Mercurial > hg > xemacs-beta
view man/external-widget.texi @ 1315:70921960b980
[xemacs-hg @ 2003-02-20 08:19:28 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 08:19:44 +0000 |
| parents | 42375619fa45 |
| children | 03ab78e48ef6 |
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\input texinfo @c -*-texinfo-*- @setfilename ../info/external-widget.info @settitle The External Client Widget @ifinfo @dircategory XEmacs Editor @direntry * External Widget: (external-widget). External Client Widget. @end direntry @end ifinfo @node Top, Using an External Client Widget,, (dir) An @dfn{external client widget} is a widget that is part of another program but functions as an Emacs frame. This is intended to be a more powerful replacement for standard text widgets. @menu * Using an External Client Widget:: * External Client Widget Resource Settings:: * Motif-Specific Info About the External Client Widget:: * External Client Widget Internals:: @end menu @node Using an External Client Widget, External Client Widget Resource Settings, Top, Top @chapter Using an External Client Widget There are three different implementations of the external client widget. One is designed for use in Motif applications and is linked with the option @code{-lextcli_Xm}. Another is designed for non-Motif applications that still use the X toolkit; it is linked with the option @code{-lextcli_Xt}. The third is designed for applications that do not use the X toolkit; it is linked with the option @code{-lextcli_Xlib}. In order to use an external client widget in a client program that uses the X toolkit (i.e. either of the first two options described above), simply create an instance of widget type ExternalClient and link your program with the appropriate library. The corresponding header file is called @file{ExternalClient.h}. Documentation still needs to be provided for using the raw Xlib version of the external client widget. The external client widget will not do anything until an instance of Emacs is told about this particular widget. To do that, call the function @code{make-frame}, specifying a value for the frame parameter @code{window-id}. This value should be a string containing the decimal representation of the widget's X window ID number (this can be obtained by the Xt function @code{XtWindow()}). In order for the client program to communicate this information to Emacs, a method such as sending a ToolTalk message needs to be used. Once @code{make-frame} has been called, Emacs will create a frame that occupies the client widget's window. This frame can be used just like any other frame in Emacs. @node External Client Widget Resource Settings, Motif-Specific Info About the External Client Widget, Using an External Client Widget, Top @chapter External Client Widget Resource Settings The external client widget is a subclass of the Motif widget XmPrimitive and thus inherits all its resources. In addition, the following new resources are defined: @table @samp @item deadShell (class DeadShell) A boolean resource indicating whether the last request to the ExternalShell widget that contains the frame corresponding to this widget timed out. If true, no further requests will be made (all requests will automatically fail) until a response to the last request is received. This resource should normally not be set by the user. @item shellTimeout (class ShellTimeout) A value specifying how long (in milliseconds) the client should wait for a response when making a request to the corresponding ExternalShell widget. If this timeout is exceeded, the client will assume that the shell is dead and will fail the request and all subsequent requests until a response to the request is received. Default value is 5000, or 5 seconds. @end table The shell that contains the frame corresponding to an external client widget is of type ExternalShell, as opposed to standard frames, whose shell is of type TopLevelShell. The ExternalShell widget is a direct subclass of Shell and thus inherits its resources. In addition, the following new resources are defined: @table @samp @item window (class Window) The X window ID of the widget to use for this Emacs frame. This is normally set by the call to @code{x-create-frame} and should not be modified by the user. @item deadClient (class DeadClient) A boolean resource indicating whether the last request to the corresponding ExternalClient widget timed out. If true, no further requests will be made (all requests will automatically fail) until a response to the last request is received. This resource should normally not be set by the user. @item ClientTimeout (class ClientTimeout) A value specifying how long (in milliseconds) the shell should wait for a response when making a request to the corresponding ExternalClient widget. If this timeout is exceeded, the shell will assume that the client is dead and will fail the request and all subsequent requests until a response to the request is received. Default value is 5000, or 5 seconds. @end table Note that the requests that are made between the client and the shell are primarily for handling query-geometry and geometry-manager requests made by parent or child widgets. @node Motif-Specific Info About the External Client Widget, External Client Widget Internals, External Client Widget Resource Settings, Top @chapter Motif-Specific Info About the External Client Widget By default, the external client widget has navigation type @samp{XmTAB_GROUP}. The widget traversal keystrokes are modified slightly from the standard XmPrimitive keystrokes. In particular, @kbd{@key{TAB}} alone does not traverse to the next widget (@kbd{Ctrl-@key{TAB}} must be used instead), but functions like a normal @key{TAB} in Emacs. This follows the semantics of the Motif text widget. The traversal keystrokes @kbd{Ctrl-@key{TAB}} and @kbd{Shift-@key{TAB}} are silently filtered by the external client widget and are not seen by Emacs. @node External Client Widget Internals, , Motif-Specific Info About the External Client Widget, Top @chapter External Client Widget Internals The following text is lifted verbatim from Ben Wing's comments in @file{ExternalShell.c}. This is a special Shell that is designed to use an externally- provided window created by someone else (possibly another process). That other window should have an associated widget of class ExternalClient. The two widgets communicate with each other using ClientMessage events and properties on the external window. Ideally this feature should be independent of Emacs. Unfortunately there are lots and lots of specifics that need to be dealt with for this to work properly, and some of them can't conveniently be handled within the widget's methods. Some day the code may be rewritten so that the embedded-widget feature can be used by any application, with appropriate entry points that are called at specific points within the application. This feature is similar to the OLE (Object Linking & Embedding) feature provided by MS Windows. Communication between this shell and the client widget: Communication is through ClientMessage events with message_type EXTW_NOTIFY and format 32. Both the shell and the client widget communicate with each other by sending the message to the same window (the "external window" below), and the data.l[0] value is used to determine who sent the message. The data is formatted as follows: data.l[0] = who sent this message: external_shell_send (0) or external_client_send (1) data.l[1] = message type (see enum en_extw_notify below) data.l[2-4] = data associated with this message EventHandler() handles messages from the other side. extw_send_notify_3() sends a message to the other side. extw_send_geometry_value() is used when an XtWidgetGeometry structure needs to be sent. This is too much data to fit into a ClientMessage, so the data is stored in a property and then extw_send_notify_3() is called. extw_get_geometry_value() receives an XtWidgetGeometry structure from a property. extw_wait_for_response() is used when a response to a sent message is expected. It looks for a matching event within a particular timeout. The particular message types are as follows: 1) extw_notify_init (event_window, event_mask) This is sent from the shell to the client after the shell realizes its EmacsFrame widget on the client's "external window". This tells the client that it should start passing along events of the types specified in event_mask. event_window specifies the window of the EmacsFrame widget, which is a child of the client's external window. extw_notify_init (client_type) When the client receives an extw_notify_init message from the shell, it sends back a message of the same sort specifying the type of the toolkit used by the client (Motif, generic Xt, or Xlib). 2) extw_notify_end () This is sent from the shell to the client when the shell's EmacsFrame widget is destroyed, and tells the client to stop passing events along. 3) extw_notify_qg (result) This is sent from the client to the shell when a QueryGeometry request is received on the client. The XtWidgetGeometry structure specified in the QueryGeometry request is passed on in the EXTW_QUERY_GEOMETRY property (of type EXTW_WIDGET_GEOMETRY) on the external window. result is unused. In response, the shell passes the QueryGeometry request down the widget tree, and when a response is received, sends a message of type extw_notify_qg back to the client, with result specifying the GeometryResult value. If this value is XtGeometryAlmost, the returned XtWidgetGeometry structure is stored into the same property as above. [BPW is there a possible race condition here?] 4) extw_notify_gm (result) A very similar procedure to that for extw_notify_qg is followed when the shell's RootGeometryManager method is called, indicating that a child widget wishes to change the shell's geometry. The XtWidgetGeometry structure is stored in the EXTW_GEOMETRY_MANAGER property. 5) extw_notify_focus_in (), extw_notify_focus_out () These are sent from the client to the shell when the client gains or loses the keyboard focus. It is done this way because Xt maintains its own concept of keyboard focus and only the client knows this information. @summarycontents @contents @bye