Mercurial > octave-nkf
view libinterp/corefcn/xnorm.cc @ 20574:dd6345fd8a97
use exceptions for better invalid index error reporting (bug #45957)
* lo-array-gripes.h, lo-array-gripes.cc (index_exception):
New base class for indexing errors.
(invalid_index, out_of_range): New classes.
(gripe_index_out_of_range): New overloaded function.
(gripe_invalid_index): New overloaded functions.
Delete version with no arguments.
(gripe_invalid_assignment_size, gripe_assignment_dimension_mismatch):
Delete.
Change uses of gripe functions as needed.
* Cell.cc (Cell::index, Cell::assign, Cell::delete_elements): Use
exceptions to collect error info about and handle indexing errors.
* data.cc (Fnth_element, do_accumarray_sum, F__accumarray_sum__,
do_accumarray_minmax, do_accumarray_minmax_fun, F__accumdim_sum__):
Likewise.
* oct-map.cc (octave_map::index, octave_map::assign,
octave_map::delete_elements): Likewise.
* sparse.cc (Fsparse): Likewise.
* sub2ind.cc (Fsub2ind, Find2sub): Likewise. New tests.
* utils.cc (dims_to_numel): Likewise.
* ov-base-diag.cc (octave_base_diag<DMT, MT>::do_index_op,
octave_base_diag<DMT, MT>::subsasgn): Likewise.
* ov-base-mat.cc (octave_base_matrix<MT>::subsref,
octave_base_matrix<MT>::assign): Likewise.
* ov-base-sparse.cc (octave_base_sparse<T>::do_index_op,
octave_base_sparse<T>::assign,
octave_base_sparse<MT>::delete_elements): Likewise.
* ov-classdef.cc (cdef_object_array::subsref,
cdef_object_array::subsasgn): Likewise.
* ov-java.cc (make_java_index): Likewise.
* ov-perm.cc (octave_perm_matrix::do_index_op): Likewise.
* ov-range.cc (octave_range::do_index_op): Likewise.
* ov-re-diag.cc (octave_diag_matrix::do_index_op): Likewise.
* ov-str-mat.cc (octave_char_matrix_str::do_index_op_internal): Likewise.
* pt-assign.cc (tree_simple_assignment::rvalue1): Likewise.
* pt-idx.cc (tree_index_expression::rvalue,
tree_index_expression::lvalue): Likewise.
* Array-util.cc (sub2ind): Likewise.
* toplev.cc (main_loop): Also catch unhandled index_exception
exceptions.
* ov-base.cc (octave_base_value::index_vector): Improve error message.
* ov-re-sparse.cc (octave_sparse_matrix::index_vector): Likewise.
* ov-complex.cc (complex_index): New class.
(gripe_complex_index): New function.
(octave_complex::index_vector): Use it.
* pt-id.h, pt-id.cc (tree_identifier::is_variable,
tree_black_hole::is_variable): Now const.
* pt-idx.cc (final_index_error): New static function.
(tree_index_expression::rvalue, tree_index_expression::lvalue):
Use it.
* index.tst: New tests.
| author | Lachlan Andrew <lachlanbis@gmail.com> |
|---|---|
| date | Fri, 02 Oct 2015 15:07:37 -0400 |
| parents | 4197fc428c7d |
| children |
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/* Copyright (C) 2008-2015 VZLU Prague, a.s. 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/>. */ // author: Jaroslav Hajek <highegg@gmail.com> #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <cassert> #include <cfloat> #include <cmath> #include "oct-norm.h" #include "error.h" #include "xnorm.h" #include "ov.h" #include "gripes.h" octave_value xnorm (const octave_value& x, const octave_value& p) { octave_value retval; bool isvector = (x.columns () == 1 || x.rows () == 1); bool iscomplex = x.is_complex_type (); bool issparse = x.is_sparse_type (); bool isfloat = x.is_single_type (); if (isfloat || x.is_double_type ()) { if (x.is_empty ()) retval = octave_value (0); else if (isvector) { if (isfloat & iscomplex) retval = xnorm (x.float_complex_column_vector_value (), p.float_value ()); else if (isfloat) retval = xnorm (x.float_column_vector_value (), p.float_value ()); else if (iscomplex) retval = xnorm (x.complex_column_vector_value (), p.double_value ()); else retval = xnorm (x.column_vector_value (), p.double_value ()); } else if (issparse) { if (iscomplex) retval = xnorm (x.sparse_complex_matrix_value (), p.double_value ()); else retval = xnorm (x.sparse_matrix_value (), p.double_value ()); } else { if (isfloat & iscomplex) retval = xnorm (x.float_complex_matrix_value (), p.float_value ()); else if (isfloat) retval = xnorm (x.float_matrix_value (), p.float_value ()); else if (iscomplex) retval = xnorm (x.complex_matrix_value (), p.double_value ()); else retval = xnorm (x.matrix_value (), p.double_value ()); } } else gripe_wrong_type_arg ("xnorm", x, true); return retval; } octave_value xcolnorms (const octave_value& x, const octave_value& p) { octave_value retval; bool iscomplex = x.is_complex_type (); bool issparse = x.is_sparse_type (); bool isfloat = x.is_single_type (); if (isfloat || x.is_double_type ()) { if (issparse) { if (iscomplex) retval = xcolnorms (x.sparse_complex_matrix_value (), p.double_value ()); else retval = xcolnorms (x.sparse_matrix_value (), p.double_value ()); } else { if (isfloat & iscomplex) retval = xcolnorms (x.float_complex_matrix_value (), p.float_value ()); else if (isfloat) retval = xcolnorms (x.float_matrix_value (), p.float_value ()); else if (iscomplex) retval = xcolnorms (x.complex_matrix_value (), p.double_value ()); else retval = xcolnorms (x.matrix_value (), p.double_value ()); } } else gripe_wrong_type_arg ("xcolnorms", x, true); return retval; } octave_value xrownorms (const octave_value& x, const octave_value& p) { octave_value retval; bool iscomplex = x.is_complex_type (); bool issparse = x.is_sparse_type (); bool isfloat = x.is_single_type (); if (isfloat || x.is_double_type ()) { if (issparse) { if (iscomplex) retval = xrownorms (x.sparse_complex_matrix_value (), p.double_value ()); else retval = xrownorms (x.sparse_matrix_value (), p.double_value ()); } else { if (isfloat & iscomplex) retval = xrownorms (x.float_complex_matrix_value (), p.float_value ()); else if (isfloat) retval = xrownorms (x.float_matrix_value (), p.float_value ()); else if (iscomplex) retval = xrownorms (x.complex_matrix_value (), p.double_value ()); else retval = xrownorms (x.matrix_value (), p.double_value ()); } } else gripe_wrong_type_arg ("xrownorms", x, true); return retval; } octave_value xfrobnorm (const octave_value& x) { octave_value retval; bool iscomplex = x.is_complex_type (); bool issparse = x.is_sparse_type (); bool isfloat = x.is_single_type (); if (isfloat || x.is_double_type ()) { if (issparse) { if (iscomplex) retval = xfrobnorm (x.sparse_complex_matrix_value ()); else retval = xfrobnorm (x.sparse_matrix_value ()); } else { if (isfloat & iscomplex) retval = xfrobnorm (x.float_complex_matrix_value ()); else if (isfloat) retval = xfrobnorm (x.float_matrix_value ()); else if (iscomplex) retval = xfrobnorm (x.complex_matrix_value ()); else retval = xfrobnorm (x.matrix_value ()); } } else gripe_wrong_type_arg ("xfrobnorm", x, true); return retval; }