/usr/include/sc/math/scmat/blocked.h is in libsc-dev 2.3.1-16.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// blocked.h
//
// Copyright (C) 1996 Limit Point Systems, Inc.
//
// Author: Curtis Janssen <cljanss@limitpt.com>
// Maintainer: LPS
//
// This file is part of the SC Toolkit.
//
// The SC Toolkit is free software; you can redistribute it and/or modify
// it under the terms of the GNU Library General Public License as published by
// the Free Software Foundation; either version 2, or (at your option)
// any later version.
//
// The SC Toolkit 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 Library General Public License for more details.
//
// You should have received a copy of the GNU Library General Public License
// along with the SC Toolkit; see the file COPYING.LIB. If not, write to
// the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
//
// The U.S. Government is granted a limited license as per AL 91-7.
//
#ifdef __GNUC__
#pragma interface
#endif
#ifndef _math_scmat_blocked_h
#define _math_scmat_blocked_h
#include <math/scmat/block.h>
#include <math/scmat/elemop.h>
#include <math/scmat/matrix.h>
#include <math/scmat/abstract.h>
namespace sc {
class BlockedSCMatrixKit;
class BlockedSCVector;
class BlockedSCMatrix;
class BlockedSymmSCMatrix;
class BlockedDiagSCMatrix;
class BlockedSCMatrixKit: public SCMatrixKit {
private:
Ref<SCMatrixKit> subkit_;
public:
BlockedSCMatrixKit(const Ref<SCMatrixKit>& subkit);
BlockedSCMatrixKit(const Ref<KeyVal>&);
~BlockedSCMatrixKit();
SCMatrix* matrix(const RefSCDimension&,const RefSCDimension&);
SymmSCMatrix* symmmatrix(const RefSCDimension&);
DiagSCMatrix* diagmatrix(const RefSCDimension&);
SCVector* vector(const RefSCDimension&);
Ref<SCMatrixKit> subkit() { return subkit_; }
};
class BlockedSCVector: public SCVector {
friend class BlockedSCMatrix;
friend class BlockedSymmSCMatrix;
friend class BlockedDiagSCMatrix;
private:
Ref<SCMatrixKit> subkit;
RefSCVector *vecs_;
void resize(SCDimension*);
public:
BlockedSCVector(const RefSCDimension&, BlockedSCMatrixKit*);
~BlockedSCVector();
// Save and restore this in an implementation independent way.
void save(StateOut&);
void restore(StateIn&);
void assign_val(double);
void assign_v(SCVector*);
void assign_p(const double*);
double get_element(int) const;
void set_element(int,double);
void accumulate_element(int,double);
void accumulate_product_rv(SCMatrix*,SCVector*);
void accumulate_product_sv(SymmSCMatrix*,SCVector*);
void accumulate(const SCVector*);
void accumulate(const SCMatrix*);
double scalar_product(SCVector*);
void element_op(const Ref<SCElementOp>&);
void element_op(const Ref<SCElementOp2>&,
SCVector*);
void element_op(const Ref<SCElementOp3>&,
SCVector*,SCVector*);
void vprint(const char* title=0,
std::ostream& out=ExEnv::out0(), int =10) const;
// BlockedSCVector specific functions
RefSCDimension dim() const { return d; }
RefSCDimension dim(int) const;
int nblocks() const;
RefSCVector block(int);
Ref<SCMatrixSubblockIter> local_blocks(SCMatrixSubblockIter::Access);
Ref<SCMatrixSubblockIter> all_blocks(SCMatrixSubblockIter::Access);
};
class BlockedSCMatrix: public SCMatrix {
friend class BlockedSymmSCMatrix;
friend class BlockedDiagSCMatrix;
friend class BlockedSCVector;
private:
Ref<SCMatrixKit> subkit;
RefSCMatrix *mats_;
int nblocks_;
void resize(SCDimension*, SCDimension*);
public:
BlockedSCMatrix(const RefSCDimension&, const RefSCDimension&,
BlockedSCMatrixKit*);
~BlockedSCMatrix();
// Save and restore this in an implementation independent way.
void save(StateOut&);
void restore(StateIn&);
void assign_val(double);
double get_element(int,int) const;
void set_element(int,int,double);
void accumulate_element(int,int,double);
SCMatrix * get_subblock(int,int,int,int);
void assign_subblock(SCMatrix*, int,int,int,int,int=0,int=0);
void accumulate_subblock(SCMatrix*, int,int,int,int,int=0,int=0);
SCVector * get_row(int i);
SCVector * get_column(int i);
void assign_row(SCVector *v, int i);
void assign_column(SCVector *v, int i);
void accumulate_row(SCVector *v, int i);
void accumulate_column(SCVector *v, int i);
void accumulate_outer_product(SCVector*,SCVector*);
void accumulate_product_rr(SCMatrix*,SCMatrix*);
void accumulate_product_rs(SCMatrix*,SymmSCMatrix*);
void accumulate_product_rd(SCMatrix*,DiagSCMatrix*);
void accumulate(const SCMatrix*);
void accumulate(const SymmSCMatrix*);
void accumulate(const DiagSCMatrix*);
void accumulate(const SCVector*);
void transpose_this();
double invert_this();
void svd_this(SCMatrix *U, DiagSCMatrix *sigma, SCMatrix *V);
double solve_this(SCVector*);
double determ_this();
double trace();
void gen_invert_this();
void schmidt_orthog(SymmSCMatrix*,int);
int schmidt_orthog_tol(SymmSCMatrix*, double tol, double *res=0);
void element_op(const Ref<SCElementOp>&);
void element_op(const Ref<SCElementOp2>&,
SCMatrix*);
void element_op(const Ref<SCElementOp3>&,
SCMatrix*,SCMatrix*);
void vprint(const char* title=0,
std::ostream& out=ExEnv::out0(), int =10) const;
// BlockedSCMatrix specific functions
RefSCDimension rowdim() const { return d1; }
RefSCDimension coldim() const { return d2; }
RefSCDimension rowdim(int) const;
RefSCDimension coldim(int) const;
int nblocks() const;
RefSCMatrix block(int);
Ref<SCMatrixSubblockIter> local_blocks(SCMatrixSubblockIter::Access);
Ref<SCMatrixSubblockIter> all_blocks(SCMatrixSubblockIter::Access);
};
class BlockedSymmSCMatrix: public SymmSCMatrix {
friend class BlockedSCMatrix;
friend class BlockedDiagSCMatrix;
friend class BlockedSCVector;
private:
Ref<SCMatrixKit> subkit;
RefSymmSCMatrix *mats_;
void resize(SCDimension*);
public:
BlockedSymmSCMatrix(const RefSCDimension&,BlockedSCMatrixKit*);
~BlockedSymmSCMatrix();
// Save and restore this in an implementation independent way.
void save(StateOut&);
void restore(StateIn&);
double get_element(int,int) const;
void set_element(int,int,double);
void accumulate_element(int,int,double);
void scale(double);
void assign_val(double);
void assign_s(SymmSCMatrix*m);
SCMatrix * get_subblock(int,int,int,int);
SymmSCMatrix * get_subblock(int,int);
void assign_subblock(SCMatrix*, int,int,int,int);
void assign_subblock(SymmSCMatrix*, int,int);
void accumulate_subblock(SCMatrix*, int,int,int,int);
void accumulate_subblock(SymmSCMatrix*, int,int);
SCVector * get_row(int i);
void assign_row(SCVector *v, int i);
void accumulate_row(SCVector *v, int i);
double invert_this();
double determ_this();
double trace();
double solve_this(SCVector*);
void gen_invert_this();
double scalar_product(SCVector*);
void diagonalize(DiagSCMatrix*,SCMatrix*);
void accumulate(const SymmSCMatrix*);
void accumulate_symmetric_outer_product(SCVector*);
void accumulate_symmetric_product(SCMatrix*);
void accumulate_symmetric_sum(SCMatrix*);
void accumulate_transform(SCMatrix*,SymmSCMatrix*,
SCMatrix::Transform = SCMatrix::NormalTransform);
void accumulate_transform(SCMatrix*,DiagSCMatrix*,
SCMatrix::Transform = SCMatrix::NormalTransform);
void accumulate_transform(SymmSCMatrix*,SymmSCMatrix*);
void convert_accumulate(SymmSCMatrix*a);
void element_op(const Ref<SCElementOp>&);
void element_op(const Ref<SCElementOp2>&,
SymmSCMatrix*);
void element_op(const Ref<SCElementOp3>&,
SymmSCMatrix*,SymmSCMatrix*);
void vprint(const char* title=0,
std::ostream& out=ExEnv::out0(), int =10) const;
// BlockedSymmSCMatrix specific functions
RefSCDimension dim() const { return d; }
RefSCDimension dim(int) const;
int nblocks() const;
RefSymmSCMatrix block(int);
Ref<SCMatrixSubblockIter> local_blocks(SCMatrixSubblockIter::Access);
Ref<SCMatrixSubblockIter> all_blocks(SCMatrixSubblockIter::Access);
};
class BlockedDiagSCMatrix: public DiagSCMatrix {
friend class BlockedSCMatrix;
friend class BlockedSymmSCMatrix;
friend class BlockedSCVector;
private:
Ref<SCMatrixKit> subkit;
RefDiagSCMatrix *mats_;
void resize(SCDimension*);
public:
BlockedDiagSCMatrix(const RefSCDimension&,BlockedSCMatrixKit*);
~BlockedDiagSCMatrix();
// Save and restore this in an implementation independent way.
void save(StateOut&);
void restore(StateIn&);
double get_element(int) const;
void set_element(int,double);
void accumulate_element(int,double);
void accumulate(const DiagSCMatrix*);
double invert_this();
double determ_this();
double trace();
void gen_invert_this();
void element_op(const Ref<SCElementOp>&);
void element_op(const Ref<SCElementOp2>&,
DiagSCMatrix*);
void element_op(const Ref<SCElementOp3>&,
DiagSCMatrix*,DiagSCMatrix*);
void vprint(const char* title=0,
std::ostream& out=ExEnv::out0(), int =10) const;
// BlockedDiagSCMatrix specific functions
RefSCDimension dim() const { return d; }
RefSCDimension dim(int) const;
int nblocks() const;
RefDiagSCMatrix block(int);
Ref<SCMatrixSubblockIter> local_blocks(SCMatrixSubblockIter::Access);
Ref<SCMatrixSubblockIter> all_blocks(SCMatrixSubblockIter::Access);
};
class BlockedSCElementOp : public SCElementOp {
private:
int current_block_;
public:
BlockedSCElementOp();
void working_on(int);
int current_block() const;
};
class BlockedSCElementOp2 : public SCElementOp2 {
private:
int current_block_;
public:
BlockedSCElementOp2();
void working_on(int);
int current_block() const;
};
class BlockedSCElementOp3 : public SCElementOp3 {
private:
int current_block_;
public:
BlockedSCElementOp3();
void working_on(int);
int current_block() const;
};
}
#endif
// Local Variables:
// mode: c++
// c-file-style: "CLJ"
// End:
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