//Y <- a M X + b Y // ---------------------------------------------------------------------- int dgemv(double alpha, const DblNumMat& A, const DblNumVec& X, double beta, DblNumVec& Y) { assert(Y.m() == A.m()); assert(A.n() == X.m()); iC( dgemv(A.m(), A.n(), alpha, A.data(), X.data(), beta, Y.data()) ); return 0; }
// ---------------------------------------------------------------------- int dger(double alpha, const DblNumVec& X, const DblNumVec& Y, DblNumMat& A) { assert(X.m() == A.m()); assert(Y.m() == A.n()); iC( dger(A.m(), A.n(), alpha, X.data(), Y.data(), A.data()) ); return 0; }
/* ********************************************************************** */ int SVDRep::dgemv(double alpha, const DblNumVec& X, double beta, DblNumVec& Y, double tol) { iA(Y.m() == _matU.m()); iA(X.m() == _matVT.n()); iC( dgemv(alpha, X.data(), beta, Y.data(), tol) ); return 0; }
//Y <- a M X + b Y // ---------------------------------------------------------------------- int dgemv(double alpha, const DblNumMat& A, const DblNumVec& X, double beta, DblNumVec& Y) { assert(Y.m() == A.m()); assert(A.n() == X.m()); char trans = 'N'; int m = A.m(); int n = A.n(); int incx = 1; int incy = 1; dgemv_(&trans, &m, &n, &alpha, A.data(), &m, X.data(), &incx, &beta, Y.data(), &incy); return 0; }
inline void cpp2mex(const DblNumVec& cd, mxArray*& md) { int m = cd.m(); md = mxCreateDoubleMatrix(m, 1, mxREAL); double* xr = mxGetPr(md); for(int i=0; i<m; i++) xr[i] = cd(i); return; }
// ---------------------------------------------------------------------- int Dense3d::evaluate(const DblNumVec& srcDen, DblNumVec& trgVal) { //----------------------------------- iA(srcDen.m()==srcDOF()*(*_srcPos).n()); iA(trgVal.m()==trgDOF()*(*_trgPos).n()); int dim = this->dim(); int srcDOF = this->srcDOF(); int trgDOF = this->trgDOF(); /* Number of sources */ int numSrc = (*_srcPos).n(); /* Number of targets */ int numTrg = (*_trgPos).n(); DblNumMat inter(trgDOF, numSrc*srcDOF); for(int i=0; i<numTrg; i++) { DblNumMat onePosMat(dim, 1, false, (*_trgPos).clmdata(i)); DblNumVec oneValVec(trgDOF, false, trgVal.data()+trgDOF*i); iC( _knl.kernel((*_srcPos), (*_srcNor), onePosMat, inter) ); iC( dgemv(1.0, inter, srcDen, 0.0, oneValVec) ); } return 0; }
// ---------------------------------------------------------------------- int daxpy(double a, const DblNumVec& X, DblNumVec& Y) { assert( X.m() == Y.m() ); daxpy(X.m(), a, X.data(), Y.data()); return 0; }
// ---------------------------------------------------------------------- int dscal(double alpha, DblNumVec& X) { dscal( X.m(), alpha, X.data() ); return 0; }