[u/mrichter/AliRoot.git] / STEER / STEER / AliVectorSparse.cxx

/**************************************************************************
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

/* $Id: AliRun.cxx 30859 2009-02-02 16:24:37Z fca $ */

#include <string.h>
#include "AliVectorSparse.h"
#include <TString.h>

/**********************************************************************************************/
/* Sparse vector class, used as row of the AliMatrixSparse class                              */
/*                                                                                            */ 
/* Author: ruben.shahoyan@cern.ch                                                             */
/*                                                                                            */ 
/**********************************************************************************************/

ClassImp(AliVectorSparse)

//___________________________________________________________
AliVectorSparse::AliVectorSparse()
  : fNElems(0),fIndex(0),fElems(0) {}

//___________________________________________________________
AliVectorSparse::AliVectorSparse(const AliVectorSparse& src)
  : TObject(src),fNElems(src.fNElems),fIndex(0),fElems(0)
{
  // copy c-tor
  fIndex = new UShort_t[fNElems];
  fElems = new Double_t[fNElems];
  memcpy(fIndex,src.fIndex,fNElems*sizeof(UShort_t));
  memcpy(fElems,src.fElems,fNElems*sizeof(Double_t));
}

//___________________________________________________________
void AliVectorSparse::Clear(Option_t*)
{
  // clear all
  delete[] fIndex; fIndex = 0;
  delete[] fElems; fElems = 0;
  fNElems = 0;
}

//___________________________________________________________
AliVectorSparse& AliVectorSparse::operator=(const AliVectorSparse& src)
{
  // assignment op-tor
  if (&src==this) return *this;
  Clear();
  TObject::operator=(src);
  fNElems = src.fNElems;
  fIndex = new UShort_t[fNElems];
  fElems = new Double_t[fNElems];
  memcpy(fIndex,src.fIndex,fNElems*sizeof(UShort_t));
  memcpy(fElems,src.fElems,fNElems*sizeof(Double_t));
  //
  return *this;
}

//___________________________________________________________
Double_t AliVectorSparse::FindIndex(Int_t ind) const
{
  // return an element with given index
  //printf("V: findindex\n");
  int first = 0;
  int last = fNElems-1;
  while (first<=last) {
    int mid = (first+last)>>1;
    if (ind>fIndex[mid]) first = mid+1;
    else if (ind<fIndex[mid]) last = mid-1;
    else return fElems[mid];
  }
  return 0.0;
}

//___________________________________________________________
void AliVectorSparse::SetToZero(Int_t ind)
{
  // set element to 0 if it was already defined
  int first = 0;
  int last = fNElems-1;
  while (first<=last) {
    int mid = (first+last)>>1;
    if (ind>fIndex[mid]) first = mid+1;
    else if (ind<fIndex[mid]) last = mid-1;
    else {fElems[mid] = 0.; return;}
  }
}

//___________________________________________________________
Double_t& AliVectorSparse::FindIndexAdd(Int_t ind)
{
  // increment an element with given index
  //printf("V: findindexAdd\n");
  int first = 0;
  int last = fNElems-1;
  while (first<=last) {
    int mid = (first+last)>>1;
    if (ind>fIndex[mid]) first = mid+1;
    else if (ind<fIndex[mid]) last = mid-1;
    else return fElems[mid];
  }
  // need to insert a new element
  UShort_t *arrI = new UShort_t[fNElems+1];
  memcpy(arrI,fIndex,first*sizeof(UShort_t));
  arrI[first] = ind;
  memcpy(arrI+first+1,fIndex+first,(fNElems-first)*sizeof(UShort_t));
  delete[] fIndex;
  fIndex = arrI;
  //
  Double_t   *arrE = new Double_t[fNElems+1];
  memcpy(arrE,fElems,first*sizeof(Double_t));
  arrE[first] = 0;
  memcpy(arrE+first+1,fElems+first,(fNElems-first)*sizeof(Double_t));
  delete[] fElems;
  fElems = arrE;
  //
  fNElems++;
  return fElems[first];
  //
}

//__________________________________________________________
void AliVectorSparse::ReSize(Int_t sz,Bool_t copy)
{
  // change the size
  if (sz<1) {Clear(); return;}
    // need to insert a new element
  UShort_t *arrI = new UShort_t[sz];
  Double_t *arrE = new Double_t[sz];
  memset(arrI,0,sz*sizeof(UShort_t));
  memset(arrE,0,sz*sizeof(Double_t));
  //
  if (copy && fIndex) {
    int cpsz = TMath::Min(fNElems,sz);
    memcpy(arrI,fIndex,cpsz*sizeof(UShort_t));
    memcpy(arrE,fElems,cpsz*sizeof(Double_t));
  }
  delete[] fIndex;
  delete[] fElems;
  fIndex = arrI;
  fElems = arrE;
  fNElems = sz;
  //
}

//__________________________________________________________
void AliVectorSparse::SortIndices(Bool_t valuesToo)
{
  // sort indices in increasing order. Used to fix the row after ILUk decomposition
  for (int i=fNElems;i--;) for (int j=i;j--;) if (fIndex[i]<fIndex[j]) { //swap
	UShort_t tmpI = fIndex[i]; fIndex[i] = fIndex[j]; fIndex[j]=tmpI;
	if (valuesToo) {Double_t tmpV = fElems[i];fElems[i]=fElems[j];fElems[j]=tmpV;}
      }
}

//__________________________________________________________
void AliVectorSparse::Print(Option_t* opt)  const
{
  // print itself
  TString sopt = opt; sopt.ToLower();
  int ndig = sopt.Atoi();
  if (ndig<=1) ndig = 2;
  sopt = "%2d:%+.";
  sopt += ndig;
  sopt += "e |";
  printf("|");
  for (int i=0;i<fNElems;i++) printf(sopt.Data(),fIndex[i],fElems[i]);
  printf("\n");
}

//___________________________________________________________
void AliVectorSparse::Add(Double_t *valc,Int_t *indc,Int_t n)
{
  // add indiced array to row. Indices must be in increasing order
  int indx;
  int nadd = 0;
  //
  int last = fNElems-1;
  int mid = 0;
  for (int i=n;i--;) {
    // if the element with this index is already defined, just add the value
    int first = 0;
    Bool_t toAdd = kTRUE;
    indx = indc[i];
    while (first<=last) {
      mid = (first+last)>>1;
      if (indx>fIndex[mid]) first = mid+1;
      else if (indx<fIndex[mid]) last = mid-1;
      else {
	fElems[mid] += valc[i];
	indc[i] = -1;
	toAdd = kFALSE;
	last = mid-1;   // profit from the indices being ordered
	break;
      }
    }
    if (toAdd) nadd++;
  }
  //
  if (nadd<1) return; // nothing to do anymore
  // 
  // need to expand the row
  UShort_t *arrI = new UShort_t[fNElems+nadd];
  Double_t *arrE = new Double_t[fNElems+nadd];
  // copy old elems embedding the new ones
  int inew=0,iold=0;
  for (int i=0;i<n;i++) {  
    if ( (indx=indc[i])<0) continue;
    while (iold<fNElems && fIndex[iold]<indx) {
      arrI[inew]   = fIndex[iold];
      arrE[inew++] = fElems[iold++];
    }
    arrI[inew] = indx;
    arrE[inew++] = valc[i];
  }
  // copy the rest
  while (iold<fNElems) {
    arrI[inew]   = fIndex[iold];
    arrE[inew++] = fElems[iold++];
  }
  //
  delete[] fIndex;
  delete[] fElems;
  fIndex = arrI;
  fElems = arrE;
  //
  fNElems += nadd;
  //
}
Commit	Line	Data
81b4a4ef	1	/**************************************************************************
	2	* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	7	* Permission to use, copy, modify and distribute this software and its *
	8	* documentation strictly for non-commercial purposes is hereby granted *
	9	* without fee, provided that the above copyright notice appears in all *
	10	* copies and that both the copyright notice and this permission notice *
	11	* appear in the supporting documentation. The authors make no claims *
	12	* about the suitability of this software for any purpose. It is *
	13	* provided "as is" without express or implied warranty. *
	14	**************************************************************************/
	15
	16	/* $Id: AliRun.cxx 30859 2009-02-02 16:24:37Z fca $ */
	17
	18	#include <string.h>
de34b538	19	#include "AliVectorSparse.h"
3bc5dd7d	20	#include <TString.h>
de34b538	21
	22	/**********************************************************************************************/
	23	/* Sparse vector class, used as row of the AliMatrixSparse class */
	24	/* */
	25	/* Author: ruben.shahoyan@cern.ch */
	26	/* */
	27	/**********************************************************************************************/
	28
	29	ClassImp(AliVectorSparse)
	30
	31	//___________________________________________________________
	32	AliVectorSparse::AliVectorSparse()
	33	: fNElems(0),fIndex(0),fElems(0) {}
	34
	35	//___________________________________________________________
	36	AliVectorSparse::AliVectorSparse(const AliVectorSparse& src)
	37	: TObject(src),fNElems(src.fNElems),fIndex(0),fElems(0)
	38	{
339fbe23	39	// copy c-tor
de34b538	40	fIndex = new UShort_t[fNElems];
	41	fElems = new Double_t[fNElems];
	42	memcpy(fIndex,src.fIndex,fNElems*sizeof(UShort_t));
	43	memcpy(fElems,src.fElems,fNElems*sizeof(Double_t));
	44	}
	45
	46	//___________________________________________________________
	47	void AliVectorSparse::Clear(Option_t*)
	48	{
339fbe23	49	// clear all
de34b538	50	delete[] fIndex; fIndex = 0;
	51	delete[] fElems; fElems = 0;
	52	fNElems = 0;
	53	}
	54
	55	//___________________________________________________________
	56	AliVectorSparse& AliVectorSparse::operator=(const AliVectorSparse& src)
	57	{
339fbe23	58	// assignment op-tor
de34b538	59	if (&src==this) return *this;
	60	Clear();
	61	TObject::operator=(src);
	62	fNElems = src.fNElems;
	63	fIndex = new UShort_t[fNElems];
	64	fElems = new Double_t[fNElems];
	65	memcpy(fIndex,src.fIndex,fNElems*sizeof(UShort_t));
	66	memcpy(fElems,src.fElems,fNElems*sizeof(Double_t));
	67	//
	68	return *this;
	69	}
	70
	71	//___________________________________________________________
	72	Double_t AliVectorSparse::FindIndex(Int_t ind) const
	73	{
	74	// return an element with given index
	75	//printf("V: findindex\n");
	76	int first = 0;
	77	int last = fNElems-1;
	78	while (first<=last) {
	79	int mid = (first+last)>>1;
	80	if (ind>fIndex[mid]) first = mid+1;
	81	else if (ind<fIndex[mid]) last = mid-1;
	82	else return fElems[mid];
	83	}
	84	return 0.0;
	85	}
	86
	87	//___________________________________________________________
	88	void AliVectorSparse::SetToZero(Int_t ind)
	89	{
	90	// set element to 0 if it was already defined
	91	int first = 0;
	92	int last = fNElems-1;
	93	while (first<=last) {
	94	int mid = (first+last)>>1;
	95	if (ind>fIndex[mid]) first = mid+1;
	96	else if (ind<fIndex[mid]) last = mid-1;
	97	else {fElems[mid] = 0.; return;}
	98	}
	99	}
	100
	101	//___________________________________________________________
	102	Double_t& AliVectorSparse::FindIndexAdd(Int_t ind)
	103	{
	104	// increment an element with given index
	105	//printf("V: findindexAdd\n");
	106	int first = 0;
	107	int last = fNElems-1;
	108	while (first<=last) {
	109	int mid = (first+last)>>1;
	110	if (ind>fIndex[mid]) first = mid+1;
	111	else if (ind<fIndex[mid]) last = mid-1;
	112	else return fElems[mid];
	113	}
	114	// need to insert a new element
	115	UShort_t *arrI = new UShort_t[fNElems+1];
	116	memcpy(arrI,fIndex,first*sizeof(UShort_t));
	117	arrI[first] = ind;
	118	memcpy(arrI+first+1,fIndex+first,(fNElems-first)*sizeof(UShort_t));
	119	delete[] fIndex;
	120	fIndex = arrI;
	121	//
	122	Double_t *arrE = new Double_t[fNElems+1];
123	memcpy(arrE,fElems,first*sizeof(Double_t));
124	arrE[first] = 0;
125	memcpy(arrE+first+1,fElems+first,(fNElems-first)*sizeof(Double_t));
126	delete[] fElems;
127	fElems = arrE;
128	//
129	fNElems++;
130	return fElems[first];
131	//
132	}
133
134	//__________________________________________________________
135	void AliVectorSparse::ReSize(Int_t sz,Bool_t copy)
136	{
339fbe23	137	// change the size
de34b538	138	if (sz<1) {Clear(); return;}
	139	// need to insert a new element
	140	UShort_t *arrI = new UShort_t[sz];
	141	Double_t *arrE = new Double_t[sz];
	142	memset(arrI,0,sz*sizeof(UShort_t));
	143	memset(arrE,0,sz*sizeof(Double_t));
	144	//
	145	if (copy && fIndex) {
	146	int cpsz = TMath::Min(fNElems,sz);
	147	memcpy(arrI,fIndex,cpsz*sizeof(UShort_t));
	148	memcpy(arrE,fElems,cpsz*sizeof(Double_t));
	149	}
	150	delete[] fIndex;
	151	delete[] fElems;
	152	fIndex = arrI;
	153	fElems = arrE;
	154	fNElems = sz;
	155	//
	156	}
	157
	158	//__________________________________________________________
	159	void AliVectorSparse::SortIndices(Bool_t valuesToo)
	160	{
	161	// sort indices in increasing order. Used to fix the row after ILUk decomposition
	162	for (int i=fNElems;i--;) for (int j=i;j--;) if (fIndex[i]<fIndex[j]) { //swap
	163	UShort_t tmpI = fIndex[i]; fIndex[i] = fIndex[j]; fIndex[j]=tmpI;
	164	if (valuesToo) {Double_t tmpV = fElems[i];fElems[i]=fElems[j];fElems[j]=tmpV;}
	165	}
	166	}
	167
	168	//__________________________________________________________
3bc5dd7d	169	void AliVectorSparse::Print(Option_t* opt) const
de34b538	170	{
339fbe23	171	// print itself
3bc5dd7d	172	TString sopt = opt; sopt.ToLower();
	173	int ndig = sopt.Atoi();
	174	if (ndig<=1) ndig = 2;
	175	sopt = "%2d:%+.";
	176	sopt += ndig;
	177	sopt += "e \|";
de34b538	178	printf("\|");
3bc5dd7d	179	for (int i=0;i<fNElems;i++) printf(sopt.Data(),fIndex[i],fElems[i]);
3bc5dd7d	180	printf("\n");
de34b538	181	}
	182
	183	//___________________________________________________________
	184	void AliVectorSparse::Add(Double_t valc,Int_t indc,Int_t n)
	185	{
	186	// add indiced array to row. Indices must be in increasing order
	187	int indx;
	188	int nadd = 0;
	189	//
	190	int last = fNElems-1;
	191	int mid = 0;
	192	for (int i=n;i--;) {
	193	// if the element with this index is already defined, just add the value
	194	int first = 0;
	195	Bool_t toAdd = kTRUE;
	196	indx = indc[i];
	197	while (first<=last) {
	198	mid = (first+last)>>1;
	199	if (indx>fIndex[mid]) first = mid+1;
	200	else if (indx<fIndex[mid]) last = mid-1;
	201	else {
	202	fElems[mid] += valc[i];
	203	indc[i] = -1;
	204	toAdd = kFALSE;
	205	last = mid-1; // profit from the indices being ordered
	206	break;
	207	}
	208	}
	209	if (toAdd) nadd++;
	210	}
	211	//
	212	if (nadd<1) return; // nothing to do anymore
	213	//
	214	// need to expand the row
	215	UShort_t *arrI = new UShort_t[fNElems+nadd];
	216	Double_t *arrE = new Double_t[fNElems+nadd];
	217	// copy old elems embedding the new ones
	218	int inew=0,iold=0;
	219	for (int i=0;i<n;i++) {
	220	if ( (indx=indc[i])<0) continue;
	221	while (iold<fNElems && fIndex[iold]<indx) {
	222	arrI[inew] = fIndex[iold];
	223	arrE[inew++] = fElems[iold++];
	224	}
	225	arrI[inew] = indx;
	226	arrE[inew++] = valc[i];
	227	}
	228	// copy the rest
	229	while (iold<fNElems) {
	230	arrI[inew] = fIndex[iold];
	231	arrE[inew++] = fElems[iold++];
	232	}
	233	//
	234	delete[] fIndex;
	235	delete[] fElems;
	236	fIndex = arrI;
	237	fElems = arrE;
	238	//
	239	fNElems += nadd;
	240	//
	241	}
	242