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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 ae48681c47fa
children 308d34e9f07d
line wrap: on
line source

/* Fundamental definitions for XEmacs Lisp interpreter -- union objects.
   Copyright (C) 1985, 1986, 1987, 1992, 1993, 1994
   Free Software Foundation, Inc.
   Copyright (C) 2002, 2005, 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.  */

/* Divergent from FSF.  */

/* Definition of Lisp_Object type as a union.
   The declaration order of the objects within the struct members
   of the union is dependent on ENDIAN-ness.
   See lisp-disunion.h for more details.  */

typedef
union Lisp_Object
{
  /* if non-valbits are at lower addresses */
#ifdef WORDS_BIGENDIAN
  struct
  {
    EMACS_UINT val : VALBITS;
    enum_field (Lisp_Type) type : GCTYPEBITS;
  } gu;

  struct
  {
    signed EMACS_INT val : INT_VALBITS;
    unsigned int bits : INT_GCBITS;
  } s;

  struct
  {
    EMACS_UINT val : INT_VALBITS;
    unsigned int bits : INT_GCBITS;
  } u;
#else /* non-valbits are at higher addresses */
  struct
  {
    enum_field (Lisp_Type) type : GCTYPEBITS;
    EMACS_UINT val : VALBITS;
  } gu;

  struct
  {
    unsigned int bits : INT_GCBITS;
    signed EMACS_INT val : INT_VALBITS;
  } s;

  struct
  {
    unsigned int bits : INT_GCBITS;
    EMACS_UINT val : INT_VALBITS;
  } u;

#endif /* non-valbits are at higher addresses */

  EMACS_UINT ui;
  signed EMACS_INT i;

  /* This was formerly declared `void *v' etc. but that causes
     GCC to accept any (yes, any) pointer as the argument of
     a function declared to accept a Lisp_Object. */
  struct nosuchstruct *v;
}
Lisp_Object;

#define XCHARVAL(x) ((EMACS_INT)(x).gu.val)
#define XPNTRVAL(x) ((x).ui)

#define XREALINT(x) ((EMACS_INT)(x).s.val)
#define XUINT(x) ((EMACS_UINT)(x).u.val)
#define XTYPE(x) ((x).gu.type)
#define EQ(x,y) ((x).v == (y).v)

DECLARE_INLINE_HEADER (
Lisp_Object
make_int_verify (EMACS_INT val)
)
{
  Lisp_Object obj;
  obj.s.bits = 1;
  obj.s.val = val;
  type_checking_assert (XREALINT (obj) == val);
  return obj;
}

DECLARE_INLINE_HEADER (
Lisp_Object
make_int (EMACS_INT val)
)
{
  Lisp_Object obj;
  obj.s.bits = 1;
  obj.s.val = val;
  return obj;
}

DECLARE_INLINE_HEADER (
Lisp_Object
make_char_1 (Ichar val)
)
{
  Lisp_Object obj;
  obj.gu.type = Lisp_Type_Char;
  obj.gu.val = val;
  return obj;
}

DECLARE_INLINE_HEADER (
Lisp_Object
wrap_pointer_1 (const void *ptr)
)
{
  Lisp_Object obj;
  obj.ui = (EMACS_UINT) ptr;
  return obj;
}

extern MODULE_API Lisp_Object Qnull_pointer, Qzero;

#define INTP(x) ((x).s.bits)
#define INT_PLUS(x,y)  make_int (XINT (x) + XINT (y))
#define INT_MINUS(x,y) make_int (XINT (x) - XINT (y))
#define INT_PLUS1(x)   make_int (XINT (x) + 1)
#define INT_MINUS1(x)  make_int (XINT (x) - 1)

/* WARNING!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

   You can only GET_LISP_FROM_VOID something that had previously been
   STORE_LISP_IN_VOID'd.  If you want to go the other way, use
   STORE_VOID_IN_LISP and GET_VOID_FROM_LISP, or use make_opaque_ptr(). */

/* Convert a Lisp object to a void * pointer, as when it needs to be passed
   to a toolkit callback function */
#define STORE_LISP_IN_VOID(larg) ((void *) ((larg).v))

/* Convert a void * pointer back into a Lisp object, assuming that the
   pointer was generated by STORE_LISP_IN_VOID. */
DECLARE_INLINE_HEADER (
Lisp_Object
GET_LISP_FROM_VOID (const void *arg)
)
{
  Lisp_Object larg;
  larg.v = (struct nosuchstruct *) arg;
  return larg;
}

/* Convert a Lisp_Object into something that can't be used as an
   lvalue.  Useful for type-checking. */
#if (__GNUC__ > 1)
#define NON_LVALUE(larg) ({ (larg); })
#else
/* Well, you can't really do it without using a function call, and
   there's no real point in that; no-union-type is the rule, and that
   will catch errors. */
#define NON_LVALUE(larg) (larg)
#endif