void SubtractFromFlow(const int &ii, const int &jj, const int &kk, const squareMatrix &jac) { MSG_ASSERT(jac.Size() == this->FlowSize(), "block size must match"); std::transform(this->BeginFlow(ii, jj, kk), this->BeginTurb(ii, jj, kk), jac.begin(), this->BeginFlow(ii, jj, kk), std::minus<double>()); }
//operator overload for division with a scalar squareMatrix operator/ (const double &scalar, const squareMatrix &s2){ squareMatrix s1(s2.Size()); int cc = 0; int rr = 0; for( cc = 0; cc < s2.Size(); cc++ ){ for( rr = 0; rr < s2.Size(); rr++ ){ s1.SetData(rr,cc, scalar / s2.Data(rr,cc)); } } return s1; }
//operator overload for subtraction squareMatrix squareMatrix::operator - (const squareMatrix& s2)const{ squareMatrix s1 = *this; //check to see that matrix dimensions are the same if ( s1.size != s2.size ){ cerr << "ERROR: Cannot subtract matrices, dimensions do not agree." << endl; } int cc = 0; int rr = 0; for( cc = 0; cc < s2.Size(); cc++ ){ for( rr = 0; rr < s2.Size(); rr++ ){ s1.SetData(rr,cc, s1.Data(rr,cc) - s2.Data(rr,cc)); } } return s1; }
//operator overload for multiplication squareMatrix squareMatrix::operator * (const squareMatrix& s2)const{ squareMatrix s1 = *this; //check to see that matrix dimensions are the same if ( s1.size != s2.size ){ cerr << "ERROR: Cannot multiply matrices, dimensions do not agree." << endl; } int cc = 0; int rr = 0; for( cc = 0; cc < s2.Size(); cc++ ){ for( rr = 0; rr < s2.Size(); rr++ ){ double newVal = 0.0; int ii = 0; for( ii = 0; ii < s2.Size(); ii++ ){ newVal += ((*this).Data(rr,ii) * s2.Data(ii,cc)); } s1.SetData(rr,cc, newVal); } } return s1; }
//copy constructor squareMatrix::squareMatrix( const squareMatrix &cp){ (*this).size = cp.Size(); (*this).data = new double[cp.Size()*cp.Size()]; copy(&cp.data[0], &cp.data[0] + cp.Size()*cp.Size(), &(*this).data[0]); }