//=============================================================================
/*! zgsmatrix+zgematrix operator */
inline _zgematrix operator+(const zgsmatrix& matA, const zgematrix& matB)
{CPPL_VERBOSE_REPORT;
#ifdef CPPL_DEBUG
if(matA.m!=matB.m || matA.n!=matB.n){
ERROR_REPORT;
std::cerr << "These two matrises can not make a summation." << std::endl
<< "Your input was (" << matA.m << "x" << matA.n << ") + (" << matB.m << "x" << matB.n << ")." << std::endl;
exit(1);
}
#endif//CPPL_DEBUG
zgematrix newmat(matB);
for(std::vector<zcomponent>::const_iterator it=matA.data.begin(); it!=matA.data.end(); it++){
newmat(it->i,it->j) += it->v;
}
return _(newmat);
}
//=============================================================================
/*! zgsmatrix-zgematrix operator */
inline _zgematrix operator-(const zgsmatrix& matA, const zgematrix& matB)
{CPPL_VERBOSE_REPORT;
#ifdef CPPL_DEBUG
if(matA.m!=matB.m || matA.n!=matB.n){
ERROR_REPORT;
std::cerr << "These two matrises can not make a subtraction." << std::endl
<< "Your input was (" << matA.m << "x" << matA.n << ") - (" << matB.n << "x" << matB.n << ")." << std::endl;
exit(1);
}
#endif//CPPL_DEBUG
zgematrix newmat(-matB);
for(std::vector<zcomponent>::const_iterator it=matA.data.begin(); it!=matA.data.end(); it++){
newmat(it->i,it->j) += it->v;
}
return _(newmat);
}
//=============================================================================
/*! zgsmatrix*zgematrix operator */
inline _zgematrix operator*(const zgsmatrix& matA, const zgematrix& matB)
{CPPL_VERBOSE_REPORT;
#ifdef CPPL_DEBUG
if(matA.n!=matB.m){
ERROR_REPORT;
std::cerr << "These two matrises can not make a product." << std::endl
<< "Your input was (" << matA.m << "x" << matA.n << ") * (" << matB.n << "x" << matB.n << ")." << std::endl;
exit(1);
}
#endif//CPPL_DEBUG
zgematrix newmat(matA.m, matB.n);
newmat.zero();
for(std::vector<zcomponent>::const_iterator it=matA.data.begin(); it!=matA.data.end(); it++){
for(long j=0; j<matB.n; j++){
newmat(it->i,j) += it->v*matB(it->j,j);
}
}
return _(newmat);
}
