/* $Xorg: Resources.c,v 1.3 2000/08/17 19:46:16 cpqbld 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. ******************************************************************/ /* Copyright 1987, 1988, 1994, 1998 The Open Group All Rights Reserved. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* $XFree86: xc/lib/Xt/Resources.c,v 1.8 2001/07/25 15:04:52 dawes Exp $ */ /*LINTLIBRARY*/ #include "IntrinsicI.h" #include "VarargsI.h" #include "Shell.h" #include "ShellP.h" #include "StringDefs.h" #include static XrmClass QBoolean, QString, QCallProc, QImmediate; static XrmName QinitialResourcesPersistent, QInitialResourcesPersistent; static XrmClass QTranslations, QTranslationTable; static XrmName Qtranslations, QbaseTranslations; static XrmName Qscreen; static XrmClass QScreen; #ifdef CRAY void Cjump(); char *Cjumpp = (char *) Cjump; void Cjump() {} #endif void _XtCopyFromParent(widget, offset, value) Widget widget; int offset; XrmValue *value; { if (widget->core.parent == NULL) { XtAppWarningMsg(XtWidgetToApplicationContext(widget), "invalidParent","xtCopyFromParent",XtCXtToolkitError, "CopyFromParent must have non-NULL parent", (String *)NULL, (Cardinal *)NULL); value->addr = NULL; return; } value->addr = (XPointer)(((char *)widget->core.parent) + offset); } /* _XtCopyFromParent */ /* If the alignment characteristics of your machine are right, these may be faster */ #ifdef UNALIGNED void _XtCopyFromArg(src, dst, size) XtArgVal src; char* dst; register unsigned int size; { if (size == sizeof(long)) *(long *)dst = (long)src; else if (size == sizeof(short)) *(short *)dst = (short)src; else if (size == sizeof(char)) *(char *)dst = (char)src; else if (size == sizeof(XtPointer)) *(XtPointer *)dst = (XtPointer)src; else if (size == sizeof(char*)) *(char **)dst = (char*)src; else if (size == sizeof(XtArgVal)) *(XtArgVal *)dst = src; else if (size > sizeof(XtArgVal)) (void) memmove((char *) dst, (char *) src, (int) size); else (void) memmove((char *) dst, (char *) &src, (int) size); } /* _XtCopyFromArg */ void _XtCopyToArg(src, dst, size) char* src; XtArgVal *dst; register unsigned int size; { if (! (*dst)) { #ifdef GETVALUES_BUG /* old GetValues semantics (storing directly into arglists) are bad, * but preserve for compatibility as long as arglist contains NULL. */ if (size == sizeof(long)) *dst = (XtArgVal)*(long*)src; else if (size == sizeof(short)) *dst = (XtArgVal)*(short*)src; else if (size == sizeof(char)) *dst = (XtArgVal)*(char*)src; else if (size == sizeof(XtPointer)) *dst = (XtArgVal)*(XtPointer*)src; else if (size == sizeof(char*)) *dst = (XtArgVal)*(char**)src; else if (size == sizeof(XtArgVal)) *dst = *(XtArgVal*)src; else (void) memmove((char*)dst, (char*)src, (int)size); #else XtErrorMsg("invalidGetValues", "xtGetValues", XtCXtToolkitError, "NULL ArgVal in XtGetValues", (String*) NULL, (Cardinal*) NULL); #endif } else { /* proper GetValues semantics: argval is pointer to destination */ if (size == sizeof(long)) *((long*)*dst) = *(long*)src; else if (size == sizeof(short)) *((short*)*dst) = *(short*)src; else if (size == sizeof(char)) *((char*)*dst) = *(char*)src; else if (size == sizeof(XtPointer)) *((XtPointer*)*dst) = *(XtPointer*)src; else if (size == sizeof(char*)) *((char**)*dst) = *(char**)src; else if (size == sizeof(XtArgVal)) *((XtArgVal*)*dst)= *(XtArgVal*)src; else (void) memmove((char*)*dst, (char*)src, (int)size); } } /* _XtCopyToArg */ static void CopyToArg(src, dst, size) char* src; XtArgVal *dst; register unsigned int size; { if (! (*dst)) { /* old GetValues semantics (storing directly into arglists) are bad, * but preserve for compatibility as long as arglist contains NULL. */ if (size == sizeof(long)) *dst = (XtArgVal)*(long*)src; else if (size == sizeof(short)) *dst = (XtArgVal)*(short*)src; else if (size == sizeof(char)) *dst = (XtArgVal)*(char*)src; else if (size == sizeof(XtPointer)) *dst = (XtArgVal)*(XtPointer*)src; else if (size == sizeof(char*)) *dst = (XtArgVal)*(char**)src; else if (size == sizeof(XtArgVal)) *dst = *(XtArgVal*)src; else (void) memmove((char*)dst, (char*)src, (int)size); } else { /* proper GetValues semantics: argval is pointer to destination */ if (size == sizeof(long)) *((long*)*dst) = *(long*)src; else if (size == sizeof(short)) *((short*)*dst) = *(short*)src; else if (size == sizeof(char)) *((char*)*dst) = *(char*)src; else if (size == sizeof(XtPointer)) *((XtPointer*)*dst) = *(XtPointer*)src; else if (size == sizeof(char*)) *((char**)*dst) = *(char**)src; else if (size == sizeof(XtArgVal)) *((XtArgVal*)*dst)= *(XtArgVal*)src; else (void) memmove((char*)*dst, (char*)src, (int)size); } } /* CopyToArg */ #else void _XtCopyFromArg(src, dst, size) XtArgVal src; char* dst; register unsigned int size; { if (size > sizeof(XtArgVal)) (void) memmove((char *) dst, (char *) src, (int) size); else { union { long longval; #ifdef LONG64 int intval; #endif short shortval; char charval; char* charptr; XtPointer ptr; } u; char *p = (char*)&u; if (size == sizeof(long)) u.longval = (long)src; #ifdef LONG64 else if (size == sizeof(int)) u.intval = (int)src; #endif else if (size == sizeof(short)) u.shortval = (short)src; else if (size == sizeof(char)) u.charval = (char)src; else if (size == sizeof(XtPointer)) u.ptr = (XtPointer)src; else if (size == sizeof(char*)) u.charptr = (char*)src; else p = (char*)&src; (void) memmove(dst, p, (int) size); } } /* _XtCopyFromArg */ void _XtCopyToArg(src, dst, size) char* src; XtArgVal *dst; register unsigned int size; { if (!*dst) { #ifdef GETVALUES_BUG /* old GetValues semantics (storing directly into arglists) are bad, * but preserve for compatibility as long as arglist contains NULL. */ union { long longval; #ifdef LONG64 int intval; #endif short shortval; char charval; char* charptr; XtPointer ptr; } u; if (size <= sizeof(XtArgVal)) { (void) memmove((char*)&u, (char*)src, (int)size ); if (size == sizeof(long)) *dst = (XtArgVal)u.longval; #ifdef LONG64 else if (size == sizeof(int)) *dst = (XtArgVal)u.intval; #endif else if (size == sizeof(short)) *dst = (XtArgVal)u.shortval; else if (size == sizeof(char)) *dst = (XtArgVal)u.charval; else if (size == sizeof(char*)) *dst = (XtArgVal)u.charptr; else if (size == sizeof(XtPointer)) *dst = (XtArgVal)u.ptr; else (void) memmove((char*)dst, (char*)src, (int)size ); } else (void) memmove((char*)dst, (char*)src, (int)size ); #else XtErrorMsg("invalidGetValues", "xtGetValues", XtCXtToolkitError, "NULL ArgVal in XtGetValues", (String*) NULL, (Cardinal*) NULL); #endif } else { /* proper GetValues semantics: argval is pointer to destination */ (void) memmove((char*)*dst, (char*)src, (int)size ); } } /* _XtCopyToArg */ static void CopyToArg(src, dst, size) char* src; XtArgVal *dst; register unsigned int size; { if (!*dst) { /* old GetValues semantics (storing directly into arglists) are bad, * but preserve for compatibility as long as arglist contains NULL. */ union { long longval; #ifdef LONG64 int intval; #endif short shortval; char charval; char* charptr; XtPointer ptr; } u; if (size <= sizeof(XtArgVal)) { (void) memmove((char*)&u, (char*)src, (int)size ); if (size == sizeof(long)) *dst = (XtArgVal)u.longval; #ifdef LONG64 else if (size == sizeof(int)) *dst = (XtArgVal)u.intval; #endif else if (size == sizeof(short)) *dst = (XtArgVal)u.shortval; else if (size == sizeof(char)) *dst = (XtArgVal)u.charval; else if (size == sizeof(char*)) *dst = (XtArgVal)u.charptr; else if (size == sizeof(XtPointer)) *dst = (XtArgVal)u.ptr; else (void) memmove((char*)dst, (char*)src, (int)size ); } else (void) memmove((char*)dst, (char*)src, (int)size ); } else { /* proper GetValues semantics: argval is pointer to destination */ (void) memmove((char*)*dst, (char*)src, (int)size ); } } /* CopyToArg */ #endif static Cardinal CountTreeDepth(w) Widget w; { Cardinal count; for (count = 1; w != NULL; w = (Widget) w->core.parent) count++; return count; } static void GetNamesAndClasses(w, names, classes) register Widget w; register XrmNameList names; register XrmClassList classes; { register Cardinal length, j; register XrmQuark t; WidgetClass class; /* Return null-terminated quark arrays, with length the number of quarks (not including NULL) */ LOCK_PROCESS; for (length = 0; w != NULL; w = (Widget) w->core.parent) { names[length] = w->core.xrm_name; class = XtClass(w); /* KLUDGE KLUDGE KLUDGE KLUDGE */ if (w->core.parent == NULL && XtIsApplicationShell(w)) { classes[length] = ((ApplicationShellWidget) w)->application.xrm_class; } else classes[length] = class->core_class.xrm_class; length++; } UNLOCK_PROCESS; /* They're in backwards order, flop them around */ for (j = 0; j < length/2; j++) { t = names[j]; names[j] = names[length-j-1]; names[length-j-1] = t; t = classes[j]; classes[j] = classes[length-j-1]; classes[length-j-1] = t; } names[length] = NULLQUARK; classes[length] = NULLQUARK; } /* GetNamesAndClasses */ /* Spiffy fast compiled form of resource list. */ /* XtResourceLists are compiled in-place into XrmResourceLists */ /* All atoms are replaced by quarks, and offsets are -offset-1 to */ /* indicate that this list has been compiled already */ void _XtCompileResourceList(resources, num_resources) register XtResourceList resources; Cardinal num_resources; { register Cardinal count; #define xrmres ((XrmResourceList) resources) #define PSToQ XrmPermStringToQuark for (count = 0; count < num_resources; resources++, count++) { xrmres->xrm_name = PSToQ(resources->resource_name); xrmres->xrm_class = PSToQ(resources->resource_class); xrmres->xrm_type = PSToQ(resources->resource_type); xrmres->xrm_offset = (Cardinal) (-(int)resources->resource_offset - 1); xrmres->xrm_default_type = PSToQ(resources->default_type); } #undef PSToQ #undef xrmres } /* _XtCompileResourceList */ /* Like _XtCompileResourceList, but strings are not permanent */ static void XrmCompileResourceListEphem(resources, num_resources) register XtResourceList resources; Cardinal num_resources; { register Cardinal count; #define xrmres ((XrmResourceList) resources) for (count = 0; count < num_resources; resources++, count++) { xrmres->xrm_name = StringToName(resources->resource_name); xrmres->xrm_class = StringToClass(resources->resource_class); xrmres->xrm_type = StringToQuark(resources->resource_type); xrmres->xrm_offset = (Cardinal) (-(int)resources->resource_offset - 1); xrmres->xrm_default_type = StringToQuark(resources->default_type); } #undef xrmres } /* XrmCompileResourceListEphem */ static void BadSize(size, name) Cardinal size; XrmQuark name; { String params[2]; Cardinal num_params = 2; params[0] = (String)(long) size; params[1] = XrmQuarkToString(name); XtWarningMsg("invalidSizeOverride", "xtDependencies", XtCXtToolkitError, "Representation size %d must match superclass's to override %s", params, &num_params); } /* BadType */ /* * Create a new resource list, with the class resources following the * superclass's resources. If a resource in the class list overrides * a superclass resource, then just replace the superclass entry in place. * * At the same time, add a level of indirection to the XtResourceList to * create and XrmResourceList. */ void _XtDependencies(class_resp, class_num_resp, super_res, super_num_res, super_widget_size) XtResourceList *class_resp; /* VAR */ Cardinal *class_num_resp; /* VAR */ XrmResourceList *super_res; Cardinal super_num_res; Cardinal super_widget_size; { register XrmResourceList *new_res; Cardinal new_num_res; XrmResourceList class_res = (XrmResourceList) *class_resp; Cardinal class_num_res = *class_num_resp; register Cardinal i, j; Cardinal new_next; if (class_num_res == 0) { /* Just point to superclass resource list */ *class_resp = (XtResourceList) super_res; *class_num_resp = super_num_res; return; } /* Allocate and initialize new_res with superclass resource pointers */ new_num_res = super_num_res + class_num_res; new_res = (XrmResourceList *) __XtMalloc(new_num_res*sizeof(XrmResourceList)); if (super_num_res > 0) XtMemmove(new_res, super_res, super_num_res * sizeof(XrmResourceList)); /* Put pointers to class resource entries into new_res */ new_next = super_num_res; for (i = 0; i < class_num_res; i++) { if (-class_res[i].xrm_offset-1 < super_widget_size) { /* Probably an override of superclass resources--look for overlap */ for (j = 0; j < super_num_res; j++) { if (class_res[i].xrm_offset == new_res[j]->xrm_offset) { /* Spec is silent on what fields subclass can override. * The only two of real concern are type & size. * Although allowing type to be over-ridden introduces * the possibility of errors, it's at present the only * reasonable way to allow a subclass to force a private * converter to be invoked for a subset of fields. */ /* We do insist that size be identical to superclass */ if (class_res[i].xrm_size != new_res[j]->xrm_size) { BadSize(class_res[i].xrm_size, (XrmQuark) class_res[i].xrm_name); class_res[i].xrm_size = new_res[j]->xrm_size; } new_res[j] = &(class_res[i]); new_num_res--; goto NextResource; } } /* for j */ } /* Not an overlap, add an entry to new_res */ new_res[new_next++] = &(class_res[i]); NextResource:; } /* for i */ /* Okay, stuff new resources back into class record */ *class_resp = (XtResourceList) new_res; *class_num_resp = new_num_res; } /* _XtDependencies */ void _XtResourceDependencies(wc) WidgetClass wc; { WidgetClass sc; sc = wc->core_class.superclass; if (sc == NULL) { _XtDependencies(&(wc->core_class.resources), &(wc->core_class.num_resources), (XrmResourceList *) NULL, (unsigned)0, (unsigned)0); } else { _XtDependencies(&(wc->core_class.resources), &(wc->core_class.num_resources), (XrmResourceList *) sc->core_class.resources, sc->core_class.num_resources, sc->core_class.widget_size); } } /* _XtResourceDependencies */ void _XtConstraintResDependencies(wc) ConstraintWidgetClass wc; { ConstraintWidgetClass sc; if (wc == (ConstraintWidgetClass) constraintWidgetClass) { _XtDependencies(&(wc->constraint_class.resources), &(wc->constraint_class.num_resources), (XrmResourceList *)NULL, (unsigned)0, (unsigned)0); } else { sc = (ConstraintWidgetClass) wc->core_class.superclass; _XtDependencies(&(wc->constraint_class.resources), &(wc->constraint_class.num_resources), (XrmResourceList *) sc->constraint_class.resources, sc->constraint_class.num_resources, sc->constraint_class.constraint_size); } } /* _XtConstraintResDependencies */ XrmResourceList* _XtCreateIndirectionTable (resources, num_resources) XtResourceList resources; Cardinal num_resources; { register int idx; XrmResourceList* table; table = (XrmResourceList*)__XtMalloc(num_resources * sizeof(XrmResourceList)); for (idx = 0; idx < num_resources; idx++) table[idx] = (XrmResourceList)(&(resources[idx])); return table; } static XtCacheRef *GetResources(widget, base, names, classes, table, num_resources, quark_args, args, num_args, typed_args, pNumTypedArgs, tm_hack) Widget widget; /* Widget resources are associated with */ char* base; /* Base address of memory to write to */ XrmNameList names; /* Full inheritance name of widget */ XrmClassList classes; /* Full inheritance class of widget */ XrmResourceList* table; /* The list of resources required. */ Cardinal num_resources; /* number of items in resource list */ XrmQuarkList quark_args; /* Arg names quarkified */ ArgList args; /* ArgList to override resources */ Cardinal num_args; /* number of items in arg list */ XtTypedArgList typed_args; /* Typed arg list to override resources */ Cardinal* pNumTypedArgs; /* number of items in typed arg list */ Boolean tm_hack; /* do baseTranslations */ { /* * assert: *pNumTypedArgs == 0 if num_args > 0 * assert: num_args == 0 if *pNumTypedArgs > 0 */ #define SEARCHLISTLEN 100 #define MAXRESOURCES 400 XrmValue value; XrmQuark rawType; XrmValue convValue; XrmHashTable stackSearchList[SEARCHLISTLEN]; XrmHashTable *searchList = stackSearchList; unsigned int searchListSize = SEARCHLISTLEN; Boolean found[MAXRESOURCES]; int typed[MAXRESOURCES]; XtCacheRef cache_ref[MAXRESOURCES]; XtCacheRef *cache_ptr, *cache_base; Boolean persistent_resources = True; Boolean found_persistence = False; int num_typed_args = *pNumTypedArgs; XrmDatabase db; Boolean do_tm_hack = False; if ((args == NULL) && (num_args != 0)) { XtAppWarningMsg(XtWidgetToApplicationContext(widget), "invalidArgCount","getResources",XtCXtToolkitError, "argument count > 0 on NULL argument list", (String *)NULL, (Cardinal *)NULL); num_args = 0; } if (num_resources == 0) { return NULL; } else if (num_resources >= MAXRESOURCES) { XtAppWarningMsg(XtWidgetToApplicationContext(widget), "invalidResourceCount","getResources",XtCXtToolkitError, "too many resources", (String *)NULL, (Cardinal *)NULL); return NULL; } else if (table == NULL) { XtAppWarningMsg(XtWidgetToApplicationContext(widget), "invalidResourceCount","getResources",XtCXtToolkitError, "resource count > 0 on NULL resource list", (String *)NULL, (Cardinal *)NULL); return NULL; } /* Mark each resource as not found on arg list */ bzero((char *) found, (int) (num_resources * sizeof(Boolean))); bzero((char *) typed, (int) (num_resources * sizeof(int))); /* Copy the args into the resources, mark each as found */ { register ArgList arg; register XtTypedArgList typed_arg; register XrmName argName; register int j; register int i; register XrmResourceList rx; register XrmResourceList *res; for (arg = args, i = 0; i < num_args; i++, arg++) { argName = quark_args[i]; if (argName == QinitialResourcesPersistent) { persistent_resources = (Boolean)arg->value; found_persistence = True; continue; } for (j = 0, res = table; j < num_resources; j++, res++) { rx = *res; if (argName == rx->xrm_name) { _XtCopyFromArg( arg->value, base - rx->xrm_offset - 1, rx->xrm_size); found[j] = TRUE; break; } } } for (typed_arg = typed_args, i = 0; i < num_typed_args; i++, typed_arg++) { register XrmRepresentation argType; argName = quark_args[i]; argType = (typed_arg->type == NULL) ? NULLQUARK : XrmStringToRepresentation(typed_arg->type); if (argName == QinitialResourcesPersistent) { persistent_resources = (Boolean)typed_arg->value; found_persistence = True; break; } for (j = 0, res = table; j < num_resources; j++, res++) { rx = *res; if (argName == rx->xrm_name) { if (argType != NULLQUARK && argType != rx->xrm_type) { typed[j] = i + 1; } else { _XtCopyFromArg( typed_arg->value, base - rx->xrm_offset - 1, rx->xrm_size); } found[j] = TRUE; break; } } } } /* Ask resource manager for a list of database levels that we can do a single-level search on each resource */ db = XtScreenDatabase(XtScreenOfObject(widget)); while (!XrmQGetSearchList(db, names, classes, searchList, searchListSize)) { if (searchList == stackSearchList) searchList = NULL; searchList = (XrmHashTable*)XtRealloc((char*)searchList, sizeof(XrmHashTable) * (searchListSize *= 2)); } if (persistent_resources) cache_base = NULL; else cache_base = cache_ref; /* geez, this is an ugly mess */ if (XtIsShell(widget)) { register XrmResourceList *res; register int j; Screen *oldscreen = widget->core.screen; /* look up screen resource first, since real rdb depends on it */ for (res = table, j = 0; j < num_resources; j++, res++) { if ((*res)->xrm_name != Qscreen) continue; if (typed[j]) { register XtTypedArg* arg = typed_args + typed[j] - 1; XrmQuark from_type; XrmValue from_val, to_val; from_type = StringToQuark(arg->type); from_val.size = arg->size; if ((from_type == QString) || (arg->size > sizeof(XtArgVal))) from_val.addr = (XPointer)arg->value; else from_val.addr = (XPointer)&arg->value; to_val.size = sizeof(Screen*); to_val.addr = (XPointer)&widget->core.screen; found[j] = _XtConvert(widget, from_type, &from_val, QScreen, &to_val, cache_base); if (cache_base && *cache_base) cache_base++; } if (!found[j]) { if (XrmQGetSearchResource(searchList, Qscreen, QScreen, &rawType, &value)) { if (rawType != QScreen) { convValue.size = sizeof(Screen*); convValue.addr = (XPointer)&widget->core.screen; (void)_XtConvert(widget, rawType, &value, QScreen, &convValue, cache_base); if (cache_base && *cache_base) cache_base++; } else { widget->core.screen = *((Screen **)value.addr); } } } break; } /* now get the database to use for the rest of the resources */ if (widget->core.screen != oldscreen) { db = XtScreenDatabase(widget->core.screen); while (!XrmQGetSearchList(db, names, classes, searchList, searchListSize)) { if (searchList == stackSearchList) searchList = NULL; searchList = (XrmHashTable*)XtRealloc((char*)searchList, sizeof(XrmHashTable) * (searchListSize *= 2)); } } } /* go to the resource manager for those resources not found yet */ /* if it's not in the resource database use the default value */ { register XrmResourceList rx; register XrmResourceList *res; register int j; register XrmRepresentation xrm_type; register XrmRepresentation xrm_default_type; char char_val; short short_val; int int_val; long long_val; char* char_ptr; if (!found_persistence) { if (XrmQGetSearchResource(searchList, QinitialResourcesPersistent, QInitialResourcesPersistent, &rawType, &value)) { if (rawType != QBoolean) { convValue.size = sizeof(Boolean); convValue.addr = (XPointer)&persistent_resources; (void)_XtConvert(widget, rawType, &value, QBoolean, &convValue, NULL); } else persistent_resources = *(Boolean*)value.addr; } } if (persistent_resources) cache_ptr = NULL; else if (cache_base) cache_ptr = cache_base; else cache_ptr = cache_ref; for (res = table, j = 0; j < num_resources; j++, res++) { rx = *res; xrm_type = rx->xrm_type; if (typed[j]) { register XtTypedArg* arg = typed_args + typed[j] - 1; /* * This resource value has been specified as a typed arg and * has to be converted. Typed arg conversions are done here * to correctly interpose them with normal resource conversions. */ XrmQuark from_type; XrmValue from_val, to_val; Boolean converted; from_type = StringToQuark(arg->type); from_val.size = arg->size; if ((from_type == QString) || (arg->size > sizeof(XtArgVal))) from_val.addr = (XPointer)arg->value; else from_val.addr = (XPointer)&arg->value; to_val.size = rx->xrm_size; to_val.addr = base - rx->xrm_offset - 1; converted = _XtConvert(widget, from_type, &from_val, xrm_type, &to_val, cache_ptr); if (converted) { /* Copy the converted value back into the typed argument. * normally the data should be <= sizeof(XtArgVal) and * is stored directly into the 'value' field .... BUT * if the resource size is greater than sizeof(XtArgVal) * then we dynamically alloc a block of store to hold the * data and zap a copy in there !!! .... freeing it later * the size field in the typed arg is negated to indicate * that the store pointed to by the value field is * dynamic ....... * "freeing" happens in the case of _XtCreate after the * CallInitialize ..... other clients of GetResources * using typed args should be aware of the need to free * this store ..... */ if(rx->xrm_size > sizeof(XtArgVal)) { arg->value = (XtArgVal) __XtMalloc(rx->xrm_size); arg->size = -(arg->size); } else { /* will fit - copy directly into value field */ arg->value = (XtArgVal) NULL; } CopyToArg((char *)(base - rx->xrm_offset - 1), &arg->value, rx->xrm_size); } else { /* Conversion failed. Get default value. */ found[j] = False; } if (cache_ptr && *cache_ptr) cache_ptr++; } if (!found[j]) { Boolean already_copied = False; Boolean have_value = False; if (XrmQGetSearchResource(searchList, rx->xrm_name, rx->xrm_class, &rawType, &value)) { if (rawType != xrm_type) { convValue.size = rx->xrm_size; convValue.addr = (XPointer)(base - rx->xrm_offset - 1); already_copied = have_value = _XtConvert(widget, rawType, &value, xrm_type, &convValue, cache_ptr); if (cache_ptr && *cache_ptr) cache_ptr++; } else have_value = True; if (have_value && rx->xrm_name == Qtranslations) do_tm_hack = True; } LOCK_PROCESS; if (!have_value && ((rx->xrm_default_type == QImmediate) || (rx->xrm_default_type == xrm_type) || (rx->xrm_default_addr != NULL))) { /* Convert default value to proper type */ xrm_default_type = rx->xrm_default_type; if (xrm_default_type == QCallProc) { #ifdef CRAY if ( (int) Cjumpp != (int) Cjump) (*(XtResourceDefaultProc) (((int)(rx->xrm_default_addr))<<2))( widget,-(rx->xrm_offset+1), &value); else #endif (*(XtResourceDefaultProc)(rx->xrm_default_addr))( widget,-(rx->xrm_offset+1), &value); } else if (xrm_default_type == QImmediate) { /* XtRImmediate == XtRString for type XtRString */ if (xrm_type == QString) { value.addr = rx->xrm_default_addr; } else if (rx->xrm_size == sizeof(int)) { int_val = (int)(long)rx->xrm_default_addr; value.addr = (XPointer) &int_val; } else if (rx->xrm_size == sizeof(short)) { short_val = (short)(long)rx->xrm_default_addr; value.addr = (XPointer) &short_val; } else if (rx->xrm_size == sizeof(char)) { char_val = (char)(long)rx->xrm_default_addr; value.addr = (XPointer) &char_val; } else if (rx->xrm_size == sizeof(long)) { long_val = (long)rx->xrm_default_addr; value.addr = (XPointer) &long_val; } else if (rx->xrm_size == sizeof(char*)) { char_ptr = (char*)rx->xrm_default_addr; value.addr = (XPointer) &char_ptr; } else { value.addr = (XPointer) &(rx->xrm_default_addr); } } else if (xrm_default_type == xrm_type) { value.addr = rx->xrm_default_addr; } else { value.addr = rx->xrm_default_addr; if (xrm_default_type == QString) { value.size = strlen((char *)value.addr) + 1; } else { value.size = sizeof(XtPointer); } convValue.size = rx->xrm_size; convValue.addr = (XPointer)(base - rx->xrm_offset - 1); already_copied = _XtConvert(widget, xrm_default_type, &value, xrm_type, &convValue, cache_ptr); if (!already_copied) value.addr = NULL; if (cache_ptr && *cache_ptr) cache_ptr++; } } if (!already_copied) { if (xrm_type == QString) { *((String*)(base - rx->xrm_offset - 1)) = value.addr; } else { if (value.addr != NULL) { XtMemmove(base - rx->xrm_offset - 1, value.addr, rx->xrm_size); } else { /* didn't get value, initialize to NULL... */ XtBZero(base - rx->xrm_offset - 1, rx->xrm_size); } } } UNLOCK_PROCESS; if (typed[j]) { /* * This resource value was specified as a typed arg. * However, the default value is being used here since * type type conversion failed, so we compress the list. */ register XtTypedArg* arg = typed_args + typed[j] - 1; register int i; for (i = num_typed_args - typed[j]; i; i--, arg++) { *arg = *(arg+1); } num_typed_args--; } } } if (tm_hack) widget->core.tm.current_state = NULL; if (tm_hack && (!widget->core.tm.translations || (do_tm_hack && widget->core.tm.translations->operation != XtTableReplace)) && XrmQGetSearchResource(searchList, QbaseTranslations, QTranslations, &rawType, &value)) { if (rawType != QTranslationTable) { convValue.size = sizeof(XtTranslations); convValue.addr = (XPointer)&widget->core.tm.current_state; (void)_XtConvert(widget, rawType, &value, QTranslationTable, &convValue, cache_ptr); if (cache_ptr && *cache_ptr) cache_ptr++; } else { *((XtTranslations *)&widget->core.tm.current_state) = *((XtTranslations *)value.addr); } } } if (num_typed_args != *pNumTypedArgs) *pNumTypedArgs = num_typed_args; if (searchList != stackSearchList) XtFree((char*)searchList); if (!cache_ptr) cache_ptr = cache_base; if (cache_ptr && cache_ptr != cache_ref) { int cache_ref_size = cache_ptr - cache_ref; XtCacheRef *refs = (XtCacheRef*) __XtMalloc((unsigned)sizeof(XtCacheRef)*(cache_ref_size + 1)); (void) memmove(refs, cache_ref, sizeof(XtCacheRef)*cache_ref_size ); refs[cache_ref_size] = NULL; return refs; } return (XtCacheRef*)NULL; } static void CacheArgs(args, num_args, typed_args, num_typed_args, quark_cache, num_quarks, pQuarks) ArgList args; Cardinal num_args; XtTypedArgList typed_args; Cardinal num_typed_args; XrmQuarkList quark_cache; Cardinal num_quarks; XrmQuarkList *pQuarks; /* RETURN */ { register XrmQuarkList quarks; register Cardinal i; register Cardinal count; count = (args != NULL) ? num_args : num_typed_args; if (num_quarks < count) { quarks = (XrmQuarkList) __XtMalloc(count * sizeof(XrmQuark)); } else { quarks = quark_cache; } *pQuarks = quarks; if (args != NULL) { for (i = count; i; i--) *quarks++ = StringToQuark((args++)->name); } else { for (i = count; i; i--) *quarks++ = StringToQuark((typed_args++)->name); } } #define FreeCache(cache, pointer) \ if (cache != pointer) XtFree((char *)pointer) XtCacheRef *_XtGetResources(w, args, num_args, typed_args, num_typed_args) register Widget w; ArgList args; Cardinal num_args; XtTypedArgList typed_args; Cardinal* num_typed_args; { XrmName *names, names_s[50]; XrmClass *classes, classes_s[50]; XrmQuark quark_cache[100]; XrmQuarkList quark_args; WidgetClass wc; ConstraintWidgetClass cwc; XtCacheRef *cache_refs; Cardinal count; wc = XtClass(w); count = CountTreeDepth(w); names = (XrmName*) XtStackAlloc (count * sizeof(XrmName), names_s); classes = (XrmClass*) XtStackAlloc (count * sizeof(XrmClass), classes_s); if (names == NULL || classes == NULL) _XtAllocError(NULL); /* Get names, classes for widget and ancestors */ GetNamesAndClasses(w, names, classes); /* Compile arg list into quarks */ CacheArgs(args, num_args, typed_args, *num_typed_args, quark_cache, XtNumber(quark_cache), &quark_args); /* Get normal resources */ LOCK_PROCESS; cache_refs = GetResources(w, (char*)w, names, classes, (XrmResourceList *) wc->core_class.resources, wc->core_class.num_resources, quark_args, args, num_args, typed_args, num_typed_args, XtIsWidget(w)); if (w->core.constraints != NULL) { cwc = (ConstraintWidgetClass) XtClass(w->core.parent); (void) GetResources(w, (char*)w->core.constraints, names, classes, (XrmResourceList *) cwc->constraint_class.resources, cwc->constraint_class.num_resources, quark_args, args, num_args, typed_args, num_typed_args, False); } FreeCache(quark_cache, quark_args); UNLOCK_PROCESS; XtStackFree((XtPointer)names, names_s); XtStackFree((XtPointer)classes, classes_s); return cache_refs; } /* _XtGetResources */ #if NeedFunctionPrototypes void _XtGetSubresources ( Widget w, XtPointer base, const char* name, const char* class, XtResourceList resources, Cardinal num_resources, ArgList args, Cardinal num_args, XtTypedArgList typed_args, Cardinal num_typed_args ) #else void _XtGetSubresources (w, base, name, class, resources, num_resources, args, num_args) Widget w; /* Widget "parent" of subobject */ XtPointer base; /* Base address to write to */ String name; /* name of subobject */ String class; /* class of subobject */ XtResourceList resources; /* resource list for subobject */ Cardinal num_resources; ArgList args; /* arg list to override resources */ Cardinal num_args; XtTypedArgsList typed_args; Cardinal num_typed_args; #endif { XrmName *names, names_s[50]; XrmClass *classes, classes_s[50]; XrmQuark quark_cache[100]; XrmQuarkList quark_args; XrmResourceList* table; Cardinal count, ntyped_args = num_typed_args; WIDGET_TO_APPCON(w); if (num_resources == 0) return; LOCK_APP(app); count = CountTreeDepth(w); count++; /* make sure there's enough room for name and class */ names = (XrmName*) XtStackAlloc(count * sizeof(XrmName), names_s); classes = (XrmClass*) XtStackAlloc(count * sizeof(XrmClass), classes_s); if (names == NULL || classes == NULL) _XtAllocError(NULL); /* Get full name, class of subobject */ GetNamesAndClasses(w, names, classes); count -= 2; names[count] = StringToName(name); classes[count] = StringToClass(class); count++; names[count] = NULLQUARK; classes[count] = NULLQUARK; /* Compile arg list into quarks */ CacheArgs(args, num_args, typed_args, num_typed_args, quark_cache, XtNumber(quark_cache), &quark_args); /* Compile resource list if needed */ if (((int) resources->resource_offset) >= 0) { XrmCompileResourceListEphem(resources, num_resources); } table = _XtCreateIndirectionTable(resources, num_resources); (void) GetResources(w, (char*)base, names, classes, table, num_resources, quark_args, args, num_args, typed_args, &ntyped_args, False); FreeCache(quark_cache, quark_args); XtFree((char *)table); XtStackFree((XtPointer)names, names_s); XtStackFree((XtPointer)classes, classes_s); UNLOCK_APP(app); } #if NeedFunctionPrototypes void XtGetSubresources ( Widget w, XtPointer base, _Xconst char* name, _Xconst char* class, XtResourceList resources, Cardinal num_resources, ArgList args, Cardinal num_args ) #else void XtGetSubresources (w, base, name, class, resources, num_resources, args, num_args) Widget w; /* Widget "parent" of subobject */ XtPointer base; /* Base address to write to */ String name; /* name of subobject */ String class; /* class of subobject */ XtResourceList resources; /* resource list for subobject */ Cardinal num_resources; ArgList args; /* arg list to override resources */ Cardinal num_args; #endif { _XtGetSubresources (w, base, name, class, resources, num_resources, args, num_args, NULL, 0); } void _XtGetApplicationResources (w, base, resources, num_resources, args, num_args, typed_args, num_typed_args) Widget w; /* Application shell widget */ XtPointer base; /* Base address to write to */ XtResourceList resources; /* resource list for subobject */ Cardinal num_resources; ArgList args; /* arg list to override resources */ Cardinal num_args; XtTypedArgList typed_args; Cardinal num_typed_args; { XrmName *names, names_s[50]; XrmClass *classes, classes_s[50]; XrmQuark quark_cache[100]; XrmQuarkList quark_args; XrmResourceList* table; Cardinal count, ntyped_args = num_typed_args; XtAppContext app; if (num_resources == 0) return; if (w == NULL) app = _XtDefaultAppContext(); else app = XtWidgetToApplicationContext(w); LOCK_APP(app); /* Get full name, class of application */ if (w == NULL) { /* hack for R2 compatibility */ XtPerDisplay pd = _XtGetPerDisplay(_XtDefaultAppContext()->list[0]); names = (XrmName*) XtStackAlloc (2 * sizeof(XrmName), names_s); classes = (XrmClass*) XtStackAlloc (2 * sizeof(XrmClass), classes_s); names[0] = pd->name; names[1] = NULLQUARK; classes[0] = pd->class; classes[1] = NULLQUARK; } else { count = CountTreeDepth(w); names = (XrmName*) XtStackAlloc(count * sizeof(XrmName), names_s); classes = (XrmClass*) XtStackAlloc(count * sizeof(XrmClass), classes_s); if (names == NULL || classes == NULL) _XtAllocError(NULL); GetNamesAndClasses(w, names, classes); } /* Compile arg list into quarks */ CacheArgs(args, num_args, typed_args, num_typed_args, quark_cache, XtNumber(quark_cache), &quark_args); /* Compile resource list if needed */ if (((int) resources->resource_offset) >= 0) { #ifdef CRAY2 if (base == 0) { /* this client is non-portable, but... */ int count; XtResourceList res = resources; for (count = 0; count < num_resources; res++, count++) { res->resource_offset *= sizeof(long); } } #endif /* CRAY2 */ XrmCompileResourceListEphem(resources, num_resources); } table = _XtCreateIndirectionTable(resources,num_resources); (void) GetResources(w, (char*)base, names, classes, table, num_resources, quark_args, args, num_args, typed_args, &ntyped_args, False); FreeCache(quark_cache, quark_args); XtFree((char *)table); if (w != NULL) { XtStackFree((XtPointer)names, names_s); XtStackFree((XtPointer)classes, classes_s); } UNLOCK_APP(app); } void XtGetApplicationResources (w, base, resources, num_resources, args, num_args) Widget w; /* Application shell widget */ XtPointer base; /* Base address to write to */ XtResourceList resources; /* resource list for subobject */ Cardinal num_resources; ArgList args; /* arg list to override resources */ Cardinal num_args; { _XtGetApplicationResources(w, base, resources, num_resources, args, num_args, NULL, 0); } static Boolean initialized = FALSE; void _XtResourceListInitialize() { LOCK_PROCESS; if (initialized) { XtWarningMsg("initializationError","xtInitialize",XtCXtToolkitError, "Initializing Resource Lists twice", (String *)NULL, (Cardinal *)NULL); UNLOCK_PROCESS; return; } initialized = TRUE; UNLOCK_PROCESS; QBoolean = XrmPermStringToQuark(XtCBoolean); QString = XrmPermStringToQuark(XtCString); QCallProc = XrmPermStringToQuark(XtRCallProc); QImmediate = XrmPermStringToQuark(XtRImmediate); QinitialResourcesPersistent = XrmPermStringToQuark(XtNinitialResourcesPersistent); QInitialResourcesPersistent = XrmPermStringToQuark(XtCInitialResourcesPersistent); Qtranslations = XrmPermStringToQuark(XtNtranslations); QbaseTranslations = XrmPermStringToQuark("baseTranslations"); QTranslations = XrmPermStringToQuark(XtCTranslations); QTranslationTable = XrmPermStringToQuark(XtRTranslationTable); Qscreen = XrmPermStringToQuark(XtNscreen); QScreen = XrmPermStringToQuark(XtCScreen); }