Mercurial > octave
view liboctave/util/lo-array-gripes.cc @ 21140:e06e600f396a
eliminate use of USE_64_BIT_IDX_T
* common.mk (do_subst_config_vals, do_subst_cross_config_vals):
Don't substitute OCTAVE_CONF_USE_64_BIT_IDX_T.
* toplev.cc (octave_config_info): Set USE_64_BIT_IDX_T from
OCTAVE_CONF_ENABLE_64.
* oct-conf.in.h (OCTAVE_CONF_USE_64_BIT_IDX_T): Delete macro.
* oct-hdf5.h, amd.cc, ccolamd.cc, colamd.cc, dmperm.cc, symbfact.cc,
ov.cc, CSparse.cc, CSparse.h, MArray-i.cc, dSparse.cc, dSparse.h,
SparseCmplxQR.h, SparseQR.h, sparse-base-chol.cc,
lo-array-errwarn.cc, lo-array-gripes.cc, oct-sparse.h, acinclude.m4,
oct-conf-post.in.h, computer.m:
Use ENABLE_64 instead of USE_64_BIT_IDX_T.
author | John W. Eaton <jwe@octave.org> |
---|---|
date | Mon, 25 Jan 2016 19:16:31 -0500 |
parents | 95da3bc8a281 |
children | f7121e111991 |
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/* Copyright (C) 2003-2015 John W. Eaton Copyright (C) 2009 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/>. */ // FIXME: All gripe_XXX functions deprecated in 4.2. Remove file in 4.6 #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <sstream> #include "lo-array-gripes.h" #include "lo-error.h" // Text constants used to shorten code below. static const char *error_id_nonconformant_args = "Octave:nonconformant-args"; static const char *error_id_index_out_of_bounds = "Octave:index-out-of-bounds"; static const char *error_id_invalid_index = "Octave:invalid-index"; static const char *warning_id_nearly_singular_matrix = "Octave:nearly-singular-matrix"; static const char *warning_id_singular_matrix = "Octave:singular-matrix"; void gripe_nan_to_logical_conversion (void) { (*current_liboctave_error_handler) ("invalid conversion from NaN to logical"); } void gripe_nan_to_character_conversion (void) { (*current_liboctave_error_handler) ("invalid conversion from NaN to character"); } void gripe_nonconformant (const char *op, octave_idx_type op1_len, octave_idx_type op2_len) { const char *err_id = error_id_nonconformant_args; (*current_liboctave_error_with_id_handler) (err_id, "%s: nonconformant arguments (op1 len: %d, op2 len: %d)", op, op1_len, op2_len); } void gripe_nonconformant (const char *op, octave_idx_type op1_nr, octave_idx_type op1_nc, octave_idx_type op2_nr, octave_idx_type op2_nc) { const char *err_id = error_id_nonconformant_args; (*current_liboctave_error_with_id_handler) (err_id, "%s: nonconformant arguments (op1 is %dx%d, op2 is %dx%d)", op, op1_nr, op1_nc, op2_nr, op2_nc); } void gripe_nonconformant (const char *op, const dim_vector& op1_dims, const dim_vector& op2_dims) { const char *err_id = error_id_nonconformant_args; std::string op1_dims_str = op1_dims.str (); std::string op2_dims_str = op2_dims.str (); (*current_liboctave_error_with_id_handler) (err_id, "%s: nonconformant arguments (op1 is %s, op2 is %s)", op, op1_dims_str.c_str (), op2_dims_str.c_str ()); } void gripe_del_index_out_of_range (bool is1d, octave_idx_type idx, octave_idx_type ext) { const char *err_id = error_id_index_out_of_bounds; (*current_liboctave_error_with_id_handler) (err_id, "A(%s) = []: index out of bounds: value %d out of bound %d", is1d ? "I" : "..,I,..", idx, ext); } class invalid_index : public index_exception { public: invalid_index (const std::string& value, octave_idx_type ndim, octave_idx_type dimen) : index_exception (value, ndim, dimen) { } std::string details (void) const { #if defined (ENABLE_64) return "subscripts must be either integers 1 to (2^63)-1 or logicals"; #else return "subscripts must be either integers 1 to (2^31)-1 or logicals"; #endif } // ID of error to throw const char *err_id (void) const { return error_id_invalid_index; } }; // Complain if an index is negative, fractional, or too big. void gripe_invalid_index (const std::string& idx, octave_idx_type nd, octave_idx_type dim, const std::string&) { invalid_index e (idx, nd, dim); throw e; } void gripe_invalid_index (octave_idx_type n, octave_idx_type nd, octave_idx_type dim, const std::string& var) { std::ostringstream buf; buf << n + 1; #if defined (HAVE_PRAGMA_GCC_DIAGNOSTIC) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" #endif gripe_invalid_index (buf.str (), nd, dim, var); #if defined (HAVE_PRAGMA_GCC_DIAGNOSTIC) #pragma GCC diagnostic pop #endif } void gripe_invalid_index (double n, octave_idx_type nd, octave_idx_type dim, const std::string& var) { std::ostringstream buf; buf << n + 1; #if defined (HAVE_PRAGMA_GCC_DIAGNOSTIC) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" #endif gripe_invalid_index (buf.str (), nd, dim, var); #if defined (HAVE_PRAGMA_GCC_DIAGNOSTIC) #pragma GCC diagnostic pop #endif } // Gripe and exception for read access beyond the bounds of an array. class out_of_range : public index_exception { public: out_of_range (const std::string& value, octave_idx_type nd_in, octave_idx_type dim_in) : index_exception (value, nd_in, dim_in), extent (0) { } std::string details (void) const { std::string expl; if (nd >= size.length ()) // if not an index slice { if (var != "") expl = "but " + var + " has size "; else expl = "but object has size "; expl = expl + size.str ('x'); } else { std::ostringstream buf; buf << extent; expl = "out of bound " + buf.str (); } return expl; } // ID of error to throw. const char *err_id (void) const { return error_id_index_out_of_bounds; } void set_size (const dim_vector& size_in) { size = size_in; } void set_extent (octave_idx_type ext) { extent = ext; } private: // Dimension of object being accessed. dim_vector size; // Length of dimension being accessed. octave_idx_type extent; }; // Complain of an index that is out of range, but we don't know matrix size void gripe_index_out_of_range (int nd, int dim, octave_idx_type idx, octave_idx_type ext) { std::ostringstream buf; buf << idx; out_of_range e (buf.str (), nd, dim); e.set_extent (ext); // ??? Make details method give extent not size. e.set_size (dim_vector (1, 1, 1, 1, 1, 1,1)); throw e; } // Complain of an index that is out of range void gripe_index_out_of_range (int nd, int dim, octave_idx_type idx, octave_idx_type ext, const dim_vector& d) { std::ostringstream buf; buf << idx; out_of_range e (buf.str (), nd, dim); e.set_extent (ext); e.set_size (d); throw e; } void gripe_invalid_resize (void) { (*current_liboctave_error_with_id_handler) ("Octave:invalid-resize", "Invalid resizing operation or ambiguous assignment to an out-of-bounds array element"); } void gripe_singular_matrix (double rcond) { if (rcond == 0.0) { (*current_liboctave_warning_with_id_handler) (warning_id_singular_matrix, "matrix singular to machine precision"); } else { (*current_liboctave_warning_with_id_handler) (warning_id_nearly_singular_matrix, "matrix singular to machine precision, rcond = %g", rcond); } } /* Tests in test/index.tst */