Mercurial > hg > octave-nkf
view liboctave/MSparse.cc @ 10822:23d2378512a0
implement rsf2csf
| author | Jaroslav Hajek <highegg@gmail.com> |
|---|---|
| date | Tue, 27 Jul 2010 11:26:43 +0200 |
| parents | 12884915a8e4 |
| children | fd0a3ac60b0e |
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/* Copyright (C) 2004, 2005, 2006, 2007, 2008 David Bateman Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2004 Andy Adler This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include "quit.h" #include "lo-error.h" #include "MArray.h" #include "Array-util.h" #include "MSparse.h" #include "MSparse-defs.h" // sparse array with math ops. // Element by element MSparse by MSparse ops. template <class T> MSparse<T>& operator += (MSparse<T>& a, const MSparse<T>& b) { MSparse<T> r; octave_idx_type a_nr = a.rows (); octave_idx_type a_nc = a.cols (); octave_idx_type b_nr = b.rows (); octave_idx_type b_nc = b.cols (); if (a_nr != b_nr || a_nc != b_nc) gripe_nonconformant ("operator +=" , a_nr, a_nc, b_nr, b_nc); else { r = MSparse<T> (a_nr, a_nc, (a.nnz () + b.nnz ())); octave_idx_type jx = 0; for (octave_idx_type i = 0 ; i < a_nc ; i++) { octave_idx_type ja = a.cidx(i); octave_idx_type ja_max = a.cidx(i+1); bool ja_lt_max= ja < ja_max; octave_idx_type jb = b.cidx(i); octave_idx_type jb_max = b.cidx(i+1); bool jb_lt_max = jb < jb_max; while (ja_lt_max || jb_lt_max ) { octave_quit (); if ((! jb_lt_max) || (ja_lt_max && (a.ridx(ja) < b.ridx(jb)))) { r.ridx(jx) = a.ridx(ja); r.data(jx) = a.data(ja) + 0.; jx++; ja++; ja_lt_max= ja < ja_max; } else if (( !ja_lt_max ) || (jb_lt_max && (b.ridx(jb) < a.ridx(ja)) ) ) { r.ridx(jx) = b.ridx(jb); r.data(jx) = 0. + b.data(jb); jx++; jb++; jb_lt_max= jb < jb_max; } else { if ((a.data(ja) + b.data(jb)) != 0.) { r.data(jx) = a.data(ja) + b.data(jb); r.ridx(jx) = a.ridx(ja); jx++; } ja++; ja_lt_max= ja < ja_max; jb++; jb_lt_max= jb < jb_max; } } r.cidx(i+1) = jx; } a = r.maybe_compress (); } return a; } template <class T> MSparse<T>& operator -= (MSparse<T>& a, const MSparse<T>& b) { MSparse<T> r; octave_idx_type a_nr = a.rows (); octave_idx_type a_nc = a.cols (); octave_idx_type b_nr = b.rows (); octave_idx_type b_nc = b.cols (); if (a_nr != b_nr || a_nc != b_nc) gripe_nonconformant ("operator -=" , a_nr, a_nc, b_nr, b_nc); else { r = MSparse<T> (a_nr, a_nc, (a.nnz () + b.nnz ())); octave_idx_type jx = 0; for (octave_idx_type i = 0 ; i < a_nc ; i++) { octave_idx_type ja = a.cidx(i); octave_idx_type ja_max = a.cidx(i+1); bool ja_lt_max= ja < ja_max; octave_idx_type jb = b.cidx(i); octave_idx_type jb_max = b.cidx(i+1); bool jb_lt_max = jb < jb_max; while (ja_lt_max || jb_lt_max ) { octave_quit (); if ((! jb_lt_max) || (ja_lt_max && (a.ridx(ja) < b.ridx(jb)))) { r.ridx(jx) = a.ridx(ja); r.data(jx) = a.data(ja) - 0.; jx++; ja++; ja_lt_max= ja < ja_max; } else if (( !ja_lt_max ) || (jb_lt_max && (b.ridx(jb) < a.ridx(ja)) ) ) { r.ridx(jx) = b.ridx(jb); r.data(jx) = 0. - b.data(jb); jx++; jb++; jb_lt_max= jb < jb_max; } else { if ((a.data(ja) - b.data(jb)) != 0.) { r.data(jx) = a.data(ja) - b.data(jb); r.ridx(jx) = a.ridx(ja); jx++; } ja++; ja_lt_max= ja < ja_max; jb++; jb_lt_max= jb < jb_max; } } r.cidx(i+1) = jx; } a = r.maybe_compress (); } return a; } // Element by element MSparse by scalar ops. #define SPARSE_A2S_OP_1(OP) \ template <class T> \ MArray<T> \ operator OP (const MSparse<T>& a, const T& s) \ { \ octave_idx_type nr = a.rows (); \ octave_idx_type nc = a.cols (); \ \ MArray<T> r (nr, nc, (0.0 OP s)); \ \ for (octave_idx_type j = 0; j < nc; j++) \ for (octave_idx_type i = a.cidx(j); i < a.cidx(j+1); i++) \ r.elem (a.ridx (i), j) = a.data (i) OP s; \ return r; \ } #define SPARSE_A2S_OP_2(OP) \ template <class T> \ MSparse<T> \ operator OP (const MSparse<T>& a, const T& s) \ { \ octave_idx_type nr = a.rows (); \ octave_idx_type nc = a.cols (); \ octave_idx_type nz = a.nnz (); \ \ MSparse<T> r (nr, nc, nz); \ \ for (octave_idx_type i = 0; i < nz; i++) \ { \ r.data(i) = a.data(i) OP s; \ r.ridx(i) = a.ridx(i); \ } \ for (octave_idx_type i = 0; i < nc + 1; i++) \ r.cidx(i) = a.cidx(i); \ r.maybe_compress (true); \ return r; \ } SPARSE_A2S_OP_1 (+) SPARSE_A2S_OP_1 (-) SPARSE_A2S_OP_2 (*) SPARSE_A2S_OP_2 (/) // Element by element scalar by MSparse ops. #define SPARSE_SA2_OP_1(OP) \ template <class T> \ MArray<T> \ operator OP (const T& s, const MSparse<T>& a) \ { \ octave_idx_type nr = a.rows (); \ octave_idx_type nc = a.cols (); \ \ MArray<T> r (nr, nc, (s OP 0.0)); \ \ for (octave_idx_type j = 0; j < nc; j++) \ for (octave_idx_type i = a.cidx(j); i < a.cidx(j+1); i++) \ r.elem (a.ridx (i), j) = s OP a.data (i); \ return r; \ } #define SPARSE_SA2_OP_2(OP) \ template <class T> \ MSparse<T> \ operator OP (const T& s, const MSparse<T>& a) \ { \ octave_idx_type nr = a.rows (); \ octave_idx_type nc = a.cols (); \ octave_idx_type nz = a.nnz (); \ \ MSparse<T> r (nr, nc, nz); \ \ for (octave_idx_type i = 0; i < nz; i++) \ { \ r.data(i) = s OP a.data(i); \ r.ridx(i) = a.ridx(i); \ } \ for (octave_idx_type i = 0; i < nc + 1; i++) \ r.cidx(i) = a.cidx(i); \ r.maybe_compress (true); \ return r; \ } SPARSE_SA2_OP_1 (+) SPARSE_SA2_OP_1 (-) SPARSE_SA2_OP_2 (*) SPARSE_SA2_OP_2 (/) // Element by element MSparse by MSparse ops. #define SPARSE_A2A2_OP(OP) \ template <class T> \ MSparse<T> \ operator OP (const MSparse<T>& a, const MSparse<T>& b) \ { \ MSparse<T> r; \ \ octave_idx_type a_nr = a.rows (); \ octave_idx_type a_nc = a.cols (); \ \ octave_idx_type b_nr = b.rows (); \ octave_idx_type b_nc = b.cols (); \ \ if (a_nr == 1 && a_nc == 1) \ { \ if (a.elem(0,0) == 0.) \ r = OP MSparse<T> (b); \ else \ { \ r = MSparse<T> (b_nr, b_nc, a.data(0) OP 0.); \ \ for (octave_idx_type j = 0 ; j < b_nc ; j++) \ { \ octave_quit (); \ octave_idx_type idxj = j * b_nr; \ for (octave_idx_type i = b.cidx(j) ; i < b.cidx(j+1) ; i++) \ { \ octave_quit (); \ r.data(idxj + b.ridx(i)) = a.data(0) OP b.data(i); \ } \ } \ r.maybe_compress (); \ } \ } \ else if (b_nr == 1 && b_nc == 1) \ { \ if (b.elem(0,0) == 0.) \ r = MSparse<T> (a); \ else \ { \ r = MSparse<T> (a_nr, a_nc, 0. OP b.data(0)); \ \ for (octave_idx_type j = 0 ; j < a_nc ; j++) \ { \ octave_quit (); \ octave_idx_type idxj = j * a_nr; \ for (octave_idx_type i = a.cidx(j) ; i < a.cidx(j+1) ; i++) \ { \ octave_quit (); \ r.data(idxj + a.ridx(i)) = a.data(i) OP b.data(0); \ } \ } \ r.maybe_compress (); \ } \ } \ else if (a_nr != b_nr || a_nc != b_nc) \ gripe_nonconformant ("operator " # OP, a_nr, a_nc, b_nr, b_nc); \ else \ { \ r = MSparse<T> (a_nr, a_nc, (a.nnz () + b.nnz ())); \ \ octave_idx_type jx = 0; \ r.cidx (0) = 0; \ for (octave_idx_type i = 0 ; i < a_nc ; i++) \ { \ octave_idx_type ja = a.cidx(i); \ octave_idx_type ja_max = a.cidx(i+1); \ bool ja_lt_max= ja < ja_max; \ \ octave_idx_type jb = b.cidx(i); \ octave_idx_type jb_max = b.cidx(i+1); \ bool jb_lt_max = jb < jb_max; \ \ while (ja_lt_max || jb_lt_max ) \ { \ octave_quit (); \ if ((! jb_lt_max) || \ (ja_lt_max && (a.ridx(ja) < b.ridx(jb)))) \ { \ r.ridx(jx) = a.ridx(ja); \ r.data(jx) = a.data(ja) OP 0.; \ jx++; \ ja++; \ ja_lt_max= ja < ja_max; \ } \ else if (( !ja_lt_max ) || \ (jb_lt_max && (b.ridx(jb) < a.ridx(ja)) ) ) \ { \ r.ridx(jx) = b.ridx(jb); \ r.data(jx) = 0. OP b.data(jb); \ jx++; \ jb++; \ jb_lt_max= jb < jb_max; \ } \ else \ { \ if ((a.data(ja) OP b.data(jb)) != 0.) \ { \ r.data(jx) = a.data(ja) OP b.data(jb); \ r.ridx(jx) = a.ridx(ja); \ jx++; \ } \ ja++; \ ja_lt_max= ja < ja_max; \ jb++; \ jb_lt_max= jb < jb_max; \ } \ } \ r.cidx(i+1) = jx; \ } \ \ r.maybe_compress (); \ } \ \ return r; \ } #define SPARSE_A2A2_FCN_1(FCN, OP) \ template <class T> \ MSparse<T> \ FCN (const MSparse<T>& a, const MSparse<T>& b) \ { \ MSparse<T> r; \ \ octave_idx_type a_nr = a.rows (); \ octave_idx_type a_nc = a.cols (); \ \ octave_idx_type b_nr = b.rows (); \ octave_idx_type b_nc = b.cols (); \ \ if (a_nr == 1 && a_nc == 1) \ { \ if (a.elem(0,0) == 0.) \ r = MSparse<T> (b_nr, b_nc); \ else \ { \ r = MSparse<T> (b); \ octave_idx_type b_nnz = b.nnz(); \ \ for (octave_idx_type i = 0 ; i < b_nnz ; i++) \ { \ octave_quit (); \ r.data (i) = a.data(0) OP r.data(i); \ } \ r.maybe_compress (); \ } \ } \ else if (b_nr == 1 && b_nc == 1) \ { \ if (b.elem(0,0) == 0.) \ r = MSparse<T> (a_nr, a_nc); \ else \ { \ r = MSparse<T> (a); \ octave_idx_type a_nnz = a.nnz(); \ \ for (octave_idx_type i = 0 ; i < a_nnz ; i++) \ { \ octave_quit (); \ r.data (i) = r.data(i) OP b.data(0); \ } \ r.maybe_compress (); \ } \ } \ else if (a_nr != b_nr || a_nc != b_nc) \ gripe_nonconformant (#FCN, a_nr, a_nc, b_nr, b_nc); \ else \ { \ r = MSparse<T> (a_nr, a_nc, (a.nnz () > b.nnz () ? a.nnz () : b.nnz ())); \ \ octave_idx_type jx = 0; \ r.cidx (0) = 0; \ for (octave_idx_type i = 0 ; i < a_nc ; i++) \ { \ octave_idx_type ja = a.cidx(i); \ octave_idx_type ja_max = a.cidx(i+1); \ bool ja_lt_max= ja < ja_max; \ \ octave_idx_type jb = b.cidx(i); \ octave_idx_type jb_max = b.cidx(i+1); \ bool jb_lt_max = jb < jb_max; \ \ while (ja_lt_max || jb_lt_max ) \ { \ octave_quit (); \ if ((! jb_lt_max) || \ (ja_lt_max && (a.ridx(ja) < b.ridx(jb)))) \ { \ ja++; ja_lt_max= ja < ja_max; \ } \ else if (( !ja_lt_max ) || \ (jb_lt_max && (b.ridx(jb) < a.ridx(ja)) ) ) \ { \ jb++; jb_lt_max= jb < jb_max; \ } \ else \ { \ if ((a.data(ja) OP b.data(jb)) != 0.) \ { \ r.data(jx) = a.data(ja) OP b.data(jb); \ r.ridx(jx) = a.ridx(ja); \ jx++; \ } \ ja++; ja_lt_max= ja < ja_max; \ jb++; jb_lt_max= jb < jb_max; \ } \ } \ r.cidx(i+1) = jx; \ } \ \ r.maybe_compress (); \ } \ \ return r; \ } #define SPARSE_A2A2_FCN_2(FCN, OP) \ template <class T> \ MSparse<T> \ FCN (const MSparse<T>& a, const MSparse<T>& b) \ { \ MSparse<T> r; \ T Zero = T (); \ \ octave_idx_type a_nr = a.rows (); \ octave_idx_type a_nc = a.cols (); \ \ octave_idx_type b_nr = b.rows (); \ octave_idx_type b_nc = b.cols (); \ \ if (a_nr == 1 && a_nc == 1) \ { \ T val = a.elem (0,0); \ T fill = val OP T(); \ if (fill == T()) \ { \ octave_idx_type b_nnz = b.nnz(); \ r = MSparse<T> (b); \ for (octave_idx_type i = 0 ; i < b_nnz ; i++) \ r.data (i) = val OP r.data(i); \ r.maybe_compress (); \ } \ else \ { \ r = MSparse<T> (b_nr, b_nc, fill); \ for (octave_idx_type j = 0 ; j < b_nc ; j++) \ { \ octave_quit (); \ octave_idx_type idxj = j * b_nr; \ for (octave_idx_type i = b.cidx(j) ; i < b.cidx(j+1) ; i++) \ { \ octave_quit (); \ r.data(idxj + b.ridx(i)) = val OP b.data(i); \ } \ } \ r.maybe_compress (); \ } \ } \ else if (b_nr == 1 && b_nc == 1) \ { \ T val = b.elem (0,0); \ T fill = T() OP val; \ if (fill == T()) \ { \ octave_idx_type a_nnz = a.nnz(); \ r = MSparse<T> (a); \ for (octave_idx_type i = 0 ; i < a_nnz ; i++) \ r.data (i) = r.data(i) OP val; \ r.maybe_compress (); \ } \ else \ { \ r = MSparse<T> (a_nr, a_nc, fill); \ for (octave_idx_type j = 0 ; j < a_nc ; j++) \ { \ octave_quit (); \ octave_idx_type idxj = j * a_nr; \ for (octave_idx_type i = a.cidx(j) ; i < a.cidx(j+1) ; i++) \ { \ octave_quit (); \ r.data(idxj + a.ridx(i)) = a.data(i) OP val; \ } \ } \ r.maybe_compress (); \ } \ } \ else if (a_nr != b_nr || a_nc != b_nc) \ gripe_nonconformant (#FCN, a_nr, a_nc, b_nr, b_nc); \ else \ { \ r = MSparse<T>( a_nr, a_nc, (Zero OP Zero)); \ \ for (octave_idx_type i = 0 ; i < a_nc ; i++) \ { \ octave_idx_type ja = a.cidx(i); \ octave_idx_type ja_max = a.cidx(i+1); \ bool ja_lt_max= ja < ja_max; \ \ octave_idx_type jb = b.cidx(i); \ octave_idx_type jb_max = b.cidx(i+1); \ bool jb_lt_max = jb < jb_max; \ \ while (ja_lt_max || jb_lt_max ) \ { \ octave_quit (); \ if ((! jb_lt_max) || \ (ja_lt_max && (a.ridx(ja) < b.ridx(jb)))) \ { \ r.elem (a.ridx(ja),i) = a.data(ja) OP Zero; \ ja++; ja_lt_max= ja < ja_max; \ } \ else if (( !ja_lt_max ) || \ (jb_lt_max && (b.ridx(jb) < a.ridx(ja)) ) ) \ { \ r.elem (b.ridx(jb),i) = Zero OP b.data(jb); \ jb++; jb_lt_max= jb < jb_max; \ } \ else \ { \ r.elem (a.ridx(ja),i) = a.data(ja) OP b.data(jb); \ ja++; ja_lt_max= ja < ja_max; \ jb++; jb_lt_max= jb < jb_max; \ } \ } \ } \ \ r.maybe_compress (true); \ } \ \ return r; \ } SPARSE_A2A2_OP (+) SPARSE_A2A2_OP (-) SPARSE_A2A2_FCN_1 (product, *) SPARSE_A2A2_FCN_2 (quotient, /) // Unary MSparse ops. template <class T> MSparse<T> operator + (const MSparse<T>& a) { return a; } template <class T> MSparse<T> operator - (const MSparse<T>& a) { MSparse<T> retval (a); octave_idx_type nz = a.nnz (); for (octave_idx_type i = 0; i < nz; i++) retval.data(i) = - retval.data(i); return retval; }