"char", "TTableMap &"};
const char *resID = "results";
const char *addressID = "address";
Char_t *fileName = GetExpressionFileName();
if (!fileName) {
Error("MakeExpression","Can not create a temporary file");
return 0;
}
std::ofstream str;
str.open(fileName);
if (str.bad() ) {
Error("MakeExpression","Can not open the temporary file <%s>",fileName);
delete [] fileName;
return 0;
}
TTableDescriptor *dsc = GetRowDescriptors();
const tableDescriptor_st *descTable = dsc->GetTable();
str << "void SelectionQWERTY(float *"<<resID<<", float **"<<addressID<< ", int& i$, int& n$ )" << std::endl;
str << "{" << std::endl;
int i = 0;
for (i=0; i < dsc->GetNRows(); i++,descTable++ ) {
const Char_t *columnName = descTable->fColumnName;
const Char_t *type = 0;
for (Int_t exCount = 0; exCount < nExpressions; exCount++) {
if (expressions[exCount] && expressions[exCount][0] && strstr(expressions[exCount],columnName)) goto LETSTRY;
}
continue;
LETSTRY:
Bool_t isScalar = !(descTable->fDimensions);
Bool_t isFloat = descTable->fType == kFloat;
type = typeNames[descTable->fType];
str << type << " ";
if (!isScalar) str << "*";
str << columnName << " = " ;
if (isScalar) str << "*(";
if (!isFloat) str << "(" << type << "*)";
str << addressID << "[" << i << "]";
if (isScalar) str << ")" ;
str << ";" << std::endl;
}
for (i=0; i < nExpressions; i++ ) {
if (expressions[i] && expressions[i][0])
str << " "<<resID<<"["<<i<<"]=(float)(" << expressions[i] << ");" << std::endl;
};
str << "}" << std::endl;
str.close();
if (str.good()) return fileName;
delete [] fileName;
return 0;
}
void TTable::Reset(Int_t c)
{
if (fTable) {
ResetMap(kTRUE);
::memset(fTable,c,fSize*fN);
if (c) ResetMap(kFALSE);
}
}
void TTable::ResetMap(Bool_t wipe)
{
piterator links = pbegin();
piterator lastLinks = pend();
for (;links != lastLinks;links++) {
TTableMap **mp = (TTableMap **)(*links);
if (wipe) delete *mp;
*mp = 0;
}
}
void TTable::Set(Int_t n, Char_t *array)
{
if (n < 0) return;
if (fN < n) Clear();
SetfN(n);
if (fN == 0) return;
Create();
CopyStruct(fTable,array);
fMaxIndex = n;
}
void TTable::StreamerTable(TBuffer &b,Version_t version)
{
if (b.IsReading()) {
TDataSet::Streamer(b);
b >> fN;
StreamerHeader(b,version);
Set(fMaxIndex);
} else {
TDataSet::Streamer(b);
b << fN;
StreamerHeader(b,version);
}
}
void TTable::StreamerHeader(TBuffer &b, Version_t version)
{
if (b.IsReading()) {
Long_t rbytes;
if (version) { }
#ifdef __STAR__
if (version < 3) {
long len = b.Length() + (20+4) + (20+4) + 4;
b.SetBufferOffset(len);
}
#endif
b >> fMaxIndex;
b >> rbytes;
if (GetRowSize() == -1) fSize = rbytes;
if (rbytes - GetRowSize()) {
Warning("StreamerHeader","Schema evolution warning: row size mismatch: expected %ld, read %ld bytes\n",GetRowSize(),rbytes);
}
#ifdef __STAR__
if (version < 3) {
long len = b.Length() + (4) + (4);
b.SetBufferOffset(len);
}
#endif
} else {
b << fMaxIndex;
b << fSize;
}
}
Int_t TTable::SetfN(Long_t len)
{
fN = len;
return fN;
}
#ifdef StreamElelement
#define __StreamElelement__ StreamElelement
#undef StreamElelement
#endif
#define StreamElementIn(type) case TTableDescriptor::_NAME2_(k,type): \
if (evolutionOn) { \
if (nextCol->fDimensions) { \
if (nextCol->fOffset != UInt_t(-1)) { \
R__b.ReadFastArray((_NAME2_(type,_t) *)(row+nextCol->fOffset),nextCol->fSize/sizeof(_NAME2_(type,_t))); \
} else { \
_NAME2_(type,_t) *readPtrV = new _NAME2_(type,_t)[nextCol->fSize/sizeof(_NAME2_(type,_t))]; \
R__b.ReadFastArray((_NAME2_(type,_t) *)(row+nextCol->fOffset),nextCol->fSize/sizeof(_NAME2_(type,_t))); \
delete [] readPtrV; \
readPtrV = 0; \
} \
} \
else { \
_NAME2_(type,_t) skipBuffer; \
_NAME2_(type,_t) *readPtr = (_NAME2_(type,_t) *)(row+nextCol->fOffset); \
if (nextCol->fOffset == UInt_t(-1)) readPtr = &skipBuffer; \
R__b >> *readPtr; \
} \
} else { \
if (nextCol->fDimensions) { \
R__b.ReadFastArray ((_NAME2_(type,_t) *)(row+nextCol->fOffset),nextCol->fSize/sizeof(_NAME2_(type,_t))); \
} else \
R__b >> *(_NAME2_(type,_t) *)(row+nextCol->fOffset); \
} \
break
#define StreamElementOut(type) case TTableDescriptor::_NAME2_(k,type): \
if (nextCol->fDimensions) \
R__b.WriteFastArray((_NAME2_(type,_t) *)(row+nextCol->fOffset), nextCol->fSize/sizeof(_NAME2_(type,_t))); \
else \
R__b << *(_NAME2_(type,_t) *)(row+nextCol->fOffset); \
break
TTableDescriptor *TTable::GetRowDescriptors() const
{
TTableDescriptor *dsc = 0;
if (IsA()) dsc = GetDescriptorPointer();
if (!dsc) {
Error("GetRowDescriptors()","%s has no dictionary !",GetName());
dsc = GetTableDescriptors();
((TTableDescriptor *)this)->SetDescriptorPointer(dsc);
}
return dsc;
}
TTableDescriptor *TTable::GetDescriptorPointer() const
{
assert(0);
return 0;
}
void TTable::SetDescriptorPointer(TTableDescriptor *)
{
assert(0);
}
void TTable::Streamer(TBuffer &R__b)
{
TTableDescriptor *ioDescriptor = GetRowDescriptors();
TTableDescriptor *currentDescriptor = ioDescriptor;
Version_t R__v = 0;
if (R__b.IsReading()) {
R__v = R__b.ReadVersion();
Bool_t evolutionOn = kFALSE;
if (R__v>=2) {
if (IsA() != TTableDescriptor::Class()) {
if (R__v>3) {
R__b >> ioDescriptor;
} else {
ioDescriptor = new TTableDescriptor();
ioDescriptor->Streamer(R__b);
}
if (!currentDescriptor) {
currentDescriptor = ioDescriptor;
SetDescriptorPointer(currentDescriptor);
}
if (currentDescriptor->fSecondDescriptor != ioDescriptor) {
delete currentDescriptor->fSecondDescriptor;
currentDescriptor->fSecondDescriptor = ioDescriptor;
}
evolutionOn = (Bool_t)ioDescriptor->UpdateOffsets(currentDescriptor);
}
}
TTable::StreamerTable(R__b,R__v);
if (fMaxIndex <= 0) return;
char *row= fTable;
Int_t maxColumns = ioDescriptor->NumberOfColumns();
Int_t rowSize = GetRowSize();
if (evolutionOn) Reset(0);
for (Int_t indx=0;indx<fMaxIndex;indx++,row += rowSize) {
tableDescriptor_st *nextCol = ioDescriptor->GetTable();
for (Int_t colCounter=0; colCounter < maxColumns; colCounter++,nextCol++) {
switch(nextCol->fType) {
StreamElementIn(Float);
StreamElementIn(Int);
StreamElementIn(Long);
StreamElementIn(Short);
StreamElementIn(Double);
StreamElementIn(UInt);
StreamElementIn(ULong);
StreamElementIn(UChar);
StreamElementIn(Char);
StreamElementIn(Bool);
case TTableDescriptor::kPtr: {
Ptr_t readPtr;
R__b >> readPtr;
if (evolutionOn) {
if (nextCol->fOffset == UInt_t(-1)) delete readPtr;
else *(Ptr_t *)(row+nextCol->fOffset) = readPtr;
} else {
*(Ptr_t *)(row+nextCol->fOffset) = readPtr;
}
break;
}
default:
break;
};
}
}
} else {
TSeqCollection *save = fList;
R__b.WriteVersion(TTable::IsA());
if (IsA() != TTableDescriptor::Class()) {
if ( Class_Version()>3 ) {
R__b << ioDescriptor;
} else {
ioDescriptor->Streamer(R__b);
}
} else {
if ( Class_Version()<=3 ) fList = 0;
}
TTable::StreamerTable(R__b);
if (fMaxIndex <= 0) return;
char *row= fTable;
Int_t maxColumns = ioDescriptor->NumberOfColumns();
Int_t rowSize = GetRowSize();
for (Int_t indx=0;indx<fMaxIndex;indx++,row += rowSize) {
tableDescriptor_st *nextCol = ioDescriptor->GetTable();
for (Int_t colCounter=0; colCounter < maxColumns; colCounter++,nextCol++) {
switch(nextCol->fType) {
StreamElementOut(Float);
StreamElementOut(Int);
StreamElementOut(Long);
StreamElementOut(Short);
StreamElementOut(Double);
StreamElementOut(UInt);
StreamElementOut(ULong);
StreamElementOut(UChar);
StreamElementOut(Char);
StreamElementOut(Bool);
case TTableDescriptor::kPtr:
R__b << *(Ptr_t *)(row+nextCol->fOffset);
break;
default:
break;
};
}
}
fList = save;
}
}
#ifdef __StreamElelement__
#define StreamElelement __StreamElelement__
#undef __StreamElelement__
#endif
void TTable::Update()
{
}
void TTable::Update(TDataSet *set, UInt_t opt)
{
if (set->HasData()) {
if (strcmp(GetTitle(),set->GetTitle()) == 0 ) {
TTable *table = (TTable *)set;
Adopt(table->GetSize(),table->GetArray());
SetUsedRows(table->GetNRows());
table->SetBit(kIsNotOwn);
ResetBit(kIsNotOwn);
} else
Error("Update",
"This table is <%s> but the updating one has a wrong type <%s>",GetTitle(),set->GetTitle());
}
TDataSet::Update(set,opt);
}
const char *TTable::TableDictionary(const char *className,const char *structName,TTableDescriptor *&ColDescriptors)
{
if (className){};
TClass *r = TClass::GetClass(structName,1);
ColDescriptors = new TTableDescriptor(r);
return structName;
}
Int_t TTable::GetColumnIndex(const Char_t *columnName) const {return GetRowDescriptors()->ColumnByName(columnName);}
const Char_t *TTable::GetColumnName(Int_t columnIndex) const {return GetRowDescriptors()->ColumnName(columnIndex); }
const UInt_t *TTable::GetIndexArray(Int_t columnIndex) const {return GetRowDescriptors()->IndexArray(columnIndex); }
UInt_t TTable::GetNumberOfColumns() const {return GetRowDescriptors()->NumberOfColumns(); }
UInt_t TTable::GetOffset(Int_t columnIndex) const {return GetRowDescriptors()->Offset(columnIndex); }
Int_t TTable::GetOffset(const Char_t *columnName) const {return GetRowDescriptors()->Offset(columnName); }
UInt_t TTable::GetColumnSize(Int_t columnIndex) const {return GetRowDescriptors()->ColumnSize(columnIndex); }
Int_t TTable::GetColumnSize(const Char_t *columnName) const {return GetRowDescriptors()->ColumnSize(columnName); }
UInt_t TTable::GetTypeSize(Int_t columnIndex) const {return GetRowDescriptors()->TypeSize(columnIndex); }
Int_t TTable::GetTypeSize(const Char_t *columnName) const {return GetRowDescriptors()->TypeSize(columnName); }
UInt_t TTable::GetDimensions(Int_t columnIndex) const {return GetRowDescriptors()->Dimensions(columnIndex); }
Int_t TTable::GetDimensions(const Char_t *columnName) const {return GetRowDescriptors()->Dimensions(columnName); }
TTable::EColumnType TTable::GetColumnType(Int_t columnIndex) const {return GetRowDescriptors()->ColumnType(columnIndex); }
TTable::EColumnType TTable::GetColumnType(const Char_t *columnName) const {return GetRowDescriptors()->ColumnType(columnName); }
TTable::piterator::piterator(const TTable *t,EColumnType type): fCurrentRowIndex(0),fCurrentColIndex(0),fRowSize(0),fCurrentRowPtr(0),fCurrentColPtr(0)
{
Int_t sz = 0;
if (t) sz = t->GetNRows();
if (sz) {
fRowSize = t->GetRowSize();
fCurrentRowPtr = (const Char_t *)t->GetArray();
TTableDescriptor *tabsDsc = t->GetRowDescriptors();
TTableDescriptor::iterator ptr = tabsDsc->begin();
TTableDescriptor::iterator lastPtr = tabsDsc->end();
UInt_t i =0;
for( i = 0; ptr != lastPtr; ptr++,i++)
if ( tabsDsc->ColumnType(i) == type ) fPtrs.push_back(tabsDsc->Offset(i));
if (fPtrs.size()==0) {
MakeEnd(t->GetNRows());
} else {
column();
}
} else {
MakeEnd(0);
}
}