// @(#)root/cont:$Id$ // Author: Fons Rademakers 20/11/06 /************************************************************************* * Copyright (C) 1995-2006, Rene Brun and Fons Rademakers. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ ////////////////////////////////////////////////////////////////////////// // // // TArrayL64 // // // // Array of long64s (64 bits per element). // // // ////////////////////////////////////////////////////////////////////////// #include "TArrayL64.h" #include "TBuffer.h" ClassImp(TArrayL64) //______________________________________________________________________________ TArrayL64::TArrayL64() { // Default TArrayL64 ctor. fArray = 0; } //______________________________________________________________________________ TArrayL64::TArrayL64(Int_t n) { // Create TArrayL64 object and set array size to n long64s. fArray = 0; if (n > 0) Set(n); } //______________________________________________________________________________ TArrayL64::TArrayL64(Int_t n, const Long64_t *array) { // Create TArrayL object and initialize it with values of array. fArray = 0; Set(n, array); } //______________________________________________________________________________ TArrayL64::TArrayL64(const TArrayL64 &array) : TArray(array) { // Copy constructor. fArray = 0; Set(array.fN, array.fArray); } //______________________________________________________________________________ TArrayL64 &TArrayL64::operator=(const TArrayL64 &rhs) { // TArrayL64 assignment operator. if (this != &rhs) Set(rhs.fN, rhs.fArray); return *this; } //______________________________________________________________________________ TArrayL64::~TArrayL64() { // Delete TArrayL64 object. delete [] fArray; fArray = 0; } //______________________________________________________________________________ void TArrayL64::Adopt(Int_t n, Long64_t *arr) { // Adopt array arr into TArrayL64, i.e. don't copy arr but use it directly // in TArrayL64. User may not delete arr, TArrayL64 dtor will do it. if (fArray) delete [] fArray; fN = n; fArray = arr; } //______________________________________________________________________________ void TArrayL64::AddAt(Long64_t c, Int_t i) { // Add long64 c at position i. Check for out of bounds. if (!BoundsOk("TArrayL64::AddAt", i)) return; fArray[i] = c; } //______________________________________________________________________________ void TArrayL64::Set(Int_t n) { // Set size of this array to n long64s. // A new array is created, the old contents copied to the new array, // then the old array is deleted. // This function should not be called if the array was declared via Adopt. if (n < 0) return; if (n != fN) { Long64_t *temp = fArray; if (n != 0) { fArray = new Long64_t[n]; if (n < fN) memcpy(fArray,temp, n*sizeof(Long64_t)); else { memcpy(fArray,temp,fN*sizeof(Long64_t)); memset(&fArray[fN],0,(n-fN)*sizeof(Long64_t)); } } else { fArray = 0; } if (fN) delete [] temp; fN = n; } } //______________________________________________________________________________ void TArrayL64::Set(Int_t n, const Long64_t *array) { // Set size of this array to n long64s and set the contents. // This function should not be called if the array was declared via Adopt. if (fArray && fN != n) { delete [] fArray; fArray = 0; } fN = n; if (fN == 0) return; if (array == 0) return; if (!fArray) fArray = new Long64_t[fN]; memmove(fArray, array, n*sizeof(Long64_t)); } //_______________________________________________________________________ void TArrayL64::Streamer(TBuffer &b) { // Stream a TArrayL64 object. if (b.IsReading()) { Int_t n; b >> n; Set(n); b.ReadFastArray(fArray,n); } else { b << fN; b.WriteFastArray(fArray, fN); } }