Mercurial > jwe > octave
view libinterp/corefcn/str2double.cc @ 21100:e39e05d90788
Switch gripe_XXX to either err_XXX or warn_XXX naming scheme.
* libinterp/corefcn/errwarn.h, libinterp/corefcn/errwarn.cc: New header and .cc
file with common errors and warnings for libinterp.
* libinterp/corefcn/module.mk: Add errwarn.h, errwarn.cc to build system.
* liboctave/util/lo-array-errwarn.h, liboctave/util/lo-array-errwarn.cc: New
header and .cc file with common errors and warnings for liboctave.
* liboctave/util/module.mk: Add lo-array-errwarn.h, lo-array-errwarn.cc to
build system.
* lo-array-gripes.h: #include "lo-array-errwarn.h" for access to class
index_exception. Remove const char *error_id_XXX prototypes.
* lo-array-gripes.cc: Remove const char *error_id_XXX initializations.
Remove index_exception method definitions.
* Cell.cc, __pchip_deriv__.cc, __qp__.cc, balance.cc, betainc.cc, cellfun.cc,
daspk.cc, dasrt.cc, dassl.cc, data.cc, debug.cc, defaults.cc, det.cc,
dirfns.cc, eig.cc, fft.cc, fft2.cc, fftn.cc, find.cc, gammainc.cc, gcd.cc,
getgrent.cc, getpwent.cc, graphics.in.h, help.cc, hess.cc, hex2num.cc,
input.cc, inv.cc, jit-typeinfo.cc, load-save.cc, lookup.cc, ls-hdf5.cc,
ls-mat-ascii.cc, ls-mat4.cc, ls-mat5.cc, ls-oct-binary.cc, ls-oct-text.cc,
lsode.cc, lu.cc, luinc.cc, max.cc, mgorth.cc, oct-hist.cc, oct-procbuf.cc,
oct-stream.cc, oct.h, pager.cc, pinv.cc, pr-output.cc, quad.cc, qz.cc, rand.cc,
rcond.cc, regexp.cc, schur.cc, sparse-xdiv.cc, sparse-xpow.cc, sparse.cc,
spparms.cc, sqrtm.cc, str2double.cc, strfind.cc, strfns.cc, sub2ind.cc, svd.cc,
sylvester.cc, syscalls.cc, typecast.cc, utils.cc, variables.cc, xdiv.cc,
xnorm.cc, xpow.cc, __eigs__.cc, __glpk__.cc, __magick_read__.cc,
__osmesa_print__.cc, audiodevinfo.cc, audioread.cc, chol.cc, dmperm.cc,
fftw.cc, qr.cc, symbfact.cc, symrcm.cc, ov-base-diag.cc, ov-base-int.cc,
ov-base-mat.cc, ov-base-scalar.cc, ov-base-sparse.cc, ov-base.cc,
ov-bool-mat.cc, ov-bool-sparse.cc, ov-bool.cc, ov-builtin.cc, ov-cell.cc,
ov-ch-mat.cc, ov-class.cc, ov-complex.cc, ov-complex.h, ov-cs-list.cc,
ov-cx-diag.cc, ov-cx-mat.cc, ov-cx-sparse.cc, ov-fcn-handle.cc,
ov-fcn-inline.cc, ov-float.cc, ov-float.h, ov-flt-complex.cc, ov-flt-complex.h,
ov-flt-cx-diag.cc, ov-flt-cx-mat.cc, ov-flt-re-mat.cc, ov-int16.cc,
ov-int32.cc, ov-int64.cc, ov-int8.cc, ov-intx.h, ov-mex-fcn.cc, ov-perm.cc,
ov-range.cc, ov-re-mat.cc, ov-re-sparse.cc, ov-scalar.cc, ov-scalar.h,
ov-str-mat.cc, ov-struct.cc, ov-type-conv.h, ov-uint16.cc, ov-uint32.cc,
ov-uint64.cc, ov-uint8.cc, ov-usr-fcn.cc, ov.cc, op-b-b.cc, op-b-bm.cc,
op-b-sbm.cc, op-bm-b.cc, op-bm-bm.cc, op-bm-sbm.cc, op-cdm-cdm.cc, op-cell.cc,
op-chm.cc, op-class.cc, op-cm-cm.cc, op-cm-cs.cc, op-cm-m.cc, op-cm-s.cc,
op-cm-scm.cc, op-cm-sm.cc, op-cs-cm.cc, op-cs-cs.cc, op-cs-m.cc, op-cs-s.cc,
op-cs-scm.cc, op-cs-sm.cc, op-dm-dm.cc, op-dm-scm.cc, op-dm-sm.cc,
op-dms-template.cc, op-double-conv.cc, op-fcdm-fcdm.cc, op-fcdm-fdm.cc,
op-fcm-fcm.cc, op-fcm-fcs.cc, op-fcm-fm.cc, op-fcm-fs.cc, op-fcn.cc,
op-fcs-fcm.cc, op-fcs-fcs.cc, op-fcs-fm.cc, op-fcs-fs.cc, op-fdm-fdm.cc,
op-float-conv.cc, op-fm-fcm.cc, op-fm-fcs.cc, op-fm-fm.cc, op-fm-fs.cc,
op-fs-fcm.cc, op-fs-fcs.cc, op-fs-fm.cc, op-fs-fs.cc, op-i16-i16.cc,
op-i32-i32.cc, op-i64-i64.cc, op-i8-i8.cc, op-int-concat.cc, op-int-conv.cc,
op-int.h, op-m-cm.cc, op-m-cs.cc, op-m-m.cc, op-m-s.cc, op-m-scm.cc,
op-m-sm.cc, op-pm-pm.cc, op-pm-scm.cc, op-pm-sm.cc, op-range.cc, op-s-cm.cc,
op-s-cs.cc, op-s-m.cc, op-s-s.cc, op-s-scm.cc, op-s-sm.cc, op-sbm-b.cc,
op-sbm-bm.cc, op-sbm-sbm.cc, op-scm-cm.cc, op-scm-cs.cc, op-scm-m.cc,
op-scm-s.cc, op-scm-scm.cc, op-scm-sm.cc, op-sm-cm.cc, op-sm-cs.cc, op-sm-m.cc,
op-sm-s.cc, op-sm-scm.cc, op-sm-sm.cc, op-str-m.cc, op-str-s.cc, op-str-str.cc,
op-struct.cc, op-ui16-ui16.cc, op-ui32-ui32.cc, op-ui64-ui64.cc, op-ui8-ui8.cc,
ops.h, lex.ll, pt-assign.cc, pt-eval.cc, pt-idx.cc, pt-loop.cc, pt-mat.cc,
pt-stmt.cc, Array-util.cc, Array-util.h, Array.cc, CColVector.cc,
CDiagMatrix.cc, CMatrix.cc, CNDArray.cc, CRowVector.cc, CSparse.cc,
DiagArray2.cc, MDiagArray2.cc, MSparse.cc, PermMatrix.cc, Range.cc, Sparse.cc,
dColVector.cc, dDiagMatrix.cc, dMatrix.cc, dNDArray.cc, dRowVector.cc,
dSparse.cc, fCColVector.cc, fCDiagMatrix.cc, fCMatrix.cc, fCNDArray.cc,
fCRowVector.cc, fColVector.cc, fDiagMatrix.cc, fMatrix.cc, fNDArray.cc,
fRowVector.cc, idx-vector.cc, CmplxGEPBAL.cc, dbleGEPBAL.cc, fCmplxGEPBAL.cc,
floatGEPBAL.cc, Sparse-diag-op-defs.h, Sparse-op-defs.h, Sparse-perm-op-defs.h,
mx-inlines.cc, mx-op-defs.h, oct-binmap.h:
Replace 'include "gripes.h"' with 'include "errwarn.h". Change all gripe_XXX
to err_XXX or warn_XXX or errwarn_XXX.
author | Rik <rik@octave.org> |
---|---|
date | Mon, 18 Jan 2016 18:28:06 -0800 |
parents | fc9cca99b2de |
children | fcac5dbbf9ed |
line wrap: on
line source
/* Copyright (C) 2010-2015 Jaroslav Hajek Copyright (C) 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 <cctype> #include <sstream> #include <algorithm> #include "lo-ieee.h" #include "Cell.h" #include "ov.h" #include "defun.h" #include "errwarn.h" #include "utils.h" static inline bool is_imag_unit (int c) { return c == 'i' || c == 'j'; } static double single_num (std::istringstream& is) { double num = 0.0; char c = is.peek (); // Skip spaces. while (isspace (c)) { is.get (); c = is.peek (); } if (std::toupper (c) == 'I') { // It's infinity. is.get (); char c1 = is.get (); char c2 = is.get (); if (std::tolower (c1) == 'n' && std::tolower (c2) == 'f') { num = octave_Inf; is.peek (); // May set EOF bit. } else is.setstate (std::ios::failbit); // indicate that read has failed. } else if (c == 'N') { // It's NA or NaN is.get (); char c1 = is.get (); if (c1 == 'A') { num = octave_NA; is.peek (); // May set EOF bit. } else { char c2 = is.get (); if (c1 == 'a' && c2 == 'N') { num = octave_NaN; is.peek (); // May set EOF bit. } else is.setstate (std::ios::failbit); // indicate that read has failed. } } else is >> num; return num; } static std::istringstream& extract_num (std::istringstream& is, double& num, bool& imag, bool& have_sign) { have_sign = imag = false; char c = is.peek (); // Skip leading spaces. while (isspace (c)) { is.get (); c = is.peek (); } bool negative = false; // Accept leading sign. if (c == '+' || c == '-') { have_sign = true; negative = c == '-'; is.get (); c = is.peek (); } // Skip spaces after sign. while (isspace (c)) { is.get (); c = is.peek (); } // Imaginary number (i*num or just i), or maybe 'inf'. if (c == 'i') { // possible infinity. is.get (); c = is.peek (); if (is.eof ()) { // just 'i' and string is finished. Return immediately. imag = true; num = negative ? -1.0 : 1.0; return is; } else { if (std::tolower (c) != 'n') imag = true; is.unget (); } } else if (c == 'j') imag = true; // It's i*num or just i if (imag) { is.get (); c = is.peek (); // Skip spaces after imaginary unit. while (isspace (c)) { is.get (); c = is.peek (); } if (c == '*') { // Multiplier follows, we extract it as a number. is.get (); num = single_num (is); if (is.good ()) c = is.peek (); } else num = 1.0; } else { // It's num, num*i, or numi. num = single_num (is); if (is.good ()) { c = is.peek (); // Skip spaces after number. while (isspace (c)) { is.get (); c = is.peek (); } if (c == '*') { is.get (); c = is.peek (); // Skip spaces after operator. while (isspace (c)) { is.get (); c = is.peek (); } if (is_imag_unit (c)) { imag = true; is.get (); c = is.peek (); } else is.setstate (std::ios::failbit); // indicate read has failed. } else if (is_imag_unit (c)) { imag = true; is.get (); c = is.peek (); } } } if (is.good ()) { // Skip trailing spaces. while (isspace (c)) { is.get (); c = is.peek (); } } if (negative) num = -num; return is; } static inline void set_component (Complex& c, double num, bool imag) { #if defined (HAVE_CXX_COMPLEX_SETTERS) if (imag) c.imag (num); else c.real (num); #elif defined (HAVE_CXX_COMPLEX_REFERENCE_ACCESSORS) if (imag) c.imag () = num; else c.real () = num; #else if (imag) c = Complex (c.real (), num); else c = Complex (num, c.imag ()); #endif } static Complex str2double1 (const std::string& str_arg) { Complex val (0.0, 0.0); std::string str = str_arg; // FIXME: removing all commas doesn't allow actual parsing. // Example: "1,23.45" is wrong, but passes Octave. str.erase (std::remove (str.begin (), str.end(), ','), str.end ()); std::istringstream is (str); double num; bool i1, i2, s1, s2; if (is.eof ()) val = octave_NaN; else if (! extract_num (is, num, i1, s1)) val = octave_NaN; else { set_component (val, num, i1); if (! is.eof ()) { if (! extract_num (is, num, i2, s2) || i1 == i2 || ! s2) val = octave_NaN; else set_component (val, num, i2); } } return val; } DEFUN (str2double, args, , "-*- texinfo -*-\n\ @deftypefn {} {} str2double (@var{s})\n\ Convert a string to a real or complex number.\n\ \n\ The string must be in one of the following formats where a and b are real\n\ numbers and the complex unit is @qcode{'i'} or @qcode{'j'}:\n\ \n\ @itemize\n\ @item a + bi\n\ \n\ @item a + b*i\n\ \n\ @item a + i*b\n\ \n\ @item bi + a\n\ \n\ @item b*i + a\n\ \n\ @item i*b + a\n\ @end itemize\n\ \n\ If present, a and/or b are of the form @nospell{[+-]d[,.]d[[eE][+-]d]} where\n\ the brackets indicate optional arguments and @qcode{'d'} indicates zero or\n\ more digits. The special input values @code{Inf}, @code{NaN}, and @code{NA}\n\ are also accepted.\n\ \n\ @var{s} may be a character string, character matrix, or cell array. For\n\ character arrays the conversion is repeated for every row, and a double or\n\ complex array is returned. Empty rows in @var{s} are deleted and not\n\ returned in the numeric array. For cell arrays each character string\n\ element is processed and a double or complex array of the same dimensions as\n\ @var{s} is returned.\n\ \n\ For unconvertible scalar or character string input @code{str2double} returns\n\ a NaN@. Similarly, for character array input @code{str2double} returns a\n\ NaN for any row of @var{s} that could not be converted. For a cell array,\n\ @code{str2double} returns a NaN for any element of @var{s} for which\n\ conversion fails. Note that numeric elements in a mixed string/numeric\n\ cell array are not strings and the conversion will fail for these elements\n\ and return NaN.\n\ \n\ @code{str2double} can replace @code{str2num}, and it avoids the security\n\ risk of using @code{eval} on unknown data.\n\ @seealso{str2num}\n\ @end deftypefn") { if (args.length () != 1) print_usage (); octave_value retval; if (args(0).is_string ()) { if (args(0).rows () == 0 || args(0).columns () == 0) retval = Matrix (1, 1, octave_NaN); else if (args(0).rows () == 1 && args(0).ndims () == 2) retval = str2double1 (args(0).string_value ()); else { const string_vector sv = args(0).string_vector_value (); retval = sv.map<Complex> (str2double1); } } else if (args(0).is_cell ()) { const Cell cell = args(0).cell_value (); ComplexNDArray output (cell.dims (), octave_NaN); for (octave_idx_type i = 0; i < cell.numel (); i++) { if (cell(i).is_string ()) output(i) = str2double1 (cell(i).string_value ()); } retval = output; } else retval = Matrix (1, 1, octave_NaN); return retval; } /* %!assert (str2double ("1"), 1) %!assert (str2double ("-.1e-5"), -1e-6) %!assert (str2double (char ("1", "2 3", "4i")), [1; NaN; 4i]) %!assert (str2double ("1,222.5"), 1222.5) %!assert (str2double ("i"), i) %!assert (str2double ("2j"), 2i) %!assert (str2double ("2 + j"), 2+j) %!assert (str2double ("i*2 + 3"), 3+2i) %!assert (str2double (".5*i + 3.5"), 3.5+0.5i) %!assert (str2double ("1e-3 + i*.25"), 1e-3 + 0.25i) %!assert (str2double (["2 + j";"1.25e-3";"-05"]), [2+i; 1.25e-3; -5]) %!assert (str2double ({"2 + j","1.25e-3","-05"}), [2+i, 1.25e-3, -5]) %!assert (str2double (1), NaN) %!assert (str2double ("1 2 3 4"), NaN) %!assert (str2double ("Hello World"), NaN) %!assert (str2double ("NaN"), NaN) %!assert (str2double ("NA"), NA) %!assert (str2double ("Inf"), Inf) %!assert (str2double ("iNF"), Inf) %!assert (str2double ("-Inf"), -Inf) %!assert (str2double ("Inf*i"), complex (0, Inf)) %!assert (str2double ("iNF*i"), complex (0, Inf)) %!assert (str2double ("NaN + Inf*i"), complex (NaN, Inf)) %!assert (str2double ("Inf - Inf*i"), complex (Inf, -Inf)) %!assert (str2double ("-i*NaN - Inf"), complex (-Inf, -NaN)) %!assert (str2double ({"abc", "4i"}), [NaN + 0i, 4i]) %!assert (str2double ({2, "4i"}), [NaN + 0i, 4i]) %!assert (str2double (zeros (3,1,2)), NaN) %!assert (str2double (''), NaN) %!assert (str2double ([]), NaN) %!assert (str2double (char(zeros(3,0))), NaN) */