Mercurial > hg > xemacs-beta
view lisp/toolbar.el @ 938:0391335b65dc
[xemacs-hg @ 2002-07-31 07:14:49 by michaels]
2002-07-17 Marcus Crestani <crestani@informatik.uni-tuebingen.de>
Markus Kaltenbach <makalten@informatik.uni-tuebingen.de>
Mike Sperber <mike@xemacs.org>
configure flag to turn these changes on: --use-kkcc
First we added a dumpable flag to lrecord_implementation. It shows,
if the object is dumpable and should be processed by the dumper.
* lrecord.h (struct lrecord_implementation): added dumpable flag
(MAKE_LRECORD_IMPLEMENTATION): fitted the different makro definitions
to the new lrecord_implementation and their calls.
Then we changed mark_object, that it no longer needs a mark method for
those types that have pdump descritions.
* alloc.c:
(mark_object): If the object has a description, the new mark algorithm
is called, and the object is marked according to its description.
Otherwise it uses the mark method like before.
These procedures mark objects according to their descriptions. They
are modeled on the corresponding pdumper procedures.
(mark_with_description):
(get_indirect_count):
(structure_size):
(mark_struct_contents):
These procedures still call mark_object, this is needed while there are
Lisp_Objects without descriptions left.
We added pdump descriptions for many Lisp_Objects:
* extents.c: extent_auxiliary_description
* database.c: database_description
* gui.c: gui_item_description
* scrollbar.c: scrollbar_instance_description
* toolbar.c: toolbar_button_description
* event-stream.c: command_builder_description
* mule-charset.c: charset_description
* device-msw.c: devmode_description
* dialog-msw.c: mswindows_dialog_id_description
* eldap.c: ldap_description
* postgresql.c: pgconn_description
pgresult_description
* tooltalk.c: tooltalk_message_description
tooltalk_pattern_description
* ui-gtk.c: emacs_ffi_description
emacs_gtk_object_description
* events.c:
* events.h:
* event-stream.c:
* event-Xt.c:
* event-gtk.c:
* event-tty.c:
To write a pdump description for Lisp_Event, we converted every struct
in the union event to a Lisp_Object. So we created nine new
Lisp_Objects: Lisp_Key_Data, Lisp_Button_Data, Lisp_Motion_Data,
Lisp_Process_Data, Lisp_Timeout_Data, Lisp_Eval_Data,
Lisp_Misc_User_Data, Lisp_Magic_Data, Lisp_Magic_Eval_Data.
We also wrote makro selectors and mutators for the fields of the new
designed Lisp_Event and added everywhere these new abstractions.
We implemented XD_UNION support in (mark_with_description), so
we can describe exspecially console/device specific data with XD_UNION.
To describe with XD_UNION, we added a field to these objects, which
holds the variant type of the object. This field is initialized in
the appendant constructor. The variant is an integer, it has also to
be described in an description, if XD_UNION is used.
XD_UNION is used in following descriptions:
* console.c: console_description
(get_console_variant): returns the variant
(create_console): added variant initialization
* console.h (console_variant): the different console types
* console-impl.h (struct console): added enum console_variant contype
* device.c: device_description
(Fmake_device): added variant initialization
* device-impl.h (struct device): added enum console_variant devtype
* objects.c: image_instance_description
font_instance_description
(Fmake_color_instance): added variant initialization
(Fmake_font_instance): added variant initialization
* objects-impl.h (struct Lisp_Color_Instance): added color_instance_type
* objects-impl.h (struct Lisp_Font_Instance): added font_instance_type
* process.c: process_description
(make_process_internal): added variant initialization
* process.h (process_variant): the different process types
| author | michaels |
|---|---|
| date | Wed, 31 Jul 2002 07:14:49 +0000 |
| parents | 943eaba38521 |
| children | fd1acd2f457a |
line wrap: on
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;;; toolbar.el --- Toolbar support for XEmacs ;; Copyright (C) 1995, 1997 Free Software Foundation, Inc. ;; Copyright (C) 2002 Ben Wing. ;; Maintainer: XEmacs Development Team ;; Keywords: extensions, internal, dumped ;; 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, 59 Temple Place - Suite 330, ;; Boston, MA 02111-1307, USA. ;;; Synched up with: Not in FSF. ;;; Commentary: ;; This file is dumped with XEmacs (when toolbar support is compiled in). ;;; Code: (defcustom toolbar-visible-p ;; added for the options menu - dverna apr. 98 (specifier-instance default-toolbar-visible-p) "*Whether the default toolbar is globally visible. This option only has an effect when set using `customize-set-variable', or through the Options menu." :group 'display :type 'boolean :set #'(lambda (var val) (set-specifier default-toolbar-visible-p val) (setq toolbar-visible-p val)) ) (defcustom toolbar-captioned-p ;; added for the options menu - dverna apr. 98 (specifier-instance toolbar-buttons-captioned-p) "*Whether the toolbars buttons are globally captioned. This option only has an effect when set using `customize-set-variable', or through the Options menu." :group 'display :type 'boolean :set #'(lambda (var val) (set-specifier toolbar-buttons-captioned-p val) (setq toolbar-captioned-p val)) ) (defcustom default-toolbar-position ;; added for the options menu - dverna (default-toolbar-position) "*The location of the default toolbar: 'top, 'bottom, 'left or 'right. This option only has an effect when set using `customize-set-variable', or through the Options menu." :group 'display :type '(choice (const :tag "top" top) (const :tag "bottom" bottom) (const :tag "left" left) (const :tag "right" right)) :set #'(lambda (var val) (let* ((height (window-height)) (hdiff (- (frame-height) height)) (width (window-width))) (set-default-toolbar-position val) (setq default-toolbar-position val) ;; needed or dimensions don't update? (redisplay-frame) ;; This probably only works correctly if there is only one ;; Emacs window. If windows are split, it probably results in ;; small adjustments in their sizes. (set-frame-size (selected-frame) width (+ height hdiff)) ))) (defvar toolbar-help-enabled t "If non-nil help is echoed for toolbar buttons.") (defvar toolbar-icon-directory nil "Location of standard toolbar icon bitmaps.") (defun toolbar-make-button-list (up &optional down disabled cap-up cap-down cap-disabled) "Call make-glyph on each arg and return a list of the results." (let ((up-glyph (make-glyph up)) (down-glyph (and down (make-glyph down))) (disabled-glyph (and disabled (make-glyph disabled))) (cap-up-glyph (and cap-up (make-glyph cap-up))) (cap-down-glyph (and cap-down (make-glyph cap-down))) (cap-disabled-glyph (and cap-disabled (make-glyph cap-disabled)))) (if cap-disabled (list up-glyph down-glyph disabled-glyph cap-up-glyph cap-down-glyph cap-disabled-glyph) (if cap-down (list up-glyph down-glyph disabled-glyph cap-up-glyph cap-down-glyph) (if cap-up (list up-glyph down-glyph disabled-glyph cap-up-glyph) (if disabled-glyph (list up-glyph down-glyph disabled-glyph) (if down-glyph (list up-glyph down-glyph) (list up-glyph)))))))) (defun init-toolbar-location () (if (not toolbar-icon-directory) (let ((name (locate-data-directory "toolbar"))) (if name (setq toolbar-icon-directory (file-name-as-directory name)))))) ;; called from toolbar.c during device and frame initialization (defun init-toolbar-from-resources (locale) (if (and (featurep 'x) (not (featurep 'infodock)) (or (eq locale 'global) (eq 'x (device-or-frame-type locale)))) (declare-fboundp (x-init-toolbar-from-resources locale)))) ;; #### Is this actually needed or will the code in ;; default-mouse-motion-handler suffice? (define-key global-map 'button1up 'release-toolbar-button) (defvar toolbar-map (let ((m (make-sparse-keymap))) (set-keymap-name m 'toolbar-map) m) "Keymap consulted for mouse-clicks over a toolbar.") (define-key toolbar-map 'button1 'press-toolbar-button) (define-key toolbar-map 'button1up 'release-and-activate-toolbar-button) (defvar last-pressed-toolbar-button nil) (defvar toolbar-active nil) (defvar toolbar-blank-press-function nil "Function to call if a blank area of the toolbar is pressed.") ;; ;; It really sucks that we also have to tie onto ;; default-mouse-motion-handler to make sliding buttons work right. ;; (defun press-toolbar-button (event) "Press a toolbar button. This only changes its appearance. Call function stored in `toolbar-blank-press-function,' if any, with EVENT as an argument if press is over a blank area of the toolbar." (interactive "_e") (setq this-command last-command) (let ((button (event-toolbar-button event))) ;; We silently ignore non-buttons. This most likely means we are ;; over a blank part of the toolbar. (setq toolbar-active t) (if (toolbar-button-p button) (progn (set-toolbar-button-down-flag button t) (setq last-pressed-toolbar-button button)) ;; Added by Bob Weiner, Motorola Inc., 10/6/95, to handle ;; presses on blank portions of toolbars. (when (functionp toolbar-blank-press-function) (funcall toolbar-blank-press-function event))))) (defun release-and-activate-toolbar-button (event) "Release a toolbar button and activate its callback. Call function stored in `toolbar-blank-release-function,' if any, with EVENT as an argument if release is over a blank area of the toolbar." (interactive "_e") (or (button-release-event-p event) (error "%s must be invoked by a mouse-release" this-command)) (release-toolbar-button event) (let ((button (event-toolbar-button event))) (if (and (toolbar-button-p button) (toolbar-button-enabled-p button) (toolbar-button-callback button)) (let ((callback (toolbar-button-callback button))) (setq this-command callback) ;; Handle arbitrary functions. (if (functionp callback) (if (commandp callback) (call-interactively callback) (funcall callback)) (eval callback)))))) ;; If current is not t, then only release the toolbar button stored in ;; last-pressed-toolbar-button (defun release-toolbar-button-internal (event current) (let ((button (event-toolbar-button event))) (setq zmacs-region-stays t) (if (and last-pressed-toolbar-button (not (eq last-pressed-toolbar-button button)) (toolbar-button-p last-pressed-toolbar-button)) (progn (set-toolbar-button-down-flag last-pressed-toolbar-button nil) (setq last-pressed-toolbar-button nil))) (if (and current (toolbar-button-p button)) (set-toolbar-button-down-flag button nil)))) (defun release-toolbar-button (event) "Release all pressed toolbar buttons." (interactive "_e") (or (button-release-event-p event) (error "%s must be invoked by a mouse-release" this-command)) (release-toolbar-button-internal event t) ;; Don't set this-command if we're being called ;; from release-and-activate-toolbar-button. (if (interactive-p) (setq this-command last-command)) (setq toolbar-active nil)) (defun release-previous-toolbar-button (event) (setq zmacs-region-stays t) (release-toolbar-button-internal event nil)) (defun make-toolbar-specifier (spec-list) "Return a new `toolbar' specifier object with the given specification list. SPEC-LIST can be a list of specifications (each of which is a cons of a locale and a list of instantiators), a single instantiator, or a list of instantiators. See `make-specifier' for more information about specifiers. Toolbar specifiers are used to specify the format of a toolbar. The values of the variables `default-toolbar', `top-toolbar', `left-toolbar', `right-toolbar', and `bottom-toolbar' are always toolbar specifiers. Valid toolbar instantiators are called \"toolbar descriptors\" and are lists of vectors. See `default-toolbar' for a description of the exact format." (make-specifier-and-init 'toolbar spec-list)) ;;; toolbar.el ends here