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pt-misc.cc

/*

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>

#ifdef HAVE_UNISTD_H
#ifdef HAVE_SYS_TYPES_H
#include <sys/types.h>
#endif
#include <unistd.h>
#endif

#include "defun.h"
#include "error.h"
#include "input.h"
#include "oct-obj.h"
#include "pager.h"
#include "toplev.h"
#include "pt-cmd.h"
#include "pt-exp.h"
#include "pt-fcn.h"
#include "pt-fvc.h"
#include "pt-misc.h"
#include "pt-mvr.h"
#include "pt-walk.h"
#include "pt-pr-code.h"
#include "ov.h"
#include "utils.h"
#include "variables.h"

// Control whether otherwise uninitialized global variables are
// given a default value.
static int Vinitialize_global_variables;

// Nonzero means we're breaking out of a loop or function body.
extern int breaking;

// Nonzero means we're jumping to the end of a loop.
extern int continuing;

// Nonzero means we're returning from a function.
extern int returning;

// A list of commands to be executed.

tree_statement::~tree_statement (void)
{
  delete cmd;
  delete expr;
}

int
tree_statement::line (void)
{
  return cmd ? cmd->line () : (expr ? expr->line () : -1);
}

int
tree_statement::column (void)
{
  return cmd ? cmd->column () : (expr ? expr->column () : -1);
}

void
tree_statement::maybe_echo_code (bool in_function_body)
{
  if (in_function_body
      && (Vecho_executing_commands & ECHO_FUNCTIONS))
    {
      tree_print_code tpc (octave_stdout, Vps4);

      accept (tpc);
    }
}

void
tree_statement::accept (tree_walker& tw)
{
  tw.visit_statement (*this);
}

octave_value
tree_statement_list::eval (bool print)
{
  bool pf;
  octave_value retval;

  if (error_state)
    return retval;

  for (Pix p = first (); p != 0; next (p))
    {
      tree_statement *elt = this->operator () (p);

      if (! print)
      pf = false;
      else
      pf = elt->print_flag;

      tree_command *cmd = elt->command ();
      tree_expression *expr = elt->expression ();

      if (cmd || expr)
      {
        elt->maybe_echo_code (function_body);

        if (cmd)
          cmd->eval ();
        else
          retval = expr->eval (pf);

        if (error_state)
          return octave_value ();

        if (breaking || continuing)
          break;

        if (returning)
          break;
      }
      else
      retval = octave_value ();
    }
  return retval;
}

octave_value_list
tree_statement_list::eval (bool print, int nargout)
{
  octave_value_list retval;

  if (nargout > 1)
    {
      bool pf;

      if (error_state)
      return retval;

      for (Pix p = first (); p != 0; next (p))
      {
        tree_statement *elt = this->operator () (p);

        if (! print)
          pf = false;
        else
          pf = elt->print_flag;

        tree_command *cmd = elt->command ();
        tree_expression *expr = elt->expression ();

        if (cmd || expr)
          {
            elt->maybe_echo_code (function_body);

            if (cmd)
            cmd->eval ();
            else
            {
              if (expr->is_multi_val_ret_expression ())
                {
                  octave_value_list args;
                  tree_multi_val_ret *t = (tree_multi_val_ret *) expr;
                  retval = t->eval (pf, nargout, args);
                }
              else
                retval = expr->eval (pf);
            }

            if (error_state)
            return octave_value ();

            if (breaking || continuing)
            break;

            if (returning)
            break;
          }
        else
          retval = octave_value_list ();
      }
      return retval;
    }
  else
    retval = eval (print);

  return retval;
}

void
tree_statement_list::accept (tree_walker& tw)
{
  tw.visit_statement_list (*this);
}

octave_value_list
tree_argument_list::convert_to_const_vector (void)
{
  int len = length ();

  // XXX FIXME XXX -- would be nice to know in advance how largs args
  // needs to be even when we have a list containing an all_va_args
  // token.

  octave_value_list args;
  args.resize (len);

  Pix p = first ();
  int j = 0;
  for (int k = 0; k < len; k++)
    {
      tree_expression *elt = this->operator () (p);
      if (elt)
      {
        octave_value tmp = elt->eval (false);
        if (error_state)
          {
            ::error ("evaluating argument list element number %d", k+1);
            args = octave_value_list ();
            break;
          }
        else
          {
            if (tmp.is_all_va_args ())
            {
              if (curr_function)
                {
                  octave_value_list tva;
                  tva = curr_function->octave_all_va_args ();
                  int n = tva.length ();
                  for (int i = 0; i < n; i++)
                  args(j++) = tva(i);
                }
              else
                {
                  ::error ("all_va_args is only valid inside functions");
                  args = octave_value_list ();
                  break;
                }
            }
            else
            args(j++) = tmp;
          }
        next (p);
      }
      else
      {
        args(j++) = octave_value ();
        break;
      }
    }

  args.resize (j);

  return args;
}

void
tree_argument_list::accept (tree_walker& tw)
{
  tw.visit_argument_list (*this);
}

// Parameter lists.

tree_parameter_list::~tree_parameter_list (void)
{
  while (! empty ())
    {
      tree_identifier *t = remove_front ();
      delete t;
    }
}

void
tree_parameter_list::mark_as_formal_parameters (void)
{
  for (Pix p = first (); p != 0; next (p))
    {
      tree_identifier *elt = this->operator () (p);
      elt->mark_as_formal_parameter ();
    }
}

void
tree_parameter_list::initialize_undefined_elements (octave_value& val)
{
  for (Pix p = first (); p != 0; next (p))
    {
      tree_identifier *elt = this->operator () (p);
      if (! elt->is_defined ())
      {
        octave_variable_reference tmp (elt);
        tmp.assign (val);
      }
    }
}

void
tree_parameter_list::define_from_arg_vector (const octave_value_list& args)
{
  int nargin = args.length ();

  if (nargin <= 0)
    return;

  int expected_nargin = length ();

  Pix p = first ();

  for (int i = 0; i < expected_nargin; i++)
    {
      tree_identifier *elt = this->operator () (p);

      tree_constant *tmp = 0;

      if (i < nargin)
      {
        if (args(i).is_defined () && args(i).is_magic_colon ())
          {
            ::error ("invalid use of colon in function argument list");
            return;
          }
        tmp = new tree_constant (args (i));
      }

      elt->define (tmp);

      next (p);
    }
}

octave_value_list
tree_parameter_list::convert_to_const_vector (tree_va_return_list *vr_list)
{
  int nout = length ();

  if (vr_list)
    nout += vr_list->length ();

  octave_value_list retval;
  retval.resize (nout);

  int i = 0;

  for (Pix p = first (); p != 0; next (p))
    {
      tree_identifier *elt = this->operator () (p);

      if (elt->is_defined ())
      retval(i) = elt->eval (false);

      i++;
    }

  if (vr_list)
    {
      for (Pix p = vr_list->first (); p != 0; vr_list->next (p))
      {
        retval(i) = vr_list->operator () (p);
        i++;
      }
    }

  return retval;
}

bool
tree_parameter_list::is_defined (void)
{
  bool status = true;

  for (Pix p = first (); p != 0; next (p))
    {
      tree_identifier *elt = this->operator () (p);

      if (! elt->is_defined ())
      {
        status = false;
        break;
      }
    }

  return status;
}

void
tree_parameter_list::accept (tree_walker& tw)
{
  tw.visit_parameter_list (*this);
}

// Return lists.

tree_return_list::~tree_return_list (void)
{
  while (! empty ())
    {
      tree_index_expression *t = remove_front ();
      delete t;
    }
}

void
tree_return_list::accept (tree_walker& tw)
{
  tw.visit_return_list (*this);
}

// Global.

tree_global::~tree_global (void)
{
  delete id;
  delete ass_expr;
}

void
tree_global::eval (void)
{
  if (id)
    {
      id->link_to_global ();

      octave_value t1 = id->value ();

      if (t1.is_undefined () && Vinitialize_global_variables)
      {
        octave_value t2
          = builtin_any_variable ("default_global_variable_value");

        if (t2.is_defined ())
          id->define (new tree_constant (t2));
      }
    }
  else if (ass_expr)
    {
      tree_identifier *idnt = 0;

      if (ass_expr->left_hand_side_is_identifier_only ()
        && (idnt = ass_expr->left_hand_side_id ()))
      {
        idnt->link_to_global ();

        // Only perform assignment if the global symbol doesn't
        // already have a value as a variable.

        octave_value tmp = idnt->value ();

        if (tmp.is_undefined ())
          ass_expr->eval (false);
      }
      else
      error ("global: unable to make individual structure elements global");
    }
}

void
tree_global::accept (tree_walker& tw)
{
  tw.visit_global (*this);
}

// Global initializer lists.

void
tree_global_init_list::eval (void)
{
  for (Pix p = first (); p != 0; next (p))
    {
      tree_global *t = this->operator () (p);
      t->eval ();
    }
}

void
tree_global_init_list::accept (tree_walker& tw)
{
  tw.visit_global_init_list (*this);
}

// If.

tree_if_clause::~tree_if_clause (void)
{
  delete expr;
  delete list;
}

int
tree_if_clause::eval (void)
{
  if (is_else_clause () || expr->is_logically_true ("if"))
    {
      if (list)
      list->eval (true);

      return 1;
    }

  return 0;
}

void
tree_if_clause::accept (tree_walker& tw)
{
  tw.visit_if_clause (*this);
}

// List of if commands.

void
tree_if_command_list::eval (void)
{
  for (Pix p = first (); p != 0; next (p))
    {
      tree_if_clause *t = this->operator () (p);

      if (t->eval () || error_state)
      break;
    }
}

void
tree_if_command_list::accept (tree_walker& tw)
{
  tw.visit_if_command_list (*this);
}

// Switch.

tree_switch_case::~tree_switch_case (void)
{
  delete label;
  delete list;
}

bool
tree_switch_case::label_matches (const octave_value& val)
{
  bool retval = false;

  octave_value label_value = label->eval (false);

  if (! error_state)
    {
      if (label_value.is_defined ())
      {
        octave_value tmp = do_binary_op (octave_value::eq,
                                 val, label_value);

        if (! error_state)
          {
            if (tmp.is_defined ())
            retval = tmp.is_true ();
            else
            eval_error ();
          }
        else
          eval_error ();
      }
      else
      eval_error ();
    }
  else
    eval_error ();

  return retval;
}

int
tree_switch_case::eval (const octave_value& val)
{
  int retval = 0;

  if (is_default_case () || label_matches (val))
    {
      if (list)
      list->eval (true);

      retval = 1;
    }

  return retval;
}

void
tree_switch_case::eval_error (void)
{
  ::error ("evaluating switch case label");
}

void
tree_switch_case::accept (tree_walker& tw)
{
  tw.visit_switch_case (*this);
}

// List of switch cases.

void
tree_switch_case_list::eval (const octave_value& val)
{
  for (Pix p = first (); p != 0; next (p))
    {
      tree_switch_case *t = this->operator () (p);

      if (t->eval (val) || error_state)
      break;
    }
}

void
tree_switch_case_list::accept (tree_walker& tw)
{
  tw.visit_switch_case_list (*this);
}

static int
initialize_global_variables (void)
{
  Vinitialize_global_variables
    = check_preference ("initialize_global_variables");

  return 0;
}

void
symbols_of_pt_misc (void)
{
  DEFVAR (default_global_variable_value, , 0, 0,
    "the default for value for otherwise uninitialized global variables.\n\
Only used if the variable initialize_global_variables is nonzero.");

  DEFVAR (initialize_global_variables, 0.0, 0, initialize_global_variables,
    "control whether otherwise uninitialized global variables are\n\
given a default value.  See also default_global_variable_value");
}

/*
;;; Local Variables: ***
;;; mode: C++ ***
;;; End: ***
*/

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