Support full Common Lisp multiple values in C. lisp/ChangeLog 2009-08-11 Aidan Kehoe <kehoea@parhasard.net> * bytecomp.el : Update this file to support full C-level multiple values. This involves: -- Four new bytecodes, and special compiler functions to compile multiple-value-call, multiple-value-list-internal, values, values-list, and, since it now needs to pass back multiple values and is a special form, throw. -- There's a new compiler variable, byte-compile-checks-on-load, which is a list of forms that are evaluated at the very start of a file, with an error thrown if any of them give nil. -- The header is now inserted *after* compilation, giving a chance for the compilation process to influence what those checks are. There is still a check done before compilation for non-ASCII characters, to try to turn off dynamic docstrings if appopriate, in `byte-compile-maybe-reset-coding'. Space is reserved for checks; comments describing the version of the byte compiler generating the file are inserted if space remains for them. * bytecomp.el (byte-compile-version): Update this, we're a newer version of the byte compiler. * byte-optimize.el (byte-optimize-funcall): Correct a comment. * bytecomp.el (byte-compile-lapcode): Discard the arg with byte-multiple-value-call. * bytecomp.el (byte-compile-checks-and-comments-space): New variable, describe how many octets to reserve for checks at the start of byte-compiled files. * cl-compat.el: Remove the fake multiple-value implementation. Have the functions that use it use the real multiple-value implementation instead. * cl-macs.el (cl-block-wrapper, cl-block-throw): Revise the byte-compile properties of these symbols to work now we've made throw into a special form; keep the byte-compile properties as anonymous lambdas, since we don't have docstrings for them. * cl-macs.el (multiple-value-bind, multiple-value-setq) (multiple-value-list, nth-value): Update these functions to work with the C support for multiple values. * cl-macs.el (values): Modify the setf handler for this to call #'multiple-value-list-internal appropriately. * cl-macs.el (cl-setf-do-store): If the store form is a cons, treat it specially as wrapping the store value. * cl.el (cl-block-wrapper): Make this an alias of #'and, not #'identity, since it needs to pass back multiple values. * cl.el (multiple-value-apply): We no longer support this, mark it obsolete. * lisp-mode.el (eval-interactive-verbose): Remove a useless space in the docstring. * lisp-mode.el (eval-interactive): Update this function and its docstring. It now passes back a list, basically wrapping any eval calls with multiple-value-list. This allows multiple values to be printed by default in *scratch*. * lisp-mode.el (prin1-list-as-multiple-values): New function, printing a list as multiple values in the manner of Bruno Haible's clisp, separating each entry with " ;\n". * lisp-mode.el (eval-last-sexp): Call #'prin1-list-as-multiple-values on the return value of #'eval-interactive. * lisp-mode.el (eval-defun): Call #'prin1-list-as-multiple-values on the return value of #'eval-interactive. * mouse.el (mouse-eval-sexp): Deal with lists corresponding to multiple values from #'eval-interactive. Call #'cl-prettyprint, which is always available, instead of sometimes calling #'pprint and sometimes falling back to prin1. * obsolete.el (obsolete-throw): New function, called from eval.c when #'funcall encounters an attempt to call #'throw (now a special form) as a function. Only needed for compatibility with 21.4 byte-code. man/ChangeLog addition: 2009-08-11 Aidan Kehoe <kehoea@parhasard.net> * cl.texi (Organization): Remove references to the obsolete multiple-value emulating code. src/ChangeLog addition: 2009-08-11 Aidan Kehoe <kehoea@parhasard.net> * bytecode.c (enum Opcode /* Byte codes */): Add four new bytecodes, to deal with multiple values. (POP_WITH_MULTIPLE_VALUES): New macro. (POP): Modify this macro to ignore multiple values. (DISCARD_PRESERVING_MULTIPLE_VALUES): New macro. (DISCARD): Modify this macro to ignore multiple values. (TOP_WITH_MULTIPLE_VALUES): New macro. (TOP_ADDRESS): New macro. (TOP): Modify this macro to ignore multiple values. (TOP_LVALUE): New macro. (Bcall): Ignore multiple values where appropriate. (Breturn): Pass back multiple values. (Bdup): Preserve multiple values. Use TOP_LVALUE with most bytecodes that assign anything to anything. (Bbind_multiple_value_limits, Bmultiple_value_call, Bmultiple_value_list_internal, Bthrow): Implement the new bytecodes. (Bgotoifnilelsepop, Bgotoifnonnilelsepop, BRgotoifnilelsepop, BRgotoifnonnilelsepop): Discard any multiple values. * callint.c (Fcall_interactively): Ignore multiple values when calling #'eval, in two places. * device-x.c (x_IO_error_handler): * macros.c (pop_kbd_macro_event): * eval.c (Fsignal): * eval.c (flagged_a_squirmer): Call throw_or_bomb_out, not Fthrow, now that the latter is a special form. * eval.c: Make Qthrow, Qobsolete_throw available as symbols. Provide multiple_value_current_limit, multiple-values-limit (the latter as specified by Common Lisp. * eval.c (For): Ignore multiple values when comparing with Qnil, but pass any multiple values back for the last arg. * eval.c (Fand): Ditto. * eval.c (Fif): Ignore multiple values when examining the result of the condition. * eval.c (Fcond): Ignore multiple values when comparing what the clauses give, but pass them back if a clause gave non-nil. * eval.c (Fprog2): Never pass back multiple values. * eval.c (FletX, Flet): Ignore multiple when evaluating what exactly symbols should be bound to. * eval.c (Fwhile): Ignore multiple values when evaluating the test. * eval.c (Fsetq, Fdefvar, Fdefconst): Ignore multiple values. * eval.c (Fthrow): Declare this as a special form; ignore multiple values for TAG, preserve them for VALUE. * eval.c (throw_or_bomb_out): Make this available to other files, now Fthrow is a special form. * eval.c (Feval): Ignore multiple values when calling a compiled function, a non-special-form subr, or a lambda expression. * eval.c (Ffuncall): If we attempt to call #'throw (now a special form) as a function, don't error, call #'obsolete-throw instead. * eval.c (make_multiple_value, multiple_value_aset) (multiple_value_aref, print_multiple_value, mark_multiple_value) (size_multiple_value): Implement the multiple_value type. Add a long comment describing our implementation. * eval.c (bind_multiple_value_limits): New function, used by the bytecode and by #'multiple-value-call, #'multiple-value-list-internal. * eval.c (multiple_value_call): New function, used by the bytecode and #'multiple-value-call. * eval.c (Fmultiple_value_call): New special form. * eval.c (multiple_value_list_internal): New function, used by the byte code and #'multiple-value-list-internal. * eval.c (Fmultiple_value_list_internal, Fmultiple_value_prog1): New special forms. * eval.c (Fvalues, Fvalues_list): New Lisp functions. * eval.c (values2): New function, for C code returning multiple values. * eval.c (syms_of_eval): Make our new Lisp functions and symbols available. * eval.c (multiple-values-limit): Make this available to Lisp. * event-msw.c (dde_eval_string): * event-stream.c (execute_help_form): * glade.c (connector): * glyphs-widget.c (glyph_instantiator_to_glyph): * glyphs.c (evaluate_xpm_color_symbols): * gui-x.c (wv_set_evalable_slot, button_item_to_widget_value): * gui.c (gui_item_value, gui_item_display_flush_left): * lread.c (check_if_suppressed): * menubar-gtk.c (menu_convert, menu_descriptor_to_widget_1): * menubar-msw.c (populate_menu_add_item): * print.c (Fwith_output_to_temp_buffer): * symbols.c (Fsetq_default): Ignore multiple values when calling Feval. * symeval.h: Add the header declarations necessary for the multiple-values implementation. * inline.c: #include symeval.h, now that it has some inline functions. * lisp.h: Update Fthrow's declaration. Make throw_or_bomb_out available to all files. * lrecord.h (enum lrecord_type): Add the multiple_value type here.

/* Defines some widget utility functions.
   Copyright (C) 1992 Lucid, Inc.

This file is part of the Lucid Widget Library.

The Lucid Widget Library 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 1, or (at your option)
any later version.

The Lucid Widget Library 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 XEmacs; see the file COPYING.  If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.  */

#include <config.h>
#include <stdlib.h>
#include <string.h>
#include <memory.h>
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif

#include <X11/Xatom.h>
#include <X11/IntrinsicP.h>
#include <X11/ObjectP.h>
#include "lwlib-utils.h"

void
destroy_all_children (Widget widget)
{
  Widget* children;
  unsigned int number;
  int i;

  children = XtCompositeChildren (widget, &number);
  if (children)
    {
      /* Unmanage all children and destroy them.  They will only be
       * really destroyed when we get out of DispatchEvent. */
      for (i = 0; i < (int) number; i++)
	{
	  Widget child = children [i];
	  if (!child->core.being_destroyed)
	    {
	      XtUnmanageChild (child);
	      XtDestroyWidget (child);
	    }
	}
      XtFree ((char *) children);
    }
}

/* Redisplay the contents of the widget, without first clearing it. */
void
XtNoClearRefreshWidget (Widget widget)
{
  XEvent event;
  XExposeEvent* ev = &event.xexpose;

  ev->type = Expose;
  ev->serial = 0;
  ev->send_event = 0;
  ev->display = XtDisplay (widget);
  ev->window = XtWindow (widget);
  ev->x = 0;
  ev->y = 0;
  ev->width  = widget->core.width;
  ev->height = widget->core.height;
  ev->count = 0;

  (*widget->core.widget_class->core_class.expose)
    (widget, &event, (Region)NULL);
}


/* 
 * Apply a function to all the subwidgets of a given widget recursively.
*/
void
XtApplyToWidgets (Widget w, XtApplyToWidgetsProc proc, XtPointer arg)
{
  if (XtIsComposite (w))
    {
      CompositeWidget cw = (CompositeWidget) w;
      /* We have to copy the children list before mapping over it, because
	 the procedure might add/delete elements, which would lose badly. */
      int nkids = cw->composite.num_children;
      Widget *kids = (Widget *) malloc (sizeof (Widget) * nkids);
      int i;
      memcpy (kids, cw->composite.children, sizeof (Widget) * nkids);
      for (i = 0; i < nkids; i++)
/* This prevent us from using gadgets, why is it here? */
/*	if (XtIsWidget (kids [i])) */
	  {
	    /* do the kiddies first in case we're destroying */
	    XtApplyToWidgets (kids [i], proc, arg);
	    proc (kids [i], arg);
	  }
      free (kids);
    }
}


/*
 * Apply a function to all the subwidgets of a given widget recursively.
 * Stop as soon as the function returns non NULL and returns this as a value.
 */
void *
XtApplyUntilToWidgets (Widget w, XtApplyUntilToWidgetsProc proc, XtPointer arg)
{
  void* result;
  if (XtIsComposite (w))
    {
      CompositeWidget cw = (CompositeWidget)w;
      int i;
      for (i = 0; i < (int) cw->composite.num_children; i++)
	if (XtIsWidget (cw->composite.children[i]))
	  {
	    result = proc (cw->composite.children[i], arg);
	    if (result)
	      return result;
	    result = XtApplyUntilToWidgets (cw->composite.children[i], proc,
					    arg);
	    if (result)
	      return result;
	  }
    }
  return NULL;
}


/*
 * Returns a copy of the list of all children of a composite widget
 */
Widget *
XtCompositeChildren (Widget widget, unsigned int* number)
{
  CompositeWidget cw = (CompositeWidget)widget;
  Widget* result;
  int n;
  int i;

  if (!XtIsComposite (widget))
    {
      *number = 0;
      return NULL;
    }
  n = cw->composite.num_children;
  result = (Widget*)XtMalloc (n * sizeof (Widget));
  *number = n;
  for (i = 0; i < n; i++)
    result [i] = cw->composite.children [i];
  return result;
}

Boolean
XtWidgetBeingDestroyedP (Widget widget)
{
  return widget->core.being_destroyed;
}

void
XtSafelyDestroyWidget (Widget UNUSED (widget))
{
#if 0

  /* this requires IntrinsicI.h (actually, InitialI.h) */

  XtAppContext app = XtWidgetToApplicationContext(widget);

  if (app->dispatch_level == 0)
    {
      app->dispatch_level = 1;
      XtDestroyWidget (widget);
      /* generates an event so that the event loop will be called */
      XChangeProperty (XtDisplay (widget), XtWindow (widget),
		       XA_STRING, XA_STRING, 32, PropModeAppend, NULL, 0);
      app->dispatch_level = 0;
    }
  else
    XtDestroyWidget (widget);
  
#else
  abort ();
#endif
}