Mercurial > hg > octave-nkf
view src/ov-usr-fcn.cc @ 12317:126d8fe48a12
Fix warning about GOTO reference in arpack code
| author | Rik <octave@nomad.inbox5.com> |
|---|---|
| date | Mon, 31 Jan 2011 16:41:43 -0500 |
| parents | 12df7854fa7c |
| children | 7a5aacf65f81 |
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/* Copyright (C) 1996-2011 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 "str-vec.h" #include <defaults.h> #include "Cell.h" #include "defun.h" #include "error.h" #include "gripes.h" #include "input.h" #include "oct-obj.h" #include "ov-usr-fcn.h" #include "ov.h" #include "pager.h" #include "pt-eval.h" #include "pt-jump.h" #include "pt-misc.h" #include "pt-pr-code.h" #include "pt-stmt.h" #include "pt-walk.h" #include "symtab.h" #include "toplev.h" #include "unwind-prot.h" #include "utils.h" #include "parse.h" #include "variables.h" // Whether to optimize subsasgn method calls. static bool Voptimize_subsasgn_calls = true; // User defined scripts. DEFINE_OCTAVE_ALLOCATOR (octave_user_script); DEFINE_OV_TYPEID_FUNCTIONS_AND_DATA (octave_user_script, "user-defined script", "user-defined script"); octave_user_script::octave_user_script (void) : octave_user_code (), cmd_list (0), file_name (), t_parsed (static_cast<time_t> (0)), t_checked (static_cast<time_t> (0)), call_depth (-1) { } octave_user_script::octave_user_script (const std::string& fnm, const std::string& nm, tree_statement_list *cmds, const std::string& ds) : octave_user_code (nm, ds), cmd_list (cmds), file_name (fnm), t_parsed (static_cast<time_t> (0)), t_checked (static_cast<time_t> (0)), call_depth (-1) { if (cmd_list) cmd_list->mark_as_script_body (); } octave_user_script::octave_user_script (const std::string& fnm, const std::string& nm, const std::string& ds) : octave_user_code (nm, ds), cmd_list (0), file_name (fnm), t_parsed (static_cast<time_t> (0)), t_checked (static_cast<time_t> (0)), call_depth (-1) { } octave_user_script::~octave_user_script (void) { delete cmd_list; } octave_value_list octave_user_script::subsref (const std::string&, const std::list<octave_value_list>&, int) { octave_value_list retval; ::error ("invalid use of script %s in index expression", file_name.c_str ()); return retval; } octave_value_list octave_user_script::do_multi_index_op (int nargout, const octave_value_list& args) { octave_value_list retval; unwind_protect frame; if (! error_state) { if (args.length () == 0 && nargout == 0) { if (cmd_list) { frame.protect_var (call_depth); call_depth++; if (call_depth < Vmax_recursion_depth) { octave_call_stack::push (this); frame.add_fcn (octave_call_stack::pop); frame.protect_var (tree_evaluator::statement_context); tree_evaluator::statement_context = tree_evaluator::script; cmd_list->accept (*current_evaluator); if (tree_return_command::returning) tree_return_command::returning = 0; if (tree_break_command::breaking) tree_break_command::breaking--; if (error_state) octave_call_stack::backtrace_error_message (); } else ::error ("max_recursion_depth exceeded"); } } else error ("invalid call to script %s", file_name.c_str ()); } return retval; } void octave_user_script::accept (tree_walker& tw) { tw.visit_octave_user_script (*this); } // User defined functions. DEFINE_OCTAVE_ALLOCATOR (octave_user_function); DEFINE_OV_TYPEID_FUNCTIONS_AND_DATA (octave_user_function, "user-defined function", "user-defined function"); // Ugh. This really needs to be simplified (code/data? // extrinsic/intrinsic state?). octave_user_function::octave_user_function (symbol_table::scope_id sid, tree_parameter_list *pl, tree_parameter_list *rl, tree_statement_list *cl) : octave_user_code (std::string (), std::string ()), param_list (pl), ret_list (rl), cmd_list (cl), lead_comm (), trail_comm (), file_name (), parent_name (), t_parsed (static_cast<time_t> (0)), t_checked (static_cast<time_t> (0)), system_fcn_file (false), call_depth (-1), num_named_args (param_list ? param_list->length () : 0), subfunction (false), inline_function (false), class_constructor (false), class_method (false), parent_scope (-1), local_scope (sid), curr_unwind_protect_frame (0) { if (cmd_list) cmd_list->mark_as_function_body (); if (local_scope >= 0) symbol_table::set_curr_fcn (this, local_scope); } octave_user_function::~octave_user_function (void) { delete param_list; delete ret_list; delete cmd_list; delete lead_comm; delete trail_comm; symbol_table::erase_scope (local_scope); } octave_user_function * octave_user_function::define_ret_list (tree_parameter_list *t) { ret_list = t; return this; } void octave_user_function::stash_fcn_file_name (const std::string& nm) { file_name = nm; } void octave_user_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... // FIXME // // 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. std::string ff_name = fcn_file_in_path (file_name); if (Vfcn_file_dir == ff_name.substr (0, Vfcn_file_dir.length ())) system_fcn_file = 1; } else system_fcn_file = 0; } bool octave_user_function::takes_varargs (void) const { return (param_list && param_list->takes_varargs ()); } bool octave_user_function::takes_var_return (void) const { return (ret_list && ret_list->takes_varargs ()); } void octave_user_function::lock_subfunctions (void) { symbol_table::lock_subfunctions (local_scope); } void octave_user_function::unlock_subfunctions (void) { symbol_table::unlock_subfunctions (local_scope); } octave_value_list octave_user_function::all_va_args (const octave_value_list& args) { octave_value_list retval; octave_idx_type n = args.length () - num_named_args; if (n > 0) retval = args.slice (num_named_args, n); return retval; } octave_value_list octave_user_function::subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout) { return octave_user_function::subsref (type, idx, nargout, 0); } octave_value_list octave_user_function::subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout, const std::list<octave_lvalue>* lvalue_list) { octave_value_list retval; switch (type[0]) { case '(': { int tmp_nargout = (type.length () > 1 && nargout == 0) ? 1 : nargout; retval = do_multi_index_op (tmp_nargout, idx.front (), idx.size () == 1 ? lvalue_list : 0); } break; case '{': case '.': { std::string nm = type_name (); error ("%s cannot be indexed with %c", nm.c_str (), type[0]); } break; default: panic_impossible (); } // FIXME -- perhaps there should be an // octave_value_list::next_subsref member function? See also // octave_builtin::subsref. if (idx.size () > 1) retval = retval(0).next_subsref (nargout, type, idx); return retval; } octave_value_list octave_user_function::do_multi_index_op (int nargout, const octave_value_list& args) { return do_multi_index_op (nargout, args, 0); } octave_value_list octave_user_function::do_multi_index_op (int nargout, const octave_value_list& args, const std::list<octave_lvalue>* lvalue_list) { octave_value_list retval; if (error_state) return retval; if (! cmd_list) return retval; int nargin = args.length (); unwind_protect frame; frame.protect_var (call_depth); call_depth++; if (call_depth >= Vmax_recursion_depth) { ::error ("max_recursion_depth exceeded"); return retval; } // Save old and set current symbol table context, for // eval_undefined_error(). octave_call_stack::push (this, local_scope, call_depth); frame.add_fcn (octave_call_stack::pop); if (call_depth > 0) { symbol_table::push_context (); frame.add_fcn (symbol_table::pop_context); } string_vector arg_names = args.name_tags (); if (param_list && ! param_list->varargs_only ()) { param_list->define_from_arg_vector (args); if (error_state) return retval; } // Force parameter list to be undefined when this function exits. // Doing so decrements the reference counts on the values of local // variables that are also named function parameters. if (param_list) frame.add_method (param_list, &tree_parameter_list::undefine); // Force return list to be undefined when this function exits. // Doing so decrements the reference counts on the values of local // variables that are also named values returned by this function. if (ret_list) frame.add_method (ret_list, &tree_parameter_list::undefine); if (call_depth == 0) { // Force symbols to be undefined again when this function // exits. // // This cleanup function is added to the unwind_protect stack // after the calls to clear the parameter lists so that local // variables will be cleared before the parameter lists are // cleared. That way, any function parameters that have been // declared global will be unmarked as global before they are // undefined by the clear_param_list cleanup function. frame.add_fcn (symbol_table::clear_variables); } bind_automatic_vars (arg_names, nargin, nargout, all_va_args (args), lvalue_list); bool echo_commands = (Vecho_executing_commands & ECHO_FUNCTIONS); if (echo_commands) print_code_function_header (); // Set pointer to the current unwind_protect frame to allow // certain builtins register simple cleanup in a very optimized manner. // This is *not* intended as a general-purpose on-cleanup mechanism, frame.protect_var (curr_unwind_protect_frame); curr_unwind_protect_frame = &frame; // Evaluate the commands that make up the function. frame.protect_var (tree_evaluator::statement_context); tree_evaluator::statement_context = tree_evaluator::function; bool special_expr = (is_inline_function () || cmd_list->is_anon_function_body ()); if (special_expr) { assert (cmd_list->length () == 1); tree_statement *stmt = 0; if ((stmt = cmd_list->front ()) && stmt->is_expression ()) { tree_expression *expr = stmt->expression (); retval = expr->rvalue (nargout); } } else cmd_list->accept (*current_evaluator); if (echo_commands) print_code_function_trailer (); if (tree_return_command::returning) tree_return_command::returning = 0; if (tree_break_command::breaking) tree_break_command::breaking--; if (error_state) { octave_call_stack::backtrace_error_message (); return retval; } // Copy return values out. if (ret_list && ! special_expr) { ret_list->initialize_undefined_elements (my_name, nargout, Matrix ()); Cell varargout; if (ret_list->takes_varargs ()) { octave_value varargout_varval = symbol_table::varval ("varargout"); if (varargout_varval.is_defined ()) { varargout = varargout_varval.cell_value (); if (error_state) error ("expecting varargout to be a cell array object"); } } if (! error_state) retval = ret_list->convert_to_const_vector (nargout, varargout); } return retval; } void octave_user_function::accept (tree_walker& tw) { tw.visit_octave_user_function (*this); } bool octave_user_function::subsasgn_optimization_ok (void) { bool retval = false; if (Voptimize_subsasgn_calls && param_list->length () > 0 && ! param_list->varargs_only () && ret_list->length () == 1 && ! ret_list->takes_varargs ()) { tree_identifier *par1 = param_list->front ()->ident (); tree_identifier *ret1 = ret_list->front ()->ident (); retval = par1->name () == ret1->name (); } return retval; } #if 0 void octave_user_function::print_symtab_info (std::ostream& os) const { symbol_table::print_info (os, local_scope); } #endif void octave_user_function::print_code_function_header (void) { tree_print_code tpc (octave_stdout, VPS4); tpc.visit_octave_user_function_header (*this); } void octave_user_function::print_code_function_trailer (void) { tree_print_code tpc (octave_stdout, VPS4); tpc.visit_octave_user_function_trailer (*this); } void octave_user_function::bind_automatic_vars (const string_vector& arg_names, int nargin, int nargout, const octave_value_list& va_args, const std::list<octave_lvalue> *lvalue_list) { if (! arg_names.empty ()) { // It is better to save this in the hidden variable .argn. and // then use that in the inputname function instead of using argn, // which might be redefined in a function. Keep the old argn name // for backward compatibility of functions that use it directly. symbol_table::varref ("argn") = arg_names; symbol_table::varref (".argn.") = Cell (arg_names); symbol_table::mark_hidden (".argn."); symbol_table::mark_automatic ("argn"); symbol_table::mark_automatic (".argn."); } symbol_table::varref (".nargin.") = nargin; symbol_table::varref (".nargout.") = nargout; symbol_table::mark_hidden (".nargin."); symbol_table::mark_hidden (".nargout."); symbol_table::mark_automatic (".nargin."); symbol_table::mark_automatic (".nargout."); if (takes_varargs ()) symbol_table::varref ("varargin") = va_args.cell_value (); if (lvalue_list) { octave_idx_type nbh = 0; for (std::list<octave_lvalue>::const_iterator p = lvalue_list->begin (); p != lvalue_list->end (); p++) nbh += p->is_black_hole (); if (nbh > 0) { // Only assign the hidden variable if black holes actually present. Matrix bh (1, nbh); octave_idx_type k = 0, l = 0; for (std::list<octave_lvalue>::const_iterator p = lvalue_list->begin (); p != lvalue_list->end (); p++) { if (p->is_black_hole ()) bh(l++) = k+1; k += p->numel (); } symbol_table::varref (".ignored.") = bh; symbol_table::mark_hidden (".ignored."); symbol_table::mark_automatic (".ignored."); } } } DEFUN (nargin, args, , "-*- texinfo -*-\n\ @deftypefn {Built-in Function} {} nargin ()\n\ @deftypefnx {Built-in Function} {} nargin (@var{fcn_name})\n\ Within a function, return the number of arguments passed to the function.\n\ At the top level, return the number of command line arguments passed to\n\ Octave. If called with the optional argument @var{fcn_name}, return the\n\ maximum number of arguments the named function can accept, or -1 if the\n\ function accepts a variable number of arguments.\n\ @seealso{nargout, varargin, varargout}\n\ @end deftypefn") { octave_value retval; int nargin = args.length (); if (nargin == 1) { std::string fname = args(0).string_value (); if (! error_state) { octave_value fcn_val = symbol_table::find_user_function (fname); octave_user_function *fcn = fcn_val.user_function_value (true); if (fcn) { if (fcn->takes_varargs ()) retval = -1; else { tree_parameter_list *param_list = fcn->parameter_list (); retval = param_list ? param_list->length () : 0; } } else error ("nargin: invalid function"); } else error ("nargin: expecting string as first argument"); } else if (nargin == 0) { retval = symbol_table::varval (".nargin."); if (retval.is_undefined ()) retval = 0; } else print_usage (); return retval; } DEFUN (nargout, args, , "-*- texinfo -*-\n\ @deftypefn {Built-in Function} {} nargout ()\n\ @deftypefnx {Built-in Function} {} nargout (@var{fcn_name})\n\ Within a function, return the number of values the caller expects to\n\ receive. If called with the optional argument @var{fcn_name}, return the\n\ maximum number of values the named function can produce, or -1 if the\n\ function can produce a variable number of values.\n\ \n\ For example,\n\ \n\ @example\n\ f ()\n\ @end example\n\ \n\ @noindent\n\ will cause @code{nargout} to return 0 inside the function @code{f} and\n\ \n\ @example\n\ [s, t] = f ()\n\ @end example\n\ \n\ @noindent\n\ will cause @code{nargout} to return 2 inside the function\n\ @code{f}.\n\ \n\ At the top level, @code{nargout} is undefined.\n\ @seealso{nargin, varargin, varargout}\n\ @end deftypefn") { octave_value retval; int nargin = args.length (); if (nargin == 1) { std::string fname = args(0).string_value (); if (! error_state) { octave_value fcn_val = symbol_table::find_user_function (fname); octave_user_function *fcn = fcn_val.user_function_value (true); if (fcn) { if (fcn->takes_var_return ()) retval = -1; else { tree_parameter_list *ret_list = fcn->return_list (); retval = ret_list ? ret_list->length () : 0; } } else error ("nargout: invalid function"); } else error ("nargout: expecting string as first argument"); } else if (nargin == 0) { if (! symbol_table::at_top_level ()) { retval = symbol_table::varval (".nargout."); if (retval.is_undefined ()) retval = 0; } else error ("nargout: invalid call at top level"); } else print_usage (); return retval; } DEFUN (optimize_subsasgn_calls, args, nargout, "-*- texinfo -*-\n\ @deftypefn {Built-in Function} {@var{val} =} optimize_subsasgn_calls ()\n\ @deftypefnx {Built-in Function} {@var{old_val} =} optimize_subsasgn_calls (@var{new_val})\n\ Query or set the internal flag for subsasgn method call optimizations.\n\ If true, Octave will attempt to eliminate the redundant copying when calling\n\ subsasgn method of a user-defined class.\n\ @end deftypefn") { return SET_INTERNAL_VARIABLE (optimize_subsasgn_calls); } static bool val_in_table (const Matrix& table, double val) { if (table.is_empty ()) return false; octave_idx_type i = table.lookup (val, ASCENDING); return (i > 0 && table(i-1) == val); } static bool isargout1 (int nargout, const Matrix& ignored, double k) { if (k != xround (k) || k <= 0) { error ("isargout: argument must be a positive integer"); return false; } else return (k == 1 || k <= nargout) && ! val_in_table (ignored, k); } DEFUN (isargout, args, , "-*- texinfo -*-\n\ @deftypefn {Built-in Function} {} isargout (@var{k})\n\ Within a function, return a logical value indicating whether the argument\n\ @var{k} will be assigned on output to a variable. If the result is false,\n\ the argument has been ignored during the function call through the use of\n\ the tilde (~) special output argument. Functions can use @code{isargout} to\n\ avoid performing unnecessary calculations for outputs which are unwanted.\n\ \n\ If @var{k} is outside the range @code{1:max(nargout)}, the function returns\n\ false. @var{k} can also be an array, in which case the function works\n\ element-by-element and a logical array is returned. At the top level,\n\ @code{isargout} returns an error.\n\ @seealso{nargout, nargin, varargin, varargout}\n\ @end deftypefn") { octave_value retval; int nargin = args.length (); if (nargin == 1) { if (! symbol_table::at_top_level ()) { int nargout1 = symbol_table::varval (".nargout.").int_value (); if (error_state) { error ("isargout: internal error"); return retval; } Matrix ignored; octave_value tmp = symbol_table::varval (".ignored."); if (tmp.is_defined ()) ignored = tmp.matrix_value (); if (args(0).is_scalar_type ()) { double k = args(0).double_value (); if (! error_state) retval = isargout1 (nargout1, ignored, k); } else if (args(0).is_numeric_type ()) { const NDArray ka = args(0).array_value (); if (! error_state) { boolNDArray r (ka.dims ()); for (octave_idx_type i = 0; i < ka.numel () && ! error_state; i++) r(i) = isargout1 (nargout1, ignored, ka(i)); retval = r; } } else gripe_wrong_type_arg ("isargout", args(0)); } else error ("isargout: invalid call at top level"); } else print_usage (); return retval; }