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/* External shell widget.
Copyright (C) 1993, 1994 Sun Microsystems, Inc.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public
License along with this library; if not, write to the Free
Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
/* Synched up with: Not in FSF. */
/* Written by Ben Wing, September 1993. */
/* 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.
*/
#ifdef emacs
#include <config.h>
#ifndef EXTERNAL_WIDGET
ERROR! This ought not be getting compiled if EXTERNAL_WIDGET is undefined
#endif
#endif /* emacs */
#include <stdio.h>
#include <string.h>
#include <X11/StringDefs.h>
#include "xintrinsicp.h"
#include <X11/Shell.h>
#include <X11/ShellP.h>
#include <X11/Vendor.h>
#include <X11/VendorP.h>
#include "ExternalShellP.h"
#include "extw-Xt.h"
#ifdef emacs
extern void emacs_Xt_handle_focus_event (XEvent *event);
#endif
/* 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.
*/
#define NOTIFY(w, type, l0, l1, l2) \
extw_send_notify_3(XtDisplay((Widget)(w)),\
(w)->externalShell.external_window, type, l0, l1, l2)
static void ExternalShellInitialize (Widget req, Widget new, ArgList args,
Cardinal *num_args);
static void ExternalShellRealize (Widget wid, Mask *vmask, XSetWindowAttributes
*attr);
static void ExternalShellDestroy (Widget w);
static void ChangeManaged (Widget wid);
static XtGeometryResult ExternalShellRootGeometryManager (Widget gw,
XtWidgetGeometry *request, XtWidgetGeometry *reply);
static void EventHandler (Widget wid, XtPointer closure, XEvent *event,
Boolean *continue_to_dispatch);
#ifndef DEFAULT_WM_TIMEOUT
# define DEFAULT_WM_TIMEOUT 5000
#endif
void ExternalShellUnrealize (Widget w);
static XtResource resources[] = {
#define offset(field) XtOffset(ExternalShellWidget, externalShell.field)
{ XtNwindow, XtCWindow, XtRWindow, sizeof (Window),
offset (external_window), XtRImmediate, (XtPointer)0},
{ XtNclientTimeout, XtCClientTimeout, XtRInt, sizeof(int),
offset(client_timeout), XtRImmediate,(XtPointer)DEFAULT_WM_TIMEOUT},
{ XtNdeadClient, XtCDeadClient, XtRBoolean, sizeof(Boolean),
offset(dead_client), XtRImmediate, (XtPointer)False},
};
static CompositeClassExtensionRec compositeClassExtRec = {
NULL,
NULLQUARK,
XtCompositeExtensionVersion,
sizeof(CompositeClassExtensionRec),
TRUE,
};
static ShellClassExtensionRec shellClassExtRec = {
NULL,
NULLQUARK,
XtShellExtensionVersion,
sizeof(ShellClassExtensionRec),
ExternalShellRootGeometryManager
};
ExternalShellClassRec externalShellClassRec = {
{ /*
* core_class fields
*/
/* superclass */ (WidgetClass) &shellClassRec,
/* class_name */ "ExternalShell",
/* size */ sizeof(ExternalShellRec),
/* Class Initializer */ NULL,
/* class_part_initialize*/ NULL, /* XtInheritClassPartInitialize, */
/* Class init'ed ? */ FALSE,
/* initialize */ ExternalShellInitialize,
/* initialize_notify */ NULL,
/* realize */ ExternalShellRealize,
/* actions */ NULL,
/* num_actions */ 0,
/* resources */ resources,
/* resource_count */ XtNumber (resources),
/* xrm_class */ NULLQUARK,
/* compress_motion */ FALSE,
/* compress_exposure */ TRUE,
/* compress_enterleave*/ FALSE,
/* visible_interest */ TRUE,
/* destroy */ ExternalShellDestroy, /* XtInheritDestroy, */
/* resize */ XtInheritResize,
/* expose */ NULL,
/* set_values */ NULL, /* XtInheritSetValues, */
/* set_values_hook */ NULL,
/* set_values_almost */ XtInheritSetValuesAlmost,
/* get_values_hook */ NULL,
/* accept_focus */ NULL,
/* intrinsics version */ XtVersion,
/* callback offsets */ NULL,
/* tm_table */ NULL,
/* query_geometry */ NULL,
/* display_accelerator*/ NULL,
/* extension */ NULL
},{ /* Composite */
/* geometry_manager */ XtInheritGeometryManager,
/* change_managed */ ChangeManaged, /* XtInheritChangeManaged */
/* insert_child */ XtInheritInsertChild,
/* delete_child */ XtInheritDeleteChild,
/* extension */ (XtPointer)&compositeClassExtRec
},{ /* Shell */
/* extension */ (XtPointer)&shellClassExtRec
},{ /* ExternalShell */
0
}
};
WidgetClass externalShellWidgetClass = (WidgetClass) &externalShellClassRec;
static void ExternalShellInitialize (Widget req, Widget new, ArgList args,
Cardinal *num_args)
{
XtAddEventHandler(new, NULL,
TRUE, EventHandler, (XtPointer) NULL);
extw_initialize_atoms(XtDisplay(req));
extw_which_side = extw_shell_send;
}
static Widget find_managed_child(CompositeWidget w)
{
int i;
Widget *childP = w->composite.children;
for (i = w->composite.num_children; i; i--, childP++)
if (XtIsWidget(*childP) && XtIsManaged(*childP))
return *childP;
return NULL;
}
#ifndef XtCXtToolkitError
# define XtCXtToolkitError "XtToolkitError"
#endif
static void EventHandler(wid, closure, event, continue_to_dispatch)
Widget wid;
XtPointer closure; /* unused */
XEvent *event;
Boolean *continue_to_dispatch; /* unused */
{
ExternalShellWidget w = (ExternalShellWidget) wid;
if(w->core.window != event->xany.window) {
XtAppErrorMsg(XtWidgetToApplicationContext(wid),
"invalidWindow","eventHandler",XtCXtToolkitError,
"Event with wrong window",
(String *)NULL, (Cardinal *)NULL);
return;
}
if (event->type == ClientMessage &&
event->xclient.data.l[0] == extw_client_send &&
event->xclient.message_type == a_EXTW_NOTIFY)
switch (event->xclient.data.l[1]) {
case extw_notify_gm:
/* client is alive again. */
w->externalShell.dead_client = False;
break;
case extw_notify_qg: {
XtWidgetGeometry xwg, xwg_return;
XtGeometryResult result;
Widget child = find_managed_child((CompositeWidget) w);
if (child) {
extw_get_geometry_value(XtDisplay(wid), XtWindow(wid),
a_EXTW_QUERY_GEOMETRY, &xwg);
result = XtQueryGeometry(child, &xwg, &xwg_return);
} else
result = XtGeometryYes;
extw_send_geometry_value(XtDisplay(wid), XtWindow(wid),
a_EXTW_QUERY_GEOMETRY, extw_notify_qg,
result == XtGeometryAlmost ? &xwg_return :
NULL, result);
break;
}
case extw_notify_focus_in: {
XFocusChangeEvent event;
event.type = FocusIn;
event.serial = LastKnownRequestProcessed (XtDisplay (wid));
event.send_event = True;
event.display = XtDisplay (wid);
event.window = XtWindow (wid);
event.mode = NotifyNormal;
event.detail = NotifyAncestor;
#ifdef emacs
emacs_Xt_handle_focus_event ((XEvent *) &event);
#else
XtDispatchEvent ((XEvent *) &event);
#endif
break;
}
case extw_notify_focus_out: {
XFocusChangeEvent event;
event.type = FocusOut;
event.serial = LastKnownRequestProcessed (XtDisplay (wid));
event.send_event = True;
event.display = XtDisplay (wid);
event.window = XtWindow (wid);
event.mode = NotifyNormal;
event.detail = NotifyAncestor;
#ifdef emacs
emacs_Xt_handle_focus_event ((XEvent *) &event);
#else
XtDispatchEvent ((XEvent *) &event);
#endif
break;
}
case extw_notify_end:
/* frame should be destroyed. */
break;
}
}
/* Lifted almost entirely from GetGeometry() in Shell.c
*/
static void GetGeometry(W, child)
Widget W, child;
{
ExternalShellWidget w = (ExternalShellWidget)W;
int x, y, win_gravity = -1, flag;
XSizeHints hints;
Window win = w->externalShell.external_window;
{
Window dummy_root;
unsigned int dummy_bd_width, dummy_depth, width, height;
/* determine the existing size of the window. */
XGetGeometry(XtDisplay(W), win, &dummy_root, &x, &y, &width,
&height, &dummy_bd_width, &dummy_depth);
w->core.width = width;
w->core.height = height;
}
if(w->shell.geometry != NULL) {
char def_geom[64];
int width, height;
x = w->core.x;
y = w->core.y;
width = w->core.width;
height = w->core.height;
hints.flags = 0;
sprintf( def_geom, "%dx%d+%d+%d", width, height, x, y );
flag = XWMGeometry( XtDisplay(W),
XScreenNumberOfScreen(XtScreen(W)),
w->shell.geometry, def_geom,
(unsigned int)w->core.border_width,
&hints, &x, &y, &width, &height,
&win_gravity
);
if (flag) {
if (flag & XValue) w->core.x = (Position)x;
if (flag & YValue) w->core.y = (Position)y;
if (flag & WidthValue) w->core.width = (Dimension)width;
if (flag & HeightValue) w->core.height = (Dimension)height;
}
else {
String params[2];
Cardinal num_params = 2;
params[0] = XtName(W);
params[1] = w->shell.geometry;
XtAppWarningMsg(XtWidgetToApplicationContext(W),
"badGeometry", "shellRealize", XtCXtToolkitError,
"Shell widget \"%s\" has an invalid geometry specification: \"%s\"",
params, &num_params);
}
}
else
flag = 0;
w->shell.client_specified |= _XtShellGeometryParsed;
}
/* Lifted almost entirely from Realize() in Shell.c
*/
static void ExternalShellRealize (Widget wid, Mask *vmask,
XSetWindowAttributes *attr)
{
ExternalShellWidget w = (ExternalShellWidget) wid;
Mask mask = *vmask;
Window win = w->externalShell.external_window;
if (!win) {
Cardinal count = 1;
XtErrorMsg("invalidWindow","shellRealize", XtCXtToolkitError,
"No external window specified for ExternalShell widget %s",
&wid->core.name, &count);
}
if (! (w->shell.client_specified & _XtShellGeometryParsed)) {
/* we'll get here only if there was no child the first
time we were realized. If the shell was Unrealized
and then re-Realized, we probably don't want to
re-evaluate the defaults anyway.
*/
GetGeometry(wid, (Widget)NULL);
}
else if (w->core.background_pixmap == XtUnspecifiedPixmap) {
/* I attempt to inherit my child's background to avoid screen flash
* if there is latency between when I get resized and when my child
* is resized. Background=None is not satisfactory, as I want the
* user to get immediate feedback on the new dimensions (most
* particularly in the case of a non-reparenting wm). It is
* especially important to have the server clear any old cruft
* from the display when I am resized larger.
*/
Widget *childP = w->composite.children;
int i;
for (i = w->composite.num_children; i; i--, childP++) {
if (XtIsWidget(*childP) && XtIsManaged(*childP)) {
if ((*childP)->core.background_pixmap
!= XtUnspecifiedPixmap) {
mask &= ~(CWBackPixel);
mask |= CWBackPixmap;
attr->background_pixmap =
w->core.background_pixmap =
(*childP)->core.background_pixmap;
} else {
attr->background_pixel =
w->core.background_pixel =
(*childP)->core.background_pixel;
}
break;
}
}
}
if(w->shell.save_under) {
mask |= CWSaveUnder;
attr->save_under = TRUE;
}
if(w->shell.override_redirect) {
mask |= CWOverrideRedirect;
attr->override_redirect = TRUE;
}
if (wid->core.width == 0 || wid->core.height == 0) {
Cardinal count = 1;
XtErrorMsg("invalidDimension", "shellRealize", XtCXtToolkitError,
"Shell widget %s has zero width and/or height",
&wid->core.name, &count);
}
wid->core.window = win;
XChangeWindowAttributes(XtDisplay(wid), wid->core.window,
mask, attr);
}
static void ExternalShellDestroy(wid)
Widget wid;
{
ExternalShellWidget w = (ExternalShellWidget)wid;
if (XtIsRealized(wid))
ExternalShellUnrealize(wid);
NOTIFY(w, extw_notify_end, 0, 0, 0);
}
/* Invoke matching routine from superclass, but first override its
geometry opinions with our own routine */
static void ChangeManaged(wid)
Widget wid;
{
if (!XtIsRealized (wid))
GetGeometry(wid, (Widget)NULL);
(*((ShellClassRec*)externalShellClassRec.core_class.superclass)->
composite_class.change_managed)(wid);
}
/* Based on RootGeometryManager() in Shell.c */
static XtGeometryResult ExternalShellRootGeometryManager(gw, request, reply)
Widget gw;
XtWidgetGeometry *request, *reply;
{
ExternalShellWidget w = (ExternalShellWidget)gw;
unsigned int mask = request->request_mode;
XEvent event;
int oldx, oldy, oldwidth, oldheight, oldborder_width;
unsigned long request_num;
XtWidgetGeometry req = *request; /* don't modify caller's structure */
oldx = w->core.x;
oldy = w->core.y;
oldwidth = w->core.width;
oldheight = w->core.height;
oldborder_width = w->core.border_width;
#define PutBackGeometry() \
{ w->core.x = oldx; \
w->core.y = oldy; \
w->core.width = oldwidth; \
w->core.height = oldheight; \
w->core.border_width = oldborder_width; }
if (mask & CWX) {
if (w->core.x == request->x) mask &= ~CWX;
else
w->core.x = request->x;
}
if (mask & CWY) {
if (w->core.y == request->y) mask &= ~CWY;
else w->core.y = request->y;
}
if (mask & CWBorderWidth) {
if (w->core.border_width == request->border_width)
mask &= ~CWBorderWidth;
else w->core.border_width = request->border_width;
}
if (mask & CWWidth) {
if (w->core.width == request->width) mask &= ~CWWidth;
else w->core.width = request->width;
}
if (mask & CWHeight) {
if (w->core.height == request->height) mask &= ~CWHeight;
else w->core.height = request->height;
}
if (!XtIsRealized((Widget)w)) return XtGeometryYes;
req.sibling = None;
req.request_mode = mask & ~CWSibling;
request_num = NextRequest(XtDisplay(w));
extw_send_geometry_value(XtDisplay(w), XtWindow(w),
a_EXTW_GEOMETRY_MANAGER,
extw_notify_gm, &req, 0);
if (w->externalShell.dead_client == TRUE) {
/* The client is sick. Refuse the request.
* If the client recovers and decides to honor the
* request, it will be handled by Shell's EventHandler().
*/
PutBackGeometry();
return XtGeometryNo;
}
if (extw_wait_for_response(gw, &event, request_num, extw_notify_gm,
w->externalShell.client_timeout)) {
XtGeometryResult result = (XtGeometryResult) event.xclient.data.l[2];
if (result != XtGeometryYes)
PutBackGeometry();
if (result == XtGeometryAlmost) {
extw_get_geometry_value(XtDisplay(w), XtWindow(w),
a_EXTW_GEOMETRY_MANAGER, reply);
}
return result;
} else {
w->externalShell.dead_client = TRUE; /* timed out; must be broken */
PutBackGeometry();
return XtGeometryNo;
}
#undef PutBackGeometry
}
static void
hack_event_masks_1 (Display *display, Window w, int this_window_propagate)
{
Window root, parent, *children;
unsigned int nchildren;
int i;
if (!XQueryTree (display, w, &root, &parent, &children, &nchildren))
return;
for (i=0; i<nchildren; i++)
hack_event_masks_1 (display, children[i], 1);
if (children)
XFree (children);
{
XWindowAttributes xwa;
XSetWindowAttributes xswa;
if (XGetWindowAttributes (display, w, &xwa)) {
xswa.event_mask = xwa.your_event_mask & ~KeyPressMask;
if (this_window_propagate)
xswa.do_not_propagate_mask = xwa.do_not_propagate_mask & ~KeyPressMask;
XChangeWindowAttributes (display, w, CWEventMask, &xswa);
}
}
}
/* fix all event masks on all subwindows of the specified window so that
all key presses in any subwindow filter up to the specified window.
We have to do this cruftiness with external widgets so that we don't
step on Motif's concept of keyboard focus. (Due to the nature of
Xt and Motif, X's idea of who gets the keyboard events may not jive
with Xt's idea of same, and Xt redirects the events to the proper
window. This occurs on the client side and we have no knowledge
of it, so we have to rely on a SendEvent from the client side to
receive our keyboard events.)
*/
static void
hack_event_masks (Display *display, Window w)
{
hack_event_masks_1 (display, w, 0);
}
/* external entry points */
Bool
ExternalShellReady (Widget w, Window win, long event_mask)
{
ExternalShellWidget ew = (ExternalShellWidget) w;
XEvent event;
unsigned long request_num;
request_num = NextRequest(XtDisplay(w));
NOTIFY(ew, extw_notify_init, (long) win, event_mask, 0);
if (extw_wait_for_response(w, &event, request_num, extw_notify_init,
ew->externalShell.client_timeout))
{
/* Xt/Xm extw's have more elaborate focus needs than mere
Xlib ones.
Rather independently, they *don't* need the
ConfigureNotify event, having fixed up the window size in
ChangeManaged, above, but Xlib extw's do need this.
*/
ew->externalShell.client_type = event.xclient.data.l[2];
if (ew->externalShell.client_type != EXTW_TYPE_XLIB)
{
hack_event_masks (XtDisplay (w), XtWindow (w));
}
else
{
XConfigureEvent ev;
XWindowAttributes xwa;
ev.type = ConfigureNotify;
ev.display = XtDisplay (w);
ev.event = ev.window = XtWindow (w);
XGetWindowAttributes (ev.display, ev.window, &xwa);
ev.x = xwa.x; ev.y = xwa.y;
ev.width = xwa.width; ev.height = xwa.height;
ev.border_width = xwa.border_width;
ev.above = None;
ev.override_redirect = xwa.override_redirect;
XtDispatchEvent ((XEvent *) &ev);
}
return TRUE;
}
else
return FALSE;
}
void
ExternalShellSetFocus (Widget wid)
{
ExternalShellWidget w = (ExternalShellWidget) wid;
NOTIFY(w, extw_notify_set_focus, 0, 0, 0);
}
extern void _XtUnregisterWindow (Window, Widget);
void
ExternalShellUnrealize (Widget w)
{
_XtUnregisterWindow (w->core.window, w);
w->core.window = 0;
}
These are the contents of the former NiCE NeXT User Group NeXTSTEP/OpenStep software archive, currently hosted by Netfuture.ch.