92template<
class Element>
95 Allocate(no_rows,no_cols,0,0,1);
102template<
class Element>
105 Allocate(row_upb-row_lwb+1,col_upb-col_lwb+1,row_lwb,col_lwb,1);
112template<
class Element>
121 if (row[irowmin] < row_lwb || row[irowmax] > row_upb) {
122 Error(
"TMatrixTSparse",
"Inconsistency between row index and its range");
123 if (row[irowmin] < row_lwb) {
124 Info(
"TMatrixTSparse",
"row index lower bound adjusted to %d",row[irowmin]);
125 row_lwb = row[irowmin];
127 if (row[irowmax] > row_upb) {
128 Info(
"TMatrixTSparse",
"row index upper bound adjusted to %d",row[irowmax]);
129 col_lwb = col[irowmax];
132 if (col[icolmin] < col_lwb || col[icolmax] > col_upb) {
133 Error(
"TMatrixTSparse",
"Inconsistency between column index and its range");
134 if (col[icolmin] < col_lwb) {
135 Info(
"TMatrixTSparse",
"column index lower bound adjusted to %d",col[icolmin]);
136 col_lwb = col[icolmin];
138 if (col[icolmax] > col_upb) {
139 Info(
"TMatrixTSparse",
"column index upper bound adjusted to %d",col[icolmax]);
140 col_upb = col[icolmax];
144 Allocate(row_upb-row_lwb+1,col_upb-col_lwb+1,row_lwb,col_lwb,1,nr);
146 SetMatrixArray(nr,row,col,
data);
151template<
class Element>
164template<
class Element>
177template<
class Element>
182 Int_t nr_nonzeros = 0;
197 for (
Int_t i = rowLwb; i <= rowLwb+nrows-1; i++)
198 for (
Int_t j = colLwb; j <= colLwb+ncols-1; j++)
199 if (i==j) nr_nonzeros++;
200 Allocate(nrows,ncols,rowLwb,colLwb,1,nr_nonzeros);
208 Transpose(prototype);
219 Error(
"TMatrixTSparse(EMatrixCreatorOp1)",
"operation %d not yet implemented", op);
227template<
class Element>
251 Error(
"TMatrixTSparse(EMatrixCreatorOp2)",
"operation %d not yet implemented",op);
259template<
class Element>
283 Error(
"TMatrixTSparse(EMatrixCreatorOp2)",
"operation %d not yet implemented",op);
291template<
class Element>
315 Error(
"TMatrixTSparse(EMatrixCreatorOp2)",
"operation %d not yet implemented",op);
324template<
class Element>
328 if ( (nr_nonzeros > 0 && (no_rows == 0 || no_cols == 0)) ||
329 (no_rows < 0 || no_cols < 0 || nr_nonzeros < 0) )
331 Error(
"Allocate",
"no_rows=%d no_cols=%d non_zeros=%d",no_rows,no_cols,nr_nonzeros);
337 this->fNrows = no_rows;
338 this->fNcols = no_cols;
339 this->fRowLwb = row_lwb;
340 this->fColLwb = col_lwb;
341 this->fNrowIndex = this->fNrows+1;
342 this->fNelems = nr_nonzeros;
343 this->fIsOwner =
kTRUE;
344 this->fTol = std::numeric_limits<Element>::epsilon();
346 fRowIndex =
new Int_t[this->fNrowIndex];
348 memset(fRowIndex,0,this->fNrowIndex*
sizeof(
Int_t));
350 if (this->fNelems > 0) {
351 fElements =
new Element[this->fNelems];
352 fColIndex =
new Int_t [this->fNelems];
354 memset(fElements,0,this->fNelems*
sizeof(Element));
355 memset(fColIndex,0,this->fNelems*
sizeof(
Int_t));
366template<
class Element>
369 const Int_t arown = rown-this->fRowLwb;
370 const Int_t acoln = coln-this->fColLwb;
371 const Int_t nr = (
n > 0) ?
n : this->fNcols;
374 if (arown >= this->fNrows || arown < 0) {
375 Error(
"InsertRow",
"row %d out of matrix range",rown);
379 if (acoln >= this->fNcols || acoln < 0) {
380 Error(
"InsertRow",
"column %d out of matrix range",coln);
384 if (acoln+nr > this->fNcols || nr < 0) {
385 Error(
"InsertRow",
"row length %d out of range",nr);
390 const Int_t sIndex = fRowIndex[arown];
391 const Int_t eIndex = fRowIndex[arown+1];
398 Int_t lIndex = sIndex-1;
399 Int_t rIndex = sIndex-1;
404 if (icol >= acoln+nr)
break;
405 if (icol >= acoln) nslots++;
409 const Int_t nelems_old = this->fNelems;
410 const Int_t *colIndex_old = fColIndex;
411 const Element *elements_old = fElements;
413 const Int_t ndiff = nr-nslots;
414 this->fNelems += ndiff;
415 fColIndex =
new Int_t[this->fNelems];
416 fElements =
new Element[this->fNelems];
418 for (
Int_t irow = arown+1; irow < this->fNrows+1; irow++)
419 fRowIndex[irow] += ndiff;
422 memmove(fColIndex,colIndex_old,(lIndex+1)*
sizeof(
Int_t));
423 memmove(fElements,elements_old,(lIndex+1)*
sizeof(Element));
426 if (nelems_old > 0 && nelems_old-rIndex > 0) {
427 memmove(fColIndex+rIndex+ndiff,colIndex_old+rIndex,(nelems_old-rIndex)*
sizeof(
Int_t));
428 memmove(fElements+rIndex+ndiff,elements_old+rIndex,(nelems_old-rIndex)*
sizeof(Element));
432 for (
Int_t i = 0; i < nr; i++) {
433 fColIndex[
index] = acoln+i;
438 if (colIndex_old)
delete [] (
Int_t*) colIndex_old;
439 if (elements_old)
delete [] (Element*) elements_old;
441 R__ASSERT(this->fNelems == fRowIndex[this->fNrowIndex-1]);
449template<
class Element>
452 const Int_t arown = rown-this->fRowLwb;
453 const Int_t acoln = coln-this->fColLwb;
454 const Int_t nr = (
n > 0) ?
n : this->fNcols;
457 if (arown >= this->fNrows || arown < 0) {
458 Error(
"ExtractRow",
"row %d out of matrix range",rown);
462 if (acoln >= this->fNcols || acoln < 0) {
463 Error(
"ExtractRow",
"column %d out of matrix range",coln);
467 if (acoln+nr > this->fNcols || nr < 0) {
468 Error(
"ExtractRow",
"row length %d out of range",nr);
473 const Int_t sIndex = fRowIndex[arown];
474 const Int_t eIndex = fRowIndex[arown+1];
476 memset(
v,0,nr*
sizeof(Element));
477 const Int_t *
const pColIndex = GetColIndexArray();
478 const Element *
const pData = GetMatrixArray();
481 if (icol < acoln || icol >= acoln+nr)
continue;
482 v[icol-acoln] = pData[
index];
490template<
class Element>
497 if (
a.GetNcols() !=
b.GetNcols() ||
a.GetColLwb() !=
b.GetColLwb()) {
498 Error(
"AMultBt",
"A and B columns incompatible");
502 if (!constr && this->GetMatrixArray() ==
a.GetMatrixArray()) {
503 Error(
"AMultB",
"this = &a");
507 if (!constr && this->GetMatrixArray() ==
b.GetMatrixArray()) {
508 Error(
"AMultB",
"this = &b");
513 const Int_t *
const pRowIndexa =
a.GetRowIndexArray();
514 const Int_t *
const pColIndexa =
a.GetColIndexArray();
515 const Int_t *
const pRowIndexb =
b.GetRowIndexArray();
516 const Int_t *
const pColIndexb =
b.GetColIndexArray();
524 Int_t nr_nonzero_rowa = 0;
526 for (
Int_t irowa = 0; irowa <
a.GetNrows(); irowa++)
527 if (pRowIndexa[irowa] < pRowIndexa[irowa+1])
530 Int_t nr_nonzero_rowb = 0;
532 for (
Int_t irowb = 0; irowb <
b.GetNrows(); irowb++)
533 if (pRowIndexb[irowb] < pRowIndexb[irowb+1])
537 const Int_t nc = nr_nonzero_rowa*nr_nonzero_rowb;
538 Allocate(
a.GetNrows(),
b.GetNrows(),
a.GetRowLwb(),
b.GetRowLwb(),1,nc);
540 pRowIndexc = this->GetRowIndexArray();
541 pColIndexc = this->GetColIndexArray();
545 for (
Int_t irowa = 0; irowa <
a.GetNrows(); irowa++) {
546 pRowIndexc[irowa+1] = pRowIndexc[irowa];
547 if (pRowIndexa[irowa] >= pRowIndexa[irowa+1])
continue;
548 for (
Int_t irowb = 0; irowb <
b.GetNrows(); irowb++) {
549 if (pRowIndexb[irowb] >= pRowIndexb[irowb+1])
continue;
550 pRowIndexc[irowa+1]++;
551 pColIndexc[ielem++] = irowb;
555 pRowIndexc = this->GetRowIndexArray();
556 pColIndexc = this->GetColIndexArray();
559 const Element *
const pDataa =
a.GetMatrixArray();
560 const Element *
const pDatab =
b.GetMatrixArray();
561 Element *
const pDatac = this->GetMatrixArray();
563 for (
Int_t irowc = 0; irowc < this->GetNrows(); irowc++) {
564 const Int_t sIndexa = pRowIndexa[irowc];
565 const Int_t eIndexa = pRowIndexa[irowc+1];
566 for (
Int_t icolc = 0; icolc < this->GetNcols(); icolc++) {
567 const Int_t sIndexb = pRowIndexb[icolc];
568 const Int_t eIndexb = pRowIndexb[icolc+1];
570 Int_t indexb = sIndexb;
571 for (
Int_t indexa = sIndexa; indexa < eIndexa && indexb < eIndexb; indexa++) {
572 const Int_t icola = pColIndexa[indexa];
573 while (indexb < eIndexb && pColIndexb[indexb] <= icola) {
574 if (icola == pColIndexb[indexb]) {
575 sum += pDataa[indexa]*pDatab[indexb];
582 pColIndexc[indexc_r] = icolc;
583 pDatac[indexc_r] =
sum;
587 pRowIndexc[irowc+1] = indexc_r;
591 SetSparseIndex(indexc_r);
598template<
class Element>
605 if (
a.GetNcols() !=
b.GetNcols() ||
a.GetColLwb() !=
b.GetColLwb()) {
606 Error(
"AMultBt",
"A and B columns incompatible");
610 if (!constr && this->GetMatrixArray() ==
a.GetMatrixArray()) {
611 Error(
"AMultB",
"this = &a");
615 if (!constr && this->GetMatrixArray() ==
b.GetMatrixArray()) {
616 Error(
"AMultB",
"this = &b");
621 const Int_t *
const pRowIndexa =
a.GetRowIndexArray();
622 const Int_t *
const pColIndexa =
a.GetColIndexArray();
630 Int_t nr_nonzero_rowa = 0;
632 for (
Int_t irowa = 0; irowa <
a.GetNrows(); irowa++)
633 if (pRowIndexa[irowa] < pRowIndexa[irowa+1])
636 Int_t nr_nonzero_rowb =
b.GetNrows();
638 const Int_t nc = nr_nonzero_rowa*nr_nonzero_rowb;
639 Allocate(
a.GetNrows(),
b.GetNrows(),
a.GetRowLwb(),
b.GetRowLwb(),1,nc);
641 pRowIndexc = this->GetRowIndexArray();
642 pColIndexc = this->GetColIndexArray();
646 for (
Int_t irowa = 0; irowa <
a.GetNrows(); irowa++) {
647 pRowIndexc[irowa+1] = pRowIndexc[irowa];
648 for (
Int_t irowb = 0; irowb <
b.GetNrows(); irowb++) {
649 pRowIndexc[irowa+1]++;
650 pColIndexc[ielem++] = irowb;
654 pRowIndexc = this->GetRowIndexArray();
655 pColIndexc = this->GetColIndexArray();
658 const Element *
const pDataa =
a.GetMatrixArray();
659 const Element *
const pDatab =
b.GetMatrixArray();
660 Element *
const pDatac = this->GetMatrixArray();
662 for (
Int_t irowc = 0; irowc < this->GetNrows(); irowc++) {
663 const Int_t sIndexa = pRowIndexa[irowc];
664 const Int_t eIndexa = pRowIndexa[irowc+1];
665 for (
Int_t icolc = 0; icolc < this->GetNcols(); icolc++) {
666 const Int_t off = icolc*
b.GetNcols();
668 for (
Int_t indexa = sIndexa; indexa < eIndexa; indexa++) {
669 const Int_t icola = pColIndexa[indexa];
670 sum += pDataa[indexa]*pDatab[off+icola];
673 pColIndexc[indexc_r] = icolc;
674 pDatac[indexc_r] =
sum;
678 pRowIndexc[irowc+1]= indexc_r;
682 SetSparseIndex(indexc_r);
689template<
class Element>
696 if (
a.GetNcols() !=
b.GetNcols() ||
a.GetColLwb() !=
b.GetColLwb()) {
697 Error(
"AMultBt",
"A and B columns incompatible");
701 if (!constr && this->GetMatrixArray() ==
a.GetMatrixArray()) {
702 Error(
"AMultB",
"this = &a");
706 if (!constr && this->GetMatrixArray() ==
b.GetMatrixArray()) {
707 Error(
"AMultB",
"this = &b");
712 const Int_t *
const pRowIndexb =
b.GetRowIndexArray();
713 const Int_t *
const pColIndexb =
b.GetColIndexArray();
721 Int_t nr_nonzero_rowa =
a.GetNrows();
722 Int_t nr_nonzero_rowb = 0;
724 for (
Int_t irowb = 0; irowb <
b.GetNrows(); irowb++)
725 if (pRowIndexb[irowb] < pRowIndexb[irowb+1])
729 const Int_t nc = nr_nonzero_rowa*nr_nonzero_rowb;
730 Allocate(
a.GetNrows(),
b.GetNrows(),
a.GetRowLwb(),
b.GetRowLwb(),1,nc);
732 pRowIndexc = this->GetRowIndexArray();
733 pColIndexc = this->GetColIndexArray();
737 for (
Int_t irowa = 0; irowa <
a.GetNrows(); irowa++) {
738 pRowIndexc[irowa+1] = pRowIndexc[irowa];
739 for (
Int_t irowb = 0; irowb <
b.GetNrows(); irowb++) {
740 if (pRowIndexb[irowb] >= pRowIndexb[irowb+1])
continue;
741 pRowIndexc[irowa+1]++;
742 pColIndexc[ielem++] = irowb;
746 pRowIndexc = this->GetRowIndexArray();
747 pColIndexc = this->GetColIndexArray();
750 const Element *
const pDataa =
a.GetMatrixArray();
751 const Element *
const pDatab =
b.GetMatrixArray();
752 Element *
const pDatac = this->GetMatrixArray();
754 for (
Int_t irowc = 0; irowc < this->GetNrows(); irowc++) {
755 const Int_t off = irowc*
a.GetNcols();
756 for (
Int_t icolc = 0; icolc < this->GetNcols(); icolc++) {
757 const Int_t sIndexb = pRowIndexb[icolc];
758 const Int_t eIndexb = pRowIndexb[icolc+1];
760 for (
Int_t indexb = sIndexb; indexb < eIndexb; indexb++) {
761 const Int_t icolb = pColIndexb[indexb];
762 sum += pDataa[off+icolb]*pDatab[indexb];
765 pColIndexc[indexc_r] = icolc;
766 pDatac[indexc_r] =
sum;
770 pRowIndexc[irowc+1] = indexc_r;
774 SetSparseIndex(indexc_r);
781template<
class Element>
788 if (
a.GetNrows() !=
b.GetNrows() ||
a.GetNcols() !=
b.GetNcols() ||
789 a.GetRowLwb() !=
b.GetRowLwb() ||
a.GetColLwb() !=
b.GetColLwb()) {
790 Error(
"APlusB(const TMatrixTSparse &,const TMatrixTSparse &",
"matrices not compatible");
794 if (!constr && this->GetMatrixArray() ==
a.GetMatrixArray()) {
795 Error(
"APlusB",
"this = &a");
799 if (!constr && this->GetMatrixArray() ==
b.GetMatrixArray()) {
800 Error(
"APlusB",
"this = &b");
805 const Int_t *
const pRowIndexa =
a.GetRowIndexArray();
806 const Int_t *
const pRowIndexb =
b.GetRowIndexArray();
807 const Int_t *
const pColIndexa =
a.GetColIndexArray();
808 const Int_t *
const pColIndexb =
b.GetColIndexArray();
811 Allocate(
a.GetNrows(),
a.GetNcols(),
a.GetRowLwb(),
a.GetColLwb());
812 SetSparseIndexAB(
a,
b);
815 Int_t *
const pRowIndexc = this->GetRowIndexArray();
816 Int_t *
const pColIndexc = this->GetColIndexArray();
818 const Element *
const pDataa =
a.GetMatrixArray();
819 const Element *
const pDatab =
b.GetMatrixArray();
820 Element *
const pDatac = this->GetMatrixArray();
822 for (
Int_t irowc = 0; irowc < this->GetNrows(); irowc++) {
823 const Int_t sIndexa = pRowIndexa[irowc];
824 const Int_t eIndexa = pRowIndexa[irowc+1];
825 const Int_t sIndexb = pRowIndexb[irowc];
826 const Int_t eIndexb = pRowIndexb[irowc+1];
827 Int_t indexa = sIndexa;
828 Int_t indexb = sIndexb;
829 for (
Int_t icolc = 0; icolc < this->GetNcols(); icolc++) {
831 while (indexa < eIndexa && pColIndexa[indexa] <= icolc) {
832 if (icolc == pColIndexa[indexa]) {
833 sum += pDataa[indexa];
838 while (indexb < eIndexb && pColIndexb[indexb] <= icolc) {
839 if (icolc == pColIndexb[indexb]) {
840 sum += pDatab[indexb];
847 pColIndexc[indexc_r] = icolc;
848 pDatac[indexc_r] =
sum;
852 pRowIndexc[irowc+1] = indexc_r;
856 SetSparseIndex(indexc_r);
863template<
class Element>
870 if (
a.GetNrows() !=
b.GetNrows() ||
a.GetNcols() !=
b.GetNcols() ||
871 a.GetRowLwb() !=
b.GetRowLwb() ||
a.GetColLwb() !=
b.GetColLwb()) {
872 Error(
"APlusB(const TMatrixTSparse &,const TMatrixT &",
"matrices not compatible");
876 if (!constr && this->GetMatrixArray() ==
a.GetMatrixArray()) {
877 Error(
"APlusB",
"this = &a");
881 if (!constr && this->GetMatrixArray() ==
b.GetMatrixArray()) {
882 Error(
"APlusB",
"this = &b");
888 Allocate(
a.GetNrows(),
a.GetNcols(),
a.GetRowLwb(),
a.GetColLwb());
889 SetSparseIndexAB(
a,
b);
892 Int_t *
const pRowIndexc = this->GetRowIndexArray();
893 Int_t *
const pColIndexc = this->GetColIndexArray();
895 const Int_t *
const pRowIndexa =
a.GetRowIndexArray();
896 const Int_t *
const pColIndexa =
a.GetColIndexArray();
898 const Element *
const pDataa =
a.GetMatrixArray();
899 const Element *
const pDatab =
b.GetMatrixArray();
900 Element *
const pDatac = this->GetMatrixArray();
902 for (
Int_t irowc = 0; irowc < this->GetNrows(); irowc++) {
903 const Int_t sIndexa = pRowIndexa[irowc];
904 const Int_t eIndexa = pRowIndexa[irowc+1];
905 const Int_t off = irowc*this->GetNcols();
906 Int_t indexa = sIndexa;
907 for (
Int_t icolc = 0; icolc < this->GetNcols(); icolc++) {
908 Element
sum = pDatab[off+icolc];
909 while (indexa < eIndexa && pColIndexa[indexa] <= icolc) {
910 if (icolc == pColIndexa[indexa]) {
911 sum += pDataa[indexa];
918 pColIndexc[indexc_r] = icolc;
919 pDatac[indexc_r] =
sum;
923 pRowIndexc[irowc+1] = indexc_r;
927 SetSparseIndex(indexc_r);
934template<
class Element>
941 if (
a.GetNrows() !=
b.GetNrows() ||
a.GetNcols() !=
b.GetNcols() ||
942 a.GetRowLwb() !=
b.GetRowLwb() ||
a.GetColLwb() !=
b.GetColLwb()) {
943 Error(
"AMinusB(const TMatrixTSparse &,const TMatrixTSparse &",
"matrices not compatible");
947 if (!constr && this->GetMatrixArray() ==
a.GetMatrixArray()) {
948 Error(
"AMinusB",
"this = &a");
952 if (!constr && this->GetMatrixArray() ==
b.GetMatrixArray()) {
953 Error(
"AMinusB",
"this = &b");
958 const Int_t *
const pRowIndexa =
a.GetRowIndexArray();
959 const Int_t *
const pRowIndexb =
b.GetRowIndexArray();
960 const Int_t *
const pColIndexa =
a.GetColIndexArray();
961 const Int_t *
const pColIndexb =
b.GetColIndexArray();
964 Allocate(
a.GetNrows(),
a.GetNcols(),
a.GetRowLwb(),
a.GetColLwb());
965 SetSparseIndexAB(
a,
b);
968 Int_t *
const pRowIndexc = this->GetRowIndexArray();
969 Int_t *
const pColIndexc = this->GetColIndexArray();
971 const Element *
const pDataa =
a.GetMatrixArray();
972 const Element *
const pDatab =
b.GetMatrixArray();
973 Element *
const pDatac = this->GetMatrixArray();
975 for (
Int_t irowc = 0; irowc < this->GetNrows(); irowc++) {
976 const Int_t sIndexa = pRowIndexa[irowc];
977 const Int_t eIndexa = pRowIndexa[irowc+1];
978 const Int_t sIndexb = pRowIndexb[irowc];
979 const Int_t eIndexb = pRowIndexb[irowc+1];
980 Int_t indexa = sIndexa;
981 Int_t indexb = sIndexb;
982 for (
Int_t icolc = 0; icolc < this->GetNcols(); icolc++) {
984 while (indexa < eIndexa && pColIndexa[indexa] <= icolc) {
985 if (icolc == pColIndexa[indexa]) {
986 sum += pDataa[indexa];
991 while (indexb < eIndexb && pColIndexb[indexb] <= icolc) {
992 if (icolc == pColIndexb[indexb]) {
993 sum -= pDatab[indexb];
1000 pColIndexc[indexc_r] = icolc;
1001 pDatac[indexc_r] =
sum;
1005 pRowIndexc[irowc+1] = indexc_r;
1009 SetSparseIndex(indexc_r);
1016template<
class Element>
1023 if (
a.GetNrows() !=
b.GetNrows() ||
a.GetNcols() !=
b.GetNcols() ||
1024 a.GetRowLwb() !=
b.GetRowLwb() ||
a.GetColLwb() !=
b.GetColLwb()) {
1025 Error(
"AMinusB(const TMatrixTSparse &,const TMatrixT &",
"matrices not compatible");
1029 if (!constr && this->GetMatrixArray() ==
a.GetMatrixArray()) {
1030 Error(
"AMinusB",
"this = &a");
1034 if (!constr && this->GetMatrixArray() ==
b.GetMatrixArray()) {
1035 Error(
"AMinusB",
"this = &b");
1041 Allocate(
a.GetNrows(),
a.GetNcols(),
a.GetRowLwb(),
a.GetColLwb());
1042 SetSparseIndexAB(
a,
b);
1045 Int_t *
const pRowIndexc = this->GetRowIndexArray();
1046 Int_t *
const pColIndexc = this->GetColIndexArray();
1048 const Int_t *
const pRowIndexa =
a.GetRowIndexArray();
1049 const Int_t *
const pColIndexa =
a.GetColIndexArray();
1051 const Element *
const pDataa =
a.GetMatrixArray();
1052 const Element *
const pDatab =
b.GetMatrixArray();
1053 Element *
const pDatac = this->GetMatrixArray();
1055 for (
Int_t irowc = 0; irowc < this->GetNrows(); irowc++) {
1056 const Int_t sIndexa = pRowIndexa[irowc];
1057 const Int_t eIndexa = pRowIndexa[irowc+1];
1058 const Int_t off = irowc*this->GetNcols();
1059 Int_t indexa = sIndexa;
1060 for (
Int_t icolc = 0; icolc < this->GetNcols(); icolc++) {
1061 Element
sum = -pDatab[off+icolc];
1062 while (indexa < eIndexa && pColIndexa[indexa] <= icolc) {
1063 if (icolc == pColIndexa[indexa]) {
1064 sum += pDataa[indexa];
1071 pColIndexc[indexc_r] = icolc;
1072 pDatac[indexc_r] =
sum;
1076 pRowIndexc[irowc+1] = indexc_r;
1080 SetSparseIndex(indexc_r);
1087template<
class Element>
1094 if (
a.GetNrows() !=
b.GetNrows() ||
a.GetNcols() !=
b.GetNcols() ||
1095 a.GetRowLwb() !=
b.GetRowLwb() ||
a.GetColLwb() !=
b.GetColLwb()) {
1096 Error(
"AMinusB(const TMatrixT &,const TMatrixTSparse &",
"matrices not compatible");
1100 if (!constr && this->GetMatrixArray() ==
a.GetMatrixArray()) {
1101 Error(
"AMinusB",
"this = &a");
1105 if (!constr && this->GetMatrixArray() ==
b.GetMatrixArray()) {
1106 Error(
"AMinusB",
"this = &b");
1112 Allocate(
a.GetNrows(),
a.GetNcols(),
a.GetRowLwb(),
a.GetColLwb());
1113 SetSparseIndexAB(
a,
b);
1116 Int_t *
const pRowIndexc = this->GetRowIndexArray();
1117 Int_t *
const pColIndexc = this->GetColIndexArray();
1119 const Int_t *
const pRowIndexb =
b.GetRowIndexArray();
1120 const Int_t *
const pColIndexb =
b.GetColIndexArray();
1122 const Element *
const pDataa =
a.GetMatrixArray();
1123 const Element *
const pDatab =
b.GetMatrixArray();
1124 Element *
const pDatac = this->GetMatrixArray();
1126 for (
Int_t irowc = 0; irowc < this->GetNrows(); irowc++) {
1127 const Int_t sIndexb = pRowIndexb[irowc];
1128 const Int_t eIndexb = pRowIndexb[irowc+1];
1129 const Int_t off = irowc*this->GetNcols();
1130 Int_t indexb = sIndexb;
1131 for (
Int_t icolc = 0; icolc < this->GetNcols(); icolc++) {
1132 Element
sum = pDataa[off+icolc];
1133 while (indexb < eIndexb && pColIndexb[indexb] <= icolc) {
1134 if (icolc == pColIndexb[indexb]) {
1135 sum -= pDatab[indexb];
1142 pColIndexc[indexc_r] = icolc;
1143 pDatac[indexc_r] =
sum;
1147 pRowIndexc[irowc+1] = indexc_r;
1151 SetSparseIndex(indexc_r);
1157template<
class Element>
1162 const Element *
const elem = GetMatrixArray();
1163 memcpy(
data,elem,this->fNelems*
sizeof(Element));
1171template<
class Element>
1176 Error(
"SetMatrixArray(Int_t,Int_t*,Int_t*,Element*",
"nr <= 0");
1185 R__ASSERT(row[irowmin] >= this->fRowLwb && row[irowmax] <= this->fRowLwb+this->fNrows-1);
1186 R__ASSERT(col[icolmin] >= this->fColLwb && col[icolmax] <= this->fColLwb+this->fNcols-1);
1188 if (row[irowmin] < this->fRowLwb || row[irowmax] > this->fRowLwb+this->fNrows-1) {
1189 Error(
"SetMatrixArray",
"Inconsistency between row index and its range");
1190 if (row[irowmin] < this->fRowLwb) {
1191 Info(
"SetMatrixArray",
"row index lower bound adjusted to %d",row[irowmin]);
1192 this->fRowLwb = row[irowmin];
1194 if (row[irowmax] > this->fRowLwb+this->fNrows-1) {
1195 Info(
"SetMatrixArray",
"row index upper bound adjusted to %d",row[irowmax]);
1196 this->fNrows = row[irowmax]-this->fRowLwb+1;
1199 if (col[icolmin] < this->fColLwb || col[icolmax] > this->fColLwb+this->fNcols-1) {
1200 Error(
"SetMatrixArray",
"Inconsistency between column index and its range");
1201 if (col[icolmin] < this->fColLwb) {
1202 Info(
"SetMatrixArray",
"column index lower bound adjusted to %d",col[icolmin]);
1203 this->fColLwb = col[icolmin];
1205 if (col[icolmax] > this->fColLwb+this->fNcols-1) {
1206 Info(
"SetMatrixArray",
"column index upper bound adjusted to %d",col[icolmax]);
1207 this->fNcols = col[icolmax]-this->fColLwb+1;
1213 Int_t nr_nonzeros = 0;
1214 const Element *ep =
data;
1215 const Element *
const fp =
data+nr;
1218 if (*ep++ != 0.0) nr_nonzeros++;
1220 if (nr_nonzeros != this->fNelems) {
1221 if (fColIndex) {
delete [] fColIndex; fColIndex = 0; }
1222 if (fElements) {
delete [] fElements; fElements = 0; }
1223 this->fNelems = nr_nonzeros;
1224 if (this->fNelems > 0) {
1225 fColIndex =
new Int_t[nr_nonzeros];
1226 fElements =
new Element[nr_nonzeros];
1233 if (this->fNelems <= 0)
1239 for (
Int_t irow = 1; irow < this->fNrows+1; irow++) {
1240 if (ielem < nr && row[ielem] < irow) {
1241 while (ielem < nr) {
1242 if (
data[ielem] != 0.0) {
1243 fColIndex[nr_nonzeros] = col[ielem]-this->fColLwb;
1244 fElements[nr_nonzeros] =
data[ielem];
1248 if (ielem >= nr || row[ielem] != row[ielem-1])
1252 fRowIndex[irow] = nr_nonzeros;
1261template<
class Element>
1264 if (nelems_new != this->fNelems) {
1266 Int_t *oIp = fColIndex;
1267 fColIndex =
new Int_t[nelems_new];
1269 memmove(fColIndex,oIp,nr*
sizeof(
Int_t));
1272 Element *oDp = fElements;
1273 fElements =
new Element[nelems_new];
1275 memmove(fElements,oDp,nr*
sizeof(Element));
1278 this->fNelems = nelems_new;
1279 if (nelems_new > nr) {
1280 memset(fElements+nr,0,(nelems_new-nr)*
sizeof(Element));
1281 memset(fColIndex+nr,0,(nelems_new-nr)*
sizeof(
Int_t));
1283 for (
Int_t irow = 0; irow < this->fNrowIndex; irow++)
1284 if (fRowIndex[irow] > nelems_new)
1285 fRowIndex[irow] = nelems_new;
1295template<
class Element>
1300 if (this->GetNrows() != source.
GetNrows() || this->GetNcols() != source.
GetNcols() ||
1301 this->GetRowLwb() != source.
GetRowLwb() || this->GetColLwb() != source.
GetColLwb()) {
1302 Error(
"SetSparseIndex",
"matrices not compatible");
1309 if (nr_nonzeros != this->fNelems)
1310 SetSparseIndex(nr_nonzeros);
1318 for (
Int_t irow = 0; irow < this->fNrows; irow++) {
1319 fRowIndex[irow] = nr;
1320 for (
Int_t icol = 0; icol < this->fNcols; icol++) {
1322 fColIndex[nr] = icol;
1328 fRowIndex[this->fNrows] = nr;
1338template<
class Element>
1345 if (
a.GetNrows() !=
b.GetNrows() ||
a.GetNcols() !=
b.GetNcols() ||
1346 a.GetRowLwb() !=
b.GetRowLwb() ||
a.GetColLwb() !=
b.GetColLwb()) {
1347 Error(
"SetSparseIndexAB",
"source matrices not compatible");
1351 if (this->GetNrows() !=
a.GetNrows() || this->GetNcols() !=
a.GetNcols() ||
1352 this->GetRowLwb() !=
a.GetRowLwb() || this->GetColLwb() !=
a.GetColLwb()) {
1353 Error(
"SetSparseIndexAB",
"matrix not compatible with source matrices");
1358 const Int_t *
const pRowIndexa =
a.GetRowIndexArray();
1359 const Int_t *
const pRowIndexb =
b.GetRowIndexArray();
1360 const Int_t *
const pColIndexa =
a.GetColIndexArray();
1361 const Int_t *
const pColIndexb =
b.GetColIndexArray();
1365 for (
Int_t irowc = 0; irowc <
a.GetNrows(); irowc++) {
1366 const Int_t sIndexa = pRowIndexa[irowc];
1367 const Int_t eIndexa = pRowIndexa[irowc+1];
1368 const Int_t sIndexb = pRowIndexb[irowc];
1369 const Int_t eIndexb = pRowIndexb[irowc+1];
1370 nc += eIndexa-sIndexa;
1371 Int_t indexb = sIndexb;
1372 for (
Int_t indexa = sIndexa; indexa < eIndexa; indexa++) {
1373 const Int_t icola = pColIndexa[indexa];
1374 for (; indexb < eIndexb; indexb++) {
1375 if (pColIndexb[indexb] >= icola) {
1376 if (pColIndexb[indexb] == icola)
1383 while (indexb < eIndexb) {
1384 const Int_t icola = (eIndexa > sIndexa && eIndexa > 0) ? pColIndexa[eIndexa-1] : -1;
1385 if (pColIndexb[indexb++] > icola)
1391 if (this->NonZeros() != nc)
1394 Int_t *
const pRowIndexc = this->GetRowIndexArray();
1395 Int_t *
const pColIndexc = this->GetColIndexArray();
1399 for (
Int_t irowc = 0; irowc <
a.GetNrows(); irowc++) {
1400 const Int_t sIndexa = pRowIndexa[irowc];
1401 const Int_t eIndexa = pRowIndexa[irowc+1];
1402 const Int_t sIndexb = pRowIndexb[irowc];
1403 const Int_t eIndexb = pRowIndexb[irowc+1];
1404 Int_t indexb = sIndexb;
1405 for (
Int_t indexa = sIndexa; indexa < eIndexa; indexa++) {
1406 const Int_t icola = pColIndexa[indexa];
1407 for (; indexb < eIndexb; indexb++) {
1408 if (pColIndexb[indexb] >= icola) {
1409 if (pColIndexb[indexb] == icola)
1413 pColIndexc[nc++] = pColIndexb[indexb];
1415 pColIndexc[nc++] = pColIndexa[indexa];
1417 while (indexb < eIndexb) {
1418 const Int_t icola = (eIndexa > 0) ? pColIndexa[eIndexa-1] : -1;
1419 if (pColIndexb[indexb++] > icola)
1420 pColIndexc[nc++] = pColIndexb[indexb-1];
1422 pRowIndexc[irowc+1] = nc;
1432template<
class Element>
1439 if (
a.GetNrows() !=
b.GetNrows() ||
a.GetNcols() !=
b.GetNcols() ||
1440 a.GetRowLwb() !=
b.GetRowLwb() ||
a.GetColLwb() !=
b.GetColLwb()) {
1441 Error(
"SetSparseIndexAB",
"source matrices not compatible");
1445 if (this->GetNrows() !=
a.GetNrows() || this->GetNcols() !=
a.GetNcols() ||
1446 this->GetRowLwb() !=
a.GetRowLwb() || this->GetColLwb() !=
a.GetColLwb()) {
1447 Error(
"SetSparseIndexAB",
"matrix not compatible with source matrices");
1452 const Element *
const pDataa =
a.GetMatrixArray();
1454 const Int_t *
const pRowIndexb =
b.GetRowIndexArray();
1455 const Int_t *
const pColIndexb =
b.GetColIndexArray();
1459 for (
Int_t irowc = 0; irowc < this->GetNrows(); irowc++) {
1460 const Int_t sIndexb = pRowIndexb[irowc];
1461 const Int_t eIndexb = pRowIndexb[irowc+1];
1462 const Int_t off = irowc*this->GetNcols();
1463 Int_t indexb = sIndexb;
1464 for (
Int_t icolc = 0; icolc < this->GetNcols(); icolc++) {
1465 if (pDataa[off+icolc] != 0.0 || pColIndexb[indexb] > icolc)
continue;
1466 for (; indexb < eIndexb; indexb++) {
1467 if (pColIndexb[indexb] >= icolc) {
1468 if (pColIndexb[indexb] == icolc) {
1479 if (this->NonZeros() != nc)
1482 Int_t *
const pRowIndexc = this->GetRowIndexArray();
1483 Int_t *
const pColIndexc = this->GetColIndexArray();
1487 for (
Int_t irowc = 0; irowc < this->GetNrows(); irowc++) {
1488 const Int_t sIndexb = pRowIndexb[irowc];
1489 const Int_t eIndexb = pRowIndexb[irowc+1];
1490 const Int_t off = irowc*this->GetNcols();
1491 Int_t indexb = sIndexb;
1492 for (
Int_t icolc = 0; icolc < this->GetNcols(); icolc++) {
1493 if (pDataa[off+icolc] != 0.0)
1494 pColIndexc[nc++] = icolc;
1495 else if (pColIndexb[indexb] <= icolc) {
1496 for (; indexb < eIndexb; indexb++) {
1497 if (pColIndexb[indexb] >= icolc) {
1498 if (pColIndexb[indexb] == icolc)
1499 pColIndexc[nc++] = pColIndexb[indexb++];
1505 pRowIndexc[irowc+1] = nc;
1517template<
class Element>
1521 if (!this->fIsOwner) {
1522 Error(
"ResizeTo(Int_t,Int_t,Int_t)",
"Not owner of data array,cannot resize");
1526 if (this->fNelems > 0) {
1527 if (this->fNrows == nrows && this->fNcols == ncols &&
1528 (this->fNelems == nr_nonzeros || nr_nonzeros < 0))
1530 else if (nrows == 0 || ncols == 0 || nr_nonzeros == 0) {
1531 this->fNrows = nrows; this->fNcols = ncols;
1536 const Element *elements_old = GetMatrixArray();
1537 const Int_t *rowIndex_old = GetRowIndexArray();
1538 const Int_t *colIndex_old = GetColIndexArray();
1540 Int_t nrows_old = this->fNrows;
1541 Int_t nrowIndex_old = this->fNrowIndex;
1544 if (nr_nonzeros > 0)
1545 nelems_new = nr_nonzeros;
1548 for (
Int_t irow = 0; irow < nrows_old; irow++) {
1549 if (irow >= nrows)
continue;
1550 const Int_t sIndex = rowIndex_old[irow];
1551 const Int_t eIndex = rowIndex_old[irow+1];
1560 Allocate(nrows,ncols,0,0,1,nelems_new);
1563 Element *elements_new = GetMatrixArray();
1564 Int_t *rowIndex_new = GetRowIndexArray();
1565 Int_t *colIndex_new = GetColIndexArray();
1567 Int_t nelems_copy = 0;
1568 rowIndex_new[0] = 0;
1570 for (
Int_t irow = 0; irow < nrows_old && cont; irow++) {
1571 if (irow >= nrows)
continue;
1572 const Int_t sIndex = rowIndex_old[irow];
1573 const Int_t eIndex = rowIndex_old[irow+1];
1577 rowIndex_new[irow+1] = nelems_copy+1;
1578 colIndex_new[nelems_copy] = icol;
1579 elements_new[nelems_copy] = elements_old[
index];
1582 if (nelems_copy >= nelems_new) {
1589 if (rowIndex_old)
delete [] (
Int_t*) rowIndex_old;
1590 if (colIndex_old)
delete [] (
Int_t*) colIndex_old;
1591 if (elements_old)
delete [] (Element*) elements_old;
1593 if (nrowIndex_old < this->fNrowIndex) {
1594 for (
Int_t irow = nrowIndex_old; irow < this->fNrowIndex; irow++)
1595 rowIndex_new[irow] = rowIndex_new[nrowIndex_old-1];
1598 const Int_t nelems_new = (nr_nonzeros >= 0) ? nr_nonzeros : 0;
1599 Allocate(nrows,ncols,0,0,1,nelems_new);
1611template<
class Element>
1616 if (!this->fIsOwner) {
1617 Error(
"ResizeTo(Int_t,Int_t,Int_t,Int_t,Int_t)",
"Not owner of data array,cannot resize");
1621 const Int_t new_nrows = row_upb-row_lwb+1;
1622 const Int_t new_ncols = col_upb-col_lwb+1;
1624 if (this->fNelems > 0) {
1625 if (this->fNrows == new_nrows && this->fNcols == new_ncols &&
1626 this->fRowLwb == row_lwb && this->fColLwb == col_lwb &&
1627 (this->fNelems == nr_nonzeros || nr_nonzeros < 0))
1629 else if (new_nrows == 0 || new_ncols == 0 || nr_nonzeros == 0) {
1630 this->fNrows = new_nrows; this->fNcols = new_ncols;
1631 this->fRowLwb = row_lwb; this->fColLwb = col_lwb;
1636 const Int_t *rowIndex_old = GetRowIndexArray();
1637 const Int_t *colIndex_old = GetColIndexArray();
1638 const Element *elements_old = GetMatrixArray();
1640 const Int_t nrowIndex_old = this->fNrowIndex;
1642 const Int_t nrows_old = this->fNrows;
1643 const Int_t rowLwb_old = this->fRowLwb;
1644 const Int_t colLwb_old = this->fColLwb;
1647 if (nr_nonzeros > 0)
1648 nelems_new = nr_nonzeros;
1651 for (
Int_t irow = 0; irow < nrows_old; irow++) {
1652 if (irow+rowLwb_old > row_upb || irow+rowLwb_old < row_lwb)
continue;
1653 const Int_t sIndex = rowIndex_old[irow];
1654 const Int_t eIndex = rowIndex_old[irow+1];
1657 if (icol+colLwb_old <= col_upb && icol+colLwb_old >= col_lwb)
1663 Allocate(new_nrows,new_ncols,row_lwb,col_lwb,1,nelems_new);
1666 Int_t *rowIndex_new = GetRowIndexArray();
1667 Int_t *colIndex_new = GetColIndexArray();
1668 Element *elements_new = GetMatrixArray();
1670 Int_t nelems_copy = 0;
1671 rowIndex_new[0] = 0;
1672 const Int_t row_off = rowLwb_old-row_lwb;
1673 const Int_t col_off = colLwb_old-col_lwb;
1674 for (
Int_t irow = 0; irow < nrows_old; irow++) {
1675 if (irow+rowLwb_old > row_upb || irow+rowLwb_old < row_lwb)
continue;
1676 const Int_t sIndex = rowIndex_old[irow];
1677 const Int_t eIndex = rowIndex_old[irow+1];
1680 if (icol+colLwb_old <= col_upb && icol+colLwb_old >= col_lwb) {
1681 rowIndex_new[irow+row_off+1] = nelems_copy+1;
1682 colIndex_new[nelems_copy] = icol+col_off;
1683 elements_new[nelems_copy] = elements_old[
index];
1686 if (nelems_copy >= nelems_new) {
1692 if (rowIndex_old)
delete [] (
Int_t*) rowIndex_old;
1693 if (colIndex_old)
delete [] (
Int_t*) colIndex_old;
1694 if (elements_old)
delete [] (Element*) elements_old;
1696 if (nrowIndex_old < this->fNrowIndex) {
1697 for (
Int_t irow = nrowIndex_old; irow < this->fNrowIndex; irow++)
1698 rowIndex_new[irow] = rowIndex_new[nrowIndex_old-1];
1701 const Int_t nelems_new = (nr_nonzeros >= 0) ? nr_nonzeros : 0;
1702 Allocate(new_nrows,new_ncols,row_lwb,col_lwb,1,nelems_new);
1710template<
class Element>
1715 if (row_upb < row_lwb) {
1716 Error(
"Use",
"row_upb=%d < row_lwb=%d",row_upb,row_lwb);
1719 if (col_upb < col_lwb) {
1720 Error(
"Use",
"col_upb=%d < col_lwb=%d",col_upb,col_lwb);
1727 this->fNrows = row_upb-row_lwb+1;
1728 this->fNcols = col_upb-col_lwb+1;
1729 this->fRowLwb = row_lwb;
1730 this->fColLwb = col_lwb;
1731 this->fNrowIndex = this->fNrows+1;
1732 this->fNelems = nr_nonzeros;
1734 this->fTol = std::numeric_limits<Element>::epsilon();
1737 fRowIndex = pRowIndex;
1738 fColIndex = pColIndex;
1750template<
class Element>
1756 if (row_lwb < this->fRowLwb || row_lwb > this->fRowLwb+this->fNrows-1) {
1757 Error(
"GetSub",
"row_lwb out-of-bounds");
1760 if (col_lwb < this->fColLwb || col_lwb > this->fColLwb+this->fNcols-1) {
1761 Error(
"GetSub",
"col_lwb out-of-bounds");
1764 if (row_upb < this->fRowLwb || row_upb > this->fRowLwb+this->fNrows-1) {
1765 Error(
"GetSub",
"row_upb out-of-bounds");
1768 if (col_upb < this->fColLwb || col_upb > this->fColLwb+this->fNcols-1) {
1769 Error(
"GetSub",
"col_upb out-of-bounds");
1772 if (row_upb < row_lwb || col_upb < col_lwb) {
1773 Error(
"GetSub",
"row_upb < row_lwb || col_upb < col_lwb");
1782 const Int_t row_lwb_sub = (shift) ? 0 : row_lwb;
1783 const Int_t row_upb_sub = (shift) ? row_upb-row_lwb : row_upb;
1784 const Int_t col_lwb_sub = (shift) ? 0 : col_lwb;
1785 const Int_t col_upb_sub = (shift) ? col_upb-col_lwb : col_upb;
1787 Int_t nr_nonzeros = 0;
1788 for (
Int_t irow = 0; irow < this->fNrows; irow++) {
1789 if (irow+this->fRowLwb > row_upb || irow+this->fRowLwb < row_lwb)
continue;
1790 const Int_t sIndex = fRowIndex[irow];
1791 const Int_t eIndex = fRowIndex[irow+1];
1794 if (icol+this->fColLwb <= col_upb && icol+this->fColLwb >= col_lwb)
1799 target.ResizeTo(row_lwb_sub,row_upb_sub,col_lwb_sub,col_upb_sub,nr_nonzeros);
1801 const Element *ep = this->GetMatrixArray();
1805 Element *ep_sub =
target.GetMatrixArray();
1807 if (
target.GetRowIndexArray() &&
target.GetColIndexArray()) {
1808 Int_t nelems_copy = 0;
1809 rowIndex_sub[0] = 0;
1810 const Int_t row_off = this->fRowLwb-row_lwb;
1811 const Int_t col_off = this->fColLwb-col_lwb;
1812 for (
Int_t irow = 0; irow < this->fNrows; irow++) {
1813 if (irow+this->fRowLwb > row_upb || irow+this->fRowLwb < row_lwb)
continue;
1814 const Int_t sIndex = fRowIndex[irow];
1815 const Int_t eIndex = fRowIndex[irow+1];
1818 if (icol+this->fColLwb <= col_upb && icol+this->fColLwb >= col_lwb) {
1819 rowIndex_sub[irow+row_off+1] = nelems_copy+1;
1820 colIndex_sub[nelems_copy] = icol+col_off;
1821 ep_sub[nelems_copy] = ep[
index];
1827 const Int_t row_off = this->fRowLwb-row_lwb;
1828 const Int_t col_off = this->fColLwb-col_lwb;
1829 const Int_t ncols_sub = col_upb_sub-col_lwb_sub+1;
1830 for (
Int_t irow = 0; irow < this->fNrows; irow++) {
1831 if (irow+this->fRowLwb > row_upb || irow+this->fRowLwb < row_lwb)
continue;
1832 const Int_t sIndex = fRowIndex[irow];
1833 const Int_t eIndex = fRowIndex[irow+1];
1834 const Int_t off = (irow+row_off)*ncols_sub;
1837 if (icol+this->fColLwb <= col_upb && icol+this->fColLwb >= col_lwb)
1838 ep_sub[off+icol+col_off] = ep[
index];
1850template<
class Element>
1857 if (row_lwb < this->fRowLwb || row_lwb > this->fRowLwb+this->fNrows-1) {
1858 Error(
"SetSub",
"row_lwb out-of-bounds");
1861 if (col_lwb < this->fColLwb || col_lwb > this->fColLwb+this->fNcols-1) {
1862 Error(
"SetSub",
"col_lwb out-of-bounds");
1865 if (row_lwb+source.
GetNrows() > this->fRowLwb+this->fNrows || col_lwb+source.
GetNcols() > this->fColLwb+this->fNcols) {
1866 Error(
"SetSub",
"source matrix too large");
1876 Int_t nr_nonzeros = 0;
1877 for (
Int_t irow = 0; irow < this->fNrows; irow++) {
1878 if (irow+this->fRowLwb >= row_lwb+nRows_source || irow+this->fRowLwb < row_lwb)
continue;
1879 const Int_t sIndex = fRowIndex[irow];
1880 const Int_t eIndex = fRowIndex[irow+1];
1883 if (icol+this->fColLwb < col_lwb+nCols_source && icol+this->fColLwb >= col_lwb)
1892 const Int_t nelems_old = this->fNelems;
1893 const Int_t *rowIndex_old = GetRowIndexArray();
1894 const Int_t *colIndex_old = GetColIndexArray();
1895 const Element *elements_old = GetMatrixArray();
1897 const Int_t nelems_new = nelems_old+source.
NonZeros()-nr_nonzeros;
1898 fRowIndex =
new Int_t[this->fNrowIndex];
1899 fColIndex =
new Int_t[nelems_new];
1900 fElements =
new Element[nelems_new];
1901 this->fNelems = nelems_new;
1903 Int_t *rowIndex_new = GetRowIndexArray();
1904 Int_t *colIndex_new = GetColIndexArray();
1905 Element *elements_new = GetMatrixArray();
1907 const Int_t row_off = row_lwb-this->fRowLwb;
1908 const Int_t col_off = col_lwb-this->fColLwb;
1911 rowIndex_new[0] = 0;
1912 for (
Int_t irow = 0; irow < this->fNrows; irow++) {
1913 rowIndex_new[irow+1] = rowIndex_new[irow];
1915 if (irow+this->fRowLwb < row_lwb+nRows_source && irow+this->fRowLwb >= row_lwb)
1918 const Int_t sIndex_o = rowIndex_old[irow];
1919 const Int_t eIndex_o = rowIndex_old[irow+1];
1922 const Int_t icol_left = col_off-1;
1925 rowIndex_new[irow+1]++;
1926 colIndex_new[nr] = colIndex_old[
index];
1927 elements_new[nr] = elements_old[
index];
1931 if (rowIndex_s && colIndex_s) {
1932 const Int_t sIndex_s = rowIndex_s[irow-row_off];
1933 const Int_t eIndex_s = rowIndex_s[irow-row_off+1];
1935 rowIndex_new[irow+1]++;
1936 colIndex_new[nr] = colIndex_s[
index]+col_off;
1937 elements_new[nr] = elements_s[
index];
1941 const Int_t off = (irow-row_off)*nCols_source;
1942 for (
Int_t icol = 0; icol < nCols_source; icol++) {
1943 rowIndex_new[irow+1]++;
1944 colIndex_new[nr] = icol+col_off;
1945 elements_new[nr] = elements_s[off+icol];
1950 const Int_t icol_right = col_off+nCols_source-1;
1953 while (right < eIndex_o-1 && colIndex_old[right+1] <= icol_right)
1958 rowIndex_new[irow+1]++;
1959 colIndex_new[nr] = colIndex_old[
index];
1960 elements_new[nr] = elements_old[
index];
1966 rowIndex_new[irow+1]++;
1967 colIndex_new[nr] = colIndex_old[
index];
1968 elements_new[nr] = elements_old[
index];
1974 R__ASSERT(this->fNelems == fRowIndex[this->fNrowIndex-1]);
1976 if (rowIndex_old)
delete [] (
Int_t*) rowIndex_old;
1977 if (colIndex_old)
delete [] (
Int_t*) colIndex_old;
1978 if (elements_old)
delete [] (Element*) elements_old;
1986template<
class Element>
1993 if (this->fNrows != source.
GetNcols() || this->fNcols != source.
GetNrows() ||
1995 Error(
"Transpose",
"matrix has wrong shape");
2011 Element *pData_t =
new Element[nr_nonzeros];
2014 for (
Int_t irow_s = 0; irow_s < source.
GetNrows(); irow_s++) {
2015 const Int_t sIndex = pRowIndex_s[irow_s];
2016 const Int_t eIndex = pRowIndex_s[irow_s+1];
2018 rownr[ielem] = pColIndex_s[
index]+this->fRowLwb;
2019 colnr[ielem] = irow_s+this->fColLwb;
2020 pData_t[ielem] = pData_s[
index];
2028 SetMatrixArray(nr_nonzeros,rownr,colnr,pData_t);
2030 R__ASSERT(this->fNelems == fRowIndex[this->fNrowIndex-1]);
2032 if (pData_t)
delete [] pData_t;
2033 if (rownr)
delete [] rownr;
2034 if (colnr)
delete [] colnr;
2041template<
class Element>
2046 if (fElements) {
delete [] fElements; fElements = 0; }
2047 if (fColIndex) {
delete [] fColIndex; fColIndex = 0; }
2049 memset(this->GetRowIndexArray(),0,this->fNrowIndex*
sizeof(
Int_t));
2057template<
class Element>
2064 Int_t nr_nonzeros = 0;
2065 for (i = this->fRowLwb; i <= this->fRowLwb+this->fNrows-1; i++)
2066 for (
Int_t j = this->fColLwb; j <= this->fColLwb+this->fNcols-1; j++)
2067 if (i == j) nr_nonzeros++;
2069 if (nr_nonzeros != this->fNelems) {
2070 this->fNelems = nr_nonzeros;
2071 Int_t *oIp = fColIndex;
2072 fColIndex =
new Int_t[nr_nonzeros];
2073 if (oIp)
delete [] oIp;
2074 Element *oDp = fElements;
2075 fElements =
new Element[nr_nonzeros];
2076 if (oDp)
delete [] oDp;
2081 for (i = this->fRowLwb; i <= this->fRowLwb+this->fNrows-1; i++) {
2082 for (
Int_t j = this->fColLwb; j <= this->fColLwb+this->fNcols-1; j++) {
2084 const Int_t irow = i-this->fRowLwb;
2085 fRowIndex[irow+1] = ielem+1;
2086 fElements[ielem] = 1.0;
2087 fColIndex[ielem++] = j-this->fColLwb;
2099template<
class Element>
2104 const Element * ep = GetMatrixArray();
2105 const Element *
const fp = ep+this->fNelems;
2106 const Int_t *
const pR = GetRowIndexArray();
2110 for (
Int_t irow = 0; irow < this->fNrows; irow++) {
2111 const Int_t sIndex = pR[irow];
2112 const Int_t eIndex = pR[irow+1];
2128template<
class Element>
2136 const Element *
const fp = ep+this->fNcols;
2143 for (
Int_t i = 0; i < this->fNrows; i++,ep += this->fNcols)
2145 ep -= this->fNelems-1;
2156template<
class Element>
2161 const Int_t arown = rown-this->fRowLwb;
2162 const Int_t acoln = coln-this->fColLwb;
2163 if (arown >= this->fNrows || arown < 0) {
2164 Error(
"operator()",
"Request row(%d) outside matrix range of %d - %d",rown,this->fRowLwb,this->fRowLwb+this->fNrows);
2165 return fElements[0];
2167 if (acoln >= this->fNcols || acoln < 0) {
2168 Error(
"operator()",
"Request column(%d) outside matrix range of %d - %d",coln,this->fColLwb,this->fColLwb+this->fNcols);
2169 return fElements[0];
2175 if (this->fNrowIndex > 0 && fRowIndex[this->fNrowIndex-1] != 0) {
2176 sIndex = fRowIndex[arown];
2177 eIndex = fRowIndex[arown+1];
2181 if (
index >= sIndex && fColIndex[
index] == acoln)
2182 return fElements[
index];
2185 InsertRow(rown,coln,&val,1);
2186 sIndex = fRowIndex[arown];
2187 eIndex = fRowIndex[arown+1];
2189 if (
index >= sIndex && fColIndex[
index] == acoln)
2190 return fElements[
index];
2192 Error(
"operator()(Int_t,Int_t",
"Insert row failed");
2193 return fElements[0];
2200template <
class Element>
2204 if (this->fNrowIndex > 0 && this->fRowIndex[this->fNrowIndex-1] == 0) {
2205 Error(
"operator()(Int_t,Int_t) const",
"row/col indices are not set");
2206 Info(
"operator()",
"fNrowIndex = %d fRowIndex[fNrowIndex-1] = %d\n",this->fNrowIndex,this->fRowIndex[this->fNrowIndex-1]);
2209 const Int_t arown = rown-this->fRowLwb;
2210 const Int_t acoln = coln-this->fColLwb;
2212 if (arown >= this->fNrows || arown < 0) {
2213 Error(
"operator()",
"Request row(%d) outside matrix range of %d - %d",rown,this->fRowLwb,this->fRowLwb+this->fNrows);
2216 if (acoln >= this->fNcols || acoln < 0) {
2217 Error(
"operator()",
"Request column(%d) outside matrix range of %d - %d",coln,this->fColLwb,this->fColLwb+this->fNcols);
2221 const Int_t sIndex = fRowIndex[arown];
2222 const Int_t eIndex = fRowIndex[arown+1];
2224 if (
index < sIndex || fColIndex[
index] != acoln)
return 0.0;
2225 else return fElements[
index];
2232template<
class Element>
2236 Error(
"operator=(const TMatrixTSparse &)",
"matrices not compatible");
2244 Element *
const tp = this->GetMatrixArray();
2245 memcpy(tp,sp,this->fNelems*
sizeof(Element));
2246 this->fTol = source.
GetTol();
2255template<
class Element>
2259 Error(
"operator=(const TMatrixT &)",
"matrices not compatible");
2267 Element *
const tp = this->GetMatrixArray();
2268 for (
Int_t irow = 0; irow < this->fNrows; irow++) {
2269 const Int_t sIndex = fRowIndex[irow];
2270 const Int_t eIndex = fRowIndex[irow+1];
2271 const Int_t off = irow*this->fNcols;
2274 tp[
index] = sp[off+icol];
2277 this->fTol = source.
GetTol();
2286template<
class Element>
2291 if (fRowIndex[this->fNrowIndex-1] == 0) {
2292 Error(
"operator=(Element",
"row/col indices are not set");
2296 Element *ep = this->GetMatrixArray();
2297 const Element *
const ep_last = ep+this->fNelems;
2298 while (ep < ep_last)
2307template<
class Element>
2312 Element *ep = this->GetMatrixArray();
2313 const Element *
const ep_last = ep+this->fNelems;
2314 while (ep < ep_last)
2323template<
class Element>
2328 Element *ep = this->GetMatrixArray();
2329 const Element *
const ep_last = ep+this->fNelems;
2330 while (ep < ep_last)
2339template<
class Element>
2344 Element *ep = this->GetMatrixArray();
2345 const Element *
const ep_last = ep+this->fNelems;
2346 while (ep < ep_last)
2355template<
class Element>
2360 const Element scale = beta-alpha;
2361 const Element shift = alpha/scale;
2363 Int_t *
const pRowIndex = GetRowIndexArray();
2364 Int_t *
const pColIndex = GetColIndexArray();
2365 Element *
const ep = GetMatrixArray();
2367 const Int_t m = this->GetNrows();
2368 const Int_t n = this->GetNcols();
2371 const Int_t nn = this->GetNrows()*this->GetNcols();
2372 const Int_t length = (this->GetNoElements() <= nn) ? this->GetNoElements() : nn;
2376 for (
Int_t k = 0; k < nn; k++) {
2377 const Element
r =
Drand(seed);
2379 if ((nn-k)*
r <
length-chosen) {
2380 pColIndex[chosen] = k%
n;
2383 if (irow > icurrent) {
2384 for ( ; icurrent < irow; icurrent++)
2385 pRowIndex[icurrent+1] = chosen;
2387 ep[chosen] = scale*(
Drand(seed)+shift);
2391 for ( ; icurrent <
m; icurrent++)
2392 pRowIndex[icurrent+1] =
length;
2402template<
class Element>
2405 const Element scale = beta-alpha;
2406 const Element shift = alpha/scale;
2411 if (this->fNrows != this->fNcols || this->fRowLwb != this->fColLwb) {
2412 Error(
"RandomizePD(Element &",
"matrix should be square");
2417 const Int_t n = this->fNcols;
2419 Int_t *
const pRowIndex = this->GetRowIndexArray();
2420 Int_t *
const pColIndex = this->GetColIndexArray();
2421 Element *
const ep = GetMatrixArray();
2428 ep[0] = 1
e-8+scale*(
Drand(seed)+shift);
2448 for (
Int_t k = 0; k < nn; k++ ) {
2449 const Element
r =
Drand(seed);
2451 if( (nn-k)*
r <
length-chosen) {
2458 Int_t col = k-row*(row+1)/2;
2463 if (row > icurrent) {
2467 for ( ; icurrent < row; icurrent++) {
2470 for (
Int_t ll = pRowIndex[icurrent]; ll < nnz; ll++)
2472 ep[nnz] += 1
e-8+scale*(
Drand(seed)+shift);
2473 pColIndex[nnz] = icurrent;
2476 pRowIndex[icurrent+1] = nnz;
2479 ep[nnz] = scale*(
Drand(seed)+shift);
2480 pColIndex[nnz] = col;
2483 ep[pRowIndex[col+1]-1] +=
TMath::Abs(ep[nnz]);
2493 for ( ; icurrent <
n; icurrent++) {
2496 for(
Int_t ll = pRowIndex[icurrent]; ll < nnz; ll++)
2498 ep[nnz] += 1
e-8+scale*(
Drand(seed)+shift);
2499 pColIndex[nnz] = icurrent;
2502 pRowIndex[icurrent+1] = nnz;
2504 this->fNelems = nnz;
2512 const Int_t *
const pR = this->GetRowIndexArray();
2513 const Int_t *
const pC = this->GetColIndexArray();
2514 Element *
const pD = GetMatrixArray();
2515 for (
Int_t irow = 0; irow < this->fNrows+1; irow++) {
2516 const Int_t sIndex = pR[irow];
2517 const Int_t eIndex = pR[irow+1];
2531template<
class Element>
2540template<
class Element>
2549template<
class Element>
2558template<
class Element>
2568template<
class Element>
2578template<
class Element>
2587template<
class Element>
2596template<
class Element>
2605template<
class Element>
2615template<
class Element>
2625template<
class Element>
2634template<
class Element>
2643template<
class Element>
2652template<
class Element>
2662template<
class Element>
2673template<
class Element>
2676 target += scalar * source;
2683template<
class Element>
2687 ::Error(
"ElementMult(TMatrixTSparse &,const TMatrixTSparse &)",
"matrices not compatible");
2692 Element *tp =
target.GetMatrixArray();
2693 const Element *ftp = tp+
target.GetNoElements();
2703template<
class Element>
2707 ::Error(
"ElementDiv(TMatrixT &,const TMatrixT &)",
"matrices not compatible");
2712 Element *tp =
target.GetMatrixArray();
2713 const Element *ftp = tp+
target.GetNoElements();
2714 while ( tp < ftp ) {
2718 Error(
"ElementDiv",
"source element is zero");
2728template<
class Element>
2733 ::Error(
"AreCompatible",
"matrix 1 not valid");
2738 ::Error(
"AreCompatible",
"matrix 2 not valid");
2745 ::Error(
"AreCompatible",
"matrices 1 and 2 not compatible");
2752 if (memcmp(pR1,pR2,(nRows+1)*
sizeof(
Int_t))) {
2754 ::Error(
"AreCompatible",
"matrices 1 and 2 have different rowIndex");
2755 for (
Int_t i = 0; i < nRows+1; i++)
2756 printf(
"%d: %d %d\n",i,pR1[i],pR2[i]);
2762 if (memcmp(pD1,pD2,nData*
sizeof(
Int_t))) {
2764 ::Error(
"AreCompatible",
"matrices 1 and 2 have different colIndex");
2765 for (
Int_t i = 0; i < nData; i++)
2766 printf(
"%d: %d %d\n",i,pD1[i],pD2[i]);
2776template<
class Element>
2784 if (this->fNelems < 0)
#define templateClassImp(name)
void Info(const char *location, const char *msgfmt,...)
Use this function for informational messages.
void Error(const char *location, const char *msgfmt,...)
Use this function in case an error occurred.
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void data
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char Pixmap_t Pixmap_t PictureAttributes_t attr const char char ret_data h unsigned char height h Atom_t Int_t ULong_t ULong_t unsigned char prop_list Atom_t Atom_t target
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t r
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t index
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char Pixmap_t Pixmap_t PictureAttributes_t attr const char char ret_data h unsigned char height h length
R__EXTERN Int_t gMatrixCheck
TMatrixTSparse< Element > & ElementDiv(TMatrixTSparse< Element > &target, const TMatrixTSparse< Element > &source)
Divide target by the source, element-by-element.
template TMatrixFSparse & ElementDiv< Float_t >(TMatrixFSparse &target, const TMatrixFSparse &source)
template TMatrixDSparse & Add< Double_t >(TMatrixDSparse &target, Double_t scalar, const TMatrixDSparse &source)
template Bool_t AreCompatible< Float_t >(const TMatrixFSparse &m1, const TMatrixFSparse &m2, Int_t verbose)
Bool_t AreCompatible(const TMatrixTSparse< Element > &m1, const TMatrixTSparse< Element > &m2, Int_t verbose)
template TMatrixDSparse & ElementDiv< Double_t >(TMatrixDSparse &target, const TMatrixDSparse &source)
TMatrixTSparse< Element > operator*(const TMatrixTSparse< Element > &source1, const TMatrixTSparse< Element > &source2)
TMatrixTSparse< Element > operator-(const TMatrixTSparse< Element > &source1, const TMatrixTSparse< Element > &source2)
TMatrixTSparse< Element > & Add(TMatrixTSparse< Element > &target, Element scalar, const TMatrixTSparse< Element > &source)
Modify addition: target += scalar * source.
template TMatrixFSparse & ElementMult< Float_t >(TMatrixFSparse &target, const TMatrixFSparse &source)
TMatrixTSparse< Element > operator+(const TMatrixTSparse< Element > &source1, const TMatrixTSparse< Element > &source2)
template Bool_t AreCompatible< Double_t >(const TMatrixDSparse &m1, const TMatrixDSparse &m2, Int_t verbose)
TMatrixTSparse< Element > & ElementMult(TMatrixTSparse< Element > &target, const TMatrixTSparse< Element > &source)
Multiply target by the source, element-by-element.
template TMatrixDSparse & ElementMult< Double_t >(TMatrixDSparse &target, const TMatrixDSparse &source)
template TMatrixFSparse & Add< Float_t >(TMatrixFSparse &target, Float_t scalar, const TMatrixFSparse &source)
Double_t Drand(Double_t &ix)
Random number generator [0....1] with seed ix.
Buffer base class used for serializing objects.
virtual Version_t ReadVersion(UInt_t *start=nullptr, UInt_t *bcnt=nullptr, const TClass *cl=nullptr)=0
virtual Int_t ReadClassBuffer(const TClass *cl, void *pointer, const TClass *onfile_class=nullptr)=0
virtual Int_t WriteClassBuffer(const TClass *cl, void *pointer)=0
virtual const Element * GetMatrixArray() const =0
virtual const Int_t * GetRowIndexArray() const =0
virtual Int_t NonZeros() const
Compute the number of elements != 0.0.
virtual const Int_t * GetColIndexArray() const =0
Int_t GetNoElements() const
static void DoubleLexSort(Int_t n, Int_t *first, Int_t *second, Element *data)
default kTRUE, when Use array kFALSE
TMatrixTBase< Element > & Randomize(Element alpha, Element beta, Double_t &seed) override
randomize matrix element values
TMatrixTBase< Element > & SetMatrixArray(const Element *data, Option_t *="") override
Copy array data to matrix .
TMatrixTBase< Element > & GetSub(Int_t row_lwb, Int_t row_upb, Int_t col_lwb, Int_t col_upb, TMatrixTBase< Element > &target, Option_t *option="S") const override
Get submatrix [row_lwb..row_upb][col_lwb..col_upb]; The indexing range of the returned matrix depends...
TMatrixTSparse< Element > & operator+=(Element val)
Add val to every element of the matrix.
TMatrixTSparse< Element > & SetSparseIndex(Int_t nelem_new)
Increase/decrease the number of non-zero elements to nelems_new.
TMatrixTSparse< Element > & Use(Int_t row_lwb, Int_t row_upb, Int_t col_lwb, Int_t col_upb, Int_t nr_nonzeros, Int_t *pRowIndex, Int_t *pColIndex, Element *pData)
TMatrixTBase< Element > & InsertRow(Int_t row, Int_t col, const Element *v, Int_t n=-1) override
Insert in row rown, n elements of array v at column coln.
Element ColNorm() const override
Column matrix norm, MAX{ SUM{ |M(i,j)|, over i}, over j}.
void Streamer(TBuffer &) override
Stream an object of class TMatrixTSparse.
const Int_t * GetRowIndexArray() const override
void AMinusB(const TMatrixTSparse< Element > &a, const TMatrixTSparse< Element > &b, Int_t constr=0)
General matrix subtraction.
TMatrixTSparse< Element > & operator*=(Element val)
Multiply every element of the matrix with val.
void AMultBt(const TMatrixTSparse< Element > &a, const TMatrixTSparse< Element > &b, Int_t constr=0)
General matrix multiplication.
void GetMatrix2Array(Element *data, Option_t *="") const override
Copy matrix data to array . It is assumed that array is of size >= fNelems.
TMatrixTSparse< Element > & Transpose(const TMatrixTSparse< Element > &source)
Transpose a matrix.
TMatrixTSparse< Element > & operator-=(Element val)
Subtract val from every element of the matrix.
Int_t NonZeros() const override
Compute the number of elements != 0.0.
TMatrixTBase< Element > & SetSub(Int_t row_lwb, Int_t col_lwb, const TMatrixTBase< Element > &source) override
Insert matrix source starting at [row_lwb][col_lwb], thereby overwriting the part [row_lwb....
void Allocate(Int_t nrows, Int_t ncols, Int_t row_lwb=0, Int_t col_lwb=0, Int_t init=0, Int_t nr_nonzeros=0)
Allocate new matrix.
TMatrixTBase< Element > & ResizeTo(Int_t nrows, Int_t ncols, Int_t nr_nonzeros=-1) override
Set size of the matrix to nrows x ncols with nr_nonzeros non-zero entries if nr_nonzeros > 0 .
void APlusB(const TMatrixTSparse< Element > &a, const TMatrixTSparse< Element > &b, Int_t constr=0)
General matrix addition.
virtual TMatrixTSparse< Element > & RandomizePD(Element alpha, Element beta, Double_t &seed)
randomize matrix element values but keep matrix symmetric positive definite
TMatrixTBase< Element > & Zero() override
Set matrix elements to zero.
TMatrixTSparse< Element > & operator=(const TMatrixT< Element > &source)
Notice that the sparsity of the matrix is NOT changed : its fRowIndex/fColIndex are used !
const Int_t * GetColIndexArray() const override
Element operator()(Int_t rown, Int_t coln) const override
void ExtractRow(Int_t row, Int_t col, Element *v, Int_t n=-1) const override
Store in array v, n matrix elements of row rown starting at column coln.
TMatrixTBase< Element > & UnitMatrix() override
Make a unit matrix (matrix need not be a square one).
Element RowNorm() const override
Row matrix norm, MAX{ SUM{ |M(i,j)|, over j}, over i}.
TMatrixTSparse< Element > & SetSparseIndexAB(const TMatrixTSparse< Element > &a, const TMatrixTSparse< Element > &b)
Set the row/column indices to the "sum" of matrices a and b It is checked that enough space has been ...
const Element * GetMatrixArray() const override
const Element * GetMatrixArray() const override
TObject & operator=(const TObject &rhs)
TObject assignment operator.
void ToUpper()
Change string to upper case.
Bool_t Contains(const char *pat, ECaseCompare cmp=kExact) const
Long64_t LocMin(Long64_t n, const T *a)
Returns index of array with the minimum element.
Short_t Max(Short_t a, Short_t b)
Returns the largest of a and b.
Double_t Floor(Double_t x)
Rounds x downward, returning the largest integral value that is not greater than x.
Long64_t LocMax(Long64_t n, const T *a)
Returns index of array with the maximum element.
Double_t Sqrt(Double_t x)
Returns the square root of x.
Short_t Min(Short_t a, Short_t b)
Returns the smallest of a and b.
Long64_t BinarySearch(Long64_t n, const T *array, T value)
Binary search in an array of n values to locate value.
Short_t Abs(Short_t d)
Returns the absolute value of parameter Short_t d.
void AMultBt(const Element *const ap, Int_t na, Int_t ncolsa, const Element *const bp, Int_t nb, Int_t ncolsb, Element *cp)
Elementary routine to calculate matrix multiplication A*B^T.
void AMultB(const Element *const ap, Int_t na, Int_t ncolsa, const Element *const bp, Int_t nb, Int_t ncolsb, Element *cp)
Elementary routine to calculate matrix multiplication A*B.
static uint64_t sum(uint64_t i)