Mercurial > octave
view src/pt-fcn.cc @ 2124:97a566037a75
[project @ 1996-05-12 07:16:36 by jwe]
| author | jwe |
|---|---|
| date | Sun, 12 May 1996 07:16:36 +0000 |
| parents | 36903d507b0e |
| children | bad1dffb5264 |
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/* Copyright (C) 1996 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 2, 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, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #if defined (__GNUG__) #pragma implementation #endif #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <iostream.h> #include "defun.h" #include "error.h" #include "gripes.h" #include "help.h" #include "pager.h" #include "symtab.h" #include "toplev.h" #include "pt-const.h" #include "pt-exp.h" #include "pt-fcn.h" #include "pt-misc.h" #include "pt-pr-code.h" #include "pt-walk.h" #include "unwind-prot.h" #include "user-prefs.h" #include "utils.h" #include "variables.h" // Nonzero means we're returning from a function. extern int returning; // Nonzero means we're breaking out of a loop or function body. extern int breaking; // User defined functions. void tree_function::install_nargin_and_nargout (void) { nargin_sr = sym_tab->lookup ("nargin", 1, 0); nargout_sr = sym_tab->lookup ("nargout", 1, 0); } void tree_function::bind_nargin_and_nargout (int nargin, int nargout) { octave_value *tmp; tmp = new octave_value (nargin); nargin_sr->define (tmp); tmp = new octave_value (nargout); nargout_sr->define (tmp); } tree_function::~tree_function (void) { delete param_list; delete ret_list; delete sym_tab; delete cmd_list; delete vr_list; } #if 0 tree_function * tree_function::define (tree statement_list *t) { cmd_list = t; return this; } #endif tree_function * tree_function::define_param_list (tree_parameter_list *t) { param_list = t; if (param_list) { num_named_args = param_list->length (); curr_va_arg_number = num_named_args; } return this; } tree_function * tree_function::define_ret_list (tree_parameter_list *t) { ret_list = t; if (ret_list && ret_list->takes_varargs ()) vr_list = new tree_va_return_list; return this; } void tree_function::stash_fcn_file_name (void) { if (fcn_name.empty ()) file_name = ""; else file_name = fcn_file_in_path (fcn_name); } void tree_function::mark_as_system_fcn_file (void) { if (! file_name.empty ()) { // We really should stash the whole path to the file we found, // when we looked it up, to avoid possible race conditions... // XXX FIXME XXX // // We probably also don't need to get the library directory // every time, but since this function is only called when the // function file is parsed, it probably doesn't matter that // much. string ff_name = fcn_file_in_path (file_name); string system_dir = octave_fcn_file_dir (); if (system_dir.compare (ff_name, 0, system_dir.length ()) == 0) system_fcn_file = 1; } else system_fcn_file = 0; } bool tree_function::takes_varargs (void) const { return (param_list && param_list->takes_varargs ()); } octave_value tree_function::octave_va_arg (void) { octave_value retval; if (curr_va_arg_number < num_args_passed) retval = args_passed (curr_va_arg_number++); else ::error ("va_arg: error getting arg number %d -- only %d provided", curr_va_arg_number + 1, num_args_passed); return retval; } octave_value_list tree_function::octave_all_va_args (void) { octave_value_list retval; retval.resize (num_args_passed - num_named_args); int k = 0; for (int i = num_named_args; i < num_args_passed; i++) retval(k++) = args_passed(i); return retval; } bool tree_function::takes_var_return (void) const { return (ret_list && ret_list->takes_varargs ()); } void tree_function::octave_vr_val (const octave_value& val) { assert (vr_list); vr_list->append (val); } void tree_function::stash_function_name (const string& s) { fcn_name = s; } octave_value tree_function::eval (bool print) { octave_value retval; if (error_state || ! cmd_list) return retval; octave_value_list tmp_args; octave_value_list tmp = eval (print, 0, tmp_args); if (! error_state && tmp.length () > 0) retval = tmp(0); return retval; } // For unwind protect. static void pop_symbol_table_context (void *table) { symbol_table *tmp = (symbol_table *) table; tmp->pop_context (); } static void delete_vr_list (void *list) { tree_va_return_list *tmp = (tree_va_return_list *) list; tmp->clear (); delete tmp; } static void clear_symbol_table (void *table) { symbol_table *tmp = (symbol_table *) table; tmp->clear (); } octave_value_list tree_function::eval (bool /* print */, int nargout, const octave_value_list& args) { octave_value_list retval; if (error_state) return retval; if (! cmd_list) return retval; int nargin = args.length (); begin_unwind_frame ("func_eval"); unwind_protect_int (call_depth); call_depth++; if (call_depth > 1) { sym_tab->push_context (); add_unwind_protect (pop_symbol_table_context, (void *) sym_tab); if (vr_list) { // Push new vr_list. unwind_protect_ptr (vr_list); vr_list = new tree_va_return_list; // Clear and delete the new one before restoring the old // one. add_unwind_protect (delete_vr_list, (void *) vr_list); } } if (vr_list) vr_list->clear (); // Force symbols to be undefined again when this function exits. add_unwind_protect (clear_symbol_table, (void *) sym_tab); // Save old and set current symbol table context, for // eval_undefined_error(). unwind_protect_ptr (curr_sym_tab); curr_sym_tab = sym_tab; unwind_protect_ptr (curr_function); curr_function = this; // XXX FIXME XXX -- ??? // unwind_protect_ptr (args_passed); args_passed = args; unwind_protect_int (num_args_passed); num_args_passed = nargin; unwind_protect_int (num_named_args); unwind_protect_int (curr_va_arg_number); if (param_list && ! param_list->varargs_only ()) { param_list->define_from_arg_vector (args); if (error_state) goto abort; } // The following code is in a separate scope to avoid warnings from // G++ about `goto abort' crossing the initialization of some // variables. { bind_nargin_and_nargout (nargin, nargout); bool echo_commands = (user_pref.echo_executing_commands & ECHO_FUNCTIONS); if (echo_commands) print_code_function_header (); // Evaluate the commands that make up the function. bool pf = ! user_pref.silent_functions; octave_value last_computed_value = cmd_list->eval (pf); if (echo_commands) print_code_function_trailer (); if (returning) returning = 0; if (breaking) breaking--; if (error_state) { traceback_error (); goto abort; } // Copy return values out. if (ret_list) { if (nargout > 0 && user_pref.define_all_return_values) { octave_value tmp = builtin_any_variable ("default_return_value"); if (tmp.is_defined ()) ret_list->initialize_undefined_elements (tmp); } retval = ret_list->convert_to_const_vector (vr_list); } else if (user_pref.return_last_computed_value) retval(0) = last_computed_value; } abort: run_unwind_frame ("func_eval"); return retval; } void tree_function::traceback_error (void) { if (error_state >= 0) error_state = -1; if (fcn_name.empty ()) { if (file_name.empty ()) ::error ("called from `?unknown?'"); else ::error ("called from file `%s'", file_name.c_str ()); } else { if (file_name.empty ()) ::error ("called from `%s'", fcn_name.c_str ()); else ::error ("called from `%s' in file `%s'", fcn_name.c_str (), file_name.c_str ()); } } void tree_function::print_code_function_header (void) { tree_print_code tpc (octave_stdout); tpc.visit_function_header (*this); } void tree_function::print_code_function_trailer (void) { tree_print_code tpc (octave_stdout); tpc.visit_function_trailer (*this); } void tree_function::accept (tree_walker& tw) { tw.visit_function (*this); } DEFUN (va_arg, args, , "va_arg (): return next argument in a function that takes a\n\ variable number of parameters") { octave_value_list retval; int nargin = args.length (); if (nargin == 0) { if (curr_function) { if (curr_function->takes_varargs ()) retval = curr_function->octave_va_arg (); else { ::error ("va_arg only valid within function taking variable"); ::error ("number of arguments"); } } else ::error ("va_arg only valid within function body"); } else print_usage ("va_arg"); return retval; } DEFUN (va_start, args, , "va_start (): reset the pointer to the list of optional arguments\n\ to the beginning") { octave_value_list retval; int nargin = args.length (); if (nargin == 0) { if (curr_function) { if (curr_function->takes_varargs ()) curr_function->octave_va_start (); else { ::error ("va_start only valid within function taking variable"); ::error ("number of arguments"); } } else ::error ("va_start only valid within function body"); } else print_usage ("va_start"); return retval; } DEFUN (vr_val, args, , "vr_val (X): append X to the list of optional return values for a function that allows a variable number of return values") { octave_value_list retval; int nargin = args.length (); if (nargin == 1) { if (curr_function) { if (curr_function->takes_var_return ()) curr_function->octave_vr_val (args(0)); else { ::error ("vr_val only valid within function declared to"); ::error ("produce a variable number of values"); } } else ::error ("vr_val only valid within function body"); } else print_usage ("vr_val"); return retval; } /* ;;; Local Variables: *** ;;; mode: C++ *** ;;; End: *** */