Mercurial > hg > octave-nkf
view src/pt-colon.cc @ 14200:64d9f33313cc stable rc-3-6-0-1
3.6.0-rc1 release candidate
* configure.ac (AC_INIT): Version is now 3.6.0-rc1.
(OCTAVE_RELEASE_DATE): Now 2012-01-12.
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Thu, 12 Jan 2012 14:31:50 -0500 |
| 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 "error.h" #include "oct-obj.h" #include "pager.h" #include "ov.h" #include "pt-bp.h" #include "pt-colon.h" #include "pt-walk.h" // Colon expressions. tree_colon_expression * tree_colon_expression::append (tree_expression *t) { tree_colon_expression *retval = 0; if (op_base) { if (op_limit) { if (op_increment) ::error ("invalid colon expression"); else { // Stupid syntax: // // base : limit // base : increment : limit op_increment = op_limit; op_limit = t; } } else op_limit = t; retval = this; } else ::error ("invalid colon expression"); return retval; } octave_value_list tree_colon_expression::rvalue (int nargout) { octave_value_list retval; if (nargout > 1) error ("invalid number of output arguments for colon expression"); else retval = rvalue1 (nargout); return retval; } octave_value tree_colon_expression::make_range (const Matrix& m_base, const Matrix& m_limit, const Matrix& m_increment, bool result_is_str, bool dq_str) const { octave_value retval; bool base_empty = m_base.is_empty (); bool limit_empty = m_limit.is_empty (); bool increment_empty = m_increment.is_empty (); if (base_empty || limit_empty || increment_empty) retval = Range (); else { retval = Range (m_base(0), m_limit(0), m_increment(0)); if (result_is_str) retval = retval.convert_to_str (false, true, dq_str ? '"' : '\''); } return retval; } octave_value tree_colon_expression::make_range (const octave_value& ov_base, const octave_value& ov_limit, const octave_value& ov_increment) const { octave_value retval; if (ov_base.is_object () || ov_limit.is_object () || ov_increment.is_object ()) { octave_value_list tmp1; tmp1(2) = ov_limit; tmp1(1) = ov_increment; tmp1(0) = ov_base; octave_value fcn = symbol_table::find_function ("colon", tmp1); if (fcn.is_defined ()) { octave_value_list tmp2 = fcn.do_multi_index_op (1, tmp1); if (! error_state) retval = tmp2 (0); } else ::error ("can not find overloaded colon function"); } else { bool result_is_str = (ov_base.is_string () && ov_limit.is_string ()); bool dq_str = (ov_base.is_dq_string () || ov_limit.is_dq_string ()); Matrix m_base = ov_base.matrix_value (true); if (error_state) eval_error ("invalid base value in colon expression"); else { Matrix m_limit = ov_limit.matrix_value (true); if (error_state) eval_error ("invalid limit value in colon expression"); else { Matrix m_increment = ov_increment.matrix_value (true); if (error_state) eval_error ("invalid increment value in colon expression"); else retval = make_range (m_base, m_limit, m_increment, result_is_str, dq_str); } } } return retval; } octave_value tree_colon_expression::rvalue1 (int) { octave_value retval; if (error_state || ! op_base || ! op_limit) return retval; octave_value ov_base = op_base->rvalue1 (); if (error_state || ov_base.is_undefined ()) eval_error ("invalid base value in colon expression"); else { octave_value ov_limit = op_limit->rvalue1 (); if (error_state || ov_limit.is_undefined ()) eval_error ("invalid limit value in colon expression"); else if (ov_base.is_object () || ov_limit.is_object ()) { octave_value_list tmp1; if (op_increment) { octave_value ov_increment = op_increment->rvalue1 (); if (error_state || ov_increment.is_undefined ()) eval_error ("invalid increment value in colon expression"); else { tmp1(2) = ov_limit; tmp1(1) = ov_increment; tmp1(0) = ov_base; } } else { tmp1(1) = ov_limit; tmp1(0) = ov_base; } if (!error_state) { octave_value fcn = symbol_table::find_function ("colon", tmp1); if (fcn.is_defined ()) { octave_value_list tmp2 = fcn.do_multi_index_op (1, tmp1); if (! error_state) retval = tmp2 (0); } else ::error ("can not find overloaded colon function"); } } else { octave_value ov_increment = 1.0; if (op_increment) { ov_increment = op_increment->rvalue1 (); if (error_state || ov_increment.is_undefined ()) eval_error ("invalid increment value in colon expression"); } if (! error_state) retval = make_range (ov_base, ov_limit, ov_increment); } } return retval; } void tree_colon_expression::eval_error (const std::string& s) const { ::error ("%s", s.c_str ()); } int tree_colon_expression::line (void) const { return (op_base ? op_base->line () : (op_increment ? op_increment->line () : (op_limit ? op_limit->line () : -1))); } int tree_colon_expression::column (void) const { return (op_base ? op_base->column () : (op_increment ? op_increment->column () : (op_limit ? op_limit->column () : -1))); } tree_expression * tree_colon_expression::dup (symbol_table::scope_id scope, symbol_table::context_id context) const { tree_colon_expression *new_ce = new tree_colon_expression (op_base ? op_base->dup (scope, context) : 0, op_limit ? op_limit->dup (scope, context) : 0, op_increment ? op_increment->dup (scope, context) : 0, line (), column ()); new_ce->copy_base (*new_ce); return new_ce; } void tree_colon_expression::accept (tree_walker& tw) { tw.visit_colon_expression (*this); }