Mercurial > octave-nkf
view src/DLD-FUNCTIONS/strfind.cc @ 14138:72c96de7a403 stable
maint: update copyright notices for 2012
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Mon, 02 Jan 2012 14:25:41 -0500 |
| parents | 4e70c4e61c24 |
| children | 97883071e8e4 |
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/* Copyright (C) 2009-2012 Jaroslav Hajek Copyright (C) 2009-2010 VZLU Prague This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <string> #include <climits> #include <algorithm> #include <deque> #include "Cell.h" #include "ov.h" #include "defun-dld.h" #include "unwind-prot.h" #include "gripes.h" #include "utils.h" // This allows safe indexing with char. In C++, char may be (and often is) signed! #define ORD(ch) static_cast<unsigned char>(ch) #define TABSIZE (UCHAR_MAX + 1) // This is the quick search algorithm, as described at // http://www-igm.univ-mlv.fr/~lecroq/string/node19.html static void qs_preprocess (const Array<char>& needle, octave_idx_type table[TABSIZE]) { const char *x = needle.data (); octave_idx_type m = needle.numel (); for (octave_idx_type i = 0; i < TABSIZE; i++) table[i] = m + 1; for (octave_idx_type i = 0; i < m; i++) table[ORD(x[i])] = m - i; } static Array<octave_idx_type> qs_search (const Array<char>& needle, const Array<char>& haystack, const octave_idx_type table[TABSIZE], bool overlaps = true) { const char *x = needle.data (); octave_idx_type m = needle.numel (); const char *y = haystack.data (); octave_idx_type n = haystack.numel (); // We'll use deque because it typically has the most favorable properties for // the operation we need. std::deque<octave_idx_type> accum; if (m == 1) { // Looking for a single character. for (octave_idx_type i = 0; i < n; i++) { if (y[i] == x[0]) accum.push_back (i); } } else if (m == 2) { // Two characters. if (overlaps) { for (octave_idx_type i = 0; i < n-1; i++) { if (y[i] == x[0] && y[i+1] == x[1]) accum.push_back (i); } } else { for (octave_idx_type i = 0; i < n-1; i++) { if (y[i] == x[0] && y[i+1] == x[1]) accum.push_back (i++); } } } else if (n >= m) { // General case. octave_idx_type j = 0; if (overlaps) { while (j < n - m) { if (std::equal (x, x + m, y + j)) accum.push_back (j); j += table[ORD(y[j + m])]; } } else { while (j < n - m) { if (std::equal (x, x + m, y + j)) { accum.push_back (j); j += m; } else j += table[ORD(y[j + m])]; } } if (j == n - m && std::equal (x, x + m, y + j)) accum.push_back (j); } octave_idx_type nmatch = accum.size (); octave_idx_type one = 1; Array<octave_idx_type> result (dim_vector (std::min (one, nmatch), nmatch)); octave_idx_type k = 0; for (std::deque<octave_idx_type>::const_iterator iter = accum.begin (); iter != accum.end (); iter++) { result.xelem (k++) = *iter; } return result; } DEFUN_DLD (strfind, args, , "-*- texinfo -*-\n\ @deftypefn {Loadable Function} {@var{idx} =} strfind (@var{str}, @var{pattern})\n\ @deftypefnx {Loadable Function} {@var{idx} =} strfind (@var{cellstr}, @var{pattern})\n\ Search for @var{pattern} in the string @var{str} and return the\n\ starting index of every such occurrence in the vector @var{idx}.\n\ If there is no such occurrence, or if @var{pattern} is longer\n\ than @var{str}, then @var{idx} is the empty array @code{[]}.\n\ \n\ If a cell array of strings @var{cellstr} is specified\n\ then @var{idx} is a cell array of vectors, as specified\n\ above. Examples:\n\ \n\ @example\n\ @group\n\ strfind (\"abababa\", \"aba\")\n\ @result{} [1, 3, 5]\n\ \n\ strfind (@{\"abababa\", \"bebebe\", \"ab\"@}, \"aba\")\n\ @result{} ans =\n\ @{\n\ [1,1] =\n\ \n\ 1 3 5\n\ \n\ [1,2] = [](1x0)\n\ [1,3] = [](1x0)\n\ @}\n\ @end group\n\ @end example\n\ @seealso{findstr, strmatch, regexp, regexpi, find}\n\ @end deftypefn") { octave_value retval; int nargin = args.length (); bool overlaps = true; if (nargin == 4 && args(2).is_string () && args(3).is_scalar_type ()) { std::string opt = args(2).string_value (); if (opt == "overlaps") { overlaps = args(3).bool_value (); nargin = 2; } else { error ("strfind: unknown option: %s", opt.c_str ()); return retval; } } if (nargin == 2) { octave_value argstr = args(0), argpat = args(1); if (argpat.is_string ()) { Array<char> needle = argpat.char_array_value (); OCTAVE_LOCAL_BUFFER (octave_idx_type, table, TABSIZE); qs_preprocess (needle, table); if (argstr.is_string ()) retval = octave_value (qs_search (needle, argstr.char_array_value (), table, overlaps), true, true); else if (argstr.is_cell ()) { const Cell argsc = argstr.cell_value (); Cell retc (argsc.dims ()); octave_idx_type ns = argsc.numel (); for (octave_idx_type i = 0; i < ns; i++) { octave_value argse = argsc(i); if (argse.is_string ()) retc(i) = octave_value (qs_search (needle, argse.char_array_value (), table, overlaps), true, true); else { error ("strfind: each element of CELLSTR must be a string"); break; } } retval = retc; } else error ("strfind: first argument must be a string or cell array of strings"); } else if (argpat.is_cell ()) retval = do_simple_cellfun (Fstrfind, "strfind", args); else error ("strfind: PATTERN must be a string or cell array of strings"); } else print_usage (); return retval; } /* %!error strfind (); %!error strfind ("foo", "bar", 1); %!error strfind ("foo", 100); %!error strfind (100, "foo"); %!assert (strfind ("abababa", "aba"), [1, 3, 5]); %!assert (strfind ("abababa", "aba", "overlaps", false), [1, 5]); %!assert (strfind ({"abababa", "bla", "bla"}, "a"), {[1, 3, 5, 7], 3, 3}); %!assert (strfind ("Linux _is_ user-friendly. It just isn't ignorant-friendly or idiot-friendly.", "friendly"), [17, 50, 68]); */ static Array<char> qs_replace (const Array<char>& str, const Array<char>& pat, const Array<char>& rep, const octave_idx_type table[TABSIZE], bool overlaps = true) { Array<char> ret = str; octave_idx_type siz = str.numel (), psiz = pat.numel (), rsiz = rep.numel (); if (psiz != 0) { // Look up matches, without overlaps. const Array<octave_idx_type> idx = qs_search (pat, str, table, overlaps); octave_idx_type nidx = idx.numel (); if (nidx) { // Compute result size. octave_idx_type retsiz; if (overlaps) { retsiz = 0; // OMG. Is this the "right answer" MW always looks for, or // someone was just lazy? octave_idx_type k = 0; for (octave_idx_type i = 0; i < nidx; i++) { octave_idx_type j = idx(i); if (j >= k) retsiz += j - k; retsiz += rsiz; k = j + psiz; } retsiz += siz - k; } else retsiz = siz + nidx * (rsiz - psiz); ret.clear (dim_vector (1, retsiz)); const char *src = str.data (), *reps = rep.data (); char *dest = ret.fortran_vec (); octave_idx_type k = 0; for (octave_idx_type i = 0; i < nidx; i++) { octave_idx_type j = idx(i); if (j >= k) dest = std::copy (src + k, src + j, dest); dest = std::copy (reps, reps + rsiz, dest); k = j + psiz; } std::copy (src + k, src + siz, dest); } } return ret; } DEFUN_DLD (strrep, args, , "-*- texinfo -*-\n\ @deftypefn {Loadable Function} {} strrep (@var{s}, @var{ptn}, @var{rep})\n\ @deftypefnx {Loadable Function} {} strrep (@var{s}, @var{ptn}, @var{rep}, \"overlaps\", @var{o})\n\ Replace all occurrences of the substring @var{ptn} in the string @var{s}\n\ with the string @var{rep} and return the result. For example:\n\ \n\ @example\n\ @group\n\ strrep (\"This is a test string\", \"is\", \"&%$\")\n\ @result{} \"Th&%$ &%$ a test string\"\n\ @end group\n\ @end example\n\ \n\ @var{s} may also be a cell array of strings, in which case the replacement is\n\ done for each element and a cell array is returned.\n\ @seealso{regexprep, strfind, findstr}\n\ @end deftypefn") { octave_value retval; int nargin = args.length (); bool overlaps = true; if (nargin == 5 && args(3).is_string () && args(4).is_scalar_type ()) { std::string opt = args(3).string_value (); if (opt == "overlaps") { overlaps = args(4).bool_value (); nargin = 3; } else { error ("strrep: unknown option: %s", opt.c_str ()); return retval; } } if (nargin == 3) { octave_value argstr = args(0), argpat = args(1), argrep = args(2); if (argpat.is_string () && argrep.is_string ()) { const Array<char> pat = argpat.char_array_value (); const Array<char> rep = argrep.char_array_value (); OCTAVE_LOCAL_BUFFER (octave_idx_type, table, TABSIZE); qs_preprocess (pat, table); if (argstr.is_string ()) retval = qs_replace (argstr.char_array_value (), pat, rep, table, overlaps); else if (argstr.is_cell ()) { const Cell argsc = argstr.cell_value (); Cell retc (argsc.dims ()); octave_idx_type ns = argsc.numel (); for (octave_idx_type i = 0; i < ns; i++) { octave_value argse = argsc(i); if (argse.is_string ()) retc(i) = qs_replace (argse.char_array_value (), pat, rep, table, overlaps); else { error ("strrep: each element of S must be a string"); break; } } retval = retc; } else error ("strrep: S must be a string or cell array of strings"); } else if (argpat.is_cell () || argrep.is_cell ()) retval = do_simple_cellfun (Fstrrep, "strrep", args); else error ("strrep: PTN and REP arguments must be strings or cell arrays of strings"); } else print_usage (); return retval; } /* %!assert(strcmp (strrep ("This is a test string", "is", "&%$"), %! "Th&%$ &%$ a test string")); %!assert(strrep ("abababc", "abab", "xyz"), "xyzxyzc"); %!assert(strrep ("abababc", "abab", "xyz", "overlaps", false), "xyzabc"); %!error strrep (); %!error strrep ("foo", "bar", 3, 4); */