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Further frame-geometry cleanups -------------------- ChangeLog entries follow: -------------------- man/ChangeLog addition: 2010-03-03 Ben Wing <ben@xemacs.org> * internals/internals.texi (Intro to Window and Frame Geometry): * internals/internals.texi (The Paned Area): * internals/internals.texi (The Displayable Area): Update to make note of e.g. the fact that the bottom gutter is actually above the minibuffer. src/ChangeLog addition: 2010-03-03 Ben Wing <ben@xemacs.org> * emacs.c: * emacs.c (assert_equal_failed): * lisp.h: * lisp.h (assert_equal): New fun assert_equal, asserting that two values == each other, and printing out both values upon failure. * frame-gtk.c (gtk_initialize_frame_size): * frame-impl.h: * frame-impl.h (FRAME_TOP_INTERNAL_BORDER_START): * frame-impl.h (FRAME_BOTTOM_INTERNAL_BORDER_START): * frame-impl.h (FRAME_LEFT_INTERNAL_BORDER_START): * frame-impl.h (FRAME_PANED_TOP_EDGE): * frame-impl.h (FRAME_NONPANED_SIZE): * frame-x.c (x_initialize_frame_size): * frame.c: * gutter.c (get_gutter_coords): * gutter.c (calculate_gutter_size): * gutter.h: * gutter.h (WINDOW_REAL_TOP_GUTTER_BOUNDS): * gutter.h (FRAME_TOP_GUTTER_BOUNDS): * input-method-xlib.c: * input-method-xlib.c (XIM_SetGeometry): * redisplay-output.c (clear_left_border): * redisplay-output.c (clear_right_border): * redisplay-output.c (redisplay_output_pixmap): * redisplay-output.c (redisplay_clear_region): * redisplay-output.c (redisplay_clear_top_of_window): * redisplay-output.c (redisplay_clear_to_window_end): * redisplay-xlike-inc.c (XLIKE_clear_frame): * redisplay.c: * redisplay.c (UPDATE_CACHE_RETURN): * redisplay.c (pixel_to_glyph_translation): * toolbar.c (update_frame_toolbars_geometry): * window.c (Fwindow_pixel_edges): Get rid of some redundant macros. Consistently use the FRAME_TOP_*_START, FRAME_RIGHT_*_END, etc. format. Rename FRAME_*_BORDER_* to FRAME_*_INTERNAL_BORDER_*. Comment out FRAME_BOTTOM_* for gutters and the paned area due to the uncertainty over where the paned area actually begins. (Eventually we should probably move the gutters outside the minibuffer so that the paned area is contiguous.) Use FRAME_PANED_* more often in the code to make things clearer. Update the diagram to show that the bottom gutter is inside the minibuffer (!) and that there are "junk boxes" when you have left and/or right gutters (dead boxes that are mistakenly left uncleared, unlike the corresponding scrollbar dead boxes). Update the text appropriately to cover the bottom gutter position, etc. Rewrite gutter-geometry code to use the FRAME_*_GUTTER_* in place of equivalent expressions referencing other frame elements, to make the code more portable in case we move around the gutter location. Cleanup FRAME_*_GUTTER_BOUNDS() in gutter.h. Add some #### GEOM! comments where I think code is incorrect -- typically, it wasn't fixed up properly when the gutter was added. Some cosmetic changes.
author Ben Wing <ben@xemacs.org>
date Wed, 03 Mar 2010 05:07:47 -0600
parents f395ee7ad844
children 308d34e9f07d
line wrap: on
line source

/* Virtual diry bit implementation (platform independent) for XEmacs.
   Copyright (C) 2005 Marcus Crestani.
   Copyright (C) 2010 Ben Wing.

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. */

#include <config.h>
#include "lisp.h"
#include "gc.h"
#include "mc-alloc.h"
#include "vdb.h"


typedef struct
{
  Dynarr_declare (void *);
} void_ptr_dynarr;

void_ptr_dynarr *page_fault_table;

/* Init page fault table and protect heap. */
void
vdb_start_dirty_bits_recording (void)
{
  Elemcount protected_pages = (Elemcount) protect_heap_pages ();
  page_fault_table = Dynarr_new2 (void_ptr_dynarr, void *);
  Dynarr_resize (page_fault_table, protected_pages);
}

/* Remove heap protection. */
void
vdb_stop_dirty_bits_recording (void)
{
  unprotect_heap_pages ();
}

/* Read page fault table and pass page faults to garbage collector. */
int 
vdb_read_dirty_bits (void)
{
  int repushed_objects = 0;
  Elemcount count;
  for (count = Dynarr_length (page_fault_table); count; count--)
    repushed_objects += 
      repush_all_objects_on_page (Dynarr_at (page_fault_table, count - 1));
  Dynarr_free (page_fault_table);
  page_fault_table = 0;
  return repushed_objects;
}

/* Called by the page fault handler: add address to page fault table. */
void 
vdb_designate_modified (void *addr)
{
  Dynarr_add (page_fault_table, addr);
}


/* For testing and debugging... */

#ifdef DEBUG_XEMACS

DEFUN ("test-vdb", Ftest_vdb, 0, 0, "", /*
Test virtual dirty bit implementation. Prints results to stderr.
*/
       ())
{
  Rawbyte *p;
  char c;
  Elemcount count;
  
  /* Wrap up gc (if currently running). */
  gc_full ();

  /* Allocate a buffer; it will have the default
     protection of PROT_READ|PROT_WRITE. */
  p = (Rawbyte *) mc_alloc (mc_get_page_size());
  set_lheader_implementation ((struct lrecord_header *) p, &lrecord_cons);
  fprintf (stderr, "Allocate p: [%p ... %p], length %d\n", 
	   p, p + mc_get_page_size (), (int) mc_get_page_size ());

  /* Test read. */
  fprintf (stderr, "Attempt to read p[666]... ");
  c = p[666];
  fprintf (stderr, "read ok.\n");

  /* Test write. */
  fprintf (stderr, "Attempt to write 42 to p[666]... ");
  p[666] = 42;
  fprintf (stderr, "write ok, p[666] = %d\n", p[666]);

  /* Mark the buffer read-only and set environemnt for write-barrier. */
  fprintf (stderr, "Write-protect the page.\n");
  MARK_BLACK (p);
  vdb_start_dirty_bits_recording ();
  write_barrier_enabled = 1;

  /* Test write-barrier read. */
  fprintf (stderr, "Attempt to read p[666]... ");
  c = p[666];
  fprintf (stderr, "read ok.\n");
 
  /* Test write-barrier write, program receives SIGSEGV. */
  fprintf (stderr, "Attempt to write 23 to p[666]... ");
  p[666] = 23;
  fprintf (stderr, "Written p[666] = %d\n", p[666]);

  /* Stop write-barrier mode. */
  write_barrier_enabled = 0;
  MARK_WHITE (p);
  vdb_unprotect (p, mc_get_page_size ());
  for (count = Dynarr_length (page_fault_table); count; count--)
    if (Dynarr_at (page_fault_table, count - 1) == &p[666])
      fprintf (stderr, "VALID page fault at %p\n",
	       Dynarr_at (page_fault_table, count - 1));
    else
      fprintf (stderr, "WRONG page fault at %p\n",
	       Dynarr_at (page_fault_table, count - 1));
  Dynarr_free (page_fault_table);
  return Qnil;
}

DEFUN ("test-segfault", Ftest_segfault, 0, 0, "", /*
Test virtual dirty bit implementation: provoke a segfault on purpose.
WARNING: this function causes a SEGFAULT on purpose and thus crashes
XEmacs!  This is only used for debbugging, e.g. for testing how the
debugger behaves when XEmacs segfaults and the write barrier is
enabled.
*/
       ())
{
  Rawbyte *q = 0;
  q[0] = 23;
  return Qnil;
}

#endif /* DEBUG_XEMACS */

void
syms_of_vdb (void)
{
#ifdef DEBUG_XEMACS
  DEFSUBR (Ftest_vdb);
  DEFSUBR (Ftest_segfault);
#endif /* DEBUG_XEMACS */
}