Mercurial > hg > smallbox
view solvers/SMALL_ompGabor/omp2mexGabor.c @ 247:ecce33192fcc tip
Added tag ver_2.1 for changeset cef4500b936f
author | luisf <luis.figueira@eecs.qmul.ac.uk> |
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date | Wed, 31 Oct 2012 12:24:44 +0000 |
parents | 31d2864dfdd4 |
children |
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/************************************************************************** * * File name: omp2mex.c * * Ron Rubinstein * Computer Science Department * Technion, Haifa 32000 Israel * ronrubin@cs * * Last Updated: 18.8.2009 * *************************************************************************/ #include "ompcoreGabor.h" #include "omputils.h" #include "mexutils.h" /* Input Arguments */ #define IN_D prhs[0] #define IN_X prhs[1] #define IN_DtX prhs[2] #define IN_XtX prhs[3] #define IN_G prhs[4] #define IN_EPS prhs[5] #define IN_SPARSE_G prhs[6] #define IN_MSGDELTA prhs[7] #define IN_MAXATOMS prhs[8] #define IN_PROFILE prhs[9] /* Output Arguments */ #define GAMMA_OUT plhs[0] /***************************************************************************************/ void mexFunction(int nlhs, mxArray *plhs[], int nrhs, const mxArray*prhs[]) { double *D, *x, *DtX, *XtX, *G, eps, msgdelta; int gmode, maxatoms, profile; mwSize m, n, L; /* D is n x m , X is n x L, DtX is m x L */ /* check parameters */ checkmatrix(IN_D, "OMP2", "D"); checkmatrix(IN_X, "OMP2", "X"); checkmatrix(IN_DtX, "OMP2", "DtX"); checkmatrix(IN_XtX, "OMP2", "XtX"); checkmatrix(IN_G, "OMP2", "G"); checkscalar(IN_EPS, "OMP2", "EPSILON"); checkscalar(IN_SPARSE_G, "OMP2", "sparse_g"); checkscalar(IN_MSGDELTA, "OMP2", "msgdelta"); checkscalar(IN_MAXATOMS, "OMP2", "maxatoms"); checkscalar(IN_PROFILE, "OMP2", "profile"); /* get parameters */ x = D = DtX = XtX = G = 0; if (!mxIsEmpty(IN_D)) D = mxGetPr(IN_D); if (!mxIsEmpty(IN_X)) x = mxGetPr(IN_X); if (!mxIsEmpty(IN_DtX)) DtX = mxGetPr(IN_DtX); if (!mxIsEmpty(IN_XtX)) XtX = mxGetPr(IN_XtX); if (!mxIsEmpty(IN_G)) G = mxGetPr(IN_G); eps = mxGetScalar(IN_EPS); if ((int)(mxGetScalar(IN_SPARSE_G)+1e-2)) { gmode = SPARSE_GAMMA; } else { gmode = FULL_GAMMA; } msgdelta = mxGetScalar(IN_MSGDELTA); if (mxGetScalar(IN_MAXATOMS) < -1e-5) { maxatoms = -1; } else { maxatoms = (int)(mxGetScalar(IN_MAXATOMS)+1e-2); } profile = (int)(mxGetScalar(IN_PROFILE)+1e-2); /* check sizes */ if (D && x) { n = mxGetM(IN_D); m = mxGetN(IN_D); L = mxGetN(IN_X); if (mxGetM(IN_X) != n) { mexErrMsgTxt("D and X have incompatible sizes."); } if (G) { if (mxGetN(IN_G)!=mxGetM(IN_G)) { mexErrMsgTxt("G must be a square matrix."); } if (mxGetN(IN_G) != m) { mexErrMsgTxt("D and G have incompatible sizes."); } } } else if (DtX && XtX) { m = mxGetM(IN_DtX); L = mxGetN(IN_DtX); /* set n to an arbitrary value that is at least the max possible number of selected atoms */ if (maxatoms>0) { n = maxatoms; } else { n = m; } if ( !(mxGetM(IN_XtX)==L && mxGetN(IN_XtX)==1) && !(mxGetM(IN_XtX)==1 && mxGetN(IN_XtX)==L) ) { mexErrMsgTxt("DtX and XtX have incompatible sizes."); } if (mxGetN(IN_G)!=mxGetM(IN_G)) { mexErrMsgTxt("G must be a square matrix."); } if (mxGetN(IN_G) != m) { mexErrMsgTxt("DtX and G have incompatible sizes."); } } else { mexErrMsgTxt("Either D and X, or DtX and XtX, must be specified."); } /* Do OMP! */ GAMMA_OUT = ompcoreGabor(D, x, DtX, XtX, G, n, m, L, maxatoms, eps, gmode, profile, msgdelta, 1); return; }