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/* $TOG: OpenDis.c /main/111 1998/02/06 17:46:07 kaleb $ */
/*

Copyright 1985, 1986, 1998  The Open Group

All Rights Reserved.

The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL THE
OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

Except as contained in this notice, the name of The Open Group shall not be
used in advertising or otherwise to promote the sale, use or other dealings
in this Software without prior written authorization from The Open Group.

*/
/* $XFree86: xc/lib/X11/OpenDis.c,v 3.7 2000/06/16 01:50:18 dawes Exp $ */

#define NEED_REPLIES
#define NEED_EVENTS
#include "Xlibint.h"
#include <X11/Xtrans.h>
#include <X11/Xatom.h>
#include "bigreqstr.h"
#include <stdio.h>

#ifdef XKB
#include "XKBlib.h"
#endif /* XKB */

#ifdef X_NOT_STDC_ENV
extern char *getenv();
#endif

#ifdef X_NOT_POSIX
#define Size_t unsigned int
#else
#define Size_t size_t
#endif

#define bignamelen (sizeof(XBigReqExtensionName) - 1)

typedef struct {
    unsigned long seq;
    int opcode;
} _XBigReqState;

extern int _Xdebug;
#ifdef WIN32
int *_Xdebug_p = &_Xdebug;
#endif

#ifdef XTHREADS
int  (*_XInitDisplayLock_fn)() = NULL;
void (*_XFreeDisplayLock_fn)() = NULL;

#define InitDisplayLock(d)	(_XInitDisplayLock_fn ? (*_XInitDisplayLock_fn)(d) : Success)
#define FreeDisplayLock(d)	if (_XFreeDisplayLock_fn) (*_XFreeDisplayLock_fn)(d)
#else
#define InitDisplayLock(dis) Success
#define FreeDisplayLock(dis)
#endif /* XTHREADS */

static xReq _dummy_request = {
	0, 0, 0
};

static void OutOfMemory();
static Bool _XBigReqHandler();

extern Bool _XWireToEvent();
extern Status _XUnknownNativeEvent();
extern Bool _XUnknownWireEvent();

/* XlibInt.c */
extern Bool _XPollfdCacheInit();

/* ConnDis.c */
extern int _XDisconnectDisplay();

/* FreeEData.c */
extern int _XFreeExtData();

/* 
 * Connects to a server, creates a Display object and returns a pointer to
 * the newly created Display back to the caller.
 */
#if NeedFunctionPrototypes
Display *XOpenDisplay (
	register _Xconst char *display)
#else
Display *XOpenDisplay (display)
	register char *display;
#endif
{
	register Display *dpy;		/* New Display object being created. */
	register int i;
	int j, k;			/* random iterator indexes */
	char *display_name;		/* pointer to display name */
	int endian;			/* to determine which endian. */
	xConnClientPrefix client;	/* client information */
	xConnSetupPrefix prefix;	/* prefix information */
	int vendorlen;			/* length of vendor string */
	char *setup = NULL;		/* memory allocated at startup */
	char *fullname = NULL;		/* expanded name of display */
	int idisplay;			/* display number */
	int iscreen;			/* screen number */
	int prefixread = 0;             /* setup prefix already read? */
	union {
		xConnSetup *setup;
		char *failure;
		char *vendor;
		xPixmapFormat *sf;
		xWindowRoot *rp;
		xDepth *dp;
		xVisualType *vp;
	} u;				/* proto data returned from server */
	long setuplength;	/* number of bytes in setup message */
	char *conn_auth_name, *conn_auth_data;
	int conn_auth_namelen, conn_auth_datalen;
	unsigned long mask;
	extern Bool _XSendClientPrefix();
	extern XtransConnInfo _X11TransConnectDisplay();
	extern XID _XAllocID();
	extern void _XAllocIDs();

	bzero((char *) &client, sizeof(client));
	bzero((char *) &prefix, sizeof(prefix));

	/*
	 * If the display specifier string supplied as an argument to this 
	 * routine is NULL or a pointer to NULL, read the DISPLAY variable.
	 */
	if (display == NULL || *display == '\0') {
		if ((display_name = getenv("DISPLAY")) == NULL) {
			/* Oops! No DISPLAY environment variable - error. */
			return(NULL);
		}
	}
	else {
		/* Display is non-NULL, copy the pointer */
		display_name = (char *)display;
	}
/*
 * Set the default error handlers.  This allows the global variables to
 * default to NULL for use with shared libraries.
 */
	if (_XErrorFunction == NULL) (void) XSetErrorHandler (NULL);
	if (_XIOErrorFunction == NULL) (void) XSetIOErrorHandler (NULL);

/*
 * Attempt to allocate a display structure. Return NULL if allocation fails.
 */
	if ((dpy = (Display *)Xcalloc(1, sizeof(Display))) == NULL) {
		return(NULL);
	}

/*
 * Call the Connect routine to get the transport connection object.
 * If NULL is returned, the connection failed. The connect routine
 * will set fullname to point to the expanded name.
 */

	if ((dpy->trans_conn = _X11TransConnectDisplay (
					 display_name, &fullname, &idisplay,
					 &iscreen, &conn_auth_name,
					 &conn_auth_namelen, &conn_auth_data,
					 &conn_auth_datalen)) == NULL) {
		Xfree ((char *) dpy);
		return(NULL);
	}

	dpy->fd = _X11TransGetConnectionNumber (dpy->trans_conn);

	/* Initialize as much of the display structure as we can.
	 * Initialize pointers to NULL so that XFreeDisplayStructure will
	 * work if we run out of memory before we finish initializing.
	 */
	dpy->display_name	= fullname;
	dpy->keysyms		= (KeySym *) NULL;
	dpy->modifiermap	= NULL;
	dpy->lock_meaning	= NoSymbol;
	dpy->keysyms_per_keycode = 0;
	dpy->xdefaults		= (char *)NULL;
	dpy->scratch_length	= 0L;
	dpy->scratch_buffer	= NULL;
	dpy->key_bindings	= NULL;
	dpy->ext_procs		= (_XExtension *)NULL;
	dpy->ext_data		= (XExtData *)NULL;
	dpy->ext_number 	= 0;
	dpy->event_vec[X_Error] = _XUnknownWireEvent;
	dpy->event_vec[X_Reply] = _XUnknownWireEvent;
	dpy->wire_vec[X_Error]  = _XUnknownNativeEvent;
	dpy->wire_vec[X_Reply]  = _XUnknownNativeEvent;
	for (i = KeyPress; i < LASTEvent; i++) {
	    dpy->event_vec[i] 	= _XWireToEvent;
	    dpy->wire_vec[i] 	= NULL;
	}
	for (i = LASTEvent; i < 128; i++) {
	    dpy->event_vec[i] 	= _XUnknownWireEvent;
	    dpy->wire_vec[i] 	= _XUnknownNativeEvent;
	}
	dpy->resource_id	= 0;
	dpy->db 		= (struct _XrmHashBucketRec *)NULL;
	dpy->cursor_font	= None;
	dpy->flags		= 0;
	dpy->async_handlers	= NULL;
	dpy->screens		= NULL;
	dpy->vendor		= NULL;
	dpy->buffer		= NULL;
	dpy->atoms		= NULL;
	dpy->error_vec		= NULL;
	dpy->context_db		= NULL;
	dpy->free_funcs		= NULL;
	dpy->pixmap_format	= NULL;
	dpy->cms.clientCmaps	= NULL;
	dpy->cms.defaultCCCs	= NULL;
	dpy->cms.perVisualIntensityMaps = NULL;
	dpy->im_filters		= NULL;
 	dpy->bigreq_size	= 0;
	dpy->lock		= NULL;
	dpy->lock_fns		= NULL;
	dpy->qfree		= NULL;
	dpy->next_event_serial_num = 1;
	dpy->im_fd_info		= NULL;
	dpy->im_fd_length	= 0;
	dpy->conn_watchers	= NULL;
	dpy->watcher_count	= 0;
	dpy->filedes		= NULL;
	dpy->flushes		= NULL;
	dpy->xcmisc_opcode	= 0;
	dpy->xkb_info		= NULL;

/*
 * Setup other information in this display structure.
 */
	dpy->vnumber = X_PROTOCOL;
	dpy->resource_alloc = _XAllocID;
	dpy->idlist_alloc = _XAllocIDs;
	dpy->synchandler = NULL;
	dpy->savedsynchandler = NULL;
	dpy->request = 0;
	dpy->last_request_read = 0;
	dpy->default_screen = iscreen;  /* Value returned by ConnectDisplay */
	dpy->last_req = (char *)&_dummy_request;

	/* Initialize the display lock */
	if (InitDisplayLock(dpy) != 0) {
	        OutOfMemory (dpy, setup);
		return(NULL);
	}

	if (!_XPollfdCacheInit(dpy)) {
	        OutOfMemory (dpy, setup);
		return(NULL);
	}	

	/* Set up the output buffers. */
	if ((dpy->bufptr = dpy->buffer = Xcalloc(1, BUFSIZE)) == NULL) {
	        OutOfMemory (dpy, setup);
		return(NULL);
	}
	dpy->bufmax = dpy->buffer + BUFSIZE;
 
	/* Set up the input event queue and input event queue parameters. */
	dpy->head = dpy->tail = NULL;
	dpy->qlen = 0;

	/* Set up free-function record */
	if ((dpy->free_funcs = (_XFreeFuncRec *)Xcalloc(1,
							sizeof(_XFreeFuncRec)))
	    == NULL) {
	    OutOfMemory (dpy, setup);
	    return(NULL);
	}

/*
 * The xConnClientPrefix describes the initial connection setup information
 * and is followed by the authorization information.  Sites that are interested
 * in security are strongly encouraged to use an authentication and 
 * authorization system such as Kerberos.
 */
	endian = 1;
	if (*(char *) &endian)
	    client.byteOrder = '\154'; /* 'l' */
	else
	    client.byteOrder = '\102'; /* 'B' */
	client.majorVersion = X_PROTOCOL;
	client.minorVersion = X_PROTOCOL_REVISION;
	client.nbytesAuthProto = conn_auth_namelen;
	client.nbytesAuthString = conn_auth_datalen;
	prefixread = _XSendClientPrefix(dpy, &client,
					conn_auth_name, conn_auth_data,
					&prefix);
	if (prefixread < 0)
	{
	    _XDisconnectDisplay (dpy->trans_conn);
	    Xfree ((char *)dpy);
	    return(NULL);
	}
	if (conn_auth_name) Xfree(conn_auth_name);
	if (conn_auth_data) Xfree(conn_auth_data);
/*
 * Now see if connection was accepted...
 */
	/* these internal functions expect the display to be locked */
	LockDisplay(dpy);

	if (prefixread == 0)
	    _XRead (dpy, (char *)&prefix,(long)SIZEOF(xConnSetupPrefix));

	/* an Authenticate reply we weren't expecting? */
	if (prefix.success != xTrue && prefix.success != xFalse) {
	    fprintf (stderr,
      "Xlib: unexpected connection setup reply from server, type %d.\r\n",
		     prefix.success);
	    _XDisconnectDisplay (dpy->trans_conn);
	    Xfree ((char *)dpy);
	    return(NULL);
	}

	if (prefix.majorVersion != X_PROTOCOL) {
	    /* XXX - printing messages marks a bad programming interface */
	    fprintf (stderr,
     "Xlib: client uses different protocol version (%d) than server (%d)!\r\n",
		     X_PROTOCOL, prefix.majorVersion);
	    _XDisconnectDisplay (dpy->trans_conn);
	    Xfree ((char *)dpy);
	    return(NULL);
	}

	setuplength = prefix.length << 2;
	if ( (u.setup = (xConnSetup *)
	      (setup =  Xmalloc ((unsigned) setuplength))) == NULL) {
		_XDisconnectDisplay (dpy->trans_conn);
		Xfree ((char *)dpy);
		return(NULL);
	}
	_XRead (dpy, (char *)u.setup, setuplength);
/*
 * If the connection was not accepted by the server due to problems,
 * give error message to the user....
 */
	if (prefix.success != xTrue) {
		/* XXX - printing messages marks a bad programming interface */
		fprintf (stderr, 
		      "Xlib: connection to \"%s\" refused by server\r\nXlib: ",
			 fullname);
		(void) fwrite (u.failure, (Size_t)sizeof(char),
			       (Size_t)prefix.lengthReason, stderr);
		(void) fwrite ("\r\n", sizeof(char), 2, stderr);
		OutOfMemory(dpy, setup);
		return (NULL);
	}

/*
 * We succeeded at authorization, so let us move the data into
 * the display structure.
 */
	dpy->proto_major_version= prefix.majorVersion;
	dpy->proto_minor_version= prefix.minorVersion;
	dpy->release 		= u.setup->release;
	dpy->resource_base	= u.setup->ridBase;
	dpy->resource_mask	= u.setup->ridMask;
	dpy->min_keycode	= u.setup->minKeyCode;
	dpy->max_keycode	= u.setup->maxKeyCode;
	dpy->motion_buffer	= u.setup->motionBufferSize;
	dpy->nformats		= u.setup->numFormats;
	dpy->nscreens		= u.setup->numRoots;
	dpy->byte_order		= u.setup->imageByteOrder;
	dpy->bitmap_unit	= u.setup->bitmapScanlineUnit;
	dpy->bitmap_pad		= u.setup->bitmapScanlinePad;
	dpy->bitmap_bit_order   = u.setup->bitmapBitOrder;
	dpy->max_request_size	= u.setup->maxRequestSize;
	mask = dpy->resource_mask;
	dpy->resource_shift	= 0;
	if (!mask)
	{
	    fprintf (stderr, "Xlib: connection to \"%s\" invalid setup\n",
		     fullname);
	    OutOfMemory(dpy, setup);
	    return (NULL);
	}
    
	while (!(mask & 1)) {
	    dpy->resource_shift++;
	    mask = mask >> 1;
	}
	dpy->resource_max = (dpy->resource_mask >> dpy->resource_shift) - 5;
/*
 * now extract the vendor string...  String must be null terminated,
 * padded to multiple of 4 bytes.
 */
	dpy->vendor = (char *) Xmalloc((unsigned) (u.setup->nbytesVendor + 1));
	if (dpy->vendor == NULL) {
	    OutOfMemory(dpy, setup);
	    return (NULL);
	}
	vendorlen = u.setup->nbytesVendor;
 	u.setup = (xConnSetup *) (((char *) u.setup) + sz_xConnSetup);
  	(void) strncpy(dpy->vendor, u.vendor, vendorlen);
	dpy->vendor[vendorlen] = '\0';
 	vendorlen = (vendorlen + 3) & ~3;	/* round up */
/*
 * validate setup length
 */
	if ((int) setuplength - sz_xConnSetup - vendorlen < 0) {
	    OutOfMemory(dpy, setup);
	    return (NULL);
	}
	memmove (setup, u.vendor + vendorlen,
		 (int) setuplength - sz_xConnSetup - vendorlen);
 	u.vendor = setup;
/*
 * Now iterate down setup information.....
 */
	dpy->pixmap_format = 
	    (ScreenFormat *)Xmalloc(
		(unsigned) (dpy->nformats *sizeof(ScreenFormat)));
	if (dpy->pixmap_format == NULL) {
	        OutOfMemory (dpy, setup);
		return(NULL);
	}
/*
 * First decode the Z axis Screen format information.
 */
	for (i = 0; i < dpy->nformats; i++) {
	    register ScreenFormat *fmt = &dpy->pixmap_format[i];
	    fmt->depth = u.sf->depth;
	    fmt->bits_per_pixel = u.sf->bitsPerPixel;
	    fmt->scanline_pad = u.sf->scanLinePad;
	    fmt->ext_data = NULL;
	    u.sf = (xPixmapFormat *) (((char *) u.sf) + sz_xPixmapFormat);
	}

/*
 * next the Screen structures.
 */
	dpy->screens = 
	    (Screen *)Xmalloc((unsigned) dpy->nscreens*sizeof(Screen));
	if (dpy->screens == NULL) {
	        OutOfMemory (dpy, setup);
		return(NULL);
	}
/*
 * Now go deal with each screen structure.
 */
	for (i = 0; i < dpy->nscreens; i++) {
	    register Screen *sp = &dpy->screens[i];
	    VisualID root_visualID = u.rp->rootVisualID;
	    sp->display	    = dpy;
	    sp->root 	    = u.rp->windowId;
	    sp->cmap 	    = u.rp->defaultColormap;
	    sp->white_pixel = u.rp->whitePixel;
	    sp->black_pixel = u.rp->blackPixel;
	    sp->root_input_mask = u.rp->currentInputMask;
	    sp->width	    = u.rp->pixWidth;
	    sp->height	    = u.rp->pixHeight;
	    sp->mwidth	    = u.rp->mmWidth;
	    sp->mheight	    = u.rp->mmHeight;
	    sp->min_maps    = u.rp->minInstalledMaps;
	    sp->max_maps    = u.rp->maxInstalledMaps;
	    sp->backing_store= u.rp->backingStore;
	    sp->save_unders = u.rp->saveUnders;
	    sp->root_depth  = u.rp->rootDepth;
	    sp->ndepths	    = u.rp->nDepths;
	    sp->ext_data   = NULL;
	    u.rp = (xWindowRoot *) (((char *) u.rp) + sz_xWindowRoot);
/*
 * lets set up the depth structures.
 */
	    sp->depths = (Depth *)Xmalloc(
			(unsigned)sp->ndepths*sizeof(Depth));
	    if (sp->depths == NULL) {
		OutOfMemory (dpy, setup);
		return(NULL);
	    }
	    /*
	     * for all depths on this screen.
	     */
	    for (j = 0; j < sp->ndepths; j++) {
		Depth *dp = &sp->depths[j];
		dp->depth = u.dp->depth;
		dp->nvisuals = u.dp->nVisuals;
		u.dp = (xDepth *) (((char *) u.dp) + sz_xDepth);
		if (dp->nvisuals > 0) {
		    dp->visuals = 
		      (Visual *)Xmalloc((unsigned)dp->nvisuals*sizeof(Visual));
		    if (dp->visuals == NULL) {
			OutOfMemory (dpy, setup);
			return(NULL);
		    }
		    for (k = 0; k < dp->nvisuals; k++) {
			register Visual *vp = &dp->visuals[k];
			vp->visualid	= u.vp->visualID;
			vp->class	= u.vp->class;
			vp->bits_per_rgb= u.vp->bitsPerRGB;
			vp->map_entries	= u.vp->colormapEntries;
			vp->red_mask	= u.vp->redMask;
			vp->green_mask	= u.vp->greenMask;
			vp->blue_mask	= u.vp->blueMask;
			vp->ext_data	= NULL;
			u.vp = (xVisualType *) (((char *) u.vp) +
						sz_xVisualType);
		    }
		} else {
		    dp->visuals = (Visual *) NULL;
		}
	    }
	    sp->root_visual = _XVIDtoVisual(dpy, root_visualID);
	}
		

/*
 * Now start talking to the server to setup all other information...
 */

	Xfree (setup);	/* all finished with setup information */

/*
 * Make sure default screen is legal.
 */
	if (iscreen >= dpy->nscreens) {
	    OutOfMemory(dpy, (char *) NULL);
	    return(NULL);
	}

/*
 * finished calling internal routines, now unlock for external routines
 */
	UnlockDisplay(dpy);

/*
 * Set up other stuff clients are always going to use.
 */
	for (i = 0; i < dpy->nscreens; i++) {
	    register Screen *sp = &dpy->screens[i];
	    XGCValues values;
	    values.foreground = sp->black_pixel;
	    values.background = sp->white_pixel;
	    if ((sp->default_gc = XCreateGC (dpy, sp->root,
					     GCForeground|GCBackground,
					     &values)) == NULL) {
		OutOfMemory(dpy, (char *) NULL);
		return (NULL);
	    }
	}
/*
 * call into synchronization routine so that all programs can be
 * forced synchronous
 */
	(void) XSynchronize(dpy, _Xdebug);

/*
 * get availability of large requests, and
 * get the resource manager database off the root window.
 */
	LockDisplay(dpy);
	{
	    _XAsyncHandler async;
	    _XBigReqState async_state;
	    xQueryExtensionReq *qreq;
	    xGetPropertyReply reply;
	    xGetPropertyReq *req;
	    xBigReqEnableReq *breq;
	    xBigReqEnableReply brep;

	    GetReq(QueryExtension, qreq);
	    async_state.seq = dpy->request;
	    async_state.opcode = 0;
	    async.next = dpy->async_handlers;
	    async.handler = _XBigReqHandler;
	    async.data = (XPointer)&async_state;
	    dpy->async_handlers = &async;
	    qreq->nbytes = bignamelen;
	    qreq->length += (bignamelen+3)>>2;
	    Data(dpy, XBigReqExtensionName, bignamelen);

	    GetReq (GetProperty, req);
	    req->window = RootWindow(dpy, 0);
	    req->property = XA_RESOURCE_MANAGER;
	    req->type = XA_STRING;
	    req->delete = False;
	    req->longOffset = 0;
	    req->longLength = 100000000L;

	    if (_XReply (dpy, (xReply *) &reply, 0, xFalse)) {
		if (reply.format == 8 && reply.propertyType == XA_STRING &&
		    (reply.nItems + 1 > 0) &&
		    (reply.nItems <= req->longLength * 4) &&
		    (dpy->xdefaults = Xmalloc (reply.nItems + 1))) {
		    _XReadPad (dpy, dpy->xdefaults, reply.nItems);
		    dpy->xdefaults[reply.nItems] = '\0';
		}
		else if (reply.propertyType != None)
		    _XEatData(dpy, reply.nItems * (reply.format >> 3));
	    }
	    DeqAsyncHandler(dpy, &async);
	    if (async_state.opcode) {
		GetReq(BigReqEnable, breq);
		breq->reqType = async_state.opcode;
		breq->brReqType = X_BigReqEnable;
		if (_XReply(dpy, (xReply *)&brep, 0, xFalse))
		    dpy->bigreq_size = brep.max_request_size;
	    }
	}
	UnlockDisplay(dpy);

#ifdef MOTIFBC
	{
	    extern Display *_XHeadOfDisplayList;
	    _XHeadOfDisplayList = dpy;
	}
#endif
#ifdef XKB
	XkbUseExtension(dpy,NULL,NULL);
#endif
/*
 * and return successfully
 */
 	return(dpy);
}

static Bool
_XBigReqHandler(dpy, rep, buf, len, data)
    register Display *dpy;
    register xReply *rep;
    char *buf;
    int len;
    XPointer data;
{
    _XBigReqState *state;
    xQueryExtensionReply replbuf;
    xQueryExtensionReply *repl;

    state = (_XBigReqState *)data;
    if (dpy->last_request_read != state->seq)
	return False;
    if (rep->generic.type == X_Error)
	return True;
    repl = (xQueryExtensionReply *)
	_XGetAsyncReply(dpy, (char *)&replbuf, rep, buf, len,
			(SIZEOF(xQueryExtensionReply) - SIZEOF(xReply)) >> 2,
			True);
    if (repl->present)
	state->opcode = repl->major_opcode;
    return True;
}


/* XFreeDisplayStructure frees all the storage associated with a 
 * Display.  It is used by XOpenDisplay if it runs out of memory,
 * and also by XCloseDisplay.   It needs to check whether all pointers
 * are non-NULL before dereferencing them, since it may be called
 * by XOpenDisplay before the Display structure is fully formed.
 * XOpenDisplay must be sure to initialize all the pointers to NULL
 * before the first possible call on this.
 */

void _XFreeDisplayStructure(dpy)
	register Display *dpy;
{
	while (dpy->ext_procs) {
	    _XExtension *ext = dpy->ext_procs;
	    dpy->ext_procs = ext->next;
	    if (ext->name)
		Xfree (ext->name);
	    Xfree ((char *)ext);
	}
	if (dpy->im_filters)
	   (*dpy->free_funcs->im_filters)(dpy);
	if (dpy->cms.clientCmaps)
	   (*dpy->free_funcs->clientCmaps)(dpy);
	if (dpy->cms.defaultCCCs)
	   (*dpy->free_funcs->defaultCCCs)(dpy);
	if (dpy->cms.perVisualIntensityMaps)
	   (*dpy->free_funcs->intensityMaps)(dpy);
	if (dpy->atoms)
	    (*dpy->free_funcs->atoms)(dpy);
	if (dpy->modifiermap)
	   (*dpy->free_funcs->modifiermap)(dpy->modifiermap);
	if (dpy->key_bindings)
	   (*dpy->free_funcs->key_bindings)(dpy);
	if (dpy->context_db)
	   (*dpy->free_funcs->context_db)(dpy);
	if (dpy->xkb_info)
	   (*dpy->free_funcs->xkb)(dpy);

	if (dpy->screens) {
	    register int i;

            for (i = 0; i < dpy->nscreens; i++) {
		Screen *sp = &dpy->screens[i];

		if (sp->depths) {
		   register int j;

		   for (j = 0; j < sp->ndepths; j++) {
			Depth *dp = &sp->depths[j];

			if (dp->visuals) {
			   register int k;

			   for (k = 0; k < dp->nvisuals; k++)
			     _XFreeExtData (dp->visuals[k].ext_data);
			   Xfree ((char *) dp->visuals);
			   }
			}

		   Xfree ((char *) sp->depths);
		   }

		_XFreeExtData (sp->ext_data);
		}

	    Xfree ((char *)dpy->screens);
	    }
	
	if (dpy->pixmap_format) {
	    register int i;

	    for (i = 0; i < dpy->nformats; i++)
	      _XFreeExtData (dpy->pixmap_format[i].ext_data);
            Xfree ((char *)dpy->pixmap_format);
	    }

	if (dpy->display_name)
	   Xfree (dpy->display_name);
	if (dpy->vendor)
	   Xfree (dpy->vendor);

        if (dpy->buffer)
	   Xfree (dpy->buffer);
	if (dpy->keysyms)
	   Xfree ((char *) dpy->keysyms);
	if (dpy->xdefaults)
	   Xfree (dpy->xdefaults);
	if (dpy->error_vec)
	    Xfree ((char *)dpy->error_vec);

	_XFreeExtData (dpy->ext_data);
	if (dpy->free_funcs)
	    Xfree ((char *)dpy->free_funcs);
 	if (dpy->scratch_buffer)
 	    Xfree (dpy->scratch_buffer);
	FreeDisplayLock(dpy);

	if (dpy->qfree) {
	    register _XQEvent *qelt = dpy->qfree;

	    while (qelt) {
		register _XQEvent *qnxt = qelt->next;
		Xfree ((char *) qelt);
		qelt = qnxt;
	    }
	}
	while (dpy->im_fd_info) {
	    struct _XConnectionInfo *conni = dpy->im_fd_info;
	    dpy->im_fd_info = conni->next;
	    if (conni->watch_data)
		Xfree (conni->watch_data);
	    Xfree (conni);
	}
	if (dpy->conn_watchers) {
	    struct _XConnWatchInfo *watcher = dpy->conn_watchers;
	    dpy->conn_watchers = watcher->next;
	    Xfree (watcher);
	}
	if (dpy->filedes)
	    Xfree (dpy->filedes);

	Xfree ((char *)dpy);
}

/* OutOfMemory is called if malloc fails.  XOpenDisplay returns NULL
   after this returns. */

static void OutOfMemory (dpy, setup)
    Display *dpy;
    char *setup;
{
    _XDisconnectDisplay (dpy->trans_conn);
    _XFreeDisplayStructure (dpy);
    if (setup) Xfree (setup);
}