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add more byte-code assertions and better failure output -------------------- ChangeLog entries follow: -------------------- src/ChangeLog addition: 2010-02-03 Ben Wing <ben@xemacs.org> * alloc.c (Fmake_byte_code): * bytecode.h: * lisp.h: * lread.c: * lread.c (readevalloop): * lread.c (Fread): * lread.c (Fread_from_string): * lread.c (read_list_conser): * lread.c (read_list): * lread.c (vars_of_lread): * symbols.c: * symbols.c (Fdefine_function): Turn on the "compiled-function annotation hack". Implement it properly by hooking into Fdefalias(). Note in the docstring to `defalias' that we do this. Remove some old broken code and change code that implemented the old kludgy way of hooking into the Lisp reader into bracketed by `#ifdef COMPILED_FUNCTION_ANNOTATION_HACK_OLD_WAY', which is not enabled. Also enable byte-code metering when DEBUG_XEMACS -- this is a form of profiling for computing histograms of which sequences of two bytecodes are used most often. * bytecode-ops.h: * bytecode-ops.h (OPCODE): New file. Extract out all the opcodes and declare them using OPCODE(), a bit like frame slots and such. This way the file can be included multiple times if necessary to iterate multiple times over the byte opcodes. * bytecode.c: * bytecode.c (NUM_REMEMBERED_BYTE_OPS): * bytecode.c (OPCODE): * bytecode.c (assert_failed_with_remembered_ops): * bytecode.c (READ_UINT_2): * bytecode.c (READ_INT_1): * bytecode.c (READ_INT_2): * bytecode.c (PEEK_INT_1): * bytecode.c (PEEK_INT_2): * bytecode.c (JUMP_RELATIVE): * bytecode.c (JUMP_NEXT): * bytecode.c (PUSH): * bytecode.c (POP_WITH_MULTIPLE_VALUES): * bytecode.c (DISCARD): * bytecode.c (UNUSED): * bytecode.c (optimize_byte_code): * bytecode.c (optimize_compiled_function): * bytecode.c (Fbyte_code): * bytecode.c (vars_of_bytecode): * bytecode.c (init_opcode_table_multi_op): * bytecode.c (reinit_vars_of_bytecode): * emacs.c (main_1): * eval.c (funcall_compiled_function): * symsinit.h: Any time we change either the instruction pointer or the stack pointer, assert that we're going to move it to a valid location. This should catch failures right when they occur rather than sometime later. This requires that we pass in another couple of parameters into some functions (only with error-checking enabled, see below). Also keep track, using a circular queue, of the last 100 byte opcodes seen, and when we hit an assert failure during byte-code execution, output the contents of the queue in a nice readable fashion. This requires that bytecode-ops.h be included a second time so that a table mapping opcodes to the name of their operation can be constructed. This table is constructed in new function reinit_vars_of_bytecode(). Everything in the last two paras happens only when ERROR_CHECK_BYTE_CODE. Add some longish comments describing how the arrays that hold the stack and instructions, and the pointers used to access them, work. * gc.c: Import some code from my `latest-fix' workspace to mark the staticpro's in order from lowest to highest, rather than highest to lowest, so it's easier to debug when something goes wrong. * lisp.h (abort_with_message): Renamed from abort_with_msg(). * symbols.c (defsymbol_massage_name_1): * symbols.c (defsymbol_nodump): * symbols.c (defsymbol): * symbols.c (defkeyword): * symeval.h (DEFVAR_SYMVAL_FWD_OBJECT): Make the various calls to staticpro() instead call staticpro_1(), passing in the name of the C var being staticpro'ed, so that it shows up in staticpro_names. Otherwise staticpro_names just has 1000+ copies of the word `location'.
author Ben Wing <ben@xemacs.org>
date Wed, 03 Feb 2010 08:01:55 -0600
parents abe6d1db359e
children 308d34e9f07d
line wrap: on
line source

/* X-specific glyphs and related.
   Copyright (C) 1993, 1994 Free Software Foundation, Inc.
   Copyright (C) 1995 Board of Trustees, University of Illinois.
   Copyright (C) 1995, 1996 Ben Wing
   Copyright (C) 1995 Sun Microsystems, Inc.

This file is part of XEmacs.

XEmacs 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.

XEmacs 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.  */

/* Synched up with:  Not in FSF. */

#ifndef INCLUDED_glyphs_x_h_
#define INCLUDED_glyphs_x_h_

#include "glyphs.h"

#ifdef HAVE_X_WINDOWS

#include "xintrinsic.h"
#include "../lwlib/lwlib.h"
#include "../lwlib/lwlib-utils.h"

/****************************************************************************
 *                         Image-Instance Object                            *
 ****************************************************************************/

struct x_image_instance_data
{
  Pixmap* pixmaps;
  Cursor cursor;

  /* If depth>0, then that means that other colors were allocated when
     this pixmap was loaded.  These are they; we need to free them when
     finalizing the image instance. */
  Colormap colormap;
  unsigned long *pixels;
  int npixels;

  /* Should we hang on to the extra info from the XpmAttributes, like
     the textual color table and the comments?   Is that useful? */
};

#define X_IMAGE_INSTANCE_DATA(i) ((struct x_image_instance_data *) (i)->data)

#define IMAGE_INSTANCE_X_PIXMAP(i) (X_IMAGE_INSTANCE_DATA (i)->pixmaps[0])
#define IMAGE_INSTANCE_X_PIXMAP_SLICE(i,slice) \
     (X_IMAGE_INSTANCE_DATA (i)->pixmaps[slice])
#define IMAGE_INSTANCE_X_PIXMAP_SLICES(i) \
     (X_IMAGE_INSTANCE_DATA (i)->pixmaps)
#define IMAGE_INSTANCE_X_MASK(i) \
	(Pixmap)(IMAGE_INSTANCE_PIXMAP_MASK (i))
#define IMAGE_INSTANCE_X_CURSOR(i) (X_IMAGE_INSTANCE_DATA (i)->cursor)
#define IMAGE_INSTANCE_X_COLORMAP(i) (X_IMAGE_INSTANCE_DATA (i)->colormap)
#define IMAGE_INSTANCE_X_PIXELS(i) (X_IMAGE_INSTANCE_DATA (i)->pixels)
#define IMAGE_INSTANCE_X_NPIXELS(i) (X_IMAGE_INSTANCE_DATA (i)->npixels)

#define XIMAGE_INSTANCE_X_PIXMAP(i) \
  IMAGE_INSTANCE_X_PIXMAP (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_PIXMAP_SLICES(i) \
  IMAGE_INSTANCE_X_PIXMAP_SLICES (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_PIXMAP_SLICE(i) \
  IMAGE_INSTANCE_X_PIXMAP_SLICE (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_MASK(i) \
  IMAGE_INSTANCE_X_MASK (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_CURSOR(i) \
  IMAGE_INSTANCE_X_CURSOR (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_PIXELS(i) \
  IMAGE_INSTANCE_X_PIXELS (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_NPIXELS(i) \
  IMAGE_INSTANCE_X_NPIXELS (XIMAGE_INSTANCE (i))

/****************************************************************************
 *                            Subwindow Object                              *
 ****************************************************************************/

struct x_subwindow_data
{
  union
  {
    struct
    {
      Display *display;
      Window parent_window;
      Window clip_window;
    } sub;
    struct
    {
      Widget clip_window;
      Position x_offset;
      Position y_offset;
      LWLIB_ID	id;
    } wid;
  } data;
};

#define X_SUBWINDOW_INSTANCE_DATA(i) ((struct x_subwindow_data *) (i)->data)

#define IMAGE_INSTANCE_X_SUBWINDOW_DISPLAY(i) \
  (X_SUBWINDOW_INSTANCE_DATA (i)->data.sub.display)
#define IMAGE_INSTANCE_X_SUBWINDOW_PARENT(i) \
  (X_SUBWINDOW_INSTANCE_DATA (i)->data.sub.parent_window)
#define IMAGE_INSTANCE_X_CLIPWINDOW(i) \
  (X_SUBWINDOW_INSTANCE_DATA (i)->data.sub.clip_window)
#define IMAGE_INSTANCE_X_WIDGET_XOFFSET(i) \
  (X_SUBWINDOW_INSTANCE_DATA (i)->data.wid.x_offset)
#define IMAGE_INSTANCE_X_WIDGET_YOFFSET(i) \
  (X_SUBWINDOW_INSTANCE_DATA (i)->data.wid.y_offset)
#define IMAGE_INSTANCE_X_WIDGET_LWID(i) \
  (X_SUBWINDOW_INSTANCE_DATA (i)->data.wid.id)
#define IMAGE_INSTANCE_X_CLIPWIDGET(i) \
  (X_SUBWINDOW_INSTANCE_DATA (i)->data.wid.clip_window)
#define IMAGE_INSTANCE_X_SUBWINDOW_ID(i) \
  (* (Window *) & IMAGE_INSTANCE_SUBWINDOW_ID (i))
#define IMAGE_INSTANCE_X_WIDGET_ID(i) \
  (* (Widget *) & IMAGE_INSTANCE_SUBWINDOW_ID (i))

#define XIMAGE_INSTANCE_X_SUBWINDOW_PARENT(i) \
  IMAGE_INSTANCE_X_SUBWINDOW_PARENT (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_SUBWINDOW_DISPLAY(i) \
  IMAGE_INSTANCE_X_SUBWINDOW_DISPLAY (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_WIDGET_XOFFSET(i) \
  IMAGE_INSTANCE_X_WIDGET_XOFFSET (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_WIDGET_YOFFSET(i) \
  IMAGE_INSTANCE_X_WIDGET_YOFFSET (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_WIDGET_LWID(i) \
  IMAGE_INSTANCE_X_WIDGET_LWID (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_CLIPWIDGET(i) \
  IMAGE_INSTANCE_X_CLIPWIDGET (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_CLIPWINDOW(i) \
  IMAGE_INSTANCE_X_CLIPWINDOW (XIMAGE_INSTANCE (i))
#define XIMAGE_INSTANCE_X_WIDGET_ID(i) \
  IMAGE_INSTANCE_X_WIDGET_ID (XIMAGE_INSTANCE (i))

#define DOMAIN_X_WIDGET(domain) \
  ((IMAGE_INSTANCEP (domain) && \
  X_SUBWINDOW_INSTANCE_DATA (XIMAGE_INSTANCE (domain))) ? \
   XIMAGE_INSTANCE_X_WIDGET_ID (domain) : \
   FRAME_X_CONTAINER_WIDGET (f) (DOMAIN_XFRAME (domain)))

#endif /* HAVE_X_WINDOWS */
#endif /* INCLUDED_glyphs_x_h_ */