6 std::cerr <<
"# [MARK] operator+(const dssmatrix&, const dsymatrix&)"
11 if(matA.M!=matB.N || matA.N!=matB.N){
12 std::cerr <<
"[ERROR] operator+(const dssmatrix&, const dsymatrix&)"
14 <<
"These two matrises can not make a summation." << std::endl
15 <<
"Your input was (" << matA.M <<
"x" << matA.N <<
") + ("
16 << matB.N <<
"x" << matB.N <<
")." << std::endl;
22 for(
long c=0; c<matA.VOL; c++){
23 newmat(matA.Indx[c],matA.Jndx[c]) += matA.Array[c];
34 std::cerr <<
"# [MARK] operator-(const dssmatrix&, const dsymatrix&)"
39 if(matA.M!=matB.N || matA.N!=matB.N){
40 std::cerr <<
"[ERROR] operator-(const dssmatrix&, const dsymatrix&)"
42 <<
"These two matrises can not make a subtraction." << std::endl
43 <<
"Your input was (" << matA.M <<
"x" << matA.N <<
") - ("
44 << matB.N <<
"x" << matB.N <<
")." << std::endl;
53 for(
long c=0; c<matA.VOL; c++){
54 newmat(matA.Indx[c],matA.Jndx[c]) += matA.Array[c];
65 std::cerr <<
"# [MARK] operator*(const dssmatrix&, const dsymatrix&)"
71 std::cerr <<
"[ERROR] operator*(const dssmatrix&, const dsymatrix&)"
73 <<
"These two matrises can not make a product." << std::endl
74 <<
"Your input was (" << matA.M <<
"x" << matA.N <<
") * ("
75 << matB.N <<
"x" << matB.N <<
")." << std::endl;
83 for(
long c=0; c<matA.VOL; c++){
84 for(
long i=0; i<matB.N; i++){
85 newmat(matA.Indx[c],i) += matA.Array[c]*matB(matA.Jndx[c],i);
Real Double-precision General Dence Matrix Class.
Definition: dgematrix.hpp:3
Real Double-precision Symmetric Matrix Class [L-type (UPLO=L) Strage].
Definition: dsymatrix.hpp:3
friend _drovector operator-(const _drovector &)
Definition: _drovector-unary.hpp:15
(DO NOT USE) Smart-temporary Real Double-precision General Dence Matrix Class
Definition: _dgematrix.hpp:3
friend _drovector operator*(const drovector &, const dgematrix &)
Definition: drovector-dgematrix.hpp:3
Real Double-precision Sparse Matrix Class.
Definition: dssmatrix.hpp:3
friend const _drovector & operator+(const _drovector &)
Definition: _drovector-unary.hpp:3