Mercurial > hg > octave-avbm
view src/ov-typeinfo.cc @ 15466:d174210ce1ec stable
use ' instead of ` in error messages, warnings and most comments
* intro.txi, io.txi, munge-texi.cc, octave.texi, cmd-edit.cc,
data-conv.cc, file-ops.cc, glob-match.h, kpse.cc, oct-env.cc,
oct-locbuf.h, oct-md5.cc, oct-rand.cc, general/interp2.m, doc.m,
get_first_help_sentence.m, help.m, print_usage.m,
__additional_help_message__.m, type.m, unimplemented.m, which.m,
cast.m, dir.m, license.m, mkoctfile.m, recycle.m, tempdir.m,
optimset.m, pkg/pkg.m, closereq.m, colstyle.m, __fltk_print__.m,
__gnuplot_print__.m, __go_draw_figure__.m, __pie__.m, __pltopt__.m,
__print_parse_opts__.m, uigetdir.m, uigetfile.m, uiputfile.m, stft.m,
mean.m, anova.m, cor_test.m, t_test_regression.m, __magick_read__.cc,
dlmread.cc, schur.cc, data.cc, debug.cc, defun-dld.h, defun.cc,
defun.h, dynamic-ld.cc, error.cc, error.h, gl-render.cc, graphics.cc,
gripes.cc, input.cc, lex.ll, load-path.cc, load-save.cc, ls-hdf5.cc,
ls-mat-ascii.cc, ls-mat4.cc, ls-mat5.cc, ls-oct-ascii.cc,
ls-oct-binary.cc, oct-hist.cc, oct-parse.yy, oct-stream.cc,
oct-stream.h, octave.cc, ov-base-diag.cc, ov-base.cc, ov-class.cc,
ov-colon.h, ov-struct.cc, ov-typeinfo.cc, ov.cc, pager.cc,
pr-output.cc, pt-binop.cc, pt-eval.cc, pt-id.cc, pt-idx.cc,
pt-misc.cc, pt-unop.cc, symtab.cc, symtab.h, toplev.cc, txt-eng-ft.cc,
utils.cc, variables.cc, test_eval-catch.m, test_try.m:
Use ' instead of ` in error messages, warnings, and most comments.
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Mon, 01 Oct 2012 17:18:49 -0400 |
| parents | 72c96de7a403 |
| children |
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/* Copyright (C) 1996-2012 John W. Eaton 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 "Array.h" #include "singleton-cleanup.h" #include "defun.h" #include "error.h" #include "ov-typeinfo.h" const int octave_value_typeinfo::init_tab_sz (16); octave_value_typeinfo * octave_value_typeinfo::instance (0); bool octave_value_typeinfo::instance_ok (void) { bool retval = true; if (! instance) { instance = new octave_value_typeinfo (); if (instance) singleton_cleanup_list::add (cleanup_instance); } if (! instance) { ::error ("unable to create value type info object!"); retval = false; } return retval; } int octave_value_typeinfo::register_type (const std::string& t_name, const std::string& c_name, const octave_value& val) { return (instance_ok ()) ? instance->do_register_type (t_name, c_name, val) : -1; } bool octave_value_typeinfo::register_unary_class_op (octave_value::unary_op op, octave_value_typeinfo::unary_class_op_fcn f) { return (instance_ok ()) ? instance->do_register_unary_class_op (op, f) : false; } bool octave_value_typeinfo::register_unary_op (octave_value::unary_op op, int t, octave_value_typeinfo::unary_op_fcn f) { return (instance_ok ()) ? instance->do_register_unary_op (op, t, f) : false; } bool octave_value_typeinfo::register_non_const_unary_op (octave_value::unary_op op, int t, octave_value_typeinfo::non_const_unary_op_fcn f) { return (instance_ok ()) ? instance->do_register_non_const_unary_op (op, t, f) : false; } bool octave_value_typeinfo::register_binary_class_op (octave_value::binary_op op, octave_value_typeinfo::binary_class_op_fcn f) { return (instance_ok ()) ? instance->do_register_binary_class_op (op, f) : false; } bool octave_value_typeinfo::register_binary_op (octave_value::binary_op op, int t1, int t2, octave_value_typeinfo::binary_op_fcn f) { return (instance_ok ()) ? instance->do_register_binary_op (op, t1, t2, f) : false; } bool octave_value_typeinfo::register_binary_class_op (octave_value::compound_binary_op op, octave_value_typeinfo::binary_class_op_fcn f) { return (instance_ok ()) ? instance->do_register_binary_class_op (op, f) : false; } bool octave_value_typeinfo::register_binary_op (octave_value::compound_binary_op op, int t1, int t2, octave_value_typeinfo::binary_op_fcn f) { return (instance_ok ()) ? instance->do_register_binary_op (op, t1, t2, f) : false; } bool octave_value_typeinfo::register_cat_op (int t1, int t2, octave_value_typeinfo::cat_op_fcn f) { return (instance_ok ()) ? instance->do_register_cat_op (t1, t2, f) : false; } bool octave_value_typeinfo::register_assign_op (octave_value::assign_op op, int t_lhs, int t_rhs, octave_value_typeinfo::assign_op_fcn f) { return (instance_ok ()) ? instance->do_register_assign_op (op, t_lhs, t_rhs, f) : -1; } bool octave_value_typeinfo::register_assignany_op (octave_value::assign_op op, int t_lhs, octave_value_typeinfo::assignany_op_fcn f) { return (instance_ok ()) ? instance->do_register_assignany_op (op, t_lhs, f) : -1; } bool octave_value_typeinfo::register_pref_assign_conv (int t_lhs, int t_rhs, int t_result) { return (instance_ok ()) ? instance->do_register_pref_assign_conv (t_lhs, t_rhs, t_result) : false; } bool octave_value_typeinfo::register_type_conv_op (int t, int t_result, octave_base_value::type_conv_fcn f) { return (instance_ok ()) ? instance->do_register_type_conv_op (t, t_result, f) : false; } bool octave_value_typeinfo::register_widening_op (int t, int t_result, octave_base_value::type_conv_fcn f) { return (instance_ok ()) ? instance->do_register_widening_op (t, t_result, f) : false; } // FIXME -- we should also store all class names and provide a // way to list them (calling class with nargin == 0?). int octave_value_typeinfo::do_register_type (const std::string& t_name, const std::string& /* c_name */, const octave_value& val) { int i = 0; for (i = 0; i < num_types; i++) if (t_name == types (i)) return i; int len = types.length (); if (i == len) { len *= 2; types.resize (dim_vector (len, 1), std::string ()); vals.resize (dim_vector (len, 1), octave_value ()); unary_ops.resize (dim_vector (octave_value::num_unary_ops, len), 0); non_const_unary_ops.resize (dim_vector (octave_value::num_unary_ops, len), 0); binary_ops.resize (dim_vector (octave_value::num_binary_ops, len, len), 0); compound_binary_ops.resize (dim_vector (octave_value::num_compound_binary_ops, len, len), 0); cat_ops.resize (dim_vector (len, len), 0); assign_ops.resize (dim_vector (octave_value::num_assign_ops, len, len), 0); assignany_ops.resize (dim_vector (octave_value::num_assign_ops, len), 0); pref_assign_conv.resize (dim_vector (len, len), -1); type_conv_ops.resize (dim_vector (len, len), 0); widening_ops.resize (dim_vector (len, len), 0); } types (i) = t_name; vals (i) = val; num_types++; return i; } bool octave_value_typeinfo::do_register_unary_class_op (octave_value::unary_op op, octave_value_typeinfo::unary_class_op_fcn f) { if (lookup_unary_class_op (op)) { std::string op_name = octave_value::unary_op_as_string (op); warning ("duplicate unary operator '%s' for class dispatch", op_name.c_str ()); } unary_class_ops.checkelem (static_cast<int> (op)) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_unary_op (octave_value::unary_op op, int t, octave_value_typeinfo::unary_op_fcn f) { if (lookup_unary_op (op, t)) { std::string op_name = octave_value::unary_op_as_string (op); std::string type_name = types(t); warning ("duplicate unary operator '%s' for type '%s'", op_name.c_str (), type_name.c_str ()); } unary_ops.checkelem (static_cast<int> (op), t) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_non_const_unary_op (octave_value::unary_op op, int t, octave_value_typeinfo::non_const_unary_op_fcn f) { if (lookup_non_const_unary_op (op, t)) { std::string op_name = octave_value::unary_op_as_string (op); std::string type_name = types(t); warning ("duplicate unary operator '%s' for type '%s'", op_name.c_str (), type_name.c_str ()); } non_const_unary_ops.checkelem (static_cast<int> (op), t) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_binary_class_op (octave_value::binary_op op, octave_value_typeinfo::binary_class_op_fcn f) { if (lookup_binary_class_op (op)) { std::string op_name = octave_value::binary_op_as_string (op); warning ("duplicate binary operator '%s' for class dispatch", op_name.c_str ()); } binary_class_ops.checkelem (static_cast<int> (op)) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_binary_op (octave_value::binary_op op, int t1, int t2, octave_value_typeinfo::binary_op_fcn f) { if (lookup_binary_op (op, t1, t2)) { std::string op_name = octave_value::binary_op_as_string (op); std::string t1_name = types(t1); std::string t2_name = types(t2); warning ("duplicate binary operator '%s' for types '%s' and '%s'", op_name.c_str (), t1_name.c_str (), t1_name.c_str ()); } binary_ops.checkelem (static_cast<int> (op), t1, t2) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_binary_class_op (octave_value::compound_binary_op op, octave_value_typeinfo::binary_class_op_fcn f) { if (lookup_binary_class_op (op)) { std::string op_name = octave_value::binary_op_fcn_name (op); warning ("duplicate compound binary operator '%s' for class dispatch", op_name.c_str ()); } compound_binary_class_ops.checkelem (static_cast<int> (op)) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_binary_op (octave_value::compound_binary_op op, int t1, int t2, octave_value_typeinfo::binary_op_fcn f) { if (lookup_binary_op (op, t1, t2)) { std::string op_name = octave_value::binary_op_fcn_name (op); std::string t1_name = types(t1); std::string t2_name = types(t2); warning ("duplicate compound binary operator '%s' for types '%s' and '%s'", op_name.c_str (), t1_name.c_str (), t1_name.c_str ()); } compound_binary_ops.checkelem (static_cast<int> (op), t1, t2) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_cat_op (int t1, int t2, octave_value_typeinfo::cat_op_fcn f) { if (lookup_cat_op (t1, t2)) { std::string t1_name = types(t1); std::string t2_name = types(t2); warning ("duplicate concatenation operator for types '%s' and '%s'", t1_name.c_str (), t1_name.c_str ()); } cat_ops.checkelem (t1, t2) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_assign_op (octave_value::assign_op op, int t_lhs, int t_rhs, octave_value_typeinfo::assign_op_fcn f) { if (lookup_assign_op (op, t_lhs, t_rhs)) { std::string op_name = octave_value::assign_op_as_string (op); std::string t_lhs_name = types(t_lhs); std::string t_rhs_name = types(t_rhs); warning ("duplicate assignment operator '%s' for types '%s' and '%s'", op_name.c_str (), t_lhs_name.c_str (), t_rhs_name.c_str ()); } assign_ops.checkelem (static_cast<int> (op), t_lhs, t_rhs) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_assignany_op (octave_value::assign_op op, int t_lhs, octave_value_typeinfo::assignany_op_fcn f) { if (lookup_assignany_op (op, t_lhs)) { std::string op_name = octave_value::assign_op_as_string (op); std::string t_lhs_name = types(t_lhs); warning ("duplicate assignment operator '%s' for types '%s'", op_name.c_str (), t_lhs_name.c_str ()); } assignany_ops.checkelem (static_cast<int> (op), t_lhs) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_pref_assign_conv (int t_lhs, int t_rhs, int t_result) { if (lookup_pref_assign_conv (t_lhs, t_rhs) >= 0) { std::string t_lhs_name = types(t_lhs); std::string t_rhs_name = types(t_rhs); warning ("overriding assignment conversion for types '%s' and '%s'", t_lhs_name.c_str (), t_rhs_name.c_str ()); } pref_assign_conv.checkelem (t_lhs, t_rhs) = t_result; return false; } bool octave_value_typeinfo::do_register_type_conv_op (int t, int t_result, octave_base_value::type_conv_fcn f) { if (lookup_type_conv_op (t, t_result)) { std::string t_name = types(t); std::string t_result_name = types(t_result); warning ("overriding type conversion op for '%s' to '%s'", t_name.c_str (), t_result_name.c_str ()); } type_conv_ops.checkelem (t, t_result) = reinterpret_cast<void *> (f); return false; } bool octave_value_typeinfo::do_register_widening_op (int t, int t_result, octave_base_value::type_conv_fcn f) { if (lookup_widening_op (t, t_result)) { std::string t_name = types(t); std::string t_result_name = types(t_result); warning ("overriding widening op for '%s' to '%s'", t_name.c_str (), t_result_name.c_str ()); } widening_ops.checkelem (t, t_result) = reinterpret_cast<void *> (f); return false; } octave_value octave_value_typeinfo::do_lookup_type (const std::string& nm) { octave_value retval; for (int i = 0; i < num_types; i++) { if (nm == types(i)) { retval = vals(i); retval.make_unique (); break; } } return retval; } octave_value_typeinfo::unary_class_op_fcn octave_value_typeinfo::do_lookup_unary_class_op (octave_value::unary_op op) { void *f = unary_class_ops.checkelem (static_cast<int> (op)); return reinterpret_cast<octave_value_typeinfo::unary_class_op_fcn> (f); } octave_value_typeinfo::unary_op_fcn octave_value_typeinfo::do_lookup_unary_op (octave_value::unary_op op, int t) { void *f = unary_ops.checkelem (static_cast<int> (op), t); return reinterpret_cast<octave_value_typeinfo::unary_op_fcn> (f); } octave_value_typeinfo::non_const_unary_op_fcn octave_value_typeinfo::do_lookup_non_const_unary_op (octave_value::unary_op op, int t) { void *f = non_const_unary_ops.checkelem (static_cast<int> (op), t); return reinterpret_cast<octave_value_typeinfo::non_const_unary_op_fcn> (f); } octave_value_typeinfo::binary_class_op_fcn octave_value_typeinfo::do_lookup_binary_class_op (octave_value::binary_op op) { void *f = binary_class_ops.checkelem (static_cast<int> (op)); return reinterpret_cast<octave_value_typeinfo::binary_class_op_fcn> (f); } octave_value_typeinfo::binary_op_fcn octave_value_typeinfo::do_lookup_binary_op (octave_value::binary_op op, int t1, int t2) { void *f = binary_ops.checkelem (static_cast<int> (op), t1, t2); return reinterpret_cast<octave_value_typeinfo::binary_op_fcn> (f); } octave_value_typeinfo::binary_class_op_fcn octave_value_typeinfo::do_lookup_binary_class_op (octave_value::compound_binary_op op) { void *f = compound_binary_class_ops.checkelem (static_cast<int> (op)); return reinterpret_cast<octave_value_typeinfo::binary_class_op_fcn> (f); } octave_value_typeinfo::binary_op_fcn octave_value_typeinfo::do_lookup_binary_op (octave_value::compound_binary_op op, int t1, int t2) { void *f = compound_binary_ops.checkelem (static_cast<int> (op), t1, t2); return reinterpret_cast<octave_value_typeinfo::binary_op_fcn> (f); } octave_value_typeinfo::cat_op_fcn octave_value_typeinfo::do_lookup_cat_op (int t1, int t2) { void *f = cat_ops.checkelem (t1, t2); return reinterpret_cast<octave_value_typeinfo::cat_op_fcn> (f); } octave_value_typeinfo::assign_op_fcn octave_value_typeinfo::do_lookup_assign_op (octave_value::assign_op op, int t_lhs, int t_rhs) { void *f = assign_ops.checkelem (static_cast<int> (op), t_lhs, t_rhs); return reinterpret_cast<octave_value_typeinfo::assign_op_fcn> (f); } octave_value_typeinfo::assignany_op_fcn octave_value_typeinfo::do_lookup_assignany_op (octave_value::assign_op op, int t_lhs) { void *f = assignany_ops.checkelem (static_cast<int> (op), t_lhs); return reinterpret_cast<octave_value_typeinfo::assignany_op_fcn> (f); } int octave_value_typeinfo::do_lookup_pref_assign_conv (int t_lhs, int t_rhs) { return pref_assign_conv.checkelem (t_lhs, t_rhs); } octave_base_value::type_conv_fcn octave_value_typeinfo::do_lookup_type_conv_op (int t, int t_result) { void *f = type_conv_ops.checkelem (t, t_result); return reinterpret_cast<octave_base_value::type_conv_fcn> (f); } octave_base_value::type_conv_fcn octave_value_typeinfo::do_lookup_widening_op (int t, int t_result) { void *f = widening_ops.checkelem (t, t_result); return reinterpret_cast<octave_base_value::type_conv_fcn> (f); } string_vector octave_value_typeinfo::do_installed_type_names (void) { string_vector retval (num_types); for (int i = 0; i < num_types; i++) retval(i) = types(i); return retval; } DEFUN (typeinfo, args, , "-*- texinfo -*-\n\ @deftypefn {Built-in Function} {} typeinfo ()\n\ @deftypefnx {Built-in Function} {} typeinfo (@var{expr})\n\ \n\ Return the type of the expression @var{expr}, as a string. If\n\ @var{expr} is omitted, return an cell array of strings containing all the\n\ currently installed data types.\n\ @end deftypefn") { octave_value retval; int nargin = args.length (); if (nargin == 0) retval = Cell (octave_value_typeinfo::installed_type_names ()); else if (nargin == 1) retval = args(0).type_name (); else print_usage (); return retval; } /* %!error typeinfo ("foo", 1); %!assert (iscellstr (typeinfo ())); %!assert (typeinfo (false), "bool"); %!assert (typeinfo ([true, false]), "bool matrix"); %!assert (typeinfo (1:2), "range"); %!assert (typeinfo ("string"), "string"); %!assert (typeinfo ('string'), "sq_string"); %!assert (typeinfo (diag ([1, 2])), "diagonal matrix") %!assert (typeinfo (diag ([i, 2])), "complex diagonal matrix") %!assert (typeinfo (single (diag ([1, 2]))), "float diagonal matrix") %!assert (typeinfo (single (diag ([i, 2]))), "float complex diagonal matrix") %!assert (typeinfo (diag (single ([1, 2]))), "float diagonal matrix") %!assert (typeinfo (diag (single ([i, 2]))), "float complex diagonal matrix") %!assert (typeinfo ([]), "null_matrix"); %!assert (typeinfo (""), "null_string"); %!assert (typeinfo (''), "null_sq_string"); %!assert (typeinfo (1), "scalar"); %!assert (typeinfo (double (1)), "scalar"); %!assert (typeinfo ([1, 2]), "matrix"); %!assert (typeinfo (double ([1, 2])), "matrix"); %!assert (typeinfo (i), "complex scalar"); %!assert (typeinfo ([i, 2]), "complex matrix"); %!assert (typeinfo (single (1)), "float scalar"); %!assert (typeinfo (single ([1, 2])), "float matrix"); %!assert (typeinfo (single (i)), "float complex scalar"); %!assert (typeinfo (single ([i, 2])), "float complex matrix"); %!assert (typeinfo (sparse (eye (10))), "sparse matrix"); %!assert (typeinfo (sparse (i * eye (10))), "sparse complex matrix"); %!assert (typeinfo (logical (sparse (i * eye (10)))), "sparse bool matrix"); %!assert (typeinfo (int8 (1)), "int8 scalar"); %!assert (typeinfo (int16 (1)), "int16 scalar"); %!assert (typeinfo (int32 (1)), "int32 scalar"); %!assert (typeinfo (int64 (1)), "int64 scalar"); %!assert (typeinfo (uint8 (1)), "uint8 scalar"); %!assert (typeinfo (uint16 (1)), "uint16 scalar"); %!assert (typeinfo (uint32 (1)), "uint32 scalar"); %!assert (typeinfo (uint64 (1)), "uint64 scalar"); %!test %! s.a = 1; %! assert (typeinfo (s), "scalar struct"); %!test %! s(2).a = 1; %! assert (typeinfo (s), "struct"); %!assert (typeinfo ({"cell"}), "cell"); %!assert (typeinfo (@sin), "function handle"); %!assert (typeinfo (@(x) x), "function handle"); %!assert (typeinfo (inline ('x^2')), "inline function"); %!test %! [l, u, p] = lu (rand (3)); %! assert (typeinfo (p), "permutation matrix"); */