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[xemacs-hg @ 2003-02-20 08:16:21 by ben] check in makefile fixes et al Makefile.in.in: Major surgery. Move all stuff related to building anything in the src/ directory into src/. Simplify the dependencies -- everything in src/ is dependent on the single entry `src' in MAKE_SUBDIRS. Remove weirdo targets like `all-elc[s]', dump-elc[s], etc. mule/mule-msw-init.el: Removed. Delete this file. mule/mule-win32-init.el: New file, with stuff from mule-msw-init.el -- not just for MS Windows native, boys and girls! bytecomp.el: Change code inserted to catch trying to load a Mule-only .elc file in a non-Mule XEmacs. Formerly you got the rather cryptic "The required feature `mule' cannot be provided". Now you get "Loading this file requires Mule support". finder.el: Remove dependency on which directory this function is invoked from. update-elc.el: Don't mess around with ../src/BYTECOMPILE_CHANGE. Now that Makefile.in.in and xemacs.mak are in sync, both of them use NEEDTODUMP and the other one isn't used. dumped-lisp.el: Rewrite in terms of `list' and `nconc' instead of assemble-list, so we can have arbitrary forms, not just `when-feature'. very-early-lisp.el: Nuke this file. finder-inf.el, packages.el, update-elc.el, update-elc-2.el, loadup.el, make-docfile.el: Eliminate references to very-early-lisp. msw-glyphs.el: Comment clarification. xemacs.mak: Add macros DO_TEMACS, DO_XEMACS, and a few others; this macro section is now completely in sync with src/Makefile.in.in. Copy check-features, load-shadows, and rebuilding finder-inf.el from src/Makefile.in.in. The main build/dump/recompile process is now synchronized with src/Makefile.in.in. Change `WARNING' to `NOTE' and `error checking' to `error-checking' TO avoid tripping faux warnings and errors in the VC++ IDE. Makefile.in.in: Major surgery. Move all stuff related to building anything in the src/ directory from top-level Makefile.in.in to here. Simplify the dependencies. Rearrange into logical subsections. Synchronize the main compile/dump/build-elcs section with xemacs.mak, which is already clean and in good working order. Remove weirdo targets like `all-elc[s]', dump-elc[s], etc. Add additional levels of macros \(e.g. DO_TEMACS, DO_XEMACS, TEMACS_BATCH, XEMACS_BATCH, XEMACS_BATCH_PACKAGES) to factor out duplicated stuff. Clean up handling of "HEAP_IN_DATA" (Cygwin) so it doesn't need to ignore the return value from dumping. Add .NO_PARALLEL since various aspects of building and dumping must be serialized but do not always have dependencies between them (this is impossible in some cases). Everything related to src/ now gets built in one pass in this directory by just running `make' (except the Makefiles themselves and config.h, paths.h, Emacs.ad.h, and other generated .h files). console.c: Update list of possibly valid console types. emacs.c: Rationalize the specifying and handling of the type of the first frame. This was originally prompted by a workspace in which I got GTK to compile under C++ and in the process fixed it so it could coexist with X in the same build -- hence, a combined TTY/X/MS-Windows/GTK build is now possible under Cygwin. (However, you can't simultaneously *display* more than one kind of device connection -- but getting that to work is not that difficult. Perhaps a project for a bored grad student. I (ben) would do it but don't see the use.) To make sense of this, I added new switches that can be used to specifically indicate the window system: -x [aka --use-x], -tty \[aka --use-tty], -msw [aka --use-ms-windows], -gtk [aka --use-gtk], and -gnome [aka --use-gnome, same as --use-gtk]. -nw continues as an alias for -tty. When none have been given, XEmacs checks for other parameters implying particular device types (-t -> tty, -display -> x [or should it have same treatment as DISPLAY below?]), and has ad-hoc logic afterwards: if env var DISPLAY is set, use x (or gtk? perhaps should check whether gnome is running), else MS Windows if it exsits, else TTY if it exists, else stream, and you must be running in batch mode. This also fixes an existing bug whereby compiling with no x, no mswin, no tty, when running non- interactively (e.g. to dump) I get "sorry, must have TTY support". emacs.c: Turn on Vstack_trace_on_error so that errors are debuggable even when occurring extremely early in reinitialization. emacs.c: Try to make sure that the user can see message output under Windows (i.e. it doesn't just disappear right away) regardless of when it occurs, e.g. in the middle of creating the first frame. emacs.c: Define new function `emacs-run-status', indicating whether XEmacs is noninteractive or interactive, whether raw, post-dump/pdump-load or run-temacs, whether we are dumping, whether pdump is in effect. event-stream.c: It's "mommas are fat", not "momas are fat". Fix other typo. event-stream.c: Conditionalize in_menu_callback check on HAVE_MENUBARS, because it won't exist on w/o menubar support, lisp.h: More hackery on RETURN_NOT_REACHED. Cygwin v3.2 DOES complain here if RETURN_NOT_REACHED() is blank, as it is for GCC 2.5+. So make it blank only for GCC 2.5 through 2.999999999999999. Declare Vstack_trace_on_error. profile.c: Need to include "profile.h" to fix warnings. sheap.c: Don't fatal() when need to rerun Make, just stderr_out() and exit(0). That way we can distinguish between a dumping failing expectedly (due to lack of stack space, triggering another dump) and unexpectedly, in which case, we want to stop building. (or go on, if -K is given) syntax.c, syntax.h: Use ints where they belong, and enum syntaxcode's where they belong, and fix warnings thereby. syntax.h: Fix crash caused by an edge condition in the syntax-cache macros. text.h: Spacing fixes. xmotif.h: New file, to get around shadowing warnings. EmacsManager.c, event-Xt.c, glyphs-x.c, gui-x.c, input-method-motif.c, xmmanagerp.h, xmprimitivep.h: Include xmotif.h. alloc.c: Conditionalize in_malloc on ERROR_CHECK_MALLOC. config.h.in, file-coding.h, fileio.c, getloadavg.c, select-x.c, signal.c, sysdep.c, sysfile.h, systime.h, text.c, unicode.c: Eliminate HAVE_WIN32_CODING_SYSTEMS, use WIN32_ANY instead. Replace defined (WIN32_NATIVE) || defined (CYGWIN) with WIN32_ANY. lisp.h: More futile attempts to walk and chew gum at the same time when dealing with subr's that don't return.
author ben
date Thu, 20 Feb 2003 08:16:21 +0000
parents e38acbeb1cae
children 04bc9d2f42c7
line wrap: on
line source

/* toolbar implementation -- GTK interface.
   Copyright (C) 2000 Aaron Lehmann

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 "console-gtk.h"
#include "glyphs-gtk.h"
#include "objects-gtk.h"

#include "faces.h"
#include "frame.h"
#include "toolbar.h"
#include "window.h"

#define SET_TOOLBAR_WAS_VISIBLE_FLAG(frame, pos, flag)			\
  do {									\
    switch (pos)							\
      {									\
      case TOP_TOOLBAR:							\
	(frame)->top_toolbar_was_visible = flag;			\
	break;								\
      case BOTTOM_TOOLBAR:						\
	(frame)->bottom_toolbar_was_visible = flag;			\
	break;								\
      case LEFT_TOOLBAR:						\
	(frame)->left_toolbar_was_visible = flag;			\
	break;								\
      case RIGHT_TOOLBAR:						\
	(frame)->right_toolbar_was_visible = flag;			\
	break;								\
      default:								\
	abort ();							\
      }									\
  } while (0)

static void
gtk_clear_toolbar (struct frame *f, enum toolbar_pos pos);

static void
gtk_toolbar_callback (GtkWidget *w, gpointer user_data)
{
  struct toolbar_button *tb = (struct toolbar_button *) user_data;

  call0 (tb->callback);
}


static void
gtk_output_toolbar (struct frame *f, enum toolbar_pos pos)
{
  GtkWidget *toolbar;
  Lisp_Object button, window, glyph, instance;
  unsigned int checksum = 0;
  struct window *w;
  int x, y, bar_width, bar_height, vert;
  int cur_x, cur_y;

  window = FRAME_LAST_NONMINIBUF_WINDOW (f);
  w = XWINDOW (window);

  get_toolbar_coords (f, pos, &x, &y, &bar_width, &bar_height, &vert, 0);
	
  /* Get the toolbar and delete the old widgets in it */
  button = FRAME_TOOLBAR_BUTTONS (f, pos);
	
  /* First loop over all of the buttons to determine how many there
     are. This loop will also make sure that all instances are
     instantiated so when we actually output them they will come up
     immediately. */
  while (!NILP (button))
    {
      struct toolbar_button *tb = XTOOLBAR_BUTTON (button);
      checksum = HASH4 (checksum, 
			internal_hash (get_toolbar_button_glyph(w, tb), 0),
			internal_hash (tb->callback, 0),
			0 /* width */);
      button = tb->next;
    }

  /* Only do updates if the toolbar has changed, or this is the first
     time we have drawn it in this position
  */
  if (FRAME_GTK_TOOLBAR_WIDGET (f)[pos] &&
      FRAME_GTK_TOOLBAR_CHECKSUM (f, pos) == checksum)
    {
      return;
    }

  /* Loop through buttons and add them to our toolbar.
     This code ignores the button dimensions as we let GTK handle that :)
     Attach the toolbar_button struct to the toolbar button so we know what
     function to use as a callback. */

  {
    gtk_clear_toolbar (f, pos);
    FRAME_GTK_TOOLBAR_WIDGET (f)[pos] = toolbar =
      gtk_toolbar_new (((pos == TOP_TOOLBAR) || (pos == BOTTOM_TOOLBAR)) ?
		       GTK_ORIENTATION_HORIZONTAL : GTK_ORIENTATION_VERTICAL,
		       GTK_TOOLBAR_BOTH);
  }

  if (NILP (w->toolbar_buttons_captioned_p))
    gtk_toolbar_set_style (toolbar, GTK_TOOLBAR_ICONS);
  else
    gtk_toolbar_set_style (toolbar, GTK_TOOLBAR_BOTH);

  FRAME_GTK_TOOLBAR_CHECKSUM(f, pos) = checksum;
  button = FRAME_TOOLBAR_BUTTONS (f, pos);

  cur_x = 0;
  cur_y = 0;

  while (!NILP (button))
    {
      struct toolbar_button *tb = XTOOLBAR_BUTTON (button);

      if (tb->blank)
	{
	  /* It is a blank space... we do not pay attention to the
             size, because the GTK toolbar does not allow us to
             specify different spacings.  *sigh*
	  */
	  gtk_toolbar_append_space (GTK_TOOLBAR (toolbar));
	}
      else
	{
	  /* It actually has a glyph associated with it!  What WILL
             they think of next?
	  */
	  glyph = tb->up_glyph;

	  /* #### It is currently possible for users to trash us by directly
	     changing the toolbar glyphs.  Avoid crashing in that case. */
	  if (GLYPHP (glyph))
	    instance = glyph_image_instance (glyph, window,
					     ERROR_ME_DEBUG_WARN, 1);
	  else
	    instance = Qnil;
	  
	  if (IMAGE_INSTANCEP(instance))
	    {
	      GtkWidget *pixmapwid;
	      GdkPixmap *pixmap;
	      GdkBitmap *mask;
	      char *tooltip = NULL;

	      if (STRINGP (tb->help_string))
		tooltip = XSTRING_DATA (tb->help_string);
	      
	      pixmap = XIMAGE_INSTANCE_GTK_PIXMAP(instance);
	      mask = XIMAGE_INSTANCE_GTK_MASK(instance);
	      pixmapwid = gtk_pixmap_new (pixmap, mask);

	      gtk_widget_set_usize (pixmapwid, tb->width, tb->height);
	      
	      gtk_toolbar_append_item (GTK_TOOLBAR(toolbar), NULL, tooltip, NULL,
				       pixmapwid, gtk_toolbar_callback, (gpointer) tb);
	    }
	}
      cur_x += vert ? 0 : tb->width;
      cur_y += vert ? tb->height : 0;
      /* Who's idea was it to use a linked list for toolbar buttons? */
      button = tb->next;
    }

  SET_TOOLBAR_WAS_VISIBLE_FLAG (f, pos, 1);

  x -= vert ? 3 : 2;
  y -= vert ? 2 : 3;
  
  gtk_fixed_put (GTK_FIXED (FRAME_GTK_TEXT_WIDGET (f)), FRAME_GTK_TOOLBAR_WIDGET (f)[pos],x, y);
  gtk_widget_show_all (FRAME_GTK_TOOLBAR_WIDGET (f)[pos]);
}

static void
gtk_clear_toolbar (struct frame *f, enum toolbar_pos pos)
{
  FRAME_GTK_TOOLBAR_CHECKSUM (f, pos) = 0;
  SET_TOOLBAR_WAS_VISIBLE_FLAG (f, pos, 0);
  if (FRAME_GTK_TOOLBAR_WIDGET(f)[pos])
    gtk_widget_destroy (FRAME_GTK_TOOLBAR_WIDGET(f)[pos]);
}

static void
gtk_output_frame_toolbars (struct frame *f)
{
  if (FRAME_REAL_TOP_TOOLBAR_VISIBLE (f))
    gtk_output_toolbar (f, TOP_TOOLBAR);
  else if (f->top_toolbar_was_visible)
    gtk_clear_toolbar (f, TOP_TOOLBAR);

  if (FRAME_REAL_BOTTOM_TOOLBAR_VISIBLE (f))
    gtk_output_toolbar (f, BOTTOM_TOOLBAR);
  else if (f->bottom_toolbar_was_visible)
    gtk_clear_toolbar (f, LEFT_TOOLBAR);

  if (FRAME_REAL_LEFT_TOOLBAR_VISIBLE (f))
    gtk_output_toolbar (f, LEFT_TOOLBAR);
  else if (f->left_toolbar_was_visible)
    gtk_clear_toolbar (f, LEFT_TOOLBAR);

  if (FRAME_REAL_RIGHT_TOOLBAR_VISIBLE (f))
    gtk_output_toolbar (f, RIGHT_TOOLBAR);
  else if (f->right_toolbar_was_visible)
    gtk_clear_toolbar (f, RIGHT_TOOLBAR);
}

static void
gtk_initialize_frame_toolbars (struct frame *f)
{
  stderr_out ("We should draw toolbars\n");
}


/************************************************************************/
/*                            initialization                            */
/************************************************************************/

void
console_type_create_toolbar_gtk (void)
{
  CONSOLE_HAS_METHOD (gtk, output_frame_toolbars);
  CONSOLE_HAS_METHOD (gtk, initialize_frame_toolbars);
}