1 files changed, 1095 insertions, 1095 deletions

diff --git a/libXt/src/Convert.c b/libXt/src/Convert.c
index 5b4603a1d..cea8fd3ed 100644
--- a/libXt/src/Convert.c
+++ b/libXt/src/Convert.c
@@ -1,1095 +1,1095 @@
-/***********************************************************

-Copyright (c) 1993, Oracle and/or its affiliates. All rights reserved.

-

-Permission is hereby granted, free of charge, to any person obtaining a

-copy of this software and associated documentation files (the "Software"),

-to deal in the Software without restriction, including without limitation

-the rights to use, copy, modify, merge, publish, distribute, sublicense,

-and/or sell copies of the Software, and to permit persons to whom the

-Software is furnished to do so, subject to the following conditions:

-

-The above copyright notice and this permission notice (including the next

-paragraph) 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 AUTHORS OR COPYRIGHT HOLDERS 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.

-

-Copyright 1987, 1988 by Digital Equipment Corporation, Maynard, Massachusetts.

-

-                        All Rights Reserved

-

-Permission to use, copy, modify, and distribute this software and its

-documentation for any purpose and without fee is hereby granted,

-provided that the above copyright notice appear in all copies and that

-both that copyright notice and this permission notice appear in

-supporting documentation, and that the name of Digital not be

-used in advertising or publicity pertaining to distribution of the

-software without specific, written prior permission.

-

-DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING

-ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL

-DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR

-ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,

-WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,

-ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS

-SOFTWARE.

-

-******************************************************************/

-

-/*

-

-Copyright 1987, 1988, 1998  The Open Group

-

-Permission to use, copy, modify, distribute, and sell this software and its

-documentation for any purpose is hereby granted without fee, provided that

-the above copyright notice appear in all copies and that both that

-copyright notice and this permission notice appear in supporting

-documentation.

-

-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.

-

-*/

-

-#ifdef HAVE_CONFIG_H

-#include <config.h>

-#endif

-#include	"IntrinsicI.h"

-#include	"StringDefs.h"

-#include	"Intrinsic.h"

-

-/* Conversion procedure hash table */

-

-#define CONVERTHASHSIZE	((unsigned)256)

-#define CONVERTHASHMASK	255

-#define ProcHash(from_type, to_type) (2 * (from_type) + to_type)

-

-typedef struct _ConverterRec *ConverterPtr;

-typedef struct _ConverterRec {

-    ConverterPtr	next;

-    XrmRepresentation	from, to;

-    XtTypeConverter	converter;

-    XtDestructor	destructor;

-    unsigned short	num_args;

-    unsigned int	do_ref_count:1;

-    unsigned int	new_style:1;

-    unsigned int	global:1;

-    char		cache_type;

-} ConverterRec;

-

-#define ConvertArgs(p) ((XtConvertArgList)((p)+1))

-

-/* used for old-style type converter cache only */

-static Heap globalHeap = {NULL, NULL, 0};

-

-void _XtSetDefaultConverterTable(

-	ConverterTable *table)

-{

-    register ConverterTable globalConverterTable;

-

-    LOCK_PROCESS;

-    globalConverterTable = _XtGetProcessContext()->globalConverterTable;

-

-    *table = (ConverterTable)

-	__XtCalloc(CONVERTHASHSIZE, (unsigned)sizeof(ConverterPtr));

-    _XtAddDefaultConverters(*table);

-

-    if (globalConverterTable) {

-	ConverterPtr rec;

-	int i;

-	XtCacheType cache_type;

-	for (i = CONVERTHASHSIZE; --i >= 0; ) {

-	    for (rec = *globalConverterTable++; rec; rec = rec->next) {

-		cache_type = rec->cache_type;

-		if (rec->do_ref_count)

-		    cache_type |= XtCacheRefCount;

-	       _XtTableAddConverter(*table, rec->from, rec->to, rec->converter,

-				    ConvertArgs(rec), rec->num_args,

-				    rec->new_style, cache_type,

-				    rec->destructor, True);

-	    }

-  	}

-    }

-    UNLOCK_PROCESS;

-}

-

-void _XtFreeConverterTable(

-	ConverterTable table)

-{

-	register Cardinal i;

-	register ConverterPtr p;

-

-	for (i = 0; i < CONVERTHASHSIZE; i++) {

-	    for (p = table[i]; p; ) {

-		register ConverterPtr next = p->next;

-		XtFree((char*)p);

-		p = next;

-	    }

-	}

-	XtFree((char*)table);

-}

-

-/* Data cache hash table */

-

-typedef struct _CacheRec *CachePtr;

-

-typedef struct _CacheRec {

-    CachePtr	next;

-    XtPointer	tag;

-    int		hash;

-    XtTypeConverter converter;

-    unsigned short num_args;

-    unsigned int conversion_succeeded:1;

-    unsigned int has_ext:1;

-    unsigned int is_refcounted:1;

-    unsigned int must_be_freed:1;

-    unsigned int from_is_value:1;

-    unsigned int to_is_value:1;

-    XrmValue	from;

-    XrmValue	to;

-} CacheRec;

-

-typedef struct _CacheRecExt {

-    CachePtr	*prev;

-    XtDestructor destructor;

-    XtPointer	 closure;

-    long	 ref_count;

-} CacheRecExt;

-

-#define CEXT(p) ((CacheRecExt *)((p)+1))

-#define CARGS(p) ((p)->has_ext ? (XrmValue *)(CEXT(p)+1) : (XrmValue *)((p)+1))

-

-#define CACHEHASHSIZE	256

-#define CACHEHASHMASK	255

-typedef CachePtr CacheHashTable[CACHEHASHSIZE];

-

-static CacheHashTable	cacheHashTable;

-

-void _XtTableAddConverter(

-    ConverterTable	table,

-    XrmRepresentation   from_type,

-    XrmRepresentation   to_type,

-    XtTypeConverter	converter,

-    XtConvertArgList    convert_args,

-    Cardinal		num_args,

-    _XtBoolean		new_style,

-    XtCacheType		cache_type,

-    XtDestructor	destructor,

-    _XtBoolean		global)

-{

-    register ConverterPtr	*pp;

-    register ConverterPtr	p;

-    XtConvertArgList args;

-

-    pp= &table[ProcHash(from_type, to_type) & CONVERTHASHMASK];

-    while ((p = *pp) && (p->from != from_type || p->to != to_type))

-	pp = &p->next;

-

-    if (p) {

-	*pp = p->next;

-	XtFree((char *)p);

-    }

-

-    p = (ConverterPtr) __XtMalloc(sizeof(ConverterRec) +

-				sizeof(XtConvertArgRec) * num_args);

-    p->next	    = *pp;

-    *pp = p;

-    p->from	    = from_type;

-    p->to	    = to_type;

-    p->converter    = converter;

-    p->destructor   = destructor;

-    p->num_args     = num_args;

-    p->global       = global;

-    args = ConvertArgs(p);

-    while (num_args--)

-	*args++ = *convert_args++;

-    p->new_style    = new_style;

-    p->do_ref_count = False;

-    if (destructor || (cache_type & 0xff)) {

-	p->cache_type = cache_type & 0xff;

-	if (cache_type & XtCacheRefCount)

-	    p->do_ref_count = True;

-    } else {

-	p->cache_type = XtCacheNone;

-    }

-}

-

-void XtSetTypeConverter(

-    register _Xconst char* from_type,

-    register _Xconst char* to_type,

-    XtTypeConverter	converter,

-    XtConvertArgList    convert_args,

-    Cardinal		num_args,

-    XtCacheType		cache_type,

-    XtDestructor	destructor

-    )

-{

-    ProcessContext process;

-    XtAppContext app;

-    XrmRepresentation from;

-    XrmRepresentation to;

-

-    LOCK_PROCESS;

-    process = _XtGetProcessContext();

-    app = process->appContextList;

-    from = XrmStringToRepresentation(from_type);

-    to = XrmStringToRepresentation(to_type);

-

-    if (!process->globalConverterTable) {

-	process->globalConverterTable = (ConverterTable)

-	    __XtCalloc(CONVERTHASHSIZE, (unsigned)sizeof(ConverterPtr));

-    }

-    _XtTableAddConverter(process->globalConverterTable, from, to,

-			 converter, convert_args,

-			 num_args, True, cache_type, destructor, True);

-    while (app) {

-	_XtTableAddConverter(app->converterTable, from, to,

-			     converter, convert_args,

-			     num_args, True, cache_type, destructor, True);

-	app = app->next;

-    }

-    UNLOCK_PROCESS;

-}

-

-void XtAppSetTypeConverter(

-    XtAppContext	app,

-    register _Xconst char* from_type,

-    register _Xconst char* to_type,

-    XtTypeConverter	converter,

-    XtConvertArgList    convert_args,

-    Cardinal		num_args,

-    XtCacheType		cache_type,

-    XtDestructor	destructor

-    )

-{

-    LOCK_PROCESS;

-    _XtTableAddConverter(app->converterTable,

-	XrmStringToRepresentation(from_type),

-        XrmStringToRepresentation(to_type),

-	converter, convert_args, num_args,

-	True, cache_type, destructor, False);

-    UNLOCK_PROCESS;

-}

-

-/* old interface */

-void XtAddConverter(

-    register _Xconst char* from_type,

-    register _Xconst char* to_type,

-    XtConverter		converter,

-    XtConvertArgList    convert_args,

-    Cardinal		num_args

-    )

-{

-    ProcessContext process;

-    XtAppContext app;

-    XrmRepresentation from;

-    XrmRepresentation to;

-

-    LOCK_PROCESS;

-    process = _XtGetProcessContext();

-    app = process->appContextList;

-    from = XrmStringToRepresentation(from_type);

-    to = XrmStringToRepresentation(to_type);

-

-    if (!process->globalConverterTable) {

-	process->globalConverterTable = (ConverterTable)

-	    __XtCalloc(CONVERTHASHSIZE, (unsigned)sizeof(ConverterPtr));

-    }

-    _XtTableAddConverter(process->globalConverterTable, from, to,

-			 (XtTypeConverter)converter, convert_args, num_args,

-			 False, XtCacheAll, (XtDestructor)NULL, True);

-    while (app) {

-	_XtTableAddConverter(app->converterTable, from, to,

-			     (XtTypeConverter)converter, convert_args,

-			     num_args, False, XtCacheAll, (XtDestructor)NULL,

-			     True);

-	app = app->next;

-    }

-    UNLOCK_PROCESS;

-}

-

-/* old interface */

-void XtAppAddConverter(

-    XtAppContext	app,

-    register _Xconst char* from_type,

-    register _Xconst char* to_type,

-    XtConverter		converter,

-    XtConvertArgList    convert_args,

-    Cardinal		num_args

-    )

-{

-    LOCK_PROCESS;

-    _XtTableAddConverter(app->converterTable,

-	XrmStringToRepresentation(from_type),

-        XrmStringToRepresentation(to_type),

-	(XtTypeConverter)converter, convert_args, num_args,

-	False, XtCacheAll, (XtDestructor)NULL, False);

-    UNLOCK_PROCESS;

-}

-

-static CachePtr

-CacheEnter(

-    Heap*		    heap,

-    register XtTypeConverter converter,

-    register XrmValuePtr    args,

-    Cardinal		    num_args,

-    XrmValuePtr		    from,

-    XrmValuePtr		    to,

-    Boolean		    succeeded,

-    register int	    hash,

-    Boolean		    do_ref,

-    Boolean		    do_free,

-    XtDestructor	    destructor,

-    XtPointer		    closure)

-{

-    register	CachePtr *pHashEntry;

-    register	CachePtr p;

-    register    Cardinal i;

-

-    LOCK_PROCESS;

-    pHashEntry = &cacheHashTable[hash & CACHEHASHMASK];

-

-    if ((succeeded && destructor) || do_ref) {

-	p = (CachePtr) _XtHeapAlloc(heap, (sizeof(CacheRec) +

-					   sizeof(CacheRecExt) +

-					   num_args * sizeof(XrmValue)));

-	CEXT(p)->prev = pHashEntry;

-	CEXT(p)->destructor = succeeded ? destructor : NULL;

-	CEXT(p)->closure = closure;

-	CEXT(p)->ref_count = 1;

-	p->has_ext = True;

-    }

-    else {

-	p = (CachePtr)_XtHeapAlloc(heap, (sizeof(CacheRec) +

-					  num_args * sizeof(XrmValue)));

-	p->has_ext = False;

-    }

-    if (!to->addr)

-	succeeded = False;

-    p->conversion_succeeded = succeeded;

-    p->is_refcounted = do_ref;

-    p->must_be_freed = do_free;

-    p->next	    = *pHashEntry;

-    if (p->next && p->next->has_ext)

-	CEXT(p->next)->prev = &p->next;

-

-    *pHashEntry     = p;

-    p->tag	    = (XtPointer)heap;

-    p->hash	    = hash;

-    p->converter    = converter;

-    p->from.size    = from->size;

-    if (from->size <= sizeof(p->from.addr)) {

-	p->from_is_value = True;

-	XtMemmove(&p->from.addr, from->addr, from->size);

-    } else {

-	p->from_is_value = False;

-	p->from.addr = (XPointer)_XtHeapAlloc(heap, from->size);

-	(void) memmove((char *)p->from.addr, (char *)from->addr, from->size);

-    }

-    p->num_args = num_args;

-    if (num_args) {

-	XrmValue *pargs = CARGS(p);

-	for (i = 0; i < num_args; i++) {

-	    pargs[i].size = args[i].size;

-	    pargs[i].addr = (XPointer)_XtHeapAlloc(heap, args[i].size);

-	    XtMemmove(pargs[i].addr, args[i].addr, args[i].size);

-	}

-    }

-    p->to.size = to->size;

-    if (!succeeded) {

-	p->to_is_value = False;

-	p->to.addr = NULL;

-    } else if (to->size <= sizeof(p->to.addr)) {

-	p->to_is_value = True;

-	XtMemmove(&p->to.addr, to->addr, to->size);

-    } else {

-	p->to_is_value = False;

-	p->to.addr = (XPointer)_XtHeapAlloc(heap, to->size);

-	(void) memmove((char *)p->to.addr, (char *)to->addr, to->size);

-    }

-    UNLOCK_PROCESS;

-    return p;

-}

-

-static void FreeCacheRec(

-    XtAppContext app,

-    CachePtr p,

-    CachePtr *prev)

-{

-    LOCK_PROCESS;

-    if (p->has_ext) {

-	if (CEXT(p)->destructor) {

-	    Cardinal num_args = p->num_args;

-	    XrmValue *args = NULL;

-	    XrmValue toc;

-	    if (num_args)

-		args = CARGS(p);

-	    toc.size = p->to.size;

-	    if (p->to_is_value)

-		toc.addr = (XPointer)&p->to.addr;

-	    else

-		toc.addr = p->to.addr;

-	    (*CEXT(p)->destructor) (app, &toc, CEXT(p)->closure, args,

-				    &num_args);

-	}

-	*(CEXT(p)->prev) = p->next;

-	if (p->next && p->next->has_ext)

-	    CEXT(p->next)->prev = CEXT(p)->prev;

-    } else {

-	*prev = p->next;

-	if (p->next && p->next->has_ext)

-	    CEXT(p->next)->prev = prev;

-    }

-    if (p->must_be_freed) {

-	register int i;

-	if (!p->from_is_value)

-	    XtFree(p->from.addr);

-	if ((i = p->num_args)) {

-	    XrmValue *pargs = CARGS(p);

-	    while (i--)

-		XtFree(pargs[i].addr);

-	}

-	if (!p->to_is_value)

-	    XtFree(p->to.addr);

-	XtFree((char*)p);

-    }

-    /* else on private heap; will free entire heap later */

-    UNLOCK_PROCESS;

-}

-

-

-void _XtCacheFlushTag(

-    XtAppContext app,

-    XtPointer	tag)

-{

-    int i;

-    register CachePtr *prev;

-    register CachePtr rec;

-

-    LOCK_PROCESS;

-    for (i = CACHEHASHSIZE; --i >= 0;) {

-	prev = &cacheHashTable[i];

-	while ((rec = *prev)) {

-	    if (rec->tag == tag)

-		FreeCacheRec(app, rec, prev);

-	    else

-		prev = &rec->next;

-	}

-    }

-    UNLOCK_PROCESS;

-}

-

-#ifdef DEBUG

-#include	<stdio.h>

-

-void _XtConverterCacheStats(void)

-{

-    register Cardinal i;

-    register CachePtr p;

-    register Cardinal entries;

-

-    LOCK_PROCESS;

-    for (i = 0; i < CACHEHASHSIZE; i++) {

-	p = cacheHashTable[i];

-	if (p) {

-	    for (entries = 0; p; p = p->next) {

-		entries++;

-	    }

-	    (void) fprintf(stdout, "Index: %4d  Entries: %d\n", i, entries);

-	    for (p = cacheHashTable[i]; p; p = p->next) {

-		(void) fprintf(stdout, "    Size: %3d  Refs: %3d  '",

-			       p->from.size,

-			       p->has_ext ? CEXT(p)->ref_count : 0);

-		(void) fprintf(stdout, "'\n");

-	    }

-	    (void) fprintf(stdout, "\n");

-	}

-    }

-    UNLOCK_PROCESS;

-}

-#endif /*DEBUG*/

-

-static Boolean ResourceQuarkToOffset(

-    WidgetClass widget_class,

-    XrmName     name,

-    Cardinal    *offset)

-{

-    register WidgetClass     wc;

-    register Cardinal        i;

-    register XrmResourceList res, *resources;

-

-    for (wc = widget_class; wc; wc = wc->core_class.superclass) {

-	resources = (XrmResourceList*) wc->core_class.resources;

-	for (i = 0; i < wc->core_class.num_resources; i++, resources++) {

-	    res = *resources;

-	    if (res->xrm_name == name) {

-		*offset = -res->xrm_offset - 1;

-		return True;

-	    }

-	} /* for i in resources */

-    } /* for wc in widget classes */

-    (*offset) = 0;

-    return False;

-}

-

-

-static void ComputeArgs(

-    Widget		widget,

-    XtConvertArgList    convert_args,

-    Cardinal		num_args,

-    XrmValuePtr		args)

-{

-    register Cardinal   i;

-    Cardinal		offset;

-    String              params[1];

-    Cardinal		num_params = 1;

-    Widget		ancestor = NULL;

-

-    for (i = 0; i < num_args; i++) {

-	args[i].size = convert_args[i].size;

-	switch (convert_args[i].address_mode) {

-	case XtAddress:

-	    args[i].addr = convert_args[i].address_id;

-	    break;

-

-	case XtBaseOffset:

-	    args[i].addr =

-		(XPointer)((char *)widget + (long)convert_args[i].address_id);

-	    break;

-

-	case XtWidgetBaseOffset:

-	    if (!ancestor) {

-		if (XtIsWidget(widget))

-		    ancestor = widget;

-		else

-		    ancestor = _XtWindowedAncestor(widget);

-	    }

-

-	    args[i].addr =

-		(XPointer)((char *)ancestor + (long)convert_args[i].address_id);

-	    break;

-

-	case XtImmediate:

-	    args[i].addr = (XPointer) &(convert_args[i].address_id);

-	    break;

-

-	case XtProcedureArg:

-	    (*(XtConvertArgProc)convert_args[i].address_id)

-		(widget, &convert_args[i].size, &args[i]);

-	    break;

-

-	case XtResourceString:

-	    /* Convert in place for next usage */

-	    convert_args[i].address_mode = XtResourceQuark;

-	    convert_args[i].address_id =

-	       (XtPointer)(long)XrmStringToQuark((String)convert_args[i].address_id);

-	    /* Fall through */

-

-	case XtResourceQuark:

-	    if (! ResourceQuarkToOffset(widget->core.widget_class,

-		    (XrmQuark)(long) convert_args[i].address_id, &offset)) {

-		params[0]=

-                  XrmQuarkToString((XrmQuark)(long) convert_args[i].address_id);

-               XtAppWarningMsg(XtWidgetToApplicationContext(widget),

-		    "invalidResourceName","computeArgs",XtCXtToolkitError,

-		    "Cannot find resource name %s as argument to conversion",

-                     params,&num_params);

-		offset = 0;

-	    }

-	    args[i].addr = (XPointer)((char *)widget + offset);

-	    break;

-	default:

-	    params[0] = XtName(widget);

-	    XtAppWarningMsg(XtWidgetToApplicationContext(widget),

-		"invalidAddressMode", "computeArgs", XtCXtToolkitError,

-		"Conversion arguments for widget '%s' contain an unsupported address mode",

-			params,&num_params);

-	    args[i].addr = NULL;

-	    args[i].size = 0;

-	} /* switch */

-    } /* for */

-} /* ComputeArgs */

-

-void XtDirectConvert(

-    XtConverter     converter,

-    XrmValuePtr     args,

-    Cardinal	    num_args,

-    register XrmValuePtr from,

-    XrmValuePtr     to)

-{

-    register CachePtr   p;

-    register int	hash;

-    register Cardinal   i;

-

-    LOCK_PROCESS;

-    /* Try to find cache entry for conversion */

-    hash = ((long) converter >> 2) + from->size + *((char *) from->addr);

-    if (from->size > 1) hash += ((char *) from->addr)[1];

-

-    for (p = cacheHashTable[hash & CACHEHASHMASK]; p; p = p->next) {

-	if ((p->hash == hash)

-	 && (p->converter == (XtTypeConverter)converter)

-	 && (p->from.size == from->size)

-	 && !(p->from_is_value ?

-	      XtMemcmp(&p->from.addr, from->addr, from->size) :

-	      memcmp((char *)p->from.addr, (char *)from->addr, from->size))

-         && (p->num_args == num_args)) {

-	    if ((i = num_args)) {

-		XrmValue *pargs = CARGS(p);

-		/* Are all args the same data ? */

-		while (i) {

-		    i--; /* do not move to while test, broken compilers */

-		    if (pargs[i].size != args[i].size ||

-			XtMemcmp(pargs[i].addr, args[i].addr, args[i].size)) {

-			i++;

-			break;

-		    }

-		}

-	    }

-	    if (!i) {

-		/* Perfect match */

-		to->size = p->to.size;

-		if (p->to_is_value)

-		    to->addr = (XPointer)&p->to.addr;

-		else

-		    to->addr = p->to.addr;

-		UNLOCK_PROCESS;

-		return;

-	    }

-	}

-    }

-

-    /* Didn't find it, call converter procedure and entry result in cache */

-    (*to).size = 0;

-    (*to).addr = NULL;

-    (*converter)(args, &num_args, from, to);

-    /* This memory can never be freed since we don't know the Display

-     * or app context from which to compute the persistance */

-    {

-	CacheEnter(&globalHeap, (XtTypeConverter)converter, args, num_args,

-		   from, to, (to->addr != NULL), hash, False, False,

-		   (XtDestructor)NULL, NULL);

-    }

-    UNLOCK_PROCESS;

-}

-

-

-static ConverterPtr GetConverterEntry(

-    XtAppContext app,

-    XtTypeConverter converter)

-{

-    Cardinal entry;

-    register ConverterPtr cP;

-    ConverterTable converterTable;

-

-    LOCK_PROCESS;

-    converterTable = app->converterTable;

-    cP = NULL;

-    for (entry = 0; (entry < CONVERTHASHSIZE) && !cP; entry++) {

-	cP = converterTable[entry];

-	while (cP && (cP->converter != converter)) cP = cP->next;

-    }

-    UNLOCK_PROCESS;

-    return cP;

-}

-

-

-static Boolean

-CallConverter(

-    Display*	    dpy,

-    XtTypeConverter converter,

-    XrmValuePtr     args,

-    Cardinal	    num_args,

-    register XrmValuePtr from,

-    XrmValuePtr     to,

-    XtCacheRef	    *cache_ref_return,

-    register ConverterPtr cP)

-{

-    CachePtr p;

-    int	hash;

-    Cardinal i;

-    Boolean retval;

-

-    if (!cP || ((cP->cache_type == XtCacheNone) && !cP->destructor)) {

-	XtPointer closure;

-	if (cache_ref_return) *cache_ref_return = NULL;

-	retval = (*(XtTypeConverter)converter)

-	    (dpy, args, &num_args, from, to, &closure);

-	return retval;

-    }

-

-    LOCK_PROCESS;

-    /* Try to find cache entry for conversion */

-    hash = ((long)(converter) >> 2) + from->size + *((char *) from->addr);

-    if (from->size > 1) hash += ((char *) from->addr)[1];

-

-    if (cP->cache_type != XtCacheNone) {

-	for (p = cacheHashTable[hash & CACHEHASHMASK]; p; p = p->next){

-	    if ((p->hash == hash)

-	     && (p->converter == converter)

-	     && (p->from.size == from->size)

-	     && !(p->from_is_value ?

-		  XtMemcmp(&p->from.addr, from->addr, from->size) :

-		  memcmp((char *)p->from.addr, (char *)from->addr, from->size))

-	     && (p->num_args == num_args)) {

-		if ((i = num_args)) {

-		    XrmValue *pargs = CARGS(p);

-		    /* Are all args the same data ? */

-		    while (i) {

-			i--; /* do not move to while test, broken compilers */

-			if (pargs[i].size != args[i].size ||

-			    XtMemcmp(pargs[i].addr, args[i].addr, args[i].size)){

-			    i++;

-			    break;

-			}

-		    }

-		}

-		if (!i) {

-		    /* Perfect match */

-		    if (p->conversion_succeeded) {

-			if (to->addr) {	/* new-style call */

-			    if (to->size < p->to.size) {

-				to->size = p->to.size;

-				UNLOCK_PROCESS;

-				return False;

-			    }

-			    to->size = p->to.size;

-			    if (p->to_is_value) {

-				XtMemmove(to->addr, &p->to.addr,

-					  to->size);

-			    } else {

-				(void) memmove((char *)to->addr,

-					       (char *)p->to.addr, to->size);

-			    }

-			} else {	/* old-style call */

-			    to->size = p->to.size;

-			    if (p->to_is_value)

-				to->addr = (XPointer)&p->to.addr;

-			    else

-				to->addr = p->to.addr;

-			}

-		    }

-		    if (p->is_refcounted) {

-			CEXT(p)->ref_count++;

-			if (cache_ref_return)

-			    *cache_ref_return = (XtCacheRef)p;

-			else

-			    p->is_refcounted = False;

-		    }

-		    else {

-			if (cache_ref_return)

-			    *cache_ref_return = NULL;

-		    }

-		    retval = (p->conversion_succeeded);

-		    UNLOCK_PROCESS;

-		    return retval;

-		}

-	    }

-	}

-    }

-

-    /* No cache entry, call converter procedure and enter result in cache */

-    {

-	Heap *heap;

-	XtPointer closure = NULL;

-	unsigned int supplied_size = to->size;

-	Boolean do_ref = cP->do_ref_count && cache_ref_return;

-	Boolean do_free = False;

-	Boolean retval =

-	    (*(XtTypeConverter)converter)(dpy, args, &num_args, from, to, &closure);

-

-	if (retval == False && supplied_size < to->size) {

-	    /* programmer error: caller must allocate sufficient storage */

-	    if (cache_ref_return)

-		*cache_ref_return = NULL;

-	    UNLOCK_PROCESS;

-	    return False;

-	}

-

-	if ((cP->cache_type == XtCacheNone) || do_ref) {

-	    heap = NULL;

-	    do_free = True;

-	}

-	else if (cP->cache_type == XtCacheByDisplay)

-	    heap = &_XtGetPerDisplay(dpy)->heap;

-	else if (cP->global)

-	    heap = &globalHeap;

-	else

-	    heap = &XtDisplayToApplicationContext(dpy)->heap;

-

-	p = CacheEnter(heap, converter, args, num_args, from, to, retval,

-		       hash, do_ref, do_free, cP->destructor, closure);

-	if (do_ref)

-	    *cache_ref_return = (XtCacheRef)p;

-	else if (cache_ref_return)

-	    *cache_ref_return = NULL;

-	UNLOCK_PROCESS;

-	return retval;

-    }

-}

-

-Boolean

-XtCallConverter(

-    Display*	    dpy,

-    XtTypeConverter converter,

-    XrmValuePtr     args,

-    Cardinal	    num_args,

-    register XrmValuePtr from,

-    XrmValuePtr     to,

-    XtCacheRef	    *cache_ref_return)

-{

-    ConverterPtr cP;

-    Boolean retval;

-    XtAppContext app = XtDisplayToApplicationContext(dpy);

-

-    LOCK_APP(app);

-    if ((cP = GetConverterEntry(app, converter)) == NULL) {

-	XtAppSetTypeConverter(XtDisplayToApplicationContext(dpy),

-			      "_XtUnk1", "_XtUnk2",

-			      converter, NULL, 0,

-			      XtCacheAll, NULL);

-	cP = GetConverterEntry(app, converter);

-    }

-    retval = CallConverter(dpy, converter, args, num_args, from, to,

-			    cache_ref_return, cP);

-    UNLOCK_APP(app);

-    return retval;

-}

-

-Boolean _XtConvert(

-             Widget		widget,

-    register XrmRepresentation	from_type,

-	     XrmValuePtr	from,

-    register XrmRepresentation	to_type,

-    register XrmValuePtr	to,

-    XtCacheRef			*cache_ref_return)

-{

-    XtAppContext	app = XtWidgetToApplicationContext(widget);

-    register ConverterPtr	p;

-    Cardinal		num_args;

-    XrmValue		*args;

-

-    /* Look for type converter */

-    LOCK_PROCESS;

-    p = app->converterTable[ProcHash(from_type, to_type) & CONVERTHASHMASK];

-    for (; p; p = p->next) {

-	if (from_type == p->from && to_type == p->to) {

-	    Boolean retval = False;

-	    /* Compute actual arguments from widget and arg descriptor */

-	    num_args = p->num_args;

-	    if (num_args != 0) {

-		args = (XrmValue*)

-		    ALLOCATE_LOCAL( num_args * sizeof (XrmValue) );

-		if (!args) _XtAllocError("alloca");

-		ComputeArgs(widget, ConvertArgs(p), num_args, args);

-	    } else args = NULL;

-	    if (p->new_style) {

-		retval =

-		    CallConverter(XtDisplayOfObject(widget),

-				     p->converter, args, num_args,

-				     from, to, cache_ref_return, p);

-	    }

-	    else { /* is old-style (non-display) converter */

-		XrmValue tempTo;

-		XtDirectConvert((XtConverter)p->converter, args, num_args,

-				from, &tempTo);

-		if (cache_ref_return)

-		    *cache_ref_return = NULL;

-		if (tempTo.addr) {

-		    if (to->addr) {	/* new-style caller */

-			if (to->size >= tempTo.size) {

-			    if (to_type == _XtQString)

-				*(String*)(to->addr) = tempTo.addr;

-			    else {

-				XtMemmove(to->addr, tempTo.addr,

-					  tempTo.size);

-			    }

-			    retval = True;

-			}

-			to->size = tempTo.size;

-		    } else {		/* old-style caller */

-			*to = tempTo;

-			retval = True;

-		    }

-		}

-	    }

-	    if (args) DEALLOCATE_LOCAL( (XtPointer)args );

-	    UNLOCK_PROCESS;

-	    return retval;

-	}

-    }

-

-    {

-	String params[2];

-	Cardinal num_params = 2;

-	params[0] = XrmRepresentationToString(from_type);

-	params[1] = XrmRepresentationToString(to_type);

-	XtAppWarningMsg(app, "typeConversionError", "noConverter", XtCXtToolkitError,

-	     "No type converter registered for '%s' to '%s' conversion.",

-             params, &num_params);

-    }

-    UNLOCK_PROCESS;

-    return False;

-}

-

-void XtConvert(

-    Widget	widget,

-    _Xconst char* from_type_str,

-    XrmValuePtr	from,

-    _Xconst char* to_type_str,

-    XrmValuePtr	to)

-{

-    XrmQuark    from_type, to_type;

-    WIDGET_TO_APPCON(widget);

-

-    LOCK_APP(app);

-    from_type = XrmStringToRepresentation(from_type_str);

-    to_type = XrmStringToRepresentation(to_type_str);

-    if (from_type != to_type) {

-	/*  It's not safe to ref count these resources, 'cause we

-	    don't know what older clients may have assumed about

-	    the resource lifetimes.

-	XtCacheRef ref;

-	*/

-	to->addr = NULL;

-	to->size = 0;

-	_XtConvert(widget, from_type, from, to_type, to, /*&ref*/ NULL);

-	/*

-	if (ref) {

-	    XtAddCallback( widget, XtNdestroyCallback,

-			   XtCallbackReleaseCacheRef, (XtPointer)ref );

-	}

-	*/

-    }

-    else

-	(*to) = *from;

-    UNLOCK_APP(app);

-}

-

-Boolean XtConvertAndStore(

-    Widget	object,

-    _Xconst char* from_type_str,

-    XrmValuePtr	from,

-    _Xconst char* to_type_str,

-    XrmValuePtr	to)

-{

-    XrmQuark    from_type, to_type;

-    WIDGET_TO_APPCON(object);

-

-    LOCK_APP(app);

-    LOCK_PROCESS;

-    from_type = XrmStringToRepresentation(from_type_str);

-    to_type = XrmStringToRepresentation(to_type_str);

-    if (from_type != to_type) {

-	static XtPointer local_valueP = NULL;

-	static Cardinal local_valueS = 128;

-	XtCacheRef ref;

-	Boolean local = False;

-	do {

-	    if (!to->addr) {

-		if (!local_valueP)

-		    local_valueP = _XtHeapAlloc(&globalHeap, local_valueS);

-		to->addr = local_valueP;

-		to->size = local_valueS;

-		local = True;

-	    }

-	    if (!_XtConvert(object, from_type, from, to_type, to, &ref)) {

-		if (local && (to->size > local_valueS)) {

-		    to->addr =

-			local_valueP = _XtHeapAlloc(&globalHeap, to->size);

-		    local_valueS = to->size;

-		    continue;

-		} else {

-		    if (local) {

-			to->addr = NULL;

-			to->size = 0;

-		    }

-		    UNLOCK_PROCESS;

-		    UNLOCK_APP(app);

-		    return False;

-		}

-	    }

-	    if (ref) {

-		XtAddCallback( object, XtNdestroyCallback,

-			       XtCallbackReleaseCacheRef, (XtPointer)ref );

-	    }

-	    UNLOCK_PROCESS;

-	    UNLOCK_APP(app);

-	    return True;

-	} while (local /* && local_valueS < to->size */);

-    }

-    if (to->addr) {

-	if (to->size < from->size) {

-	    to->size = from->size;

-	    UNLOCK_PROCESS;

-	    UNLOCK_APP(app);

-	    return False;

-	}

-	(void) memmove(to->addr, from->addr, from->size );

-	to->size = from->size;

-    } else			/* from_type == to_type */

-	*to = *from;

-    UNLOCK_PROCESS;

-    UNLOCK_APP(app);

-    return True;

-}

-

-void XtAppReleaseCacheRefs(

-    XtAppContext app,

-    XtCacheRef *refs)

-{

-    register CachePtr *r;

-    register CachePtr p;

-

-    LOCK_APP(app);

-    LOCK_PROCESS;

-    for (r = (CachePtr*)refs; (p = *r); r++) {

-	if (p->is_refcounted && --(CEXT(p)->ref_count) == 0) {

-	    FreeCacheRec(app, p, NULL);

-	}

-    }

-    UNLOCK_PROCESS;

-    UNLOCK_APP(app);

-}

-

-

-/* ARGSUSED */

-void XtCallbackReleaseCacheRefList(

-    Widget widget,		/* unused */

-    XtPointer closure,

-    XtPointer call_data)	/* unused */

-{

-    XtAppReleaseCacheRefs( XtWidgetToApplicationContext(widget),

-			   (XtCacheRef*)closure );

-    XtFree(closure);

-}

-

-

-/* ARGSUSED */

-void XtCallbackReleaseCacheRef(

-    Widget widget,		/* unused */

-    XtPointer closure,

-    XtPointer call_data)	/* unused */

-{

-    XtCacheRef cache_refs[2];

-    cache_refs[0] = (XtCacheRef)closure;

-    cache_refs[1] = NULL;

-    XtAppReleaseCacheRefs( XtWidgetToApplicationContext(widget), cache_refs );

-}

+/***********************************************************
+Copyright (c) 1993, Oracle and/or its affiliates. All rights reserved.
+
+Permission is hereby granted, free of charge, to any person obtaining a
+copy of this software and associated documentation files (the "Software"),
+to deal in the Software without restriction, including without limitation
+the rights to use, copy, modify, merge, publish, distribute, sublicense,
+and/or sell copies of the Software, and to permit persons to whom the
+Software is furnished to do so, subject to the following conditions:
+
+The above copyright notice and this permission notice (including the next
+paragraph) 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 AUTHORS OR COPYRIGHT HOLDERS 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.
+
+Copyright 1987, 1988 by Digital Equipment Corporation, Maynard, Massachusetts.
+
+                        All Rights Reserved
+
+Permission to use, copy, modify, and distribute this software and its
+documentation for any purpose and without fee is hereby granted,
+provided that the above copyright notice appear in all copies and that
+both that copyright notice and this permission notice appear in
+supporting documentation, and that the name of Digital not be
+used in advertising or publicity pertaining to distribution of the
+software without specific, written prior permission.
+
+DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
+ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
+DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
+ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
+WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
+ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
+SOFTWARE.
+
+******************************************************************/
+
+/*
+
+Copyright 1987, 1988, 1998  The Open Group
+
+Permission to use, copy, modify, distribute, and sell this software and its
+documentation for any purpose is hereby granted without fee, provided that
+the above copyright notice appear in all copies and that both that
+copyright notice and this permission notice appear in supporting
+documentation.
+
+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.
+
+*/
+
+#ifdef HAVE_CONFIG_H
+#include <config.h>
+#endif
+#include	"IntrinsicI.h"
+#include	"StringDefs.h"
+#include	"Intrinsic.h"
+
+/* Conversion procedure hash table */
+
+#define CONVERTHASHSIZE	((unsigned)256)
+#define CONVERTHASHMASK	255
+#define ProcHash(from_type, to_type) (2 * (from_type) + to_type)
+
+typedef struct _ConverterRec *ConverterPtr;
+typedef struct _ConverterRec {
+    ConverterPtr	next;
+    XrmRepresentation	from, to;
+    XtTypeConverter	converter;
+    XtDestructor	destructor;
+    unsigned short	num_args;
+    unsigned int	do_ref_count:1;
+    unsigned int	new_style:1;
+    unsigned int	global:1;
+    char		cache_type;
+} ConverterRec;
+
+#define ConvertArgs(p) ((XtConvertArgList)((p)+1))
+
+/* used for old-style type converter cache only */
+static Heap globalHeap = {NULL, NULL, 0};
+
+void _XtSetDefaultConverterTable(
+	ConverterTable *table)
+{
+    register ConverterTable globalConverterTable;
+
+    LOCK_PROCESS;
+    globalConverterTable = _XtGetProcessContext()->globalConverterTable;
+
+    *table = (ConverterTable)
+	__XtCalloc(CONVERTHASHSIZE, (unsigned)sizeof(ConverterPtr));
+    _XtAddDefaultConverters(*table);
+
+    if (globalConverterTable) {
+	ConverterPtr rec;
+	int i;
+	XtCacheType cache_type;
+	for (i = CONVERTHASHSIZE; --i >= 0; ) {
+	    for (rec = *globalConverterTable++; rec; rec = rec->next) {
+		cache_type = rec->cache_type;
+		if (rec->do_ref_count)
+		    cache_type |= XtCacheRefCount;
+	       _XtTableAddConverter(*table, rec->from, rec->to, rec->converter,
+				    ConvertArgs(rec), rec->num_args,
+				    rec->new_style, cache_type,
+				    rec->destructor, True);
+	    }
+  	}
+    }
+    UNLOCK_PROCESS;
+}
+
+void _XtFreeConverterTable(
+	ConverterTable table)
+{
+	register Cardinal i;
+	register ConverterPtr p;
+
+	for (i = 0; i < CONVERTHASHSIZE; i++) {
+	    for (p = table[i]; p; ) {
+		register ConverterPtr next = p->next;
+		XtFree((char*)p);
+		p = next;
+	    }
+	}
+	XtFree((char*)table);
+}
+
+/* Data cache hash table */
+
+typedef struct _CacheRec *CachePtr;
+
+typedef struct _CacheRec {
+    CachePtr	next;
+    XtPointer	tag;
+    int		hash;
+    XtTypeConverter converter;
+    unsigned short num_args;
+    unsigned int conversion_succeeded:1;
+    unsigned int has_ext:1;
+    unsigned int is_refcounted:1;
+    unsigned int must_be_freed:1;
+    unsigned int from_is_value:1;
+    unsigned int to_is_value:1;
+    XrmValue	from;
+    XrmValue	to;
+} CacheRec;
+
+typedef struct _CacheRecExt {
+    CachePtr	*prev;
+    XtDestructor destructor;
+    XtPointer	 closure;
+    long	 ref_count;
+} CacheRecExt;
+
+#define CEXT(p) ((CacheRecExt *)((p)+1))
+#define CARGS(p) ((p)->has_ext ? (XrmValue *)(CEXT(p)+1) : (XrmValue *)((p)+1))
+
+#define CACHEHASHSIZE	256
+#define CACHEHASHMASK	255
+typedef CachePtr CacheHashTable[CACHEHASHSIZE];
+
+static CacheHashTable	cacheHashTable;
+
+void _XtTableAddConverter(
+    ConverterTable	table,
+    XrmRepresentation   from_type,
+    XrmRepresentation   to_type,
+    XtTypeConverter	converter,
+    XtConvertArgList    convert_args,
+    Cardinal		num_args,
+    _XtBoolean		new_style,
+    XtCacheType		cache_type,
+    XtDestructor	destructor,
+    _XtBoolean		global)
+{
+    register ConverterPtr	*pp;
+    register ConverterPtr	p;
+    XtConvertArgList args;
+
+    pp= &table[ProcHash(from_type, to_type) & CONVERTHASHMASK];
+    while ((p = *pp) && (p->from != from_type || p->to != to_type))
+	pp = &p->next;
+
+    if (p) {
+	*pp = p->next;
+	XtFree((char *)p);
+    }
+
+    p = (ConverterPtr) __XtMalloc(sizeof(ConverterRec) +
+				sizeof(XtConvertArgRec) * num_args);
+    p->next	    = *pp;
+    *pp = p;
+    p->from	    = from_type;
+    p->to	    = to_type;
+    p->converter    = converter;
+    p->destructor   = destructor;
+    p->num_args     = num_args;
+    p->global       = global;
+    args = ConvertArgs(p);
+    while (num_args--)
+	*args++ = *convert_args++;
+    p->new_style    = new_style;
+    p->do_ref_count = False;
+    if (destructor || (cache_type & 0xff)) {
+	p->cache_type = cache_type & 0xff;
+	if (cache_type & XtCacheRefCount)
+	    p->do_ref_count = True;
+    } else {
+	p->cache_type = XtCacheNone;
+    }
+}
+
+void XtSetTypeConverter(
+    register _Xconst char* from_type,
+    register _Xconst char* to_type,
+    XtTypeConverter	converter,
+    XtConvertArgList    convert_args,
+    Cardinal		num_args,
+    XtCacheType		cache_type,
+    XtDestructor	destructor
+    )
+{
+    ProcessContext process;
+    XtAppContext app;
+    XrmRepresentation from;
+    XrmRepresentation to;
+
+    LOCK_PROCESS;
+    process = _XtGetProcessContext();
+    app = process->appContextList;
+    from = XrmStringToRepresentation(from_type);
+    to = XrmStringToRepresentation(to_type);
+
+    if (!process->globalConverterTable) {
+	process->globalConverterTable = (ConverterTable)
+	    __XtCalloc(CONVERTHASHSIZE, (unsigned)sizeof(ConverterPtr));
+    }
+    _XtTableAddConverter(process->globalConverterTable, from, to,
+			 converter, convert_args,
+			 num_args, True, cache_type, destructor, True);
+    while (app) {
+	_XtTableAddConverter(app->converterTable, from, to,
+			     converter, convert_args,
+			     num_args, True, cache_type, destructor, True);
+	app = app->next;
+    }
+    UNLOCK_PROCESS;
+}
+
+void XtAppSetTypeConverter(
+    XtAppContext	app,
+    register _Xconst char* from_type,
+    register _Xconst char* to_type,
+    XtTypeConverter	converter,
+    XtConvertArgList    convert_args,
+    Cardinal		num_args,
+    XtCacheType		cache_type,
+    XtDestructor	destructor
+    )
+{
+    LOCK_PROCESS;
+    _XtTableAddConverter(app->converterTable,
+	XrmStringToRepresentation(from_type),
+        XrmStringToRepresentation(to_type),
+	converter, convert_args, num_args,
+	True, cache_type, destructor, False);
+    UNLOCK_PROCESS;
+}
+
+/* old interface */
+void XtAddConverter(
+    register _Xconst char* from_type,
+    register _Xconst char* to_type,
+    XtConverter		converter,
+    XtConvertArgList    convert_args,
+    Cardinal		num_args
+    )
+{
+    ProcessContext process;
+    XtAppContext app;
+    XrmRepresentation from;
+    XrmRepresentation to;
+
+    LOCK_PROCESS;
+    process = _XtGetProcessContext();
+    app = process->appContextList;
+    from = XrmStringToRepresentation(from_type);
+    to = XrmStringToRepresentation(to_type);
+
+    if (!process->globalConverterTable) {
+	process->globalConverterTable = (ConverterTable)
+	    __XtCalloc(CONVERTHASHSIZE, (unsigned)sizeof(ConverterPtr));
+    }
+    _XtTableAddConverter(process->globalConverterTable, from, to,
+			 (XtTypeConverter)converter, convert_args, num_args,
+			 False, XtCacheAll, (XtDestructor)NULL, True);
+    while (app) {
+	_XtTableAddConverter(app->converterTable, from, to,
+			     (XtTypeConverter)converter, convert_args,
+			     num_args, False, XtCacheAll, (XtDestructor)NULL,
+			     True);
+	app = app->next;
+    }
+    UNLOCK_PROCESS;
+}
+
+/* old interface */
+void XtAppAddConverter(
+    XtAppContext	app,
+    register _Xconst char* from_type,
+    register _Xconst char* to_type,
+    XtConverter		converter,
+    XtConvertArgList    convert_args,
+    Cardinal		num_args
+    )
+{
+    LOCK_PROCESS;
+    _XtTableAddConverter(app->converterTable,
+	XrmStringToRepresentation(from_type),
+        XrmStringToRepresentation(to_type),
+	(XtTypeConverter)converter, convert_args, num_args,
+	False, XtCacheAll, (XtDestructor)NULL, False);
+    UNLOCK_PROCESS;
+}
+
+static CachePtr
+CacheEnter(
+    Heap*		    heap,
+    register XtTypeConverter converter,
+    register XrmValuePtr    args,
+    Cardinal		    num_args,
+    XrmValuePtr		    from,
+    XrmValuePtr		    to,
+    Boolean		    succeeded,
+    register int	    hash,
+    Boolean		    do_ref,
+    Boolean		    do_free,
+    XtDestructor	    destructor,
+    XtPointer		    closure)
+{
+    register	CachePtr *pHashEntry;
+    register	CachePtr p;
+    register    Cardinal i;
+
+    LOCK_PROCESS;
+    pHashEntry = &cacheHashTable[hash & CACHEHASHMASK];
+
+    if ((succeeded && destructor) || do_ref) {
+	p = (CachePtr) _XtHeapAlloc(heap, (sizeof(CacheRec) +
+					   sizeof(CacheRecExt) +
+					   num_args * sizeof(XrmValue)));
+	CEXT(p)->prev = pHashEntry;
+	CEXT(p)->destructor = succeeded ? destructor : NULL;
+	CEXT(p)->closure = closure;
+	CEXT(p)->ref_count = 1;
+	p->has_ext = True;
+    }
+    else {
+	p = (CachePtr)_XtHeapAlloc(heap, (sizeof(CacheRec) +
+					  num_args * sizeof(XrmValue)));
+	p->has_ext = False;
+    }
+    if (!to->addr)
+	succeeded = False;
+    p->conversion_succeeded = succeeded;
+    p->is_refcounted = do_ref;
+    p->must_be_freed = do_free;
+    p->next	    = *pHashEntry;
+    if (p->next && p->next->has_ext)
+	CEXT(p->next)->prev = &p->next;
+
+    *pHashEntry     = p;
+    p->tag	    = (XtPointer)heap;
+    p->hash	    = hash;
+    p->converter    = converter;
+    p->from.size    = from->size;
+    if (from->size <= sizeof(p->from.addr)) {
+	p->from_is_value = True;
+	XtMemmove(&p->from.addr, from->addr, from->size);
+    } else {
+	p->from_is_value = False;
+	p->from.addr = (XPointer)_XtHeapAlloc(heap, from->size);
+	(void) memmove((char *)p->from.addr, (char *)from->addr, from->size);
+    }
+    p->num_args = num_args;
+    if (num_args) {
+	XrmValue *pargs = CARGS(p);
+	for (i = 0; i < num_args; i++) {
+	    pargs[i].size = args[i].size;
+	    pargs[i].addr = (XPointer)_XtHeapAlloc(heap, args[i].size);
+	    XtMemmove(pargs[i].addr, args[i].addr, args[i].size);
+	}
+    }
+    p->to.size = to->size;
+    if (!succeeded) {
+	p->to_is_value = False;
+	p->to.addr = NULL;
+    } else if (to->size <= sizeof(p->to.addr)) {
+	p->to_is_value = True;
+	XtMemmove(&p->to.addr, to->addr, to->size);
+    } else {
+	p->to_is_value = False;
+	p->to.addr = (XPointer)_XtHeapAlloc(heap, to->size);
+	(void) memmove((char *)p->to.addr, (char *)to->addr, to->size);
+    }
+    UNLOCK_PROCESS;
+    return p;
+}
+
+static void FreeCacheRec(
+    XtAppContext app,
+    CachePtr p,
+    CachePtr *prev)
+{
+    LOCK_PROCESS;
+    if (p->has_ext) {
+	if (CEXT(p)->destructor) {
+	    Cardinal num_args = p->num_args;
+	    XrmValue *args = NULL;
+	    XrmValue toc;
+	    if (num_args)
+		args = CARGS(p);
+	    toc.size = p->to.size;
+	    if (p->to_is_value)
+		toc.addr = (XPointer)&p->to.addr;
+	    else
+		toc.addr = p->to.addr;
+	    (*CEXT(p)->destructor) (app, &toc, CEXT(p)->closure, args,
+				    &num_args);
+	}
+	*(CEXT(p)->prev) = p->next;
+	if (p->next && p->next->has_ext)
+	    CEXT(p->next)->prev = CEXT(p)->prev;
+    } else {
+	*prev = p->next;
+	if (p->next && p->next->has_ext)
+	    CEXT(p->next)->prev = prev;
+    }
+    if (p->must_be_freed) {
+	register int i;
+	if (!p->from_is_value)
+	    XtFree(p->from.addr);
+	if ((i = p->num_args)) {
+	    XrmValue *pargs = CARGS(p);
+	    while (i--)
+		XtFree(pargs[i].addr);
+	}
+	if (!p->to_is_value)
+	    XtFree(p->to.addr);
+	XtFree((char*)p);
+    }
+    /* else on private heap; will free entire heap later */
+    UNLOCK_PROCESS;
+}
+
+
+void _XtCacheFlushTag(
+    XtAppContext app,
+    XtPointer	tag)
+{
+    int i;
+    register CachePtr *prev;
+    register CachePtr rec;
+
+    LOCK_PROCESS;
+    for (i = CACHEHASHSIZE; --i >= 0;) {
+	prev = &cacheHashTable[i];
+	while ((rec = *prev)) {
+	    if (rec->tag == tag)
+		FreeCacheRec(app, rec, prev);
+	    else
+		prev = &rec->next;
+	}
+    }
+    UNLOCK_PROCESS;
+}
+
+#ifdef DEBUG
+#include	<stdio.h>
+
+void _XtConverterCacheStats(void)
+{
+    register Cardinal i;
+    register CachePtr p;
+    register Cardinal entries;
+
+    LOCK_PROCESS;
+    for (i = 0; i < CACHEHASHSIZE; i++) {
+	p = cacheHashTable[i];
+	if (p) {
+	    for (entries = 0; p; p = p->next) {
+		entries++;
+	    }
+	    (void) fprintf(stdout, "Index: %4d  Entries: %d\n", i, entries);
+	    for (p = cacheHashTable[i]; p; p = p->next) {
+		(void) fprintf(stdout, "    Size: %3d  Refs: %3d  '",
+			       p->from.size,
+			       p->has_ext ? CEXT(p)->ref_count : 0);
+		(void) fprintf(stdout, "'\n");
+	    }
+	    (void) fprintf(stdout, "\n");
+	}
+    }
+    UNLOCK_PROCESS;
+}
+#endif /*DEBUG*/
+
+static Boolean ResourceQuarkToOffset(
+    WidgetClass widget_class,
+    XrmName     name,
+    Cardinal    *offset)
+{
+    register WidgetClass     wc;
+    register Cardinal        i;
+    register XrmResourceList res, *resources;
+
+    for (wc = widget_class; wc; wc = wc->core_class.superclass) {
+	resources = (XrmResourceList*) wc->core_class.resources;
+	for (i = 0; i < wc->core_class.num_resources; i++, resources++) {
+	    res = *resources;
+	    if (res->xrm_name == name) {
+		*offset = -res->xrm_offset - 1;
+		return True;
+	    }
+	} /* for i in resources */
+    } /* for wc in widget classes */
+    (*offset) = 0;
+    return False;
+}
+
+
+static void ComputeArgs(
+    Widget		widget,
+    XtConvertArgList    convert_args,
+    Cardinal		num_args,
+    XrmValuePtr		args)
+{
+    register Cardinal   i;
+    Cardinal		offset;
+    String              params[1];
+    Cardinal		num_params = 1;
+    Widget		ancestor = NULL;
+
+    for (i = 0; i < num_args; i++) {
+	args[i].size = convert_args[i].size;
+	switch (convert_args[i].address_mode) {
+	case XtAddress:
+	    args[i].addr = convert_args[i].address_id;
+	    break;
+
+	case XtBaseOffset:
+	    args[i].addr =
+		(XPointer)((char *)widget + (long)convert_args[i].address_id);
+	    break;
+
+	case XtWidgetBaseOffset:
+	    if (!ancestor) {
+		if (XtIsWidget(widget))
+		    ancestor = widget;
+		else
+		    ancestor = _XtWindowedAncestor(widget);
+	    }
+
+	    args[i].addr =
+		(XPointer)((char *)ancestor + (long)convert_args[i].address_id);
+	    break;
+
+	case XtImmediate:
+	    args[i].addr = (XPointer) &(convert_args[i].address_id);
+	    break;
+
+	case XtProcedureArg:
+	    (*(XtConvertArgProc)convert_args[i].address_id)
+		(widget, &convert_args[i].size, &args[i]);
+	    break;
+
+	case XtResourceString:
+	    /* Convert in place for next usage */
+	    convert_args[i].address_mode = XtResourceQuark;
+	    convert_args[i].address_id =
+	       (XtPointer)(long)XrmStringToQuark((String)convert_args[i].address_id);
+	    /* Fall through */
+
+	case XtResourceQuark:
+	    if (! ResourceQuarkToOffset(widget->core.widget_class,
+		    (XrmQuark)(long) convert_args[i].address_id, &offset)) {
+		params[0]=
+                  XrmQuarkToString((XrmQuark)(long) convert_args[i].address_id);
+               XtAppWarningMsg(XtWidgetToApplicationContext(widget),
+		    "invalidResourceName","computeArgs",XtCXtToolkitError,
+		    "Cannot find resource name %s as argument to conversion",
+                     params,&num_params);
+		offset = 0;
+	    }
+	    args[i].addr = (XPointer)((char *)widget + offset);
+	    break;
+	default:
+	    params[0] = XtName(widget);
+	    XtAppWarningMsg(XtWidgetToApplicationContext(widget),
+		"invalidAddressMode", "computeArgs", XtCXtToolkitError,
+		"Conversion arguments for widget '%s' contain an unsupported address mode",
+			params,&num_params);
+	    args[i].addr = NULL;
+	    args[i].size = 0;
+	} /* switch */
+    } /* for */
+} /* ComputeArgs */
+
+void XtDirectConvert(
+    XtConverter     converter,
+    XrmValuePtr     args,
+    Cardinal	    num_args,
+    register XrmValuePtr from,
+    XrmValuePtr     to)
+{
+    register CachePtr   p;
+    register int	hash;
+    register Cardinal   i;
+
+    LOCK_PROCESS;
+    /* Try to find cache entry for conversion */
+    hash = ((long) converter >> 2) + from->size + *((char *) from->addr);
+    if (from->size > 1) hash += ((char *) from->addr)[1];
+
+    for (p = cacheHashTable[hash & CACHEHASHMASK]; p; p = p->next) {
+	if ((p->hash == hash)
+	 && (p->converter == (XtTypeConverter)converter)
+	 && (p->from.size == from->size)
+	 && !(p->from_is_value ?
+	      XtMemcmp(&p->from.addr, from->addr, from->size) :
+	      memcmp((char *)p->from.addr, (char *)from->addr, from->size))
+         && (p->num_args == num_args)) {
+	    if ((i = num_args)) {
+		XrmValue *pargs = CARGS(p);
+		/* Are all args the same data ? */
+		while (i) {
+		    i--; /* do not move to while test, broken compilers */
+		    if (pargs[i].size != args[i].size ||
+			XtMemcmp(pargs[i].addr, args[i].addr, args[i].size)) {
+			i++;
+			break;
+		    }
+		}
+	    }
+	    if (!i) {
+		/* Perfect match */
+		to->size = p->to.size;
+		if (p->to_is_value)
+		    to->addr = (XPointer)&p->to.addr;
+		else
+		    to->addr = p->to.addr;
+		UNLOCK_PROCESS;
+		return;
+	    }
+	}
+    }
+
+    /* Didn't find it, call converter procedure and entry result in cache */
+    (*to).size = 0;
+    (*to).addr = NULL;
+    (*converter)(args, &num_args, from, to);
+    /* This memory can never be freed since we don't know the Display
+     * or app context from which to compute the persistance */
+    {
+	CacheEnter(&globalHeap, (XtTypeConverter)converter, args, num_args,
+		   from, to, (to->addr != NULL), hash, False, False,
+		   (XtDestructor)NULL, NULL);
+    }
+    UNLOCK_PROCESS;
+}
+
+
+static ConverterPtr GetConverterEntry(
+    XtAppContext app,
+    XtTypeConverter converter)
+{
+    Cardinal entry;
+    register ConverterPtr cP;
+    ConverterTable converterTable;
+
+    LOCK_PROCESS;
+    converterTable = app->converterTable;
+    cP = NULL;
+    for (entry = 0; (entry < CONVERTHASHSIZE) && !cP; entry++) {
+	cP = converterTable[entry];
+	while (cP && (cP->converter != converter)) cP = cP->next;
+    }
+    UNLOCK_PROCESS;
+    return cP;
+}
+
+
+static Boolean
+CallConverter(
+    Display*	    dpy,
+    XtTypeConverter converter,
+    XrmValuePtr     args,
+    Cardinal	    num_args,
+    register XrmValuePtr from,
+    XrmValuePtr     to,
+    XtCacheRef	    *cache_ref_return,
+    register ConverterPtr cP)
+{
+    CachePtr p;
+    int	hash;
+    Cardinal i;
+    Boolean retval;
+
+    if (!cP || ((cP->cache_type == XtCacheNone) && !cP->destructor)) {
+	XtPointer closure;
+	if (cache_ref_return) *cache_ref_return = NULL;
+	retval = (*(XtTypeConverter)converter)
+	    (dpy, args, &num_args, from, to, &closure);
+	return retval;
+    }
+
+    LOCK_PROCESS;
+    /* Try to find cache entry for conversion */
+    hash = ((long)(converter) >> 2) + from->size + *((char *) from->addr);
+    if (from->size > 1) hash += ((char *) from->addr)[1];
+
+    if (cP->cache_type != XtCacheNone) {
+	for (p = cacheHashTable[hash & CACHEHASHMASK]; p; p = p->next){
+	    if ((p->hash == hash)
+	     && (p->converter == converter)
+	     && (p->from.size == from->size)
+	     && !(p->from_is_value ?
+		  XtMemcmp(&p->from.addr, from->addr, from->size) :
+		  memcmp((char *)p->from.addr, (char *)from->addr, from->size))
+	     && (p->num_args == num_args)) {
+		if ((i = num_args)) {
+		    XrmValue *pargs = CARGS(p);
+		    /* Are all args the same data ? */
+		    while (i) {
+			i--; /* do not move to while test, broken compilers */
+			if (pargs[i].size != args[i].size ||
+			    XtMemcmp(pargs[i].addr, args[i].addr, args[i].size)){
+			    i++;
+			    break;
+			}
+		    }
+		}
+		if (!i) {
+		    /* Perfect match */
+		    if (p->conversion_succeeded) {
+			if (to->addr) {	/* new-style call */
+			    if (to->size < p->to.size) {
+				to->size = p->to.size;
+				UNLOCK_PROCESS;
+				return False;
+			    }
+			    to->size = p->to.size;
+			    if (p->to_is_value) {
+				XtMemmove(to->addr, &p->to.addr,
+					  to->size);
+			    } else {
+				(void) memmove((char *)to->addr,
+					       (char *)p->to.addr, to->size);
+			    }
+			} else {	/* old-style call */
+			    to->size = p->to.size;
+			    if (p->to_is_value)
+				to->addr = (XPointer)&p->to.addr;
+			    else
+				to->addr = p->to.addr;
+			}
+		    }
+		    if (p->is_refcounted) {
+			CEXT(p)->ref_count++;
+			if (cache_ref_return)
+			    *cache_ref_return = (XtCacheRef)p;
+			else
+			    p->is_refcounted = False;
+		    }
+		    else {
+			if (cache_ref_return)
+			    *cache_ref_return = NULL;
+		    }
+		    retval = (p->conversion_succeeded);
+		    UNLOCK_PROCESS;
+		    return retval;
+		}
+	    }
+	}
+    }
+
+    /* No cache entry, call converter procedure and enter result in cache */
+    {
+	Heap *heap;
+	XtPointer closure = NULL;
+	unsigned int supplied_size = to->size;
+	Boolean do_ref = cP->do_ref_count && cache_ref_return;
+	Boolean do_free = False;
+	Boolean retval =
+	    (*(XtTypeConverter)converter)(dpy, args, &num_args, from, to, &closure);
+
+	if (retval == False && supplied_size < to->size) {
+	    /* programmer error: caller must allocate sufficient storage */
+	    if (cache_ref_return)
+		*cache_ref_return = NULL;
+	    UNLOCK_PROCESS;
+	    return False;
+	}
+
+	if ((cP->cache_type == XtCacheNone) || do_ref) {
+	    heap = NULL;
+	    do_free = True;
+	}
+	else if (cP->cache_type == XtCacheByDisplay)
+	    heap = &_XtGetPerDisplay(dpy)->heap;
+	else if (cP->global)
+	    heap = &globalHeap;
+	else
+	    heap = &XtDisplayToApplicationContext(dpy)->heap;
+
+	p = CacheEnter(heap, converter, args, num_args, from, to, retval,
+		       hash, do_ref, do_free, cP->destructor, closure);
+	if (do_ref)
+	    *cache_ref_return = (XtCacheRef)p;
+	else if (cache_ref_return)
+	    *cache_ref_return = NULL;
+	UNLOCK_PROCESS;
+	return retval;
+    }
+}
+
+Boolean
+XtCallConverter(
+    Display*	    dpy,
+    XtTypeConverter converter,
+    XrmValuePtr     args,
+    Cardinal	    num_args,
+    register XrmValuePtr from,
+    XrmValuePtr     to,
+    XtCacheRef	    *cache_ref_return)
+{
+    ConverterPtr cP;
+    Boolean retval;
+    XtAppContext app = XtDisplayToApplicationContext(dpy);
+
+    LOCK_APP(app);
+    if ((cP = GetConverterEntry(app, converter)) == NULL) {
+	XtAppSetTypeConverter(XtDisplayToApplicationContext(dpy),
+			      "_XtUnk1", "_XtUnk2",
+			      converter, NULL, 0,
+			      XtCacheAll, NULL);
+	cP = GetConverterEntry(app, converter);
+    }
+    retval = CallConverter(dpy, converter, args, num_args, from, to,
+			    cache_ref_return, cP);
+    UNLOCK_APP(app);
+    return retval;
+}
+
+Boolean _XtConvert(
+             Widget		widget,
+    register XrmRepresentation	from_type,
+	     XrmValuePtr	from,
+    register XrmRepresentation	to_type,
+    register XrmValuePtr	to,
+    XtCacheRef			*cache_ref_return)
+{
+    XtAppContext	app = XtWidgetToApplicationContext(widget);
+    register ConverterPtr	p;
+    Cardinal		num_args;
+    XrmValue		*args;
+
+    /* Look for type converter */
+    LOCK_PROCESS;
+    p = app->converterTable[ProcHash(from_type, to_type) & CONVERTHASHMASK];
+    for (; p; p = p->next) {
+	if (from_type == p->from && to_type == p->to) {
+	    Boolean retval = False;
+	    /* Compute actual arguments from widget and arg descriptor */
+	    num_args = p->num_args;
+	    if (num_args != 0) {
+		args = (XrmValue*)
+		    ALLOCATE_LOCAL( num_args * sizeof (XrmValue) );
+		if (!args) _XtAllocError("alloca");
+		ComputeArgs(widget, ConvertArgs(p), num_args, args);
+	    } else args = NULL;
+	    if (p->new_style) {
+		retval =
+		    CallConverter(XtDisplayOfObject(widget),
+				     p->converter, args, num_args,
+				     from, to, cache_ref_return, p);
+	    }
+	    else { /* is old-style (non-display) converter */
+		XrmValue tempTo;
+		XtDirectConvert((XtConverter)p->converter, args, num_args,
+				from, &tempTo);
+		if (cache_ref_return)
+		    *cache_ref_return = NULL;
+		if (tempTo.addr) {
+		    if (to->addr) {	/* new-style caller */
+			if (to->size >= tempTo.size) {
+			    if (to_type == _XtQString)
+				*(String*)(to->addr) = tempTo.addr;
+			    else {
+				XtMemmove(to->addr, tempTo.addr,
+					  tempTo.size);
+			    }
+			    retval = True;
+			}
+			to->size = tempTo.size;
+		    } else {		/* old-style caller */
+			*to = tempTo;
+			retval = True;
+		    }
+		}
+	    }
+	    if (args) DEALLOCATE_LOCAL( (XtPointer)args );
+	    UNLOCK_PROCESS;
+	    return retval;
+	}
+    }
+
+    {
+	String params[2];
+	Cardinal num_params = 2;
+	params[0] = XrmRepresentationToString(from_type);
+	params[1] = XrmRepresentationToString(to_type);
+	XtAppWarningMsg(app, "typeConversionError", "noConverter", XtCXtToolkitError,
+	     "No type converter registered for '%s' to '%s' conversion.",
+             params, &num_params);
+    }
+    UNLOCK_PROCESS;
+    return False;
+}
+
+void XtConvert(
+    Widget	widget,
+    _Xconst char* from_type_str,
+    XrmValuePtr	from,
+    _Xconst char* to_type_str,
+    XrmValuePtr	to)
+{
+    XrmQuark    from_type, to_type;
+    WIDGET_TO_APPCON(widget);
+
+    LOCK_APP(app);
+    from_type = XrmStringToRepresentation(from_type_str);
+    to_type = XrmStringToRepresentation(to_type_str);
+    if (from_type != to_type) {
+	/*  It's not safe to ref count these resources, 'cause we
+	    don't know what older clients may have assumed about
+	    the resource lifetimes.
+	XtCacheRef ref;
+	*/
+	to->addr = NULL;
+	to->size = 0;
+	_XtConvert(widget, from_type, from, to_type, to, /*&ref*/ NULL);
+	/*
+	if (ref) {
+	    XtAddCallback( widget, XtNdestroyCallback,
+			   XtCallbackReleaseCacheRef, (XtPointer)ref );
+	}
+	*/
+    }
+    else
+	(*to) = *from;
+    UNLOCK_APP(app);
+}
+
+Boolean XtConvertAndStore(
+    Widget	object,
+    _Xconst char* from_type_str,
+    XrmValuePtr	from,
+    _Xconst char* to_type_str,
+    XrmValuePtr	to)
+{
+    XrmQuark    from_type, to_type;
+    WIDGET_TO_APPCON(object);
+
+    LOCK_APP(app);
+    LOCK_PROCESS;
+    from_type = XrmStringToRepresentation(from_type_str);
+    to_type = XrmStringToRepresentation(to_type_str);
+    if (from_type != to_type) {
+	static XtPointer local_valueP = NULL;
+	static Cardinal local_valueS = 128;
+	XtCacheRef ref;
+	Boolean local = False;
+	do {
+	    if (!to->addr) {
+		if (!local_valueP)
+		    local_valueP = _XtHeapAlloc(&globalHeap, local_valueS);
+		to->addr = local_valueP;
+		to->size = local_valueS;
+		local = True;
+	    }
+	    if (!_XtConvert(object, from_type, from, to_type, to, &ref)) {
+		if (local && (to->size > local_valueS)) {
+		    to->addr =
+			local_valueP = _XtHeapAlloc(&globalHeap, to->size);
+		    local_valueS = to->size;
+		    continue;
+		} else {
+		    if (local) {
+			to->addr = NULL;
+			to->size = 0;
+		    }
+		    UNLOCK_PROCESS;
+		    UNLOCK_APP(app);
+		    return False;
+		}
+	    }
+	    if (ref) {
+		XtAddCallback( object, XtNdestroyCallback,
+			       XtCallbackReleaseCacheRef, (XtPointer)ref );
+	    }
+	    UNLOCK_PROCESS;
+	    UNLOCK_APP(app);
+	    return True;
+	} while (local /* && local_valueS < to->size */);
+    }
+    if (to->addr) {
+	if (to->size < from->size) {
+	    to->size = from->size;
+	    UNLOCK_PROCESS;
+	    UNLOCK_APP(app);
+	    return False;
+	}
+	(void) memmove(to->addr, from->addr, from->size );
+	to->size = from->size;
+    } else			/* from_type == to_type */
+	*to = *from;
+    UNLOCK_PROCESS;
+    UNLOCK_APP(app);
+    return True;
+}
+
+void XtAppReleaseCacheRefs(
+    XtAppContext app,
+    XtCacheRef *refs)
+{
+    register CachePtr *r;
+    register CachePtr p;
+
+    LOCK_APP(app);
+    LOCK_PROCESS;
+    for (r = (CachePtr*)refs; (p = *r); r++) {
+	if (p->is_refcounted && --(CEXT(p)->ref_count) == 0) {
+	    FreeCacheRec(app, p, NULL);
+	}
+    }
+    UNLOCK_PROCESS;
+    UNLOCK_APP(app);
+}
+
+
+/* ARGSUSED */
+void XtCallbackReleaseCacheRefList(
+    Widget widget,		/* unused */
+    XtPointer closure,
+    XtPointer call_data)	/* unused */
+{
+    XtAppReleaseCacheRefs( XtWidgetToApplicationContext(widget),
+			   (XtCacheRef*)closure );
+    XtFree(closure);
+}
+
+
+/* ARGSUSED */
+void XtCallbackReleaseCacheRef(
+    Widget widget,		/* unused */
+    XtPointer closure,
+    XtPointer call_data)	/* unused */
+{
+    XtCacheRef cache_refs[2];
+    cache_refs[0] = (XtCacheRef)closure;
+    cache_refs[1] = NULL;
+    XtAppReleaseCacheRefs( XtWidgetToApplicationContext(widget), cache_refs );
+}