Mercurial > hg > octave-lyh
view src/pt-assign.cc @ 14495:319660795df1
Fix gnuplot error when color values are within eps of each other (bug #35761).
* plot/private/__go_draw_axes__.m: Use %.15e for setting cbrange in gnuplot.
| author | Marco Caliari <marco.caliari@univr.it> |
|---|---|
| date | Sun, 25 Mar 2012 13:53:39 -0700 |
| parents | 72c96de7a403 |
| children | 000cd393f3c1 |
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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 <iostream> #include <set> #include "defun.h" #include "error.h" #include "gripes.h" #include "input.h" #include "oct-obj.h" #include "oct-lvalue.h" #include "pager.h" #include "ov.h" #include "pt-arg-list.h" #include "pt-bp.h" #include "pt-assign.h" #include "pt-walk.h" #include "utils.h" #include "variables.h" // Simple assignment expressions. // FIXME -- the following variable and the function that uses it // should be removed from some future version of Octave. static const char *former_built_in_variables[] = { "DEFAULT_EXEC_PATH", "DEFAULT_LOADPATH", "EDITOR", "EXEC_PATH", "FFTW_WISDOM_PROGRAM", "IMAGEPATH", "INFO_FILE", "INFO_PROGRAM", "LOADPATH", "MAKEINFO_PROGRAM", "PAGER", "PS1", "PS2", "PS4", "__kluge_procbuf_delay__", "automatic_replot", "beep_on_error", "completion_append_char", "crash_dumps_octave_core", "current_script_file_name", "debug_on_error", "debug_on_interrupt", "debug_on_warning", "debug_symtab_lookups", "default_save_options", "echo_executing_commands", "fixed_point_format", "gnuplot_binary", "gnuplot_command_axes", "gnuplot_command_end", "gnuplot_command_plot", "gnuplot_command_replot", "gnuplot_command_splot", "gnuplot_command_title", "gnuplot_command_using", "gnuplot_command_with", "gnuplot_has_frames", "history_file", "history_size", "ignore_function_time_stamp", "max_recursion_depth", "octave_core_file_format", "octave_core_file_limit", "octave_core_file_name", "output_max_field_width", "output_precision", "page_output_immediately", "page_screen_output", "print_answer_id_name", "print_empty_dimensions", "print_rhs_assign_val", "save_header_format_string", "save_precision", "saving_history", "sighup_dumps_octave_core", "sigterm_dumps_octave_core", "silent_functions", "split_long_rows", "string_fill_char", "struct_levels_to_print", "suppress_verbose_help_message", "variables_can_hide_functions", "warn_assign_as_truth_value", "warn_associativity_change", "warn_divide_by_zero", "warn_empty_list_elements", "warn_fortran_indexing", "warn_function_name_clash", "warn_future_time_stamp", "warn_imag_to_real", "warn_matlab_incompatible", "warn_missing_semicolon", "warn_neg_dim_as_zero", "warn_num_to_str", "warn_precedence_change", "warn_reload_forces_clear", "warn_resize_on_range_error", "warn_separator_insert", "warn_single_quote_string", "warn_str_to_num", "warn_undefined_return_values", "warn_variable_switch_label", "whos_line_format", 0, }; static void maybe_warn_former_built_in_variable (const std::string& nm) { static bool initialized = false; static std::set<std::string> vars; if (! initialized) { const char **p = former_built_in_variables; while (*p) vars.insert (*p++); initialized = true; } if (vars.find (nm) != vars.end ()) { const char *nm_c_str = nm.c_str (); warning_with_id ("Octave:built-in-variable-assignment", "\ In recent versions of Octave, %s is a function instead\n\ of a built-in variable.\n\n\ By assigning to %s, you have created a variable that hides\n\ the function %s. To remove the variable and restore the \n\ function, type \"clear %s\"\n", nm_c_str, nm_c_str, nm_c_str, nm_c_str); } } tree_simple_assignment::tree_simple_assignment (tree_expression *le, tree_expression *re, bool plhs, int l, int c, octave_value::assign_op t) : tree_expression (l, c), lhs (le), rhs (re), preserve (plhs), etype (t), first_execution (true) { } tree_simple_assignment::~tree_simple_assignment (void) { if (! preserve) delete lhs; delete rhs; } octave_value_list tree_simple_assignment::rvalue (int nargout) { octave_value_list retval; if (nargout > 1) error ("invalid number of output arguments for expression X = RHS"); else retval = rvalue1 (nargout); return retval; } octave_value tree_simple_assignment::rvalue1 (int) { octave_value retval; if (first_execution && lhs) maybe_warn_former_built_in_variable (lhs->name ()); if (error_state) return retval; if (rhs) { octave_value rhs_val = rhs->rvalue1 (); if (! error_state) { if (rhs_val.is_undefined ()) { error ("value on right hand side of assignment is undefined"); return retval; } else { if (rhs_val.is_cs_list ()) { const octave_value_list lst = rhs_val.list_value (); if (! lst.empty ()) rhs_val = lst(0); else { error ("invalid number of elements on RHS of assignment"); return retval; } } octave_lvalue ult = lhs->lvalue (); if (ult.numel () != 1) gripe_nonbraced_cs_list_assignment (); if (! error_state) { ult.assign (etype, rhs_val); if (! error_state) { if (etype == octave_value::op_asn_eq) retval = rhs_val; else retval = ult.value (); if (print_result ()) { // We clear any index here so that we can // get the new value of the referenced // object below, instead of the indexed // value (which should be the same as the // right hand side value). ult.clear_index (); octave_value lhs_val = ult.value (); if (! error_state) lhs_val.print_with_name (octave_stdout, lhs->name ()); } } } } } } first_execution = false; return retval; } std::string tree_simple_assignment::oper (void) const { return octave_value::assign_op_as_string (etype); } tree_expression * tree_simple_assignment::dup (symbol_table::scope_id scope, symbol_table::context_id context) const { tree_simple_assignment *new_sa = new tree_simple_assignment (lhs ? lhs->dup (scope, context) : 0, rhs ? rhs->dup (scope, context) : 0, preserve, etype); new_sa->copy_base (*this); return new_sa; } void tree_simple_assignment::accept (tree_walker& tw) { tw.visit_simple_assignment (*this); } // Multi-valued assignment expressions. tree_multi_assignment::tree_multi_assignment (tree_argument_list *lst, tree_expression *r, bool plhs, int l, int c) : tree_expression (l, c), lhs (lst), rhs (r), preserve (plhs), first_execution (true) { } tree_multi_assignment::~tree_multi_assignment (void) { if (! preserve) delete lhs; delete rhs; } octave_value tree_multi_assignment::rvalue1 (int nargout) { octave_value retval; const octave_value_list tmp = rvalue (nargout); if (! tmp.empty ()) retval = tmp(0); return retval; } // FIXME -- this works, but it would look a little better if // it were broken up into a couple of separate functions. octave_value_list tree_multi_assignment::rvalue (int) { octave_value_list retval; if (error_state) return retval; if (first_execution) { for (tree_argument_list::iterator p = lhs->begin (); p != lhs->end (); p++) { tree_expression *lhs_expr = *p; if (lhs_expr) maybe_warn_former_built_in_variable (lhs_expr->name ()); } } if (rhs) { std::list<octave_lvalue> lvalue_list = lhs->lvalue_list (); if (error_state) return retval; octave_idx_type n_out = 0; for (std::list<octave_lvalue>::const_iterator p = lvalue_list.begin (); p != lvalue_list.end (); p++) n_out += p->numel (); // The following trick is used to keep rhs_val constant. const octave_value_list rhs_val1 = rhs->rvalue (n_out, &lvalue_list); const octave_value_list rhs_val = (rhs_val1.length () == 1 && rhs_val1(0).is_cs_list () ? rhs_val1(0).list_value () : rhs_val1); if (error_state) return retval; octave_idx_type k = 0; octave_idx_type n = rhs_val.length (); // To avoid copying per elements and possible optimizations, we // postpone joining the final values. std::list<octave_value_list> retval_list; tree_argument_list::iterator q = lhs->begin (); for (std::list<octave_lvalue>::iterator p = lvalue_list.begin (); p != lvalue_list.end (); p++) { tree_expression *lhs_elt = *q++; octave_lvalue ult = *p; octave_idx_type nel = ult.numel (); if (nel != 1) { if (k + nel <= n) { // This won't do a copy. octave_value_list ovl = rhs_val.slice (k, nel); ult.assign (octave_value::op_asn_eq, octave_value (ovl, true)); if (! error_state) { retval_list.push_back (ovl); k += nel; } } else error ("some elements undefined in return list"); } else { if (k < n) { ult.assign (octave_value::op_asn_eq, rhs_val(k)); if (ult.is_black_hole ()) { k++; continue; } else if (! error_state) { retval_list.push_back (rhs_val(k)); k++; } } else error ("element number %d undefined in return list", k+1); } if (error_state) break; else if (print_result ()) { // We clear any index here so that we can get // the new value of the referenced object below, // instead of the indexed value (which should be // the same as the right hand side value). ult.clear_index (); octave_value lhs_val = ult.value (); if (! error_state) lhs_val.print_with_name (octave_stdout, lhs_elt->name ()); } if (error_state) break; } // Concatenate return values. retval = retval_list; } first_execution = false; return retval; } std::string tree_multi_assignment::oper (void) const { return octave_value::assign_op_as_string (op_type ()); } tree_expression * tree_multi_assignment::dup (symbol_table::scope_id scope, symbol_table::context_id context) const { tree_multi_assignment *new_ma = new tree_multi_assignment (lhs ? lhs->dup (scope, context) : 0, rhs ? rhs->dup (scope, context) : 0, preserve); new_ma->copy_base (*this); return new_ma; } void tree_multi_assignment::accept (tree_walker& tw) { tw.visit_multi_assignment (*this); }