Mercurial > hg > octave-nkf
view examples/code/mysparse.c @ 20800:7c0e10f035bd
Extend parser to accept binary constants that begin with '0b' or '0B'.
* NEWS: Announce change:
* lex.ll: Define NUMBIN to be 0[bB] followed by 0,1, or '_'.
Define NUMBER to be NUMREAL|NUMHEX|NUMBIN.
*lex.ll (looks_like_bin): New function to detect 0[bB] prefix.
*lex.ll (handle_numbe): Call looks_like_bin() and if found then convert
binary string to double.
* parser.tst: Add tests for new behavior.
| author | Rik <rik@octave.org> |
|---|---|
| date | Fri, 09 Oct 2015 18:52:58 -0700 |
| parents | c8240a60dd01 |
| children |
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#include "mex.h" void mexFunction (int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[]) { mwSize m, n, nz; mxArray *v; mwIndex i; double *pr, *pi; double *pr2, *pi2; mwIndex *ir, *jc; mwIndex *ir2, *jc2; if (nrhs != 1 || ! mxIsSparse (prhs[0])) mexErrMsgTxt ("ARG1 must be a sparse matrix"); m = mxGetM (prhs[0]); n = mxGetN (prhs[0]); nz = mxGetNzmax (prhs[0]); if (mxIsComplex (prhs[0])) { mexPrintf ("Matrix is %d-by-%d complex sparse matrix", m, n); mexPrintf (" with %d elements\n", nz); pr = mxGetPr (prhs[0]); pi = mxGetPi (prhs[0]); ir = mxGetIr (prhs[0]); jc = mxGetJc (prhs[0]); i = n; while (jc[i] == jc[i-1] && i != 0) i--; mexPrintf ("last nonzero element (%d, %d) = (%g, %g)\n", ir[nz-1]+ 1, i, pr[nz-1], pi[nz-1]); v = mxCreateSparse (m, n, nz, mxCOMPLEX); pr2 = mxGetPr (v); pi2 = mxGetPi (v); ir2 = mxGetIr (v); jc2 = mxGetJc (v); for (i = 0; i < nz; i++) { pr2[i] = 2 * pr[i]; pi2[i] = 2 * pi[i]; ir2[i] = ir[i]; } for (i = 0; i < n + 1; i++) jc2[i] = jc[i]; if (nlhs > 0) plhs[0] = v; } else if (mxIsLogical (prhs[0])) { mxLogical *pbr, *pbr2; mexPrintf ("Matrix is %d-by-%d logical sparse matrix", m, n); mexPrintf (" with %d elements\n", nz); pbr = mxGetLogicals (prhs[0]); ir = mxGetIr (prhs[0]); jc = mxGetJc (prhs[0]); i = n; while (jc[i] == jc[i-1] && i != 0) i--; mexPrintf ("last nonzero element (%d, %d) = %d\n", ir[nz-1]+ 1, i, pbr[nz-1]); v = mxCreateSparseLogicalMatrix (m, n, nz); pbr2 = mxGetLogicals (v); ir2 = mxGetIr (v); jc2 = mxGetJc (v); for (i = 0; i < nz; i++) { pbr2[i] = pbr[i]; ir2[i] = ir[i]; } for (i = 0; i < n + 1; i++) jc2[i] = jc[i]; if (nlhs > 0) plhs[0] = v; } else { mexPrintf ("Matrix is %d-by-%d real sparse matrix", m, n); mexPrintf (" with %d elements\n", nz); pr = mxGetPr (prhs[0]); ir = mxGetIr (prhs[0]); jc = mxGetJc (prhs[0]); i = n; while (jc[i] == jc[i-1] && i != 0) i--; mexPrintf ("last nonzero element (%d, %d) = %g\n", ir[nz-1]+ 1, i, pr[nz-1]); v = mxCreateSparse (m, n, nz, mxREAL); pr2 = mxGetPr (v); ir2 = mxGetIr (v); jc2 = mxGetJc (v); for (i = 0; i < nz; i++) { pr2[i] = 2 * pr[i]; ir2[i] = ir[i]; } for (i = 0; i < n + 1; i++) jc2[i] = jc[i]; if (nlhs > 0) plhs[0] = v; } }