// @(#)root/cont:$Name: $:$Id: TObjArray.cxx,v 1.24 2005/06/13 16:48:01 pcanal Exp $
// Author: Fons Rademakers 11/09/95
/*************************************************************************
* 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. *
*************************************************************************/
//////////////////////////////////////////////////////////////////////////
// //
// TObjArray //
// //
// An array of TObjects. The array expands automatically when //
// objects are added (shrinking can be done by hand using Expand(), //
// how nice to have meaningful names -:)). //
// Use operator[] to have "real" array behaviour. //
//
/*
*/
//
// //
//////////////////////////////////////////////////////////////////////////
#include "TObjArray.h"
#include "TMath.h"
#include "TError.h"
#include "TClass.h"
#include "TROOT.h"
ClassImp(TObjArray)
//______________________________________________________________________________
TObjArray::TObjArray(Int_t s, Int_t lowerBound)
{
// Create an object array. Using s one can set the array size (default is
// kInitCapacity=16) and lowerBound can be used to set the array lowerbound
// index (default is 0).
if (s < 0) {
Warning("TObjArray", "size (%d) < 0", s);
s = TCollection::kInitCapacity;
} else if (s == 0)
s = TCollection::kInitCapacity;
fCont = 0;
Init(s, lowerBound);
}
//______________________________________________________________________________
TObjArray::TObjArray(const TObjArray &a) : TSeqCollection()
{
// Create a copy of TObjArray a. Note, does not copy the kIsOwner flag.
fCont = 0;
Init(a.fSize, a.fLowerBound);
for (Int_t i = 0; i < fSize; i++)
fCont[i] = a.fCont[i];
fLast = a.fLast;
fName = a.fName;
}
//______________________________________________________________________________
TObjArray::~TObjArray()
{
// Delete an array. Objects are not deleted unless the TObjArray is the
// owner (set via SetOwner()).
if (IsOwner())
Delete();
TStorage::Dealloc(fCont);
fCont = 0;
fSize = 0;
}
//______________________________________________________________________________
void TObjArray::AddFirst(TObject *obj)
{
// Add object in the first slot of the array. This will overwrite the
// first element that might have been there. To have insertion semantics
// use either a TList or a TOrdCollection.
fCont[0] = obj;
Changed();
}
//______________________________________________________________________________
void TObjArray::AddLast(TObject *obj)
{
// Add object in the next empty slot in the array. Expand the array
// if necessary.
AddAtAndExpand(obj, GetAbsLast()+1+fLowerBound);
}
//______________________________________________________________________________
void TObjArray::AddBefore(const TObject *before, TObject *obj)
{
// Add object in the slot before object before. If before=0 add object
// in the first slot. Note that this will overwrite any object that
// might have already been in this slot. For insertion semantics use
// either a TList or a TOrdCollection.
if (!before)
AddFirst(obj);
else {
Int_t idx = IndexOf(before) - fLowerBound;
if (idx == -1) {
Error("AddBefore", "before not found, object not added");
return;
}
if (idx == 0) {
Error("AddBefore", "cannot add before lowerbound (%d)", fLowerBound);
return;
}
AddAt(obj, idx+fLowerBound-1);
}
}
//______________________________________________________________________________
void TObjArray::AddAfter(const TObject *after, TObject *obj)
{
// Add object in the slot after object after. If after=0 add object in
// the last empty slot. Note that this will overwrite any object that
// might have already been in this slot. For insertion semantics use
// either a TList or a TOrdCollection.
if (!after)
AddLast(obj);
else {
Int_t idx = IndexOf(after) - fLowerBound;
if (idx == -1) {
Error("AddAfter", "after not found, object not added");
return;
}
AddAtAndExpand(obj, idx+fLowerBound+1);
}
}
//______________________________________________________________________________
void TObjArray::AddAtAndExpand(TObject *obj, Int_t idx)
{
// Add object at position idx. If idx is larger than the current size
// of the array, expand the array (double its size).
if (idx < fLowerBound) {
Error("AddAt", "out of bounds at %d in %x", idx, this);
return;
}
if (idx-fLowerBound >= fSize)
Expand(TMath::Max(idx-fLowerBound+1, GrowBy(fSize)));
fCont[idx-fLowerBound] = obj;
fLast = TMath::Max(idx-fLowerBound, GetAbsLast());
Changed();
}
//______________________________________________________________________________
void TObjArray::AddAt(TObject *obj, Int_t idx)
{
// Add object at position ids. Give an error when idx is out of bounds
// (i.e. the array is not expanded).
if (!BoundsOk("AddAt", idx)) return;
fCont[idx-fLowerBound] = obj;
fLast = TMath::Max(idx-fLowerBound, GetAbsLast());
Changed();
}
//______________________________________________________________________________
Int_t TObjArray::AddAtFree(TObject *obj)
{
// Return the position of the new object.
// Find the first empty cell or AddLast if there is no empty cell
if (Last()) { // <---------- This is to take in account "empty" TObjArray's
Int_t i;
for (i = 0; i < fSize; i++)
if (!fCont[i]) { // Add object at position i
fCont[i] = obj;
fLast = TMath::Max(i, GetAbsLast());
Changed();
return i+fLowerBound;
}
}
AddLast(obj);
return GetLast();
}
//______________________________________________________________________________
TObject *TObjArray::After(const TObject *obj) const
{
// Return the object after obj. Returns 0 if obj is last object.
if (!obj) return 0;
Int_t idx = IndexOf(obj) - fLowerBound;
if (idx == -1 || idx == fSize-1) return 0;
return fCont[idx+1];
}
//______________________________________________________________________________
TObject *TObjArray::Before(const TObject *obj) const
{
// Return the object before obj. Returns 0 if obj is first object.
if (!obj) return 0;
Int_t idx = IndexOf(obj) - fLowerBound;
if (idx == -1 || idx == 0) return 0;
return fCont[idx-1];
}
//______________________________________________________________________________
void TObjArray::Clear(Option_t *)
{
// Remove all objects from the array. Does not delete the objects
// unless the TObjArray is the owner (set via SetOwner()).
if (IsOwner())
Delete();
else
Init(fSize, fLowerBound);
}
//______________________________________________________________________________
void TObjArray::Compress()
{
// Remove empty slots from array.
Int_t j = 0;
for (Int_t i = 0; i < fSize; i++) {
if (fCont[i]) {
fCont[j] = fCont[i];
j++;
}
}
fLast = j - 1;
for ( ; j < fSize; j++)
fCont[j] = 0;
}
//______________________________________________________________________________
void TObjArray::Delete(Option_t *)
{
// Remove all objects from the array AND delete all heap based objects.
for (Int_t i = 0; i < fSize; i++)
if (fCont[i] && fCont[i]->IsOnHeap()) {
TCollection::GarbageCollect(fCont[i]);
fCont[i] = 0;
}
Init(fSize, fLowerBound);
}
//______________________________________________________________________________
void TObjArray::Expand(Int_t newSize)
{
// Expand or shrink the array to newSize elements.
if (newSize < 0) {
Error ("Expand", "newSize must be positive (%d)", newSize);
return;
}
if (newSize == fSize)
return;
if (newSize < fSize) {
// if the array is shrinked check whether there are nonempty entries
for (Int_t j = newSize; j < fSize; j++)
if (fCont[j]) {
Error ("Expand", "expand would cut off nonempty entries at %d", j);
return;
}
}
fCont = (TObject**) TStorage::ReAlloc(fCont, newSize * sizeof(TObject*),
fSize * sizeof(TObject*));
fSize = newSize;
}
//______________________________________________________________________________
TObject *TObjArray::FindObject(const char *name) const
{
// Find an object in this collection using its name. Requires a sequential
// scan till the object has been found. Returns 0 if object with specified
// name is not found.
Int_t nobjects = GetAbsLast()+1;
for (Int_t i = 0; i < nobjects; ++i) {
TObject *obj = fCont[i];
if (obj && 0==strcmp(name, obj->GetName())) return obj;
}
return 0;
}
//______________________________________________________________________________
TObject *TObjArray::FindObject(const TObject *iobj) const
{
// Find an object in this collection using the object's IsEqual()
// member function. Requires a sequential scan till the object has
// been found. Returns 0 if object is not found.
// Typically this function is overridden by a more efficient version
// in concrete collection classes (e.g. THashTable).
Int_t nobjects = GetAbsLast()+1;
for (Int_t i = 0; i < nobjects; ++i) {
TObject *obj = fCont[i];
if (obj && obj->IsEqual(iobj)) return obj;
}
return 0;
}
//_______________________________________________________________________
void TObjArray::Streamer(TBuffer &b)
{
// Stream all objects in the array to or from the I/O buffer.
UInt_t R__s, R__c;
Int_t nobjects;
if (b.IsReading()) {
Version_t v = b.ReadVersion(&R__s, &R__c);
if (v > 2)
TObject::Streamer(b);
if (v > 1)
fName.Streamer(b);
if (GetEntriesFast() > 0) Clear();
b >> nobjects;
b >> fLowerBound;
if (nobjects >= fSize) Expand(nobjects);
fLast = -1;
TObject *obj;
for (Int_t i = 0; i < nobjects; i++) {
obj = (TObject*) b.ReadObjectAny(TObject::Class());
if (obj) {
fCont[i] = obj;
fLast = i;
}
}
Changed();
b.CheckByteCount(R__s, R__c,TObjArray::IsA());
} else {
R__c = b.WriteVersion(TObjArray::IsA(), kTRUE);
TObject::Streamer(b);
fName.Streamer(b);
nobjects = GetAbsLast()+1;
b << nobjects;
b << fLowerBound;
for (Int_t i = 0; i < nobjects; i++) {
b << fCont[i];
}
b.SetByteCount(R__c, kTRUE);
}
}
//______________________________________________________________________________
TObject *TObjArray::First() const
{
// Return the object in the first slot.
return fCont[0];
}
//______________________________________________________________________________
TObject *TObjArray::Last() const
{
// Return the object in the last filled slot. Returns 0 if no entries.
if (fLast == -1)
return 0;
else
return fCont[GetAbsLast()];
}
//______________________________________________________________________________
Int_t TObjArray::GetEntries() const
{
// Return the number of objects in array (i.e. number of non-empty slots).
// Attention: use this method ONLY if you want to know the number of
// non-empty slots. This function loops over the complete array and
// is therefore very slow when applied in a loop. Most of the time you
// better use GetEntriesFast() (only in case when there are no empty slots).
Int_t cnt = 0;
for (Int_t i = 0; i < fSize; i++)
if (fCont[i]) cnt++;
return cnt;
}
//______________________________________________________________________________
Int_t TObjArray::GetAbsLast() const
{
// Return absolute index to last object in array. Returns -1 in case
// array is empty.
// For efficiency we need sometimes to update fLast so we have
// to cast const away. Ugly, but making GetAbsLast() not const breaks
// many other const functions.
if (fLast == -2) {
for (Int_t i = fSize-1; i >= 0; i--)
if (fCont[i]) {
((TObjArray*)this)->fLast = i;
return fLast;
}
((TObjArray*)this)->fLast = -1;
}
return fLast;
}
//______________________________________________________________________________
Int_t TObjArray::GetLast() const
{
// Return index of last object in array. Returns lowerBound-1 in case
// array is empty.
return fLowerBound+GetAbsLast();
}
//______________________________________________________________________________
TObject **TObjArray::GetObjectRef(const TObject *obj) const
{
// Return address of pointer obj. If obj is 0 returns address of container.
if (!obj)
return fCont;
Int_t index = IndexOf(obj);
return &fCont[index];
}
//______________________________________________________________________________
Int_t TObjArray::IndexOf(const TObject *obj) const
{
// obj != 0 Return index of object in array.
// Returns lowerBound-1 in case array doesn't contain the obj.
//
// obj == 0 Return the index of the first empty slot.
// Returns lowerBound-1 in case array doesn't contain any empty slot.
Int_t i;
if (obj) {
for (i = 0; i < fSize; i++)
if (fCont[i] && fCont[i]->IsEqual(obj))
return i+fLowerBound;
} else { // Look for the first empty slot
for (i = 0; i < fSize; i++)
if (!fCont[i])
return i+fLowerBound;
}
return fLowerBound-1;
}
//______________________________________________________________________________
void TObjArray::Init(Int_t s, Int_t lowerBound)
{
// Initialize a TObjArray.
if (fCont && fSize != s) {
TStorage::Dealloc(fCont);
fCont = 0;
}
fSize = s;
if (!fCont)
fCont = (TObject**) TStorage::Alloc(fSize*sizeof(TObject*)); //new TObject* [fSize];
memset(fCont, 0, fSize*sizeof(TObject*));
fLowerBound = lowerBound;
fLast = -1;
Changed();
}
//______________________________________________________________________________
TIterator *TObjArray::MakeIterator(Bool_t dir) const
{
// Returns an array iterator.
return new TObjArrayIter(this, dir);
}
//______________________________________________________________________________
Bool_t TObjArray::OutOfBoundsError(const char *where, Int_t i) const
{
// Generate an out-of-bounds error. Always returns false.
Error(where, "index %d out of bounds (size: %d, this: 0x%08x)", i, fSize, this);
return kFALSE;
}
//______________________________________________________________________________
TObject *TObjArray::RemoveAt(Int_t idx)
{
// Remove object at index idx.
if (!BoundsOk("RemoveAt", idx)) return 0;
int i = idx-fLowerBound;
TObject *obj = 0;
if (fCont[i]) {
obj = fCont[i];
fCont[i] = 0;
// recalculate array size
if (i == fLast)
do { fLast--; } while (fLast >= 0 && fCont[fLast] == 0);
Changed();
}
return obj;
}
//______________________________________________________________________________
TObject *TObjArray::Remove(TObject *obj)
{
// Remove object from array.
if (!obj) return 0;
Int_t idx = IndexOf(obj) - fLowerBound;
if (idx == -1) return 0;
TObject *ob = fCont[idx];
fCont[idx] = 0;
// recalculate array size
if (idx == fLast)
do { fLast--; } while (fLast >= 0 && fCont[fLast] == 0);
Changed();
return ob;
}
//______________________________________________________________________________
void TObjArray::SetLast(Int_t last)
{
// Set index of last object in array, effectively truncating the
// array. Use carefully since whenever last position has to be
// recalculated, e.g. after a Remove() or Sort() it will be reset
// to the last non-empty slot. If last is -2 this will force the
// recalculation of the last used slot.
if (last == -2)
fLast = -2;
else if (BoundsOk("SetLast", last))
fLast = last - fLowerBound;
}
//______________________________________________________________________________
void TObjArray::Sort(Int_t upto)
{
// If objects in array are sortable (i.e. IsSortable() returns true
// for all objects) then sort array.
if (GetAbsLast() == -1 || fSorted) return;
for (Int_t i = 0; i < fSize; i++)
if (fCont[i]) {
if (!fCont[i]->IsSortable()) {
Error("Sort", "objects in array are not sortable");
return;
}
}
QSort(fCont, 0, TMath::Min(fSize, upto-fLowerBound));
fLast = -2;
fSorted = kTRUE;
}
//______________________________________________________________________________
Int_t TObjArray::BinarySearch(TObject *op, Int_t upto)
{
// Find object using a binary search. Array must first have been sorted.
// Search can be limited by setting upto to desired index.
Int_t base, position, last, result = 0;
TObject *op2;
if (!op) return -1;
if (!fSorted) {
Error("BinarySearch", "array must first be sorted");
return -1;
}
base = 0;
last = TMath::Min(fSize, upto-fLowerBound) - 1;
while (last >= base) {
position = (base+last) / 2;
op2 = fCont[position];
if (op2 && (result = op->Compare(op2)) == 0)
return position + fLowerBound;
if (!op2 || result < 0)
last = position-1;
else
base = position+1;
}
return -1;
}
//////////////////////////////////////////////////////////////////////////
// //
// TObjArrayIter //
// //
// Iterator of object array. //
// //
//////////////////////////////////////////////////////////////////////////
ClassImp(TObjArrayIter)
//______________________________________________________________________________
TObjArrayIter::TObjArrayIter(const TObjArray *arr, Bool_t dir)
{
// Create array iterator. By default the iteration direction
// is kIterForward. To go backward use kIterBackward.
fArray = arr;
fDirection = dir;
Reset();
}
//______________________________________________________________________________
TObjArrayIter::TObjArrayIter(const TObjArrayIter &iter) : TIterator(iter)
{
// Copy ctor.
fArray = iter.fArray;
fDirection = iter.fDirection;
fCursor = iter.fCursor;
}
//______________________________________________________________________________
TIterator &TObjArrayIter::operator=(const TIterator &rhs)
{
// Overridden assignment operator.
if (this != &rhs && rhs.IsA() == TObjArrayIter::Class()) {
const TObjArrayIter &rhs1 = (const TObjArrayIter &)rhs;
fArray = rhs1.fArray;
fDirection = rhs1.fDirection;
fCursor = rhs1.fCursor;
}
return *this;
}
//______________________________________________________________________________
TObjArrayIter &TObjArrayIter::operator=(const TObjArrayIter &rhs)
{
// Overloaded assignment operator.
if (this != &rhs) {
fArray = rhs.fArray;
fDirection = rhs.fDirection;
fCursor = rhs.fCursor;
}
return *this;
}
//______________________________________________________________________________
TObject *TObjArrayIter::Next()
{
// Return next object in array. Returns 0 when no more objects in array.
if (fDirection == kIterForward) {
for ( ; fCursor < fArray->Capacity() && fArray->fCont[fCursor] == 0;
fCursor++) { }
if (fCursor < fArray->Capacity())
return fArray->fCont[fCursor++];
} else {
for ( ; fCursor >= 0 && fArray->fCont[fCursor] == 0;
fCursor--) { }
if (fCursor >= 0)
return fArray->fCont[fCursor--];
}
return 0;
}
//______________________________________________________________________________
void TObjArrayIter::Reset()
{
// Reset array iterator.
if (fDirection == kIterForward)
fCursor = 0;
else
fCursor = fArray->Capacity() - 1;
}
ROOT page - Class index - Class Hierarchy - Top of the page
This page has been automatically generated. If you have any comments or suggestions about the page layout send a mail to ROOT support, or contact the developers with any questions or problems regarding ROOT.