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-rw-r--r--nx-X11/lib/Xt/Convert.c1087
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diff --git a/nx-X11/lib/Xt/Convert.c b/nx-X11/lib/Xt/Convert.c
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index 000000000..c3bb3c63a
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+++ b/nx-X11/lib/Xt/Convert.c
@@ -0,0 +1,1087 @@
+/* $Xorg: Convert.c,v 1.5 2001/02/09 02:03:54 xorgcvs Exp $ */
+
+/***********************************************************
+Copyright 1987, 1988 by Digital Equipment Corporation, Maynard, Massachusetts
+Copyright 1993 by Sun Microsystems, Inc. Mountain View, CA.
+
+ 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 names of Digital or Sun 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.
+
+SUN DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
+INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FIT-
+NESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SUN BE LI-
+ABLE 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.
+
+******************************************************************/
+/* $XFree86: xc/lib/Xt/Convert.c,v 3.7 2001/12/14 19:56:09 dawes Exp $ */
+
+/*
+
+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 );
+}