Xrm.c revision 57f47464
11ab64890Smrg 21ab64890Smrg/*********************************************************** 31ab64890SmrgCopyright 1987, 1988, 1990 by Digital Equipment Corporation, Maynard 41ab64890Smrg 51ab64890Smrg All Rights Reserved 61ab64890Smrg 761b2299dSmrgPermission to use, copy, modify, and distribute this software and its 861b2299dSmrgdocumentation for any purpose and without fee is hereby granted, 91ab64890Smrgprovided that the above copyright notice appear in all copies and that 1061b2299dSmrgboth that copyright notice and this permission notice appear in 111ab64890Smrgsupporting documentation, and that the name Digital not be 121ab64890Smrgused in advertising or publicity pertaining to distribution of the 1361b2299dSmrgsoftware without specific, written prior permission. 141ab64890Smrg 151ab64890SmrgDIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING 161ab64890SmrgALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL 171ab64890SmrgDIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR 181ab64890SmrgANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, 191ab64890SmrgWHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, 201ab64890SmrgARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS 211ab64890SmrgSOFTWARE. 221ab64890Smrg 231ab64890Smrg******************************************************************/ 241ab64890Smrg/* 251ab64890Smrg 261ab64890SmrgCopyright 1987, 1988, 1990, 1998 The Open Group 271ab64890Smrg 281ab64890SmrgPermission to use, copy, modify, distribute, and sell this software and its 291ab64890Smrgdocumentation for any purpose is hereby granted without fee, provided that 301ab64890Smrgthe above copyright notice appear in all copies and that both that 311ab64890Smrgcopyright notice and this permission notice appear in supporting 321ab64890Smrgdocumentation. 331ab64890Smrg 341ab64890SmrgThe above copyright notice and this permission notice shall be included 351ab64890Smrgin all copies or substantial portions of the Software. 361ab64890Smrg 371ab64890SmrgTHE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS 381ab64890SmrgOR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF 391ab64890SmrgMERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. 401ab64890SmrgIN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR 411ab64890SmrgOTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, 421ab64890SmrgARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR 431ab64890SmrgOTHER DEALINGS IN THE SOFTWARE. 441ab64890Smrg 451ab64890SmrgExcept as contained in this notice, the name of The Open Group shall 461ab64890Smrgnot be used in advertising or otherwise to promote the sale, use or 471ab64890Smrgother dealings in this Software without prior written authorization 481ab64890Smrgfrom The Open Group. 491ab64890Smrg 501ab64890Smrg*/ 511ab64890Smrg 521ab64890Smrg#ifdef HAVE_CONFIG_H 531ab64890Smrg#include <config.h> 541ab64890Smrg#endif 551ab64890Smrg#include <stdio.h> 561ab64890Smrg#include <ctype.h> 571ab64890Smrg#include "Xlibint.h" 581ab64890Smrg#include <X11/Xresource.h> 591ab64890Smrg#include "Xlcint.h" 601ab64890Smrg#ifdef XTHREADS 611ab64890Smrg#include "locking.h" 621ab64890Smrg#endif 631ab64890Smrg#include <X11/Xos.h> 6457f47464Smrg#include <sys/stat.h> 651ab64890Smrg#include "Xresinternal.h" 661ab64890Smrg#include "Xresource.h" 671ab64890Smrg 681ab64890Smrg/* 691ab64890Smrg 701ab64890SmrgThese Xrm routines allow very fast lookup of resources in the resource 711ab64890Smrgdatabase. Several usage patterns are exploited: 721ab64890Smrg 731ab64890Smrg(1) Widgets get a lot of resources at one time. Rather than look up each from 741ab64890Smrgscratch, we can precompute the prioritized list of database levels once, then 751ab64890Smrgsearch for each resource starting at the beginning of the list. 761ab64890Smrg 771ab64890Smrg(2) Many database levels don't contain any leaf resource nodes. There is no 781ab64890Smrgpoint in looking for resources on a level that doesn't contain any. This 791ab64890Smrginformation is kept on a per-level basis. 801ab64890Smrg 811ab64890Smrg(3) Sometimes the widget instance tree is structured such that you get the same 821ab64890Smrgclass name repeated on the fully qualified widget name. This can result in the 831ab64890Smrgsame database level occuring multiple times on the search list. The code below 841ab64890Smrgonly checks to see if you get two identical search lists in a row, rather than 851ab64890Smrglook back through all database levels, but in practice this removes all 861ab64890Smrgduplicates I've ever observed. 871ab64890Smrg 881ab64890SmrgJoel McCormack 891ab64890Smrg 901ab64890Smrg*/ 911ab64890Smrg 921ab64890Smrg/* 931ab64890Smrg 941ab64890SmrgThe Xrm representation has been completely redesigned to substantially reduce 951ab64890Smrgmemory and hopefully improve performance. 961ab64890Smrg 971ab64890SmrgThe database is structured into two kinds of tables: LTables that contain 981ab64890Smrgonly values, and NTables that contain only other tables. 991ab64890Smrg 1001ab64890SmrgSome invariants: 1011ab64890Smrg 1021ab64890SmrgThe next pointer of the top-level node table points to the top-level leaf 1031ab64890Smrgtable, if any. 1041ab64890Smrg 1051ab64890SmrgWithin an LTable, for a given name, the tight value always precedes the 1061ab64890Smrgloose value, and if both are present the loose value is always right after 1071ab64890Smrgthe tight value. 1081ab64890Smrg 1091ab64890SmrgWithin an NTable, all of the entries for a given name are contiguous, 1101ab64890Smrgin the order tight NTable, loose NTable, tight LTable, loose LTable. 1111ab64890Smrg 1121ab64890SmrgBob Scheifler 1131ab64890Smrg 1141ab64890Smrg*/ 1151ab64890Smrg 1161ab64890Smrgstatic XrmQuark XrmQString, XrmQANY; 1171ab64890Smrg 1181ab64890Smrgtypedef Bool (*DBEnumProc)( 1191ab64890Smrg XrmDatabase* /* db */, 1201ab64890Smrg XrmBindingList /* bindings */, 1211ab64890Smrg XrmQuarkList /* quarks */, 1221ab64890Smrg XrmRepresentation* /* type */, 1231ab64890Smrg XrmValue* /* value */, 1241ab64890Smrg XPointer /* closure */ 1251ab64890Smrg); 1261ab64890Smrg 1271ab64890Smrgtypedef struct _VEntry { 1281ab64890Smrg struct _VEntry *next; /* next in chain */ 1291ab64890Smrg XrmQuark name; /* name of this entry */ 1301ab64890Smrg unsigned int tight:1; /* 1 if it is a tight binding */ 1311ab64890Smrg unsigned int string:1; /* 1 if type is String */ 1321ab64890Smrg unsigned int size:30; /* size of value */ 1331ab64890Smrg} VEntryRec, *VEntry; 1341ab64890Smrg 1351ab64890Smrg 1361ab64890Smrgtypedef struct _DEntry { 1371ab64890Smrg VEntryRec entry; /* entry */ 1381ab64890Smrg XrmRepresentation type; /* representation type */ 1391ab64890Smrg} DEntryRec, *DEntry; 1401ab64890Smrg 1411ab64890Smrg/* the value is right after the structure */ 1421ab64890Smrg#define StringValue(ve) (XPointer)((ve) + 1) 1431ab64890Smrg#define RepType(ve) ((DEntry)(ve))->type 1441ab64890Smrg/* the value is right after the structure */ 1451ab64890Smrg#define DataValue(ve) (XPointer)(((DEntry)(ve)) + 1) 1461ab64890Smrg#define RawValue(ve) (char *)((ve)->string ? StringValue(ve) : DataValue(ve)) 1471ab64890Smrg 1481ab64890Smrgtypedef struct _NTable { 1491ab64890Smrg struct _NTable *next; /* next in chain */ 1501ab64890Smrg XrmQuark name; /* name of this entry */ 1511ab64890Smrg unsigned int tight:1; /* 1 if it is a tight binding */ 1521ab64890Smrg unsigned int leaf:1; /* 1 if children are values */ 1531ab64890Smrg unsigned int hasloose:1; /* 1 if has loose children */ 1541ab64890Smrg unsigned int hasany:1; /* 1 if has ANY entry */ 1551ab64890Smrg unsigned int pad:4; /* unused */ 1561ab64890Smrg unsigned int mask:8; /* hash size - 1 */ 1571ab64890Smrg unsigned int entries:16; /* number of children */ 1581ab64890Smrg} NTableRec, *NTable; 1591ab64890Smrg 1601ab64890Smrg/* the buckets are right after the structure */ 1611ab64890Smrg#define NodeBuckets(ne) ((NTable *)((ne) + 1)) 1621ab64890Smrg#define NodeHash(ne,q) NodeBuckets(ne)[(q) & (ne)->mask] 1631ab64890Smrg 1641ab64890Smrg/* leaf tables have an extra level of indirection for the buckets, 1651ab64890Smrg * so that resizing can be done without invalidating a search list. 1661ab64890Smrg * This is completely ugly, and wastes some memory, but the Xlib 1671ab64890Smrg * spec doesn't really specify whether invalidation is OK, and the 1681ab64890Smrg * old implementation did not invalidate. 1691ab64890Smrg */ 1701ab64890Smrgtypedef struct _LTable { 1711ab64890Smrg NTableRec table; 1721ab64890Smrg VEntry *buckets; 1731ab64890Smrg} LTableRec, *LTable; 1741ab64890Smrg 1751ab64890Smrg#define LeafHash(le,q) (le)->buckets[(q) & (le)->table.mask] 1761ab64890Smrg 1771ab64890Smrg/* An XrmDatabase just holds a pointer to the first top-level table. 1781ab64890Smrg * The type name is no longer descriptive, but better to not change 1791ab64890Smrg * the Xresource.h header file. This type also gets used to define 1801ab64890Smrg * XrmSearchList, which is a complete crock, but we'll just leave it 1811ab64890Smrg * and caste types as required. 1821ab64890Smrg */ 1831ab64890Smrgtypedef struct _XrmHashBucketRec { 1841ab64890Smrg NTable table; 1851ab64890Smrg XPointer mbstate; 1861ab64890Smrg XrmMethods methods; 1871ab64890Smrg#ifdef XTHREADS 1881ab64890Smrg LockInfoRec linfo; 1891ab64890Smrg#endif 1901ab64890Smrg} XrmHashBucketRec; 1911ab64890Smrg 1921ab64890Smrg/* closure used in get/put resource */ 1931ab64890Smrgtypedef struct _VClosure { 1941ab64890Smrg XrmRepresentation *type; /* type of value */ 1951ab64890Smrg XrmValuePtr value; /* value itself */ 1961ab64890Smrg} VClosureRec, *VClosure; 1971ab64890Smrg 1981ab64890Smrg/* closure used in get search list */ 1991ab64890Smrgtypedef struct _SClosure { 2001ab64890Smrg LTable *list; /* search list */ 2011ab64890Smrg int idx; /* index of last filled element */ 2021ab64890Smrg int limit; /* maximum index */ 2031ab64890Smrg} SClosureRec, *SClosure; 2041ab64890Smrg 2051ab64890Smrg/* placed in XrmSearchList to indicate next table is loose only */ 2061ab64890Smrg#define LOOSESEARCH ((LTable)1) 2071ab64890Smrg 2081ab64890Smrg/* closure used in enumerate database */ 2091ab64890Smrgtypedef struct _EClosure { 2101ab64890Smrg XrmDatabase db; /* the database */ 2111ab64890Smrg DBEnumProc proc; /* the user proc */ 2121ab64890Smrg XPointer closure; /* the user closure */ 2131ab64890Smrg XrmBindingList bindings; /* binding list */ 2141ab64890Smrg XrmQuarkList quarks; /* quark list */ 2151ab64890Smrg int mode; /* XrmEnum<kind> */ 2161ab64890Smrg} EClosureRec, *EClosure; 2171ab64890Smrg 2181ab64890Smrg/* types for typecasting ETable based functions to NTable based functions */ 2191ab64890Smrgtypedef Bool (*getNTableSProcp)( 2201ab64890Smrg NTable table, 2211ab64890Smrg XrmNameList names, 2221ab64890Smrg XrmClassList classes, 2231ab64890Smrg SClosure closure); 2241ab64890Smrgtypedef Bool (*getNTableVProcp)( 2251ab64890Smrg NTable table, 2261ab64890Smrg XrmNameList names, 2271ab64890Smrg XrmClassList classes, 2281ab64890Smrg VClosure closure); 2291ab64890Smrgtypedef Bool (*getNTableEProcp)( 2301ab64890Smrg NTable table, 2311ab64890Smrg XrmNameList names, 2321ab64890Smrg XrmClassList classes, 2331ab64890Smrg register int level, 2341ab64890Smrg EClosure closure); 2351ab64890Smrg 2361ab64890Smrg/* predicate to determine when to resize a hash table */ 2371ab64890Smrg#define GrowthPred(n,m) ((unsigned)(n) > (((m) + 1) << 2)) 2381ab64890Smrg 2391ab64890Smrg#define GROW(prev) \ 2401ab64890Smrg if (GrowthPred((*prev)->entries, (*prev)->mask)) \ 2411ab64890Smrg GrowTable(prev) 2421ab64890Smrg 2431ab64890Smrg/* pick a reasonable value for maximum depth of resource database */ 2441ab64890Smrg#define MAXDBDEPTH 100 2451ab64890Smrg 2461ab64890Smrg/* macro used in get/search functions */ 2471ab64890Smrg 2481ab64890Smrg/* find an entry named ename, with leafness given by leaf */ 2491ab64890Smrg#define NFIND(ename) \ 2501ab64890Smrg q = ename; \ 2511ab64890Smrg entry = NodeHash(table, q); \ 2521ab64890Smrg while (entry && entry->name != q) \ 2531ab64890Smrg entry = entry->next; \ 2541ab64890Smrg if (leaf && entry && !entry->leaf) { \ 2551ab64890Smrg entry = entry->next; \ 2561ab64890Smrg if (entry && !entry->leaf) \ 2571ab64890Smrg entry = entry->next; \ 2581ab64890Smrg if (entry && entry->name != q) \ 2591ab64890Smrg entry = (NTable)NULL; \ 2601ab64890Smrg } 2611ab64890Smrg 2621ab64890Smrg/* resourceQuarks keeps track of what quarks have been associated with values 2631ab64890Smrg * in all LTables. If a quark has never been used in an LTable, we don't need 2641ab64890Smrg * to bother looking for it. 2651ab64890Smrg */ 2661ab64890Smrg 2671ab64890Smrgstatic unsigned char *resourceQuarks = (unsigned char *)NULL; 2681ab64890Smrgstatic XrmQuark maxResourceQuark = -1; 2691ab64890Smrg 2701ab64890Smrg/* determines if a quark has been used for a value in any database */ 2711ab64890Smrg#define IsResourceQuark(q) ((q) > 0 && (q) <= maxResourceQuark && \ 2721ab64890Smrg resourceQuarks[(q) >> 3] & (1 << ((q) & 7))) 2731ab64890Smrg 2741ab64890Smrgtypedef unsigned char XrmBits; 2751ab64890Smrg 2761ab64890Smrg#define BSLASH ((XrmBits) (1 << 5)) 2771ab64890Smrg#define NORMAL ((XrmBits) (1 << 4)) 2781ab64890Smrg#define EOQ ((XrmBits) (1 << 3)) 2791ab64890Smrg#define SEP ((XrmBits) (1 << 2)) 2801ab64890Smrg#define ENDOF ((XrmBits) (1 << 1)) 2811ab64890Smrg#define SPACE (NORMAL|EOQ|SEP|(XrmBits)0) 2821ab64890Smrg#define RSEP (NORMAL|EOQ|SEP|(XrmBits)1) 2831ab64890Smrg#define EOS (EOQ|SEP|ENDOF|(XrmBits)0) 2841ab64890Smrg#define EOL (EOQ|SEP|ENDOF|(XrmBits)1) 2851ab64890Smrg#define BINDING (NORMAL|EOQ) 2861ab64890Smrg#define ODIGIT (NORMAL|(XrmBits)1) 2871ab64890Smrg 2881ab64890Smrg#define next_char(ch,str) xrmtypes[(unsigned char)((ch) = *(++(str)))] 2891ab64890Smrg#define next_mbchar(ch,len,str) xrmtypes[(unsigned char)(ch = (*db->methods->mbchar)(db->mbstate, str, &len), str += len, ch)] 2901ab64890Smrg 2911ab64890Smrg#define is_space(bits) ((bits) == SPACE) 2921ab64890Smrg#define is_EOQ(bits) ((bits) & EOQ) 2931ab64890Smrg#define is_EOF(bits) ((bits) == EOS) 2941ab64890Smrg#define is_EOL(bits) ((bits) & ENDOF) 2951ab64890Smrg#define is_binding(bits) ((bits) == BINDING) 2961ab64890Smrg#define is_odigit(bits) ((bits) == ODIGIT) 2971ab64890Smrg#define is_separator(bits) ((bits) & SEP) 2981ab64890Smrg#define is_nonpcs(bits) (!(bits)) 2991ab64890Smrg#define is_normal(bits) ((bits) & NORMAL) 3001ab64890Smrg#define is_simple(bits) ((bits) & (NORMAL|BSLASH)) 3011ab64890Smrg#define is_special(bits) ((bits) & (ENDOF|BSLASH)) 3021ab64890Smrg 3031ab64890Smrg/* parsing types */ 3041ab64890Smrgstatic XrmBits const xrmtypes[256] = { 3051ab64890Smrg EOS,0,0,0,0,0,0,0, 3061ab64890Smrg 0,SPACE,EOL,0,0, 3071ab64890Smrg#if defined(WIN32) || defined(__UNIXOS2__) 3081ab64890Smrg EOL, /* treat CR the same as LF, just in case */ 3091ab64890Smrg#else 3101ab64890Smrg 0, 3111ab64890Smrg#endif 3121ab64890Smrg 0,0, 3131ab64890Smrg 0,0,0,0,0,0,0,0, 3141ab64890Smrg 0,0,0,0,0,0,0,0, 3151ab64890Smrg SPACE,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL, 3161ab64890Smrg NORMAL,NORMAL,BINDING,NORMAL,NORMAL,NORMAL,BINDING,NORMAL, 3171ab64890Smrg ODIGIT,ODIGIT,ODIGIT,ODIGIT,ODIGIT,ODIGIT,ODIGIT,ODIGIT, 3181ab64890Smrg NORMAL,NORMAL,RSEP,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL, 3191ab64890Smrg NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL, 3201ab64890Smrg NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL, 3211ab64890Smrg NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL, 3221ab64890Smrg NORMAL,NORMAL,NORMAL,NORMAL,BSLASH,NORMAL,NORMAL,NORMAL, 3231ab64890Smrg NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL, 3241ab64890Smrg NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL, 3251ab64890Smrg NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL, 3261ab64890Smrg NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,0 3271ab64890Smrg /* The rest will be automatically initialized to zero. */ 3281ab64890Smrg}; 3291ab64890Smrg 3301ab64890Smrgvoid XrmInitialize(void) 3311ab64890Smrg{ 3321ab64890Smrg XrmQString = XrmPermStringToQuark("String"); 3331ab64890Smrg XrmQANY = XrmPermStringToQuark("?"); 3341ab64890Smrg} 3351ab64890Smrg 3361ab64890SmrgXrmDatabase XrmGetDatabase( 3371ab64890Smrg Display *display) 3381ab64890Smrg{ 3391ab64890Smrg XrmDatabase retval; 3401ab64890Smrg LockDisplay(display); 3411ab64890Smrg retval = display->db; 3421ab64890Smrg UnlockDisplay(display); 3431ab64890Smrg return retval; 3441ab64890Smrg} 3451ab64890Smrg 3461ab64890Smrgvoid XrmSetDatabase( 3471ab64890Smrg Display *display, 3481ab64890Smrg XrmDatabase database) 3491ab64890Smrg{ 3501ab64890Smrg LockDisplay(display); 3511ab64890Smrg /* destroy database if set up imlicitely by XGetDefault() */ 3521ab64890Smrg if (display->db && (display->flags & XlibDisplayDfltRMDB)) { 3531ab64890Smrg XrmDestroyDatabase(display->db); 3541ab64890Smrg display->flags &= ~XlibDisplayDfltRMDB; 3551ab64890Smrg } 3561ab64890Smrg display->db = database; 3571ab64890Smrg UnlockDisplay(display); 3581ab64890Smrg} 3591ab64890Smrg 3601ab64890Smrgvoid 3611ab64890SmrgXrmStringToQuarkList( 3621ab64890Smrg register _Xconst char *name, 3631ab64890Smrg register XrmQuarkList quarks) /* RETURN */ 3641ab64890Smrg{ 3651ab64890Smrg register XrmBits bits; 3661ab64890Smrg register Signature sig = 0; 3671ab64890Smrg register char ch, *tname; 3681ab64890Smrg register int i = 0; 3691ab64890Smrg 3701ab64890Smrg if ((tname = (char *)name)) { 3711ab64890Smrg tname--; 3721ab64890Smrg while (!is_EOF(bits = next_char(ch, tname))) { 3731ab64890Smrg if (is_binding (bits)) { 3741ab64890Smrg if (i) { 3751ab64890Smrg /* Found a complete name */ 3761ab64890Smrg *quarks++ = _XrmInternalStringToQuark(name,tname - name, 3771ab64890Smrg sig, False); 3781ab64890Smrg i = 0; 3791ab64890Smrg sig = 0; 3801ab64890Smrg } 3811ab64890Smrg name = tname+1; 3821ab64890Smrg } 3831ab64890Smrg else { 3841ab64890Smrg sig = (sig << 1) + ch; /* Compute the signature. */ 3851ab64890Smrg i++; 3861ab64890Smrg } 3871ab64890Smrg } 3881ab64890Smrg *quarks++ = _XrmInternalStringToQuark(name, tname - name, sig, False); 3891ab64890Smrg } 3901ab64890Smrg *quarks = NULLQUARK; 3911ab64890Smrg} 3921ab64890Smrg 3931ab64890Smrgvoid 3941ab64890SmrgXrmStringToBindingQuarkList( 3951ab64890Smrg register _Xconst char *name, 3961ab64890Smrg register XrmBindingList bindings, /* RETURN */ 3971ab64890Smrg register XrmQuarkList quarks) /* RETURN */ 3981ab64890Smrg{ 3991ab64890Smrg register XrmBits bits; 4001ab64890Smrg register Signature sig = 0; 4011ab64890Smrg register char ch, *tname; 4021ab64890Smrg register XrmBinding binding; 4031ab64890Smrg register int i = 0; 4041ab64890Smrg 4051ab64890Smrg if ((tname = (char *)name)) { 4061ab64890Smrg tname--; 4071ab64890Smrg binding = XrmBindTightly; 4081ab64890Smrg while (!is_EOF(bits = next_char(ch, tname))) { 4091ab64890Smrg if (is_binding (bits)) { 4101ab64890Smrg if (i) { 4111ab64890Smrg /* Found a complete name */ 4121ab64890Smrg *bindings++ = binding; 4131ab64890Smrg *quarks++ = _XrmInternalStringToQuark(name, tname - name, 4141ab64890Smrg sig, False); 4151ab64890Smrg 4161ab64890Smrg i = 0; 4171ab64890Smrg sig = 0; 4181ab64890Smrg binding = XrmBindTightly; 4191ab64890Smrg } 4201ab64890Smrg name = tname+1; 4211ab64890Smrg 4221ab64890Smrg if (ch == '*') 4231ab64890Smrg binding = XrmBindLoosely; 4241ab64890Smrg } 4251ab64890Smrg else { 4261ab64890Smrg sig = (sig << 1) + ch; /* Compute the signature. */ 4271ab64890Smrg i++; 4281ab64890Smrg } 4291ab64890Smrg } 4301ab64890Smrg *bindings = binding; 4311ab64890Smrg *quarks++ = _XrmInternalStringToQuark(name, tname - name, sig, False); 4321ab64890Smrg } 4331ab64890Smrg *quarks = NULLQUARK; 4341ab64890Smrg} 4351ab64890Smrg 4361ab64890Smrg#ifdef DEBUG 4371ab64890Smrg 4381ab64890Smrgstatic void PrintQuarkList( 4391ab64890Smrg XrmQuarkList quarks, 4401ab64890Smrg FILE *stream) 4411ab64890Smrg{ 4421ab64890Smrg Bool firstNameSeen; 4431ab64890Smrg 4441ab64890Smrg for (firstNameSeen = False; *quarks; quarks++) { 4451ab64890Smrg if (firstNameSeen) { 4461ab64890Smrg (void) fprintf(stream, "."); 4471ab64890Smrg } 4481ab64890Smrg firstNameSeen = True; 4491ab64890Smrg (void) fputs(XrmQuarkToString(*quarks), stream); 4501ab64890Smrg } 4511ab64890Smrg} /* PrintQuarkList */ 4521ab64890Smrg 4531ab64890Smrg#endif /* DEBUG */ 4541ab64890Smrg 4551ab64890Smrg 4561ab64890Smrg/* 4571ab64890Smrg * Fallback methods for Xrm parsing. 4581ab64890Smrg * Simulate a C locale. No state needed here. 4591ab64890Smrg */ 4601ab64890Smrg 4611ab64890Smrgstatic void 4621ab64890Smrgc_mbnoop( 4631ab64890Smrg XPointer state) 4641ab64890Smrg{ 4651ab64890Smrg} 4661ab64890Smrg 4671ab64890Smrgstatic char 4681ab64890Smrgc_mbchar( 4691ab64890Smrg XPointer state, 4701ab64890Smrg const char *str, 4711ab64890Smrg int *lenp) 4721ab64890Smrg{ 4731ab64890Smrg *lenp = 1; 4741ab64890Smrg return *str; 4751ab64890Smrg} 4761ab64890Smrg 4771ab64890Smrgstatic const char * 4781ab64890Smrgc_lcname( 4791ab64890Smrg XPointer state) 4801ab64890Smrg{ 4811ab64890Smrg return "C"; 4821ab64890Smrg} 4831ab64890Smrg 4841ab64890Smrgstatic const XrmMethodsRec mb_methods = { 4851ab64890Smrg c_mbnoop, /* mbinit */ 4861ab64890Smrg c_mbchar, /* mbchar */ 4871ab64890Smrg c_mbnoop, /* mbfinish */ 4881ab64890Smrg c_lcname, /* lcname */ 4891ab64890Smrg c_mbnoop /* destroy */ 4901ab64890Smrg}; 4911ab64890Smrg 4921ab64890Smrg 4931ab64890Smrgstatic XrmDatabase NewDatabase(void) 4941ab64890Smrg{ 4951ab64890Smrg register XrmDatabase db; 4961ab64890Smrg 4971ab64890Smrg db = (XrmDatabase) Xmalloc(sizeof(XrmHashBucketRec)); 4981ab64890Smrg if (db) { 4991ab64890Smrg _XCreateMutex(&db->linfo); 5001ab64890Smrg db->table = (NTable)NULL; 5011ab64890Smrg db->mbstate = (XPointer)NULL; 5021ab64890Smrg db->methods = _XrmInitParseInfo(&db->mbstate); 5031ab64890Smrg if (!db->methods) 5041ab64890Smrg db->methods = &mb_methods; 5051ab64890Smrg } 5061ab64890Smrg return db; 5071ab64890Smrg} 5081ab64890Smrg 5091ab64890Smrg/* move all values from ftable to ttable, and free ftable's buckets. 5101ab64890Smrg * ttable is quaranteed empty to start with. 5111ab64890Smrg */ 5121ab64890Smrgstatic void MoveValues( 5131ab64890Smrg LTable ftable, 5141ab64890Smrg register LTable ttable) 5151ab64890Smrg{ 5161ab64890Smrg register VEntry fentry, nfentry; 5171ab64890Smrg register VEntry *prev; 5181ab64890Smrg register VEntry *bucket; 5191ab64890Smrg register VEntry tentry; 5201ab64890Smrg register int i; 5211ab64890Smrg 5221ab64890Smrg for (i = ftable->table.mask, bucket = ftable->buckets; i >= 0; i--) { 5231ab64890Smrg for (fentry = *bucket++; fentry; fentry = nfentry) { 5241ab64890Smrg prev = &LeafHash(ttable, fentry->name); 5251ab64890Smrg tentry = *prev; 5261ab64890Smrg *prev = fentry; 5271ab64890Smrg /* chain on all with same name, to preserve invariant order */ 5281ab64890Smrg while ((nfentry = fentry->next) && nfentry->name == fentry->name) 5291ab64890Smrg fentry = nfentry; 5301ab64890Smrg fentry->next = tentry; 5311ab64890Smrg } 5321ab64890Smrg } 5331ab64890Smrg Xfree((char *)ftable->buckets); 5341ab64890Smrg} 5351ab64890Smrg 5361ab64890Smrg/* move all tables from ftable to ttable, and free ftable. 5371ab64890Smrg * ttable is quaranteed empty to start with. 5381ab64890Smrg */ 5391ab64890Smrgstatic void MoveTables( 5401ab64890Smrg NTable ftable, 5411ab64890Smrg register NTable ttable) 5421ab64890Smrg{ 5431ab64890Smrg register NTable fentry, nfentry; 5441ab64890Smrg register NTable *prev; 5451ab64890Smrg register NTable *bucket; 5461ab64890Smrg register NTable tentry; 5471ab64890Smrg register int i; 5481ab64890Smrg 5491ab64890Smrg for (i = ftable->mask, bucket = NodeBuckets(ftable); i >= 0; i--) { 5501ab64890Smrg for (fentry = *bucket++; fentry; fentry = nfentry) { 5511ab64890Smrg prev = &NodeHash(ttable, fentry->name); 5521ab64890Smrg tentry = *prev; 5531ab64890Smrg *prev = fentry; 5541ab64890Smrg /* chain on all with same name, to preserve invariant order */ 5551ab64890Smrg while ((nfentry = fentry->next) && nfentry->name == fentry->name) 5561ab64890Smrg fentry = nfentry; 5571ab64890Smrg fentry->next = tentry; 5581ab64890Smrg } 5591ab64890Smrg } 5601ab64890Smrg Xfree((char *)ftable); 5611ab64890Smrg} 5621ab64890Smrg 5631ab64890Smrg/* grow the table, based on current number of entries */ 5641ab64890Smrgstatic void GrowTable( 5651ab64890Smrg NTable *prev) 5661ab64890Smrg{ 5671ab64890Smrg register NTable table; 5681ab64890Smrg register int i; 5691ab64890Smrg 5701ab64890Smrg table = *prev; 5711ab64890Smrg i = table->mask; 5721ab64890Smrg if (i == 255) /* biggest it gets */ 5731ab64890Smrg return; 5741ab64890Smrg while (i < 255 && GrowthPred(table->entries, i)) 5751ab64890Smrg i = (i << 1) + 1; 5761ab64890Smrg i++; /* i is now the new size */ 5771ab64890Smrg if (table->leaf) { 5781ab64890Smrg register LTable ltable; 5791ab64890Smrg LTableRec otable; 5801ab64890Smrg 5811ab64890Smrg ltable = (LTable)table; 5821ab64890Smrg /* cons up a copy to make MoveValues look symmetric */ 5831ab64890Smrg otable = *ltable; 5841ab64890Smrg ltable->buckets = (VEntry *)Xmalloc(i * sizeof(VEntry)); 5851ab64890Smrg if (!ltable->buckets) { 5861ab64890Smrg ltable->buckets = otable.buckets; 5871ab64890Smrg return; 5881ab64890Smrg } 5891ab64890Smrg ltable->table.mask = i - 1; 5901ab64890Smrg bzero((char *)ltable->buckets, i * sizeof(VEntry)); 5911ab64890Smrg MoveValues(&otable, ltable); 5921ab64890Smrg } else { 5931ab64890Smrg register NTable ntable; 5941ab64890Smrg 5951ab64890Smrg ntable = (NTable)Xmalloc(sizeof(NTableRec) + i * sizeof(NTable)); 5961ab64890Smrg if (!ntable) 5971ab64890Smrg return; 5981ab64890Smrg *ntable = *table; 5991ab64890Smrg ntable->mask = i - 1; 6001ab64890Smrg bzero((char *)NodeBuckets(ntable), i * sizeof(NTable)); 6011ab64890Smrg *prev = ntable; 6021ab64890Smrg MoveTables(table, ntable); 6031ab64890Smrg } 6041ab64890Smrg} 6051ab64890Smrg 6061ab64890Smrg/* merge values from ftable into *pprev, destroy ftable in the process */ 6071ab64890Smrgstatic void MergeValues( 6081ab64890Smrg LTable ftable, 6091ab64890Smrg NTable *pprev, 6101ab64890Smrg Bool override) 6111ab64890Smrg{ 6121ab64890Smrg register VEntry fentry, tentry; 6131ab64890Smrg register VEntry *prev; 6141ab64890Smrg register LTable ttable; 6151ab64890Smrg VEntry *bucket; 6161ab64890Smrg int i; 6171ab64890Smrg register XrmQuark q; 6181ab64890Smrg 6191ab64890Smrg ttable = (LTable)*pprev; 6201ab64890Smrg if (ftable->table.hasloose) 6211ab64890Smrg ttable->table.hasloose = 1; 6221ab64890Smrg for (i = ftable->table.mask, bucket = ftable->buckets; 6231ab64890Smrg i >= 0; 6241ab64890Smrg i--, bucket++) { 6251ab64890Smrg for (fentry = *bucket; fentry; ) { 6261ab64890Smrg q = fentry->name; 6271ab64890Smrg prev = &LeafHash(ttable, q); 6281ab64890Smrg tentry = *prev; 6291ab64890Smrg while (tentry && tentry->name != q) 6301ab64890Smrg tentry = *(prev = &tentry->next); 6311ab64890Smrg /* note: test intentionally uses fentry->name instead of q */ 6321ab64890Smrg /* permits serendipitous inserts */ 6331ab64890Smrg while (tentry && tentry->name == fentry->name) { 6341ab64890Smrg /* if tentry is earlier, skip it */ 6351ab64890Smrg if (!fentry->tight && tentry->tight) { 6361ab64890Smrg tentry = *(prev = &tentry->next); 6371ab64890Smrg continue; 6381ab64890Smrg } 6391ab64890Smrg if (fentry->tight != tentry->tight) { 6401ab64890Smrg /* no match, chain in fentry */ 6411ab64890Smrg *prev = fentry; 6421ab64890Smrg prev = &fentry->next; 6431ab64890Smrg fentry = *prev; 6441ab64890Smrg *prev = tentry; 6451ab64890Smrg ttable->table.entries++; 6461ab64890Smrg } else if (override) { 6471ab64890Smrg /* match, chain in fentry, splice out and free tentry */ 6481ab64890Smrg *prev = fentry; 6491ab64890Smrg prev = &fentry->next; 6501ab64890Smrg fentry = *prev; 6511ab64890Smrg *prev = tentry->next; 6521ab64890Smrg /* free the overridden entry */ 6531ab64890Smrg Xfree((char *)tentry); 6541ab64890Smrg /* get next tentry */ 6551ab64890Smrg tentry = *prev; 6561ab64890Smrg } else { 6571ab64890Smrg /* match, discard fentry */ 6581ab64890Smrg prev = &tentry->next; 6591ab64890Smrg tentry = fentry; /* use as a temp var */ 6601ab64890Smrg fentry = fentry->next; 6611ab64890Smrg /* free the overpowered entry */ 6621ab64890Smrg Xfree((char *)tentry); 6631ab64890Smrg /* get next tentry */ 6641ab64890Smrg tentry = *prev; 6651ab64890Smrg } 6661ab64890Smrg if (!fentry) 6671ab64890Smrg break; 6681ab64890Smrg } 6691ab64890Smrg /* at this point, tentry cannot match any fentry named q */ 6701ab64890Smrg /* chain in all bindings together, preserve invariant order */ 6711ab64890Smrg while (fentry && fentry->name == q) { 6721ab64890Smrg *prev = fentry; 6731ab64890Smrg prev = &fentry->next; 6741ab64890Smrg fentry = *prev; 6751ab64890Smrg *prev = tentry; 6761ab64890Smrg ttable->table.entries++; 6771ab64890Smrg } 6781ab64890Smrg } 6791ab64890Smrg } 6801ab64890Smrg Xfree((char *)ftable->buckets); 6811ab64890Smrg Xfree((char *)ftable); 6821ab64890Smrg /* resize if necessary, now that we're all done */ 6831ab64890Smrg GROW(pprev); 6841ab64890Smrg} 6851ab64890Smrg 6861ab64890Smrg/* merge tables from ftable into *pprev, destroy ftable in the process */ 6871ab64890Smrgstatic void MergeTables( 6881ab64890Smrg NTable ftable, 6891ab64890Smrg NTable *pprev, 6901ab64890Smrg Bool override) 6911ab64890Smrg{ 6921ab64890Smrg register NTable fentry, tentry; 6931ab64890Smrg NTable nfentry; 6941ab64890Smrg register NTable *prev; 6951ab64890Smrg register NTable ttable; 6961ab64890Smrg NTable *bucket; 6971ab64890Smrg int i; 6981ab64890Smrg register XrmQuark q; 6991ab64890Smrg 7001ab64890Smrg ttable = *pprev; 7011ab64890Smrg if (ftable->hasloose) 7021ab64890Smrg ttable->hasloose = 1; 7031ab64890Smrg if (ftable->hasany) 7041ab64890Smrg ttable->hasany = 1; 7051ab64890Smrg for (i = ftable->mask, bucket = NodeBuckets(ftable); 7061ab64890Smrg i >= 0; 7071ab64890Smrg i--, bucket++) { 7081ab64890Smrg for (fentry = *bucket; fentry; ) { 7091ab64890Smrg q = fentry->name; 7101ab64890Smrg prev = &NodeHash(ttable, q); 7111ab64890Smrg tentry = *prev; 7121ab64890Smrg while (tentry && tentry->name != q) 7131ab64890Smrg tentry = *(prev = &tentry->next); 7141ab64890Smrg /* note: test intentionally uses fentry->name instead of q */ 7151ab64890Smrg /* permits serendipitous inserts */ 7161ab64890Smrg while (tentry && tentry->name == fentry->name) { 7171ab64890Smrg /* if tentry is earlier, skip it */ 7181ab64890Smrg if ((fentry->leaf && !tentry->leaf) || 7191ab64890Smrg (!fentry->tight && tentry->tight && 7201ab64890Smrg (fentry->leaf || !tentry->leaf))) { 7211ab64890Smrg tentry = *(prev = &tentry->next); 7221ab64890Smrg continue; 7231ab64890Smrg } 7241ab64890Smrg nfentry = fentry->next; 7251ab64890Smrg if (fentry->leaf != tentry->leaf || 7261ab64890Smrg fentry->tight != tentry->tight) { 7271ab64890Smrg /* no match, just chain in */ 7281ab64890Smrg *prev = fentry; 7291ab64890Smrg *(prev = &fentry->next) = tentry; 7301ab64890Smrg ttable->entries++; 7311ab64890Smrg } else { 7321ab64890Smrg if (fentry->leaf) 7331ab64890Smrg MergeValues((LTable)fentry, prev, override); 7341ab64890Smrg else 7351ab64890Smrg MergeTables(fentry, prev, override); 7361ab64890Smrg /* bump to next tentry */ 7371ab64890Smrg tentry = *(prev = &(*prev)->next); 7381ab64890Smrg } 7391ab64890Smrg /* bump to next fentry */ 7401ab64890Smrg fentry = nfentry; 7411ab64890Smrg if (!fentry) 7421ab64890Smrg break; 7431ab64890Smrg } 7441ab64890Smrg /* at this point, tentry cannot match any fentry named q */ 7451ab64890Smrg /* chain in all bindings together, preserve invariant order */ 7461ab64890Smrg while (fentry && fentry->name == q) { 7471ab64890Smrg *prev = fentry; 7481ab64890Smrg prev = &fentry->next; 7491ab64890Smrg fentry = *prev; 7501ab64890Smrg *prev = tentry; 7511ab64890Smrg ttable->entries++; 7521ab64890Smrg } 7531ab64890Smrg } 7541ab64890Smrg } 7551ab64890Smrg Xfree((char *)ftable); 7561ab64890Smrg /* resize if necessary, now that we're all done */ 7571ab64890Smrg GROW(pprev); 7581ab64890Smrg} 7591ab64890Smrg 7601ab64890Smrgvoid XrmCombineDatabase( 7611ab64890Smrg XrmDatabase from, XrmDatabase *into, 7621ab64890Smrg Bool override) 7631ab64890Smrg{ 7641ab64890Smrg register NTable *prev; 7651ab64890Smrg register NTable ftable, ttable, nftable; 7661ab64890Smrg 7671ab64890Smrg if (!*into) { 7681ab64890Smrg *into = from; 7691ab64890Smrg } else if (from) { 7701ab64890Smrg _XLockMutex(&from->linfo); 7711ab64890Smrg _XLockMutex(&(*into)->linfo); 7721ab64890Smrg if ((ftable = from->table)) { 7731ab64890Smrg prev = &(*into)->table; 7741ab64890Smrg ttable = *prev; 7751ab64890Smrg if (!ftable->leaf) { 7761ab64890Smrg nftable = ftable->next; 7771ab64890Smrg if (ttable && !ttable->leaf) { 7781ab64890Smrg /* both have node tables, merge them */ 7791ab64890Smrg MergeTables(ftable, prev, override); 7801ab64890Smrg /* bump to into's leaf table, if any */ 7811ab64890Smrg ttable = *(prev = &(*prev)->next); 7821ab64890Smrg } else { 7831ab64890Smrg /* into has no node table, link from's in */ 7841ab64890Smrg *prev = ftable; 7851ab64890Smrg *(prev = &ftable->next) = ttable; 7861ab64890Smrg } 7871ab64890Smrg /* bump to from's leaf table, if any */ 7881ab64890Smrg ftable = nftable; 7891ab64890Smrg } else { 7901ab64890Smrg /* bump to into's leaf table, if any */ 7911ab64890Smrg if (ttable && !ttable->leaf) 7921ab64890Smrg ttable = *(prev = &ttable->next); 7931ab64890Smrg } 7941ab64890Smrg if (ftable) { 7951ab64890Smrg /* if into has a leaf, merge, else insert */ 7961ab64890Smrg if (ttable) 7971ab64890Smrg MergeValues((LTable)ftable, prev, override); 7981ab64890Smrg else 7991ab64890Smrg *prev = ftable; 8001ab64890Smrg } 8011ab64890Smrg } 8021ab64890Smrg (from->methods->destroy)(from->mbstate); 8031ab64890Smrg _XUnlockMutex(&from->linfo); 8041ab64890Smrg _XFreeMutex(&from->linfo); 8051ab64890Smrg Xfree((char *)from); 8061ab64890Smrg _XUnlockMutex(&(*into)->linfo); 8071ab64890Smrg } 8081ab64890Smrg} 8091ab64890Smrg 8101ab64890Smrgvoid XrmMergeDatabases( 8111ab64890Smrg XrmDatabase from, XrmDatabase *into) 8121ab64890Smrg{ 8131ab64890Smrg XrmCombineDatabase(from, into, True); 8141ab64890Smrg} 8151ab64890Smrg 8161ab64890Smrg/* store a value in the database, overriding any existing entry */ 8171ab64890Smrgstatic void PutEntry( 8181ab64890Smrg XrmDatabase db, 8191ab64890Smrg XrmBindingList bindings, 8201ab64890Smrg XrmQuarkList quarks, 8211ab64890Smrg XrmRepresentation type, 8221ab64890Smrg XrmValuePtr value) 8231ab64890Smrg{ 8241ab64890Smrg register NTable *pprev, *prev; 8251ab64890Smrg register NTable table; 8261ab64890Smrg register XrmQuark q; 8271ab64890Smrg register VEntry *vprev; 8281ab64890Smrg register VEntry entry; 8291ab64890Smrg NTable *nprev, *firstpprev; 8301ab64890Smrg 8311ab64890Smrg#define NEWTABLE(q,i) \ 8321ab64890Smrg table = (NTable)Xmalloc(sizeof(LTableRec)); \ 8331ab64890Smrg if (!table) \ 8341ab64890Smrg return; \ 8351ab64890Smrg table->name = q; \ 8361ab64890Smrg table->hasloose = 0; \ 8371ab64890Smrg table->hasany = 0; \ 8381ab64890Smrg table->mask = 0; \ 8391ab64890Smrg table->entries = 0; \ 8401ab64890Smrg if (quarks[i]) { \ 8411ab64890Smrg table->leaf = 0; \ 8421ab64890Smrg nprev = NodeBuckets(table); \ 8431ab64890Smrg } else { \ 8441ab64890Smrg table->leaf = 1; \ 84557f47464Smrg if (!(nprev = (NTable *)Xmalloc(sizeof(VEntry *)))) {\ 84657f47464Smrg Xfree(table); \ 8471ab64890Smrg return; \ 84857f47464Smrg } \ 8491ab64890Smrg ((LTable)table)->buckets = (VEntry *)nprev; \ 8501ab64890Smrg } \ 8511ab64890Smrg *nprev = (NTable)NULL; \ 8521ab64890Smrg table->next = *prev; \ 8531ab64890Smrg *prev = table 8541ab64890Smrg 8551ab64890Smrg if (!db || !*quarks) 8561ab64890Smrg return; 8571ab64890Smrg table = *(prev = &db->table); 8581ab64890Smrg /* if already at leaf, bump to the leaf table */ 8591ab64890Smrg if (!quarks[1] && table && !table->leaf) 8601ab64890Smrg table = *(prev = &table->next); 8611ab64890Smrg pprev = prev; 8621ab64890Smrg if (!table || (quarks[1] && table->leaf)) { 8631ab64890Smrg /* no top-level node table, create one and chain it in */ 8641ab64890Smrg NEWTABLE(NULLQUARK,1); 8651ab64890Smrg table->tight = 1; /* arbitrary */ 8661ab64890Smrg prev = nprev; 8671ab64890Smrg } else { 8681ab64890Smrg /* search along until we need a value */ 8691ab64890Smrg while (quarks[1]) { 8701ab64890Smrg q = *quarks; 8711ab64890Smrg table = *(prev = &NodeHash(table, q)); 8721ab64890Smrg while (table && table->name != q) 8731ab64890Smrg table = *(prev = &table->next); 8741ab64890Smrg if (!table) 8751ab64890Smrg break; /* not found */ 8761ab64890Smrg if (quarks[2]) { 8771ab64890Smrg if (table->leaf) 8781ab64890Smrg break; /* not found */ 8791ab64890Smrg } else { 8801ab64890Smrg if (!table->leaf) { 8811ab64890Smrg /* bump to leaf table, if any */ 8821ab64890Smrg table = *(prev = &table->next); 8831ab64890Smrg if (!table || table->name != q) 8841ab64890Smrg break; /* not found */ 8851ab64890Smrg if (!table->leaf) { 8861ab64890Smrg /* bump to leaf table, if any */ 8871ab64890Smrg table = *(prev = &table->next); 8881ab64890Smrg if (!table || table->name != q) 8891ab64890Smrg break; /* not found */ 8901ab64890Smrg } 8911ab64890Smrg } 8921ab64890Smrg } 8931ab64890Smrg if (*bindings == XrmBindTightly) { 8941ab64890Smrg if (!table->tight) 8951ab64890Smrg break; /* not found */ 8961ab64890Smrg } else { 8971ab64890Smrg if (table->tight) { 8981ab64890Smrg /* bump to loose table, if any */ 8991ab64890Smrg table = *(prev = &table->next); 9001ab64890Smrg if (!table || table->name != q || 9011ab64890Smrg !quarks[2] != table->leaf) 9021ab64890Smrg break; /* not found */ 9031ab64890Smrg } 9041ab64890Smrg } 9051ab64890Smrg /* found that one, bump to next quark */ 9061ab64890Smrg pprev = prev; 9071ab64890Smrg quarks++; 9081ab64890Smrg bindings++; 9091ab64890Smrg } 9101ab64890Smrg if (!quarks[1]) { 9111ab64890Smrg /* found all the way to a leaf */ 9121ab64890Smrg q = *quarks; 9131ab64890Smrg entry = *(vprev = &LeafHash((LTable)table, q)); 9141ab64890Smrg while (entry && entry->name != q) 9151ab64890Smrg entry = *(vprev = &entry->next); 9161ab64890Smrg /* if want loose and have tight, bump to next entry */ 9171ab64890Smrg if (entry && *bindings == XrmBindLoosely && entry->tight) 9181ab64890Smrg entry = *(vprev = &entry->next); 9191ab64890Smrg if (entry && entry->name == q && 9201ab64890Smrg (*bindings == XrmBindTightly) == entry->tight) { 9211ab64890Smrg /* match, need to override */ 9221ab64890Smrg if ((type == XrmQString) == entry->string && 9231ab64890Smrg entry->size == value->size) { 9241ab64890Smrg /* update type if not String, can be different */ 9251ab64890Smrg if (!entry->string) 9261ab64890Smrg RepType(entry) = type; 9271ab64890Smrg /* identical size, just overwrite value */ 9281ab64890Smrg memcpy(RawValue(entry), (char *)value->addr, value->size); 9291ab64890Smrg return; 9301ab64890Smrg } 9311ab64890Smrg /* splice out and free old entry */ 9321ab64890Smrg *vprev = entry->next; 9331ab64890Smrg Xfree((char *)entry); 9341ab64890Smrg (*pprev)->entries--; 9351ab64890Smrg } 9361ab64890Smrg /* this is where to insert */ 9371ab64890Smrg prev = (NTable *)vprev; 9381ab64890Smrg } 9391ab64890Smrg } 9401ab64890Smrg /* keep the top table, because we may have to grow it */ 9411ab64890Smrg firstpprev = pprev; 9421ab64890Smrg /* iterate until we get to the leaf */ 9431ab64890Smrg while (quarks[1]) { 9441ab64890Smrg /* build a new table and chain it in */ 9451ab64890Smrg NEWTABLE(*quarks,2); 9461ab64890Smrg if (*quarks++ == XrmQANY) 9471ab64890Smrg (*pprev)->hasany = 1; 9481ab64890Smrg if (*bindings++ == XrmBindTightly) { 9491ab64890Smrg table->tight = 1; 9501ab64890Smrg } else { 9511ab64890Smrg table->tight = 0; 9521ab64890Smrg (*pprev)->hasloose = 1; 9531ab64890Smrg } 9541ab64890Smrg (*pprev)->entries++; 9551ab64890Smrg pprev = prev; 9561ab64890Smrg prev = nprev; 9571ab64890Smrg } 9581ab64890Smrg /* now allocate the value entry */ 9591ab64890Smrg entry = (VEntry)Xmalloc(((type == XrmQString) ? 9601ab64890Smrg sizeof(VEntryRec) : sizeof(DEntryRec)) + 9611ab64890Smrg value->size); 9621ab64890Smrg if (!entry) 9631ab64890Smrg return; 9641ab64890Smrg entry->name = q = *quarks; 9651ab64890Smrg if (*bindings == XrmBindTightly) { 9661ab64890Smrg entry->tight = 1; 9671ab64890Smrg } else { 9681ab64890Smrg entry->tight = 0; 9691ab64890Smrg (*pprev)->hasloose = 1; 9701ab64890Smrg } 9711ab64890Smrg /* chain it in, with a bit of type cast ugliness */ 9721ab64890Smrg entry->next = *((VEntry *)prev); 9731ab64890Smrg *((VEntry *)prev) = entry; 9741ab64890Smrg entry->size = value->size; 9751ab64890Smrg if (type == XrmQString) { 9761ab64890Smrg entry->string = 1; 9771ab64890Smrg } else { 9781ab64890Smrg entry->string = 0; 9791ab64890Smrg RepType(entry) = type; 9801ab64890Smrg } 9811ab64890Smrg /* save a copy of the value */ 9821ab64890Smrg memcpy(RawValue(entry), (char *)value->addr, value->size); 9831ab64890Smrg (*pprev)->entries++; 9841ab64890Smrg /* this is a new leaf, need to remember it for search lists */ 9851ab64890Smrg if (q > maxResourceQuark) { 9861ab64890Smrg unsigned oldsize = (maxResourceQuark + 1) >> 3; 9871ab64890Smrg unsigned size = ((q | 0x7f) + 1) >> 3; /* reallocate in chunks */ 9881ab64890Smrg if (resourceQuarks) { 9891ab64890Smrg unsigned char *prevQuarks = resourceQuarks; 9901ab64890Smrg 9911ab64890Smrg resourceQuarks = (unsigned char *)Xrealloc((char *)resourceQuarks, 9921ab64890Smrg size); 9931ab64890Smrg if (!resourceQuarks) { 9941ab64890Smrg Xfree(prevQuarks); 9951ab64890Smrg } 9961ab64890Smrg } else 9971ab64890Smrg resourceQuarks = (unsigned char *)Xmalloc(size); 9981ab64890Smrg if (resourceQuarks) { 9991ab64890Smrg bzero((char *)&resourceQuarks[oldsize], size - oldsize); 10001ab64890Smrg maxResourceQuark = (size << 3) - 1; 10011ab64890Smrg } else { 10021ab64890Smrg maxResourceQuark = -1; 10031ab64890Smrg } 10041ab64890Smrg } 10051ab64890Smrg if (q > 0 && resourceQuarks) 10061ab64890Smrg resourceQuarks[q >> 3] |= 1 << (q & 0x7); 10071ab64890Smrg GROW(firstpprev); 10081ab64890Smrg 10091ab64890Smrg#undef NEWTABLE 10101ab64890Smrg} 10111ab64890Smrg 10121ab64890Smrgvoid XrmQPutResource( 10131ab64890Smrg XrmDatabase *pdb, 10141ab64890Smrg XrmBindingList bindings, 10151ab64890Smrg XrmQuarkList quarks, 10161ab64890Smrg XrmRepresentation type, 10171ab64890Smrg XrmValuePtr value) 10181ab64890Smrg{ 10191ab64890Smrg if (!*pdb) *pdb = NewDatabase(); 10201ab64890Smrg _XLockMutex(&(*pdb)->linfo); 10211ab64890Smrg PutEntry(*pdb, bindings, quarks, type, value); 10221ab64890Smrg _XUnlockMutex(&(*pdb)->linfo); 10231ab64890Smrg} 10241ab64890Smrg 10251ab64890Smrgvoid 10261ab64890SmrgXrmPutResource( 10271ab64890Smrg XrmDatabase *pdb, 10281ab64890Smrg _Xconst char *specifier, 10291ab64890Smrg _Xconst char *type, 10301ab64890Smrg XrmValuePtr value) 10311ab64890Smrg{ 10321ab64890Smrg XrmBinding bindings[MAXDBDEPTH+1]; 10331ab64890Smrg XrmQuark quarks[MAXDBDEPTH+1]; 10341ab64890Smrg 10351ab64890Smrg if (!*pdb) *pdb = NewDatabase(); 10361ab64890Smrg _XLockMutex(&(*pdb)->linfo); 10371ab64890Smrg XrmStringToBindingQuarkList(specifier, bindings, quarks); 10381ab64890Smrg PutEntry(*pdb, bindings, quarks, XrmStringToQuark(type), value); 10391ab64890Smrg _XUnlockMutex(&(*pdb)->linfo); 10401ab64890Smrg} 10411ab64890Smrg 10421ab64890Smrgvoid 10431ab64890SmrgXrmQPutStringResource( 10441ab64890Smrg XrmDatabase *pdb, 10451ab64890Smrg XrmBindingList bindings, 10461ab64890Smrg XrmQuarkList quarks, 10471ab64890Smrg _Xconst char *str) 10481ab64890Smrg{ 10491ab64890Smrg XrmValue value; 10501ab64890Smrg 10511ab64890Smrg if (!*pdb) *pdb = NewDatabase(); 10521ab64890Smrg value.addr = (XPointer) str; 10531ab64890Smrg value.size = strlen(str)+1; 10541ab64890Smrg _XLockMutex(&(*pdb)->linfo); 10551ab64890Smrg PutEntry(*pdb, bindings, quarks, XrmQString, &value); 10561ab64890Smrg _XUnlockMutex(&(*pdb)->linfo); 10571ab64890Smrg} 10581ab64890Smrg 10591ab64890Smrg/* Function Name: GetDatabase 10601ab64890Smrg * Description: Parses a string and stores it as a database. 10611ab64890Smrg * Arguments: db - the database. 10621ab64890Smrg * str - a pointer to the string containing the database. 10631ab64890Smrg * filename - source filename, if any. 10641ab64890Smrg * doall - whether to do all lines or just one 10651ab64890Smrg */ 10661ab64890Smrg 10671ab64890Smrg/* 106861b2299dSmrg * This function is highly optimized to inline as much as possible. 106961b2299dSmrg * Be very careful with modifications, or simplifications, as they 10701ab64890Smrg * may adversely affect the performance. 10711ab64890Smrg * 10721ab64890Smrg * Chris Peterson, MIT X Consortium 5/17/90. 10731ab64890Smrg */ 10741ab64890Smrg 107561b2299dSmrg/* 10761ab64890Smrg * Xlib spec says max 100 quarks in a lookup, will stop and return if 10771ab64890Smrg * return if any single production's lhs has more than 100 components. 10781ab64890Smrg */ 10791ab64890Smrg#define QLIST_SIZE 100 10801ab64890Smrg 108161b2299dSmrg/* 10821ab64890Smrg * This should be big enough to handle things like the XKeysymDB or biggish 10831ab64890Smrg * ~/.Xdefaults or app-defaults files. Anything bigger will be allocated on 10841ab64890Smrg * the heap. 10851ab64890Smrg */ 10861ab64890Smrg#define DEF_BUFF_SIZE 8192 10871ab64890Smrg 10881ab64890Smrgstatic void GetIncludeFile( 10891ab64890Smrg XrmDatabase db, 10901ab64890Smrg _Xconst char *base, 10911ab64890Smrg _Xconst char *fname, 10921ab64890Smrg int fnamelen); 10931ab64890Smrg 10941ab64890Smrgstatic void GetDatabase( 10951ab64890Smrg XrmDatabase db, 10961ab64890Smrg _Xconst register char *str, 10971ab64890Smrg _Xconst char *filename, 10981ab64890Smrg Bool doall) 10991ab64890Smrg{ 11001ab64890Smrg char *rhs; 11011ab64890Smrg char *lhs, lhs_s[DEF_BUFF_SIZE]; 11021ab64890Smrg XrmQuark quarks[QLIST_SIZE + 1]; /* allow for a terminal NullQuark */ 11031ab64890Smrg XrmBinding bindings[QLIST_SIZE + 1]; 11041ab64890Smrg 11051ab64890Smrg register char *ptr; 11061ab64890Smrg register XrmBits bits = 0; 11071ab64890Smrg register char c; 11081ab64890Smrg register Signature sig; 11091ab64890Smrg register char *ptr_max; 11101ab64890Smrg register int num_quarks; 11111ab64890Smrg register XrmBindingList t_bindings; 11121ab64890Smrg 11131ab64890Smrg int len, alloc_chars; 11141ab64890Smrg unsigned long str_len; 11151ab64890Smrg XrmValue value; 11161ab64890Smrg Bool only_pcs; 11171ab64890Smrg Bool dolines; 11181ab64890Smrg 11191ab64890Smrg if (!db) 11201ab64890Smrg return; 11211ab64890Smrg 112261b2299dSmrg /* 112361b2299dSmrg * if strlen (str) < DEF_BUFF_SIZE allocate buffers on the stack for 11241ab64890Smrg * speed otherwise malloc the buffer. From a buffer overflow standpoint 11251ab64890Smrg * we can be sure that neither: a) a component on the lhs, or b) a 11261ab64890Smrg * value on the rhs, will be longer than the overall length of str, 11271ab64890Smrg * i.e. strlen(str). 11281ab64890Smrg * 112961b2299dSmrg * This should give good performance when parsing "*foo: bar" type 11301ab64890Smrg * databases as might be passed with -xrm command line options; but 11311ab64890Smrg * with larger databases, e.g. .Xdefaults, app-defaults, or KeysymDB 11321ab64890Smrg * files, the size of the buffers will be overly large. One way 11331ab64890Smrg * around this would be to double-parse each production with a resulting 11341ab64890Smrg * performance hit. In any event we can be assured that a lhs component 11351ab64890Smrg * name or a rhs value won't be longer than str itself. 11361ab64890Smrg */ 11371ab64890Smrg 11381ab64890Smrg str_len = strlen (str); 11391ab64890Smrg if (DEF_BUFF_SIZE > str_len) lhs = lhs_s; 114061b2299dSmrg else if ((lhs = (char*) Xmalloc (str_len)) == NULL) 11411ab64890Smrg return; 11421ab64890Smrg 11431ab64890Smrg alloc_chars = DEF_BUFF_SIZE < str_len ? str_len : DEF_BUFF_SIZE; 11441ab64890Smrg if ((rhs = (char*) Xmalloc (alloc_chars)) == NULL) { 11451ab64890Smrg if (lhs != lhs_s) Xfree (lhs); 11461ab64890Smrg return; 11471ab64890Smrg } 11481ab64890Smrg 11491ab64890Smrg (*db->methods->mbinit)(db->mbstate); 11501ab64890Smrg str--; 11511ab64890Smrg dolines = True; 11521ab64890Smrg while (!is_EOF(bits) && dolines) { 11531ab64890Smrg dolines = doall; 11541ab64890Smrg 11551ab64890Smrg /* 115661b2299dSmrg * First: Remove extra whitespace. 11571ab64890Smrg */ 11581ab64890Smrg 11591ab64890Smrg do { 11601ab64890Smrg bits = next_char(c, str); 11611ab64890Smrg } while is_space(bits); 11621ab64890Smrg 11631ab64890Smrg /* 11641ab64890Smrg * Ignore empty lines. 11651ab64890Smrg */ 11661ab64890Smrg 11671ab64890Smrg if (is_EOL(bits)) 11681ab64890Smrg continue; /* start a new line. */ 11691ab64890Smrg 11701ab64890Smrg /* 11711ab64890Smrg * Second: check the first character in a line to see if it is 11721ab64890Smrg * "!" signifying a comment, or "#" signifying a directive. 11731ab64890Smrg */ 11741ab64890Smrg 11751ab64890Smrg if (c == '!') { /* Comment, spin to next newline */ 11761ab64890Smrg while (is_simple(bits = next_char(c, str))) {} 11771ab64890Smrg if (is_EOL(bits)) 11781ab64890Smrg continue; 11791ab64890Smrg while (!is_EOL(bits = next_mbchar(c, len, str))) {} 11801ab64890Smrg str--; 11811ab64890Smrg continue; /* start a new line. */ 11821ab64890Smrg } 11831ab64890Smrg 11841ab64890Smrg if (c == '#') { /* Directive */ 11851ab64890Smrg /* remove extra whitespace */ 11861ab64890Smrg only_pcs = True; 11871ab64890Smrg while (is_space(bits = next_char(c, str))) {}; 11881ab64890Smrg /* only "include" directive is currently defined */ 11891ab64890Smrg if (!strncmp(str, "include", 7)) { 11901ab64890Smrg str += (7-1); 11911ab64890Smrg /* remove extra whitespace */ 11921ab64890Smrg while (is_space(bits = next_char(c, str))) {}; 11931ab64890Smrg /* must have a starting " */ 11941ab64890Smrg if (c == '"') { 11951ab64890Smrg _Xconst char *fname = str+1; 11961ab64890Smrg len = 0; 11971ab64890Smrg do { 11981ab64890Smrg if (only_pcs) { 11991ab64890Smrg bits = next_char(c, str); 12001ab64890Smrg if (is_nonpcs(bits)) 12011ab64890Smrg only_pcs = False; 12021ab64890Smrg } 12031ab64890Smrg if (!only_pcs) 12041ab64890Smrg bits = next_mbchar(c, len, str); 12051ab64890Smrg } while (c != '"' && !is_EOL(bits)); 12061ab64890Smrg /* must have an ending " */ 12071ab64890Smrg if (c == '"') 12081ab64890Smrg GetIncludeFile(db, filename, fname, str - len - fname); 12091ab64890Smrg } 12101ab64890Smrg } 12111ab64890Smrg /* spin to next newline */ 12121ab64890Smrg if (only_pcs) { 12131ab64890Smrg while (is_simple(bits)) 12141ab64890Smrg bits = next_char(c, str); 12151ab64890Smrg if (is_EOL(bits)) 12161ab64890Smrg continue; 12171ab64890Smrg } 12181ab64890Smrg while (!is_EOL(bits)) 12191ab64890Smrg bits = next_mbchar(c, len, str); 12201ab64890Smrg str--; 12211ab64890Smrg continue; /* start a new line. */ 12221ab64890Smrg } 12231ab64890Smrg 12241ab64890Smrg /* 12251ab64890Smrg * Third: loop through the LHS of the resource specification 12261ab64890Smrg * storing characters and converting this to a Quark. 12271ab64890Smrg */ 122861b2299dSmrg 12291ab64890Smrg num_quarks = 0; 12301ab64890Smrg t_bindings = bindings; 12311ab64890Smrg 12321ab64890Smrg sig = 0; 12331ab64890Smrg ptr = lhs; 123461b2299dSmrg *t_bindings = XrmBindTightly; 12351ab64890Smrg for(;;) { 12361ab64890Smrg if (!is_binding(bits)) { 12371ab64890Smrg while (!is_EOQ(bits)) { 12381ab64890Smrg *ptr++ = c; 12391ab64890Smrg sig = (sig << 1) + c; /* Compute the signature. */ 12401ab64890Smrg bits = next_char(c, str); 12411ab64890Smrg } 12421ab64890Smrg 124361b2299dSmrg quarks[num_quarks++] = 12441ab64890Smrg _XrmInternalStringToQuark(lhs, ptr - lhs, sig, False); 12451ab64890Smrg 12461ab64890Smrg if (num_quarks > QLIST_SIZE) { 12471ab64890Smrg Xfree(rhs); 12481ab64890Smrg if (lhs != lhs_s) Xfree (lhs); 12491ab64890Smrg (*db->methods->mbfinish)(db->mbstate); 12501ab64890Smrg return; 12511ab64890Smrg } 12521ab64890Smrg 12531ab64890Smrg if (is_separator(bits)) { 12541ab64890Smrg if (!is_space(bits)) 12551ab64890Smrg break; 12561ab64890Smrg 12571ab64890Smrg /* Remove white space */ 12581ab64890Smrg do { 12591ab64890Smrg *ptr++ = c; 12601ab64890Smrg sig = (sig << 1) + c; /* Compute the signature. */ 12611ab64890Smrg } while (is_space(bits = next_char(c, str))); 12621ab64890Smrg 126361b2299dSmrg /* 12641ab64890Smrg * The spec doesn't permit it, but support spaces 126561b2299dSmrg * internal to resource name/class 12661ab64890Smrg */ 12671ab64890Smrg 12681ab64890Smrg if (is_separator(bits)) 12691ab64890Smrg break; 12701ab64890Smrg num_quarks--; 12711ab64890Smrg continue; 12721ab64890Smrg } 12731ab64890Smrg 12741ab64890Smrg if (c == '.') 12751ab64890Smrg *(++t_bindings) = XrmBindTightly; 12761ab64890Smrg else 12771ab64890Smrg *(++t_bindings) = XrmBindLoosely; 12781ab64890Smrg 12791ab64890Smrg sig = 0; 12801ab64890Smrg ptr = lhs; 12811ab64890Smrg } 12821ab64890Smrg else { 12831ab64890Smrg /* 12841ab64890Smrg * Magic unspecified feature #254. 12851ab64890Smrg * 12861ab64890Smrg * If two separators appear with no Text between them then 12871ab64890Smrg * ignore them. 12881ab64890Smrg * 128961b2299dSmrg * If anyone of those separators is a '*' then the binding 12901ab64890Smrg * will be loose, otherwise it will be tight. 12911ab64890Smrg */ 12921ab64890Smrg 12931ab64890Smrg if (c == '*') 12941ab64890Smrg *t_bindings = XrmBindLoosely; 12951ab64890Smrg } 12961ab64890Smrg 12971ab64890Smrg bits = next_char(c, str); 12981ab64890Smrg } 12991ab64890Smrg 13001ab64890Smrg quarks[num_quarks] = NULLQUARK; 13011ab64890Smrg 13021ab64890Smrg /* 13031ab64890Smrg * Make sure that there is a ':' in this line. 13041ab64890Smrg */ 13051ab64890Smrg 13061ab64890Smrg if (c != ':') { 13071ab64890Smrg char oldc; 13081ab64890Smrg 13091ab64890Smrg /* 13101ab64890Smrg * A parsing error has occured, toss everything on the line 13111ab64890Smrg * a new_line can still be escaped with a '\'. 13121ab64890Smrg */ 13131ab64890Smrg 13141ab64890Smrg while (is_normal(bits)) 13151ab64890Smrg bits = next_char(c, str); 13161ab64890Smrg if (is_EOL(bits)) 13171ab64890Smrg continue; 13181ab64890Smrg bits = next_mbchar(c, len, str); 13191ab64890Smrg do { 13201ab64890Smrg oldc = c; 13211ab64890Smrg bits = next_mbchar(c, len, str); 13221ab64890Smrg } while (c && (c != '\n' || oldc == '\\')); 13231ab64890Smrg str--; 13241ab64890Smrg continue; 13251ab64890Smrg } 13261ab64890Smrg 13271ab64890Smrg /* 13281ab64890Smrg * I now have a quark and binding list for the entire left hand 13291ab64890Smrg * side. "c" currently points to the ":" separating the left hand 13301ab64890Smrg * side for the right hand side. It is time to begin processing 13311ab64890Smrg * the right hand side. 13321ab64890Smrg */ 13331ab64890Smrg 133461b2299dSmrg /* 13351ab64890Smrg * Fourth: Remove more whitespace 13361ab64890Smrg */ 13371ab64890Smrg 13381ab64890Smrg for(;;) { 13391ab64890Smrg if (is_space(bits = next_char(c, str))) 13401ab64890Smrg continue; 13411ab64890Smrg if (c != '\\') 13421ab64890Smrg break; 13431ab64890Smrg bits = next_char(c, str); 13441ab64890Smrg if (c == '\n') 13451ab64890Smrg continue; 13461ab64890Smrg str--; 13471ab64890Smrg bits = BSLASH; 13481ab64890Smrg c = '\\'; 13491ab64890Smrg break; 13501ab64890Smrg } 13511ab64890Smrg 135261b2299dSmrg /* 13531ab64890Smrg * Fifth: Process the right hand side. 13541ab64890Smrg */ 13551ab64890Smrg 13561ab64890Smrg ptr = rhs; 13571ab64890Smrg ptr_max = ptr + alloc_chars - 4; 13581ab64890Smrg only_pcs = True; 13591ab64890Smrg len = 1; 13601ab64890Smrg 13611ab64890Smrg for(;;) { 13621ab64890Smrg 13631ab64890Smrg /* 13641ab64890Smrg * Tight loop for the normal case: Non backslash, non-end of value 13651ab64890Smrg * character that will fit into the allocated buffer. 13661ab64890Smrg */ 13671ab64890Smrg 13681ab64890Smrg if (only_pcs) { 13691ab64890Smrg while (is_normal(bits) && ptr < ptr_max) { 13701ab64890Smrg *ptr++ = c; 13711ab64890Smrg bits = next_char(c, str); 13721ab64890Smrg } 13731ab64890Smrg if (is_EOL(bits)) 13741ab64890Smrg break; 13751ab64890Smrg if (is_nonpcs(bits)) { 13761ab64890Smrg only_pcs = False; 13771ab64890Smrg bits = next_mbchar(c, len, str); 13781ab64890Smrg } 13791ab64890Smrg } 13801ab64890Smrg while (!is_special(bits) && ptr + len <= ptr_max) { 13811ab64890Smrg len = -len; 13821ab64890Smrg while (len) 13831ab64890Smrg *ptr++ = str[len++]; 13841ab64890Smrg if (*str == '\0') { 13851ab64890Smrg bits = EOS; 13861ab64890Smrg break; 13871ab64890Smrg } 13881ab64890Smrg bits = next_mbchar(c, len, str); 13891ab64890Smrg } 13901ab64890Smrg 13911ab64890Smrg if (is_EOL(bits)) { 13921ab64890Smrg str--; 13931ab64890Smrg break; 13941ab64890Smrg } 13951ab64890Smrg 13961ab64890Smrg if (c == '\\') { 13971ab64890Smrg /* 13981ab64890Smrg * We need to do some magic after a backslash. 13991ab64890Smrg */ 14001ab64890Smrg Bool read_next = True; 14011ab64890Smrg 14021ab64890Smrg if (only_pcs) { 14031ab64890Smrg bits = next_char(c, str); 14041ab64890Smrg if (is_nonpcs(bits)) 14051ab64890Smrg only_pcs = False; 14061ab64890Smrg } 14071ab64890Smrg if (!only_pcs) 14081ab64890Smrg bits = next_mbchar(c, len, str); 14091ab64890Smrg 14101ab64890Smrg if (is_EOL(bits)) { 14111ab64890Smrg if (is_EOF(bits)) 14121ab64890Smrg continue; 14131ab64890Smrg } else if (c == 'n') { 14141ab64890Smrg /* 14151ab64890Smrg * "\n" means insert a newline. 14161ab64890Smrg */ 14171ab64890Smrg *ptr++ = '\n'; 14181ab64890Smrg } else if (c == '\\') { 14191ab64890Smrg /* 14201ab64890Smrg * "\\" completes to just one backslash. 14211ab64890Smrg */ 14221ab64890Smrg *ptr++ = '\\'; 14231ab64890Smrg } else { 14241ab64890Smrg /* 14251ab64890Smrg * pick up to three octal digits after the '\'. 14261ab64890Smrg */ 14271ab64890Smrg char temp[3]; 14281ab64890Smrg int count = 0; 14291ab64890Smrg while (is_odigit(bits) && count < 3) { 14301ab64890Smrg temp[count++] = c; 14311ab64890Smrg if (only_pcs) { 14321ab64890Smrg bits = next_char(c, str); 14331ab64890Smrg if (is_nonpcs(bits)) 14341ab64890Smrg only_pcs = False; 14351ab64890Smrg } 14361ab64890Smrg if (!only_pcs) 14371ab64890Smrg bits = next_mbchar(c, len, str); 14381ab64890Smrg } 14391ab64890Smrg 14401ab64890Smrg /* 14411ab64890Smrg * If we found three digits then insert that octal code 14421ab64890Smrg * into the value string as a character. 14431ab64890Smrg */ 14441ab64890Smrg 14451ab64890Smrg if (count == 3) { 14461ab64890Smrg *ptr++ = (unsigned char) ((temp[0] - '0') * 0100 + 14471ab64890Smrg (temp[1] - '0') * 010 + 14481ab64890Smrg (temp[2] - '0')); 14491ab64890Smrg } 14501ab64890Smrg else { 14511ab64890Smrg int tcount; 14521ab64890Smrg 145361b2299dSmrg /* 145461b2299dSmrg * Otherwise just insert those characters into the 14551ab64890Smrg * string, since no special processing is needed on 14561ab64890Smrg * numerics we can skip the special processing. 14571ab64890Smrg */ 14581ab64890Smrg 14591ab64890Smrg for (tcount = 0; tcount < count; tcount++) { 14601ab64890Smrg *ptr++ = temp[tcount]; /* print them in 14611ab64890Smrg the correct order */ 14621ab64890Smrg } 14631ab64890Smrg } 14641ab64890Smrg read_next = False; 14651ab64890Smrg } 14661ab64890Smrg if (read_next) { 14671ab64890Smrg if (only_pcs) { 14681ab64890Smrg bits = next_char(c, str); 14691ab64890Smrg if (is_nonpcs(bits)) 14701ab64890Smrg only_pcs = False; 14711ab64890Smrg } 14721ab64890Smrg if (!only_pcs) 14731ab64890Smrg bits = next_mbchar(c, len, str); 14741ab64890Smrg } 14751ab64890Smrg } 14761ab64890Smrg 147761b2299dSmrg /* 14781ab64890Smrg * It is important to make sure that there is room for at least 14791ab64890Smrg * four more characters in the buffer, since I can add that 14801ab64890Smrg * many characters into the buffer after a backslash has occured. 14811ab64890Smrg */ 14821ab64890Smrg 14831ab64890Smrg if (ptr + len > ptr_max) { 14841ab64890Smrg char * temp_str; 14851ab64890Smrg 148661b2299dSmrg alloc_chars += BUFSIZ/10; 14871ab64890Smrg temp_str = Xrealloc(rhs, sizeof(char) * alloc_chars); 14881ab64890Smrg 14891ab64890Smrg if (!temp_str) { 14901ab64890Smrg Xfree(rhs); 14911ab64890Smrg if (lhs != lhs_s) Xfree (lhs); 14921ab64890Smrg (*db->methods->mbfinish)(db->mbstate); 14931ab64890Smrg return; 14941ab64890Smrg } 14951ab64890Smrg 14961ab64890Smrg ptr = temp_str + (ptr - rhs); /* reset pointer. */ 14971ab64890Smrg rhs = temp_str; 14981ab64890Smrg ptr_max = rhs + alloc_chars - 4; 14991ab64890Smrg } 15001ab64890Smrg } 15011ab64890Smrg 15021ab64890Smrg /* 150361b2299dSmrg * Lastly: Terminate the value string, and store this entry 15041ab64890Smrg * into the database. 15051ab64890Smrg */ 15061ab64890Smrg 15071ab64890Smrg *ptr++ = '\0'; 15081ab64890Smrg 15091ab64890Smrg /* Store it in database */ 15101ab64890Smrg value.size = ptr - rhs; 15111ab64890Smrg value.addr = (XPointer) rhs; 151261b2299dSmrg 15131ab64890Smrg PutEntry(db, bindings, quarks, XrmQString, &value); 15141ab64890Smrg } 15151ab64890Smrg 15161ab64890Smrg if (lhs != lhs_s) Xfree (lhs); 15171ab64890Smrg Xfree (rhs); 15181ab64890Smrg 15191ab64890Smrg (*db->methods->mbfinish)(db->mbstate); 15201ab64890Smrg} 15211ab64890Smrg 15221ab64890Smrgvoid 15231ab64890SmrgXrmPutStringResource( 15241ab64890Smrg XrmDatabase *pdb, 15251ab64890Smrg _Xconst char*specifier, 15261ab64890Smrg _Xconst char*str) 15271ab64890Smrg{ 15281ab64890Smrg XrmValue value; 15291ab64890Smrg XrmBinding bindings[MAXDBDEPTH+1]; 15301ab64890Smrg XrmQuark quarks[MAXDBDEPTH+1]; 15311ab64890Smrg 15321ab64890Smrg if (!*pdb) *pdb = NewDatabase(); 15331ab64890Smrg XrmStringToBindingQuarkList(specifier, bindings, quarks); 15341ab64890Smrg value.addr = (XPointer) str; 15351ab64890Smrg value.size = strlen(str)+1; 15361ab64890Smrg _XLockMutex(&(*pdb)->linfo); 15371ab64890Smrg PutEntry(*pdb, bindings, quarks, XrmQString, &value); 15381ab64890Smrg _XUnlockMutex(&(*pdb)->linfo); 15391ab64890Smrg} 15401ab64890Smrg 15411ab64890Smrg 15421ab64890Smrgvoid 15431ab64890SmrgXrmPutLineResource( 15441ab64890Smrg XrmDatabase *pdb, 15451ab64890Smrg _Xconst char*line) 15461ab64890Smrg{ 15471ab64890Smrg if (!*pdb) *pdb = NewDatabase(); 15481ab64890Smrg _XLockMutex(&(*pdb)->linfo); 15491ab64890Smrg GetDatabase(*pdb, line, (char *)NULL, False); 15501ab64890Smrg _XUnlockMutex(&(*pdb)->linfo); 15511ab64890Smrg} 15521ab64890Smrg 15531ab64890SmrgXrmDatabase 15541ab64890SmrgXrmGetStringDatabase( 15551ab64890Smrg _Xconst char *data) 15561ab64890Smrg{ 15571ab64890Smrg XrmDatabase db; 15581ab64890Smrg 15591ab64890Smrg db = NewDatabase(); 15601ab64890Smrg _XLockMutex(&db->linfo); 15611ab64890Smrg GetDatabase(db, data, (char *)NULL, True); 15621ab64890Smrg _XUnlockMutex(&db->linfo); 15631ab64890Smrg return db; 15641ab64890Smrg} 15651ab64890Smrg 15661ab64890Smrg/* Function Name: ReadInFile 15671ab64890Smrg * Description: Reads the file into a buffer. 15681ab64890Smrg * Arguments: filename - the name of the file. 15691ab64890Smrg * Returns: An allocated string containing the contents of the file. 15701ab64890Smrg */ 15711ab64890Smrg 15721ab64890Smrgstatic char * 15731ab64890SmrgReadInFile(_Xconst char *filename) 15741ab64890Smrg{ 15751ab64890Smrg register int fd, size; 15761ab64890Smrg char * filebuf; 15771ab64890Smrg 15781ab64890Smrg#ifdef __UNIXOS2__ 15791ab64890Smrg filename = __XOS2RedirRoot(filename); 15801ab64890Smrg#endif 15811ab64890Smrg 15821ab64890Smrg /* 15831ab64890Smrg * MS-Windows and OS/2 note: Default open mode includes O_TEXT 15841ab64890Smrg */ 15851ab64890Smrg if ( (fd = _XOpenFile (filename, O_RDONLY)) == -1 ) 15861ab64890Smrg return (char *)NULL; 15871ab64890Smrg 15881ab64890Smrg /* 15891ab64890Smrg * MS-Windows and OS/2 note: depending on how the sources are 15901ab64890Smrg * untarred, the newlines in resource files may or may not have 15911ab64890Smrg * been expanded to CRLF. Either way the size returned by fstat 15921ab64890Smrg * is sufficient to read the file into because in text-mode any 15931ab64890Smrg * CRLFs in a file will be converted to newlines (LF) with the 15941ab64890Smrg * result that the number of bytes actually read with be <= 15951ab64890Smrg * to the size returned by fstat. 15961ab64890Smrg */ 159757f47464Smrg { 159857f47464Smrg struct stat status_buffer; 159957f47464Smrg if ( (fstat(fd, &status_buffer)) == -1 ) { 160057f47464Smrg close (fd); 160157f47464Smrg return (char *)NULL; 160257f47464Smrg } else 160357f47464Smrg size = status_buffer.st_size; 160457f47464Smrg } 16051ab64890Smrg 16061ab64890Smrg if (!(filebuf = Xmalloc(size + 1))) { /* leave room for '\0' */ 16071ab64890Smrg close(fd); 16081ab64890Smrg return (char *)NULL; 16091ab64890Smrg } 16101ab64890Smrg size = read (fd, filebuf, size); 16111ab64890Smrg 16121ab64890Smrg#ifdef __UNIXOS2__ 16131ab64890Smrg { /* kill CRLF */ 16141ab64890Smrg int i,k; 16151ab64890Smrg for (i=k=0; i<size; i++) 16161ab64890Smrg if (filebuf[i] != 0x0d) { 16171ab64890Smrg filebuf[k++] = filebuf[i]; 16181ab64890Smrg } 16191ab64890Smrg filebuf[k] = 0; 16201ab64890Smrg } 16211ab64890Smrg#endif 16221ab64890Smrg 16231ab64890Smrg if (size < 0) { 16241ab64890Smrg close (fd); 16251ab64890Smrg Xfree(filebuf); 16261ab64890Smrg return (char *)NULL; 16271ab64890Smrg } 16281ab64890Smrg close (fd); 16291ab64890Smrg 16301ab64890Smrg filebuf[size] = '\0'; /* NULL terminate it. */ 16311ab64890Smrg return filebuf; 16321ab64890Smrg} 16331ab64890Smrg 16341ab64890Smrgstatic void 16351ab64890SmrgGetIncludeFile( 16361ab64890Smrg XrmDatabase db, 16371ab64890Smrg _Xconst char *base, 16381ab64890Smrg _Xconst char *fname, 16391ab64890Smrg int fnamelen) 16401ab64890Smrg{ 16411ab64890Smrg int len; 16421ab64890Smrg char *str; 16431ab64890Smrg char realfname[BUFSIZ]; 16441ab64890Smrg 16451ab64890Smrg if (fnamelen <= 0 || fnamelen >= BUFSIZ) 16461ab64890Smrg return; 16471ab64890Smrg if (*fname != '/' && base && (str = strrchr(base, '/'))) { 16481ab64890Smrg len = str - base + 1; 16491ab64890Smrg if (len + fnamelen >= BUFSIZ) 16501ab64890Smrg return; 16511ab64890Smrg strncpy(realfname, base, len); 16521ab64890Smrg strncpy(realfname + len, fname, fnamelen); 16531ab64890Smrg realfname[len + fnamelen] = '\0'; 16541ab64890Smrg } else { 16551ab64890Smrg strncpy(realfname, fname, fnamelen); 16561ab64890Smrg realfname[fnamelen] = '\0'; 16571ab64890Smrg } 16581ab64890Smrg if (!(str = ReadInFile(realfname))) 16591ab64890Smrg return; 16601ab64890Smrg GetDatabase(db, str, realfname, True); 16611ab64890Smrg Xfree(str); 16621ab64890Smrg} 16631ab64890Smrg 16641ab64890SmrgXrmDatabase 16651ab64890SmrgXrmGetFileDatabase( 16661ab64890Smrg _Xconst char *filename) 16671ab64890Smrg{ 16681ab64890Smrg XrmDatabase db; 16691ab64890Smrg char *str; 16701ab64890Smrg 16711ab64890Smrg if (!(str = ReadInFile(filename))) 16721ab64890Smrg return (XrmDatabase)NULL; 16731ab64890Smrg 16741ab64890Smrg db = NewDatabase(); 16751ab64890Smrg _XLockMutex(&db->linfo); 16761ab64890Smrg GetDatabase(db, str, filename, True); 16771ab64890Smrg _XUnlockMutex(&db->linfo); 16781ab64890Smrg Xfree(str); 16791ab64890Smrg return db; 16801ab64890Smrg} 16811ab64890Smrg 16821ab64890SmrgStatus 16831ab64890SmrgXrmCombineFileDatabase( 16841ab64890Smrg _Xconst char *filename, 16851ab64890Smrg XrmDatabase *target, 16861ab64890Smrg Bool override) 16871ab64890Smrg{ 16881ab64890Smrg XrmDatabase db; 16891ab64890Smrg char *str; 16901ab64890Smrg 16911ab64890Smrg if (!(str = ReadInFile(filename))) 16921ab64890Smrg return 0; 16931ab64890Smrg if (override) { 16941ab64890Smrg db = *target; 16951ab64890Smrg if (!db) 16961ab64890Smrg *target = db = NewDatabase(); 16971ab64890Smrg } else 16981ab64890Smrg db = NewDatabase(); 16991ab64890Smrg _XLockMutex(&db->linfo); 17001ab64890Smrg GetDatabase(db, str, filename, True); 17011ab64890Smrg _XUnlockMutex(&db->linfo); 17021ab64890Smrg Xfree(str); 17031ab64890Smrg if (!override) 17041ab64890Smrg XrmCombineDatabase(db, target, False); 17051ab64890Smrg return 1; 17061ab64890Smrg} 17071ab64890Smrg 17081ab64890Smrg/* call the user proc for every value in the table, arbitrary order. 17091ab64890Smrg * stop if user proc returns True. level is current depth in database. 17101ab64890Smrg */ 17111ab64890Smrg/*ARGSUSED*/ 17121ab64890Smrgstatic Bool EnumLTable( 17131ab64890Smrg LTable table, 17141ab64890Smrg XrmNameList names, 17151ab64890Smrg XrmClassList classes, 17161ab64890Smrg register int level, 17171ab64890Smrg register EClosure closure) 17181ab64890Smrg{ 17191ab64890Smrg register VEntry *bucket; 17201ab64890Smrg register int i; 17211ab64890Smrg register VEntry entry; 17221ab64890Smrg XrmValue value; 17231ab64890Smrg XrmRepresentation type; 17241ab64890Smrg Bool tightOk; 17251ab64890Smrg 17261ab64890Smrg closure->bindings[level] = (table->table.tight ? 17271ab64890Smrg XrmBindTightly : XrmBindLoosely); 17281ab64890Smrg closure->quarks[level] = table->table.name; 17291ab64890Smrg level++; 17301ab64890Smrg tightOk = !*names; 17311ab64890Smrg closure->quarks[level + 1] = NULLQUARK; 17321ab64890Smrg for (i = table->table.mask, bucket = table->buckets; 17331ab64890Smrg i >= 0; 17341ab64890Smrg i--, bucket++) { 17351ab64890Smrg for (entry = *bucket; entry; entry = entry->next) { 17361ab64890Smrg if (entry->tight && !tightOk) 17371ab64890Smrg continue; 17381ab64890Smrg closure->bindings[level] = (entry->tight ? 17391ab64890Smrg XrmBindTightly : XrmBindLoosely); 17401ab64890Smrg closure->quarks[level] = entry->name; 17411ab64890Smrg value.size = entry->size; 17421ab64890Smrg if (entry->string) { 17431ab64890Smrg type = XrmQString; 17441ab64890Smrg value.addr = StringValue(entry); 17451ab64890Smrg } else { 17461ab64890Smrg type = RepType(entry); 17471ab64890Smrg value.addr = DataValue(entry); 17481ab64890Smrg } 17491ab64890Smrg if ((*closure->proc)(&closure->db, closure->bindings+1, 17501ab64890Smrg closure->quarks+1, &type, &value, 17511ab64890Smrg closure->closure)) 17521ab64890Smrg return True; 17531ab64890Smrg } 17541ab64890Smrg } 17551ab64890Smrg return False; 17561ab64890Smrg} 17571ab64890Smrg 17581ab64890Smrgstatic Bool EnumAllNTable( 17591ab64890Smrg NTable table, 17601ab64890Smrg register int level, 17611ab64890Smrg register EClosure closure) 17621ab64890Smrg{ 17631ab64890Smrg register NTable *bucket; 17641ab64890Smrg register int i; 17651ab64890Smrg register NTable entry; 17661ab64890Smrg XrmQuark empty = NULLQUARK; 17671ab64890Smrg 17681ab64890Smrg if (level >= MAXDBDEPTH) 17691ab64890Smrg return False; 17701ab64890Smrg for (i = table->mask, bucket = NodeBuckets(table); 17711ab64890Smrg i >= 0; 17721ab64890Smrg i--, bucket++) { 17731ab64890Smrg for (entry = *bucket; entry; entry = entry->next) { 17741ab64890Smrg if (entry->leaf) { 17751ab64890Smrg if (EnumLTable((LTable)entry, &empty, &empty, level, closure)) 17761ab64890Smrg return True; 17771ab64890Smrg } else { 17781ab64890Smrg closure->bindings[level] = (entry->tight ? 17791ab64890Smrg XrmBindTightly : XrmBindLoosely); 17801ab64890Smrg closure->quarks[level] = entry->name; 17811ab64890Smrg if (EnumAllNTable(entry, level+1, closure)) 17821ab64890Smrg return True; 17831ab64890Smrg } 17841ab64890Smrg } 17851ab64890Smrg } 17861ab64890Smrg return False; 17871ab64890Smrg} 17881ab64890Smrg 17891ab64890Smrg/* recurse on every table in the table, arbitrary order. 17901ab64890Smrg * stop if user proc returns True. level is current depth in database. 17911ab64890Smrg */ 17921ab64890Smrgstatic Bool EnumNTable( 17931ab64890Smrg NTable table, 17941ab64890Smrg XrmNameList names, 17951ab64890Smrg XrmClassList classes, 17961ab64890Smrg register int level, 17971ab64890Smrg register EClosure closure) 17981ab64890Smrg{ 17991ab64890Smrg register NTable entry; 18001ab64890Smrg register XrmQuark q; 18011ab64890Smrg register unsigned int leaf; 18021ab64890Smrg Bool (*get)( 18031ab64890Smrg NTable table, 18041ab64890Smrg XrmNameList names, 18051ab64890Smrg XrmClassList classes, 18061ab64890Smrg register int level, 18071ab64890Smrg EClosure closure); 18081ab64890Smrg Bool bilevel; 18091ab64890Smrg 18101ab64890Smrg/* find entries named ename, leafness leaf, tight or loose, and call get */ 18111ab64890Smrg#define ITIGHTLOOSE(ename) \ 18121ab64890Smrg NFIND(ename); \ 18131ab64890Smrg if (entry) { \ 18141ab64890Smrg if (leaf == entry->leaf) { \ 18151ab64890Smrg if (!leaf && !entry->tight && entry->next && \ 18161ab64890Smrg entry->next->name == q && entry->next->tight && \ 18171ab64890Smrg (bilevel || entry->next->hasloose) && \ 18181ab64890Smrg EnumLTable((LTable)entry->next, names+1, classes+1, \ 18191ab64890Smrg level, closure)) \ 18201ab64890Smrg return True; \ 18211ab64890Smrg if ((*get)(entry, names+1, classes+1, level, closure)) \ 18221ab64890Smrg return True; \ 18231ab64890Smrg if (entry->tight && (entry = entry->next) && \ 18241ab64890Smrg entry->name == q && leaf == entry->leaf && \ 18251ab64890Smrg (*get)(entry, names+1, classes+1, level, closure)) \ 18261ab64890Smrg return True; \ 18271ab64890Smrg } else if (entry->leaf) { \ 18281ab64890Smrg if ((bilevel || entry->hasloose) && \ 18291ab64890Smrg EnumLTable((LTable)entry, names+1, classes+1, level, closure))\ 18301ab64890Smrg return True; \ 18311ab64890Smrg if (entry->tight && (entry = entry->next) && \ 18321ab64890Smrg entry->name == q && (bilevel || entry->hasloose) && \ 18331ab64890Smrg EnumLTable((LTable)entry, names+1, classes+1, level, closure))\ 18341ab64890Smrg return True; \ 18351ab64890Smrg } \ 18361ab64890Smrg } 18371ab64890Smrg 18381ab64890Smrg/* find entries named ename, leafness leaf, loose only, and call get */ 18391ab64890Smrg#define ILOOSE(ename) \ 18401ab64890Smrg NFIND(ename); \ 18411ab64890Smrg if (entry && entry->tight && (entry = entry->next) && entry->name != q) \ 18421ab64890Smrg entry = (NTable)NULL; \ 18431ab64890Smrg if (entry) { \ 18441ab64890Smrg if (leaf == entry->leaf) { \ 18451ab64890Smrg if ((*get)(entry, names+1, classes+1, level, closure)) \ 18461ab64890Smrg return True; \ 18471ab64890Smrg } else if (entry->leaf && (bilevel || entry->hasloose)) { \ 18481ab64890Smrg if (EnumLTable((LTable)entry, names+1, classes+1, level, closure))\ 18491ab64890Smrg return True; \ 18501ab64890Smrg } \ 18511ab64890Smrg } 18521ab64890Smrg 18531ab64890Smrg if (level >= MAXDBDEPTH) 18541ab64890Smrg return False; 18551ab64890Smrg closure->bindings[level] = (table->tight ? 18561ab64890Smrg XrmBindTightly : XrmBindLoosely); 18571ab64890Smrg closure->quarks[level] = table->name; 18581ab64890Smrg level++; 18591ab64890Smrg if (!*names) { 18601ab64890Smrg if (EnumAllNTable(table, level, closure)) 18611ab64890Smrg return True; 18621ab64890Smrg } else { 18631ab64890Smrg if (names[1] || closure->mode == XrmEnumAllLevels) { 18641ab64890Smrg get = EnumNTable; /* recurse */ 18651ab64890Smrg leaf = 0; 18661ab64890Smrg bilevel = !names[1]; 18671ab64890Smrg } else { 18681ab64890Smrg get = (getNTableEProcp)EnumLTable; /* bottom of recursion */ 18691ab64890Smrg leaf = 1; 18701ab64890Smrg bilevel = False; 18711ab64890Smrg } 18721ab64890Smrg if (table->hasloose && closure->mode == XrmEnumAllLevels) { 18731ab64890Smrg NTable *bucket; 18741ab64890Smrg int i; 18751ab64890Smrg XrmQuark empty = NULLQUARK; 18761ab64890Smrg 18771ab64890Smrg for (i = table->mask, bucket = NodeBuckets(table); 18781ab64890Smrg i >= 0; 18791ab64890Smrg i--, bucket++) { 18801ab64890Smrg q = NULLQUARK; 18811ab64890Smrg for (entry = *bucket; entry; entry = entry->next) { 18821ab64890Smrg if (!entry->tight && entry->name != q && 18831ab64890Smrg entry->name != *names && entry->name != *classes) { 18841ab64890Smrg q = entry->name; 18851ab64890Smrg if (entry->leaf) { 18861ab64890Smrg if (EnumLTable((LTable)entry, &empty, &empty, 18871ab64890Smrg level, closure)) 18881ab64890Smrg return True; 18891ab64890Smrg } else { 18901ab64890Smrg if (EnumNTable(entry, &empty, &empty, 18911ab64890Smrg level, closure)) 18921ab64890Smrg return True; 18931ab64890Smrg } 18941ab64890Smrg } 18951ab64890Smrg } 18961ab64890Smrg } 18971ab64890Smrg } 18981ab64890Smrg 18991ab64890Smrg ITIGHTLOOSE(*names); /* do name, tight and loose */ 19001ab64890Smrg ITIGHTLOOSE(*classes); /* do class, tight and loose */ 19011ab64890Smrg if (table->hasany) { 19021ab64890Smrg ITIGHTLOOSE(XrmQANY); /* do ANY, tight and loose */ 19031ab64890Smrg } 19041ab64890Smrg if (table->hasloose) { 19051ab64890Smrg while (1) { 19061ab64890Smrg names++; 19071ab64890Smrg classes++; 19081ab64890Smrg if (!*names) 19091ab64890Smrg break; 19101ab64890Smrg if (!names[1] && closure->mode != XrmEnumAllLevels) { 19111ab64890Smrg get = (getNTableEProcp)EnumLTable; /* bottom of recursion */ 19121ab64890Smrg leaf = 1; 19131ab64890Smrg } 19141ab64890Smrg ILOOSE(*names); /* loose names */ 19151ab64890Smrg ILOOSE(*classes); /* loose classes */ 19161ab64890Smrg if (table->hasany) { 19171ab64890Smrg ILOOSE(XrmQANY); /* loose ANY */ 19181ab64890Smrg } 19191ab64890Smrg } 19201ab64890Smrg names--; 19211ab64890Smrg classes--; 19221ab64890Smrg } 19231ab64890Smrg } 19241ab64890Smrg /* now look for matching leaf nodes */ 19251ab64890Smrg entry = table->next; 19261ab64890Smrg if (!entry) 19271ab64890Smrg return False; 19281ab64890Smrg if (entry->leaf) { 19291ab64890Smrg if (entry->tight && !table->tight) 19301ab64890Smrg entry = entry->next; 19311ab64890Smrg } else { 19321ab64890Smrg entry = entry->next; 19331ab64890Smrg if (!entry || !entry->tight) 19341ab64890Smrg return False; 19351ab64890Smrg } 19361ab64890Smrg if (!entry || entry->name != table->name) 19371ab64890Smrg return False; 19381ab64890Smrg /* found one */ 19391ab64890Smrg level--; 19401ab64890Smrg if ((!*names || entry->hasloose) && 19411ab64890Smrg EnumLTable((LTable)entry, names, classes, level, closure)) 19421ab64890Smrg return True; 19431ab64890Smrg if (entry->tight && entry == table->next && (entry = entry->next) && 19441ab64890Smrg entry->name == table->name && (!*names || entry->hasloose)) 19451ab64890Smrg return EnumLTable((LTable)entry, names, classes, level, closure); 19461ab64890Smrg return False; 19471ab64890Smrg 19481ab64890Smrg#undef ITIGHTLOOSE 19491ab64890Smrg#undef ILOOSE 19501ab64890Smrg} 19511ab64890Smrg 19521ab64890Smrg/* call the proc for every value in the database, arbitrary order. 19531ab64890Smrg * stop if the proc returns True. 19541ab64890Smrg */ 19551ab64890SmrgBool XrmEnumerateDatabase( 19561ab64890Smrg XrmDatabase db, 19571ab64890Smrg XrmNameList names, 19581ab64890Smrg XrmClassList classes, 19591ab64890Smrg int mode, 19601ab64890Smrg DBEnumProc proc, 19611ab64890Smrg XPointer closure) 19621ab64890Smrg{ 19631ab64890Smrg XrmBinding bindings[MAXDBDEPTH+2]; 19641ab64890Smrg XrmQuark quarks[MAXDBDEPTH+2]; 19651ab64890Smrg register NTable table; 19661ab64890Smrg EClosureRec eclosure; 19671ab64890Smrg Bool retval = False; 19681ab64890Smrg 19691ab64890Smrg if (!db) 19701ab64890Smrg return False; 19711ab64890Smrg _XLockMutex(&db->linfo); 19721ab64890Smrg eclosure.db = db; 19731ab64890Smrg eclosure.proc = proc; 19741ab64890Smrg eclosure.closure = closure; 19751ab64890Smrg eclosure.bindings = bindings; 19761ab64890Smrg eclosure.quarks = quarks; 19771ab64890Smrg eclosure.mode = mode; 19781ab64890Smrg table = db->table; 19791ab64890Smrg if (table && !table->leaf && !*names && mode == XrmEnumOneLevel) 19801ab64890Smrg table = table->next; 19811ab64890Smrg if (table) { 19821ab64890Smrg if (!table->leaf) 19831ab64890Smrg retval = EnumNTable(table, names, classes, 0, &eclosure); 19841ab64890Smrg else 19851ab64890Smrg retval = EnumLTable((LTable)table, names, classes, 0, &eclosure); 19861ab64890Smrg } 19871ab64890Smrg _XUnlockMutex(&db->linfo); 19881ab64890Smrg return retval; 19891ab64890Smrg} 19901ab64890Smrg 19911ab64890Smrgstatic void PrintBindingQuarkList( 19921ab64890Smrg XrmBindingList bindings, 19931ab64890Smrg XrmQuarkList quarks, 19941ab64890Smrg FILE *stream) 19951ab64890Smrg{ 19961ab64890Smrg Bool firstNameSeen; 19971ab64890Smrg 19981ab64890Smrg for (firstNameSeen = False; *quarks; bindings++, quarks++) { 19991ab64890Smrg if (*bindings == XrmBindLoosely) { 20001ab64890Smrg (void) fprintf(stream, "*"); 20011ab64890Smrg } else if (firstNameSeen) { 20021ab64890Smrg (void) fprintf(stream, "."); 20031ab64890Smrg } 20041ab64890Smrg firstNameSeen = True; 20051ab64890Smrg (void) fputs(XrmQuarkToString(*quarks), stream); 20061ab64890Smrg } 20071ab64890Smrg} 20081ab64890Smrg 20091ab64890Smrg/* output out the entry in correct file syntax */ 20101ab64890Smrg/*ARGSUSED*/ 20111ab64890Smrgstatic Bool DumpEntry( 20121ab64890Smrg XrmDatabase *db, 20131ab64890Smrg XrmBindingList bindings, 20141ab64890Smrg XrmQuarkList quarks, 20151ab64890Smrg XrmRepresentation *type, 20161ab64890Smrg XrmValuePtr value, 20171ab64890Smrg XPointer data) 20181ab64890Smrg{ 20191ab64890Smrg FILE *stream = (FILE *)data; 20201ab64890Smrg register unsigned int i; 20211ab64890Smrg register char *s; 20221ab64890Smrg register char c; 20231ab64890Smrg 20241ab64890Smrg if (*type != XrmQString) 20251ab64890Smrg (void) putc('!', stream); 20261ab64890Smrg PrintBindingQuarkList(bindings, quarks, stream); 20271ab64890Smrg s = value->addr; 20281ab64890Smrg i = value->size; 20291ab64890Smrg if (*type == XrmQString) { 20301ab64890Smrg (void) fputs(":\t", stream); 20311ab64890Smrg if (i) 20321ab64890Smrg i--; 20331ab64890Smrg } 20341ab64890Smrg else 20351ab64890Smrg (void) fprintf(stream, "=%s:\t", XrmRepresentationToString(*type)); 20361ab64890Smrg if (i && (*s == ' ' || *s == '\t')) 20371ab64890Smrg (void) putc('\\', stream); /* preserve leading whitespace */ 20381ab64890Smrg while (i--) { 20391ab64890Smrg c = *s++; 20401ab64890Smrg if (c == '\n') { 20411ab64890Smrg if (i) 20421ab64890Smrg (void) fputs("\\n\\\n", stream); 20431ab64890Smrg else 20441ab64890Smrg (void) fputs("\\n", stream); 20451ab64890Smrg } else if (c == '\\') 20461ab64890Smrg (void) fputs("\\\\", stream); 20471ab64890Smrg else if ((c < ' ' && c != '\t') || 20481ab64890Smrg ((unsigned char)c >= 0x7f && (unsigned char)c < 0xa0)) 20491ab64890Smrg (void) fprintf(stream, "\\%03o", (unsigned char)c); 20501ab64890Smrg else 20511ab64890Smrg (void) putc(c, stream); 20521ab64890Smrg } 20531ab64890Smrg (void) putc('\n', stream); 20541ab64890Smrg return ferror(stream) != 0; 20551ab64890Smrg} 20561ab64890Smrg 20571ab64890Smrg#ifdef DEBUG 20581ab64890Smrg 20591ab64890Smrgvoid PrintTable( 20601ab64890Smrg NTable table, 20611ab64890Smrg FILE *file) 20621ab64890Smrg{ 20631ab64890Smrg XrmBinding bindings[MAXDBDEPTH+1]; 20641ab64890Smrg XrmQuark quarks[MAXDBDEPTH+1]; 20651ab64890Smrg EClosureRec closure; 20661ab64890Smrg XrmQuark empty = NULLQUARK; 20671ab64890Smrg 20681ab64890Smrg closure.db = (XrmDatabase)NULL; 20691ab64890Smrg closure.proc = DumpEntry; 20701ab64890Smrg closure.closure = (XPointer)file; 20711ab64890Smrg closure.bindings = bindings; 20721ab64890Smrg closure.quarks = quarks; 20731ab64890Smrg closure.mode = XrmEnumAllLevels; 20741ab64890Smrg if (table->leaf) 20751ab64890Smrg EnumLTable((LTable)table, &empty, &empty, 0, &closure); 20761ab64890Smrg else 20771ab64890Smrg EnumNTable(table, &empty, &empty, 0, &closure); 20781ab64890Smrg} 20791ab64890Smrg 20801ab64890Smrg#endif /* DEBUG */ 20811ab64890Smrg 20821ab64890Smrgvoid 20831ab64890SmrgXrmPutFileDatabase( 20841ab64890Smrg XrmDatabase db, 20851ab64890Smrg _Xconst char *fileName) 20861ab64890Smrg{ 20871ab64890Smrg FILE *file; 20881ab64890Smrg XrmQuark empty = NULLQUARK; 20891ab64890Smrg 20901ab64890Smrg if (!db) return; 20911ab64890Smrg if (!(file = fopen(fileName, "w"))) return; 20921ab64890Smrg if (XrmEnumerateDatabase(db, &empty, &empty, XrmEnumAllLevels, 20931ab64890Smrg DumpEntry, (XPointer) file)) 20941ab64890Smrg unlink((char *)fileName); 20951ab64890Smrg fclose(file); 20961ab64890Smrg} 20971ab64890Smrg 20981ab64890Smrg/* macros used in get/search functions */ 20991ab64890Smrg 21001ab64890Smrg/* find entries named ename, leafness leaf, tight or loose, and call get */ 21011ab64890Smrg#define GTIGHTLOOSE(ename,looseleaf) \ 21021ab64890Smrg NFIND(ename); \ 21031ab64890Smrg if (entry) { \ 21041ab64890Smrg if (leaf == entry->leaf) { \ 21051ab64890Smrg if (!leaf && !entry->tight && entry->next && \ 21061ab64890Smrg entry->next->name == q && entry->next->tight && \ 21071ab64890Smrg entry->next->hasloose && \ 21081ab64890Smrg looseleaf((LTable)entry->next, names+1, classes+1, closure)) \ 21091ab64890Smrg return True; \ 21101ab64890Smrg if ((*get)(entry, names+1, classes+1, closure)) \ 21111ab64890Smrg return True; \ 21121ab64890Smrg if (entry->tight && (entry = entry->next) && \ 21131ab64890Smrg entry->name == q && leaf == entry->leaf && \ 21141ab64890Smrg (*get)(entry, names+1, classes+1, closure)) \ 21151ab64890Smrg return True; \ 21161ab64890Smrg } else if (entry->leaf) { \ 21171ab64890Smrg if (entry->hasloose && \ 21181ab64890Smrg looseleaf((LTable)entry, names+1, classes+1, closure)) \ 21191ab64890Smrg return True; \ 21201ab64890Smrg if (entry->tight && (entry = entry->next) && \ 21211ab64890Smrg entry->name == q && entry->hasloose && \ 21221ab64890Smrg looseleaf((LTable)entry, names+1, classes+1, closure)) \ 21231ab64890Smrg return True; \ 21241ab64890Smrg } \ 21251ab64890Smrg } 21261ab64890Smrg 21271ab64890Smrg/* find entries named ename, leafness leaf, loose only, and call get */ 21281ab64890Smrg#define GLOOSE(ename,looseleaf) \ 21291ab64890Smrg NFIND(ename); \ 21301ab64890Smrg if (entry && entry->tight && (entry = entry->next) && entry->name != q) \ 21311ab64890Smrg entry = (NTable)NULL; \ 21321ab64890Smrg if (entry) { \ 21331ab64890Smrg if (leaf == entry->leaf) { \ 21341ab64890Smrg if ((*get)(entry, names+1, classes+1, closure)) \ 21351ab64890Smrg return True; \ 21361ab64890Smrg } else if (entry->leaf && entry->hasloose) { \ 21371ab64890Smrg if (looseleaf((LTable)entry, names+1, classes+1, closure)) \ 21381ab64890Smrg return True; \ 21391ab64890Smrg } \ 21401ab64890Smrg } 21411ab64890Smrg 21421ab64890Smrg/* add tight/loose entry to the search list, return True if list is full */ 21431ab64890Smrg/*ARGSUSED*/ 21441ab64890Smrgstatic Bool AppendLEntry( 21451ab64890Smrg LTable table, 21461ab64890Smrg XrmNameList names, 21471ab64890Smrg XrmClassList classes, 21481ab64890Smrg register SClosure closure) 21491ab64890Smrg{ 21501ab64890Smrg /* check for duplicate */ 21511ab64890Smrg if (closure->idx >= 0 && closure->list[closure->idx] == table) 21521ab64890Smrg return False; 21531ab64890Smrg if (closure->idx == closure->limit) 21541ab64890Smrg return True; 21551ab64890Smrg /* append it */ 21561ab64890Smrg closure->idx++; 21571ab64890Smrg closure->list[closure->idx] = table; 21581ab64890Smrg return False; 21591ab64890Smrg} 21601ab64890Smrg 21611ab64890Smrg/* add loose entry to the search list, return True if list is full */ 21621ab64890Smrg/*ARGSUSED*/ 21631ab64890Smrgstatic Bool AppendLooseLEntry( 21641ab64890Smrg LTable table, 21651ab64890Smrg XrmNameList names, 21661ab64890Smrg XrmClassList classes, 21671ab64890Smrg register SClosure closure) 21681ab64890Smrg{ 21691ab64890Smrg /* check for duplicate */ 21701ab64890Smrg if (closure->idx >= 0 && closure->list[closure->idx] == table) 21711ab64890Smrg return False; 21721ab64890Smrg if (closure->idx >= closure->limit - 1) 21731ab64890Smrg return True; 21741ab64890Smrg /* append it */ 21751ab64890Smrg closure->idx++; 21761ab64890Smrg closure->list[closure->idx] = LOOSESEARCH; 21771ab64890Smrg closure->idx++; 21781ab64890Smrg closure->list[closure->idx] = table; 21791ab64890Smrg return False; 21801ab64890Smrg} 21811ab64890Smrg 21821ab64890Smrg/* search for a leaf table */ 21831ab64890Smrgstatic Bool SearchNEntry( 21841ab64890Smrg NTable table, 21851ab64890Smrg XrmNameList names, 21861ab64890Smrg XrmClassList classes, 21871ab64890Smrg SClosure closure) 21881ab64890Smrg{ 21891ab64890Smrg register NTable entry; 21901ab64890Smrg register XrmQuark q; 21911ab64890Smrg register unsigned int leaf; 21921ab64890Smrg Bool (*get)( 21931ab64890Smrg NTable table, 21941ab64890Smrg XrmNameList names, 21951ab64890Smrg XrmClassList classes, 21961ab64890Smrg SClosure closure); 21971ab64890Smrg 21981ab64890Smrg if (names[1]) { 21991ab64890Smrg get = SearchNEntry; /* recurse */ 22001ab64890Smrg leaf = 0; 22011ab64890Smrg } else { 22021ab64890Smrg get = (getNTableSProcp)AppendLEntry; /* bottom of recursion */ 22031ab64890Smrg leaf = 1; 22041ab64890Smrg } 22051ab64890Smrg GTIGHTLOOSE(*names, AppendLooseLEntry); /* do name, tight and loose */ 22061ab64890Smrg GTIGHTLOOSE(*classes, AppendLooseLEntry); /* do class, tight and loose */ 22071ab64890Smrg if (table->hasany) { 22081ab64890Smrg GTIGHTLOOSE(XrmQANY, AppendLooseLEntry); /* do ANY, tight and loose */ 22091ab64890Smrg } 22101ab64890Smrg if (table->hasloose) { 22111ab64890Smrg while (1) { 22121ab64890Smrg names++; 22131ab64890Smrg classes++; 22141ab64890Smrg if (!*names) 22151ab64890Smrg break; 22161ab64890Smrg if (!names[1]) { 22171ab64890Smrg get = (getNTableSProcp)AppendLEntry; /* bottom of recursion */ 22181ab64890Smrg leaf = 1; 22191ab64890Smrg } 22201ab64890Smrg GLOOSE(*names, AppendLooseLEntry); /* loose names */ 22211ab64890Smrg GLOOSE(*classes, AppendLooseLEntry); /* loose classes */ 22221ab64890Smrg if (table->hasany) { 22231ab64890Smrg GLOOSE(XrmQANY, AppendLooseLEntry); /* loose ANY */ 22241ab64890Smrg } 22251ab64890Smrg } 22261ab64890Smrg } 22271ab64890Smrg /* now look for matching leaf nodes */ 22281ab64890Smrg entry = table->next; 22291ab64890Smrg if (!entry) 22301ab64890Smrg return False; 22311ab64890Smrg if (entry->leaf) { 22321ab64890Smrg if (entry->tight && !table->tight) 22331ab64890Smrg entry = entry->next; 22341ab64890Smrg } else { 22351ab64890Smrg entry = entry->next; 22361ab64890Smrg if (!entry || !entry->tight) 22371ab64890Smrg return False; 22381ab64890Smrg } 22391ab64890Smrg if (!entry || entry->name != table->name) 22401ab64890Smrg return False; 22411ab64890Smrg /* found one */ 22421ab64890Smrg if (entry->hasloose && 22431ab64890Smrg AppendLooseLEntry((LTable)entry, names, classes, closure)) 22441ab64890Smrg return True; 22451ab64890Smrg if (entry->tight && entry == table->next && (entry = entry->next) && 22461ab64890Smrg entry->name == table->name && entry->hasloose) 22471ab64890Smrg return AppendLooseLEntry((LTable)entry, names, classes, closure); 22481ab64890Smrg return False; 22491ab64890Smrg} 22501ab64890Smrg 22511ab64890SmrgBool XrmQGetSearchList( 22521ab64890Smrg XrmDatabase db, 22531ab64890Smrg XrmNameList names, 22541ab64890Smrg XrmClassList classes, 22551ab64890Smrg XrmSearchList searchList, /* RETURN */ 22561ab64890Smrg int listLength) 22571ab64890Smrg{ 22581ab64890Smrg register NTable table; 22591ab64890Smrg SClosureRec closure; 22601ab64890Smrg 22611ab64890Smrg if (listLength <= 0) 22621ab64890Smrg return False; 22631ab64890Smrg closure.list = (LTable *)searchList; 22641ab64890Smrg closure.idx = -1; 22651ab64890Smrg closure.limit = listLength - 2; 22661ab64890Smrg if (db) { 22671ab64890Smrg _XLockMutex(&db->linfo); 22681ab64890Smrg table = db->table; 22691ab64890Smrg if (*names) { 22701ab64890Smrg if (table && !table->leaf) { 22711ab64890Smrg if (SearchNEntry(table, names, classes, &closure)) { 22721ab64890Smrg _XUnlockMutex(&db->linfo); 22731ab64890Smrg return False; 22741ab64890Smrg } 22751ab64890Smrg } else if (table && table->hasloose && 22761ab64890Smrg AppendLooseLEntry((LTable)table, names, classes, 22771ab64890Smrg &closure)) { 22781ab64890Smrg _XUnlockMutex(&db->linfo); 22791ab64890Smrg return False; 22801ab64890Smrg } 22811ab64890Smrg } else { 22821ab64890Smrg if (table && !table->leaf) 22831ab64890Smrg table = table->next; 228461b2299dSmrg if (table && 22851ab64890Smrg AppendLEntry((LTable)table, names, classes, &closure)) { 22861ab64890Smrg _XUnlockMutex(&db->linfo); 22871ab64890Smrg return False; 22881ab64890Smrg } 22891ab64890Smrg } 22901ab64890Smrg _XUnlockMutex(&db->linfo); 22911ab64890Smrg } 22921ab64890Smrg closure.list[closure.idx + 1] = (LTable)NULL; 22931ab64890Smrg return True; 22941ab64890Smrg} 22951ab64890Smrg 22961ab64890SmrgBool XrmQGetSearchResource( 22971ab64890Smrg XrmSearchList searchList, 22981ab64890Smrg register XrmName name, 22991ab64890Smrg register XrmClass class, 23001ab64890Smrg XrmRepresentation *pType, /* RETURN */ 23011ab64890Smrg XrmValue *pValue) /* RETURN */ 23021ab64890Smrg{ 23031ab64890Smrg register LTable *list; 23041ab64890Smrg register LTable table; 23051ab64890Smrg register VEntry entry = NULL; 23061ab64890Smrg int flags; 23071ab64890Smrg 23081ab64890Smrg/* find tight or loose entry */ 23091ab64890Smrg#define VTIGHTLOOSE(q) \ 23101ab64890Smrg entry = LeafHash(table, q); \ 23111ab64890Smrg while (entry && entry->name != q) \ 23121ab64890Smrg entry = entry->next; \ 23131ab64890Smrg if (entry) \ 23141ab64890Smrg break 23151ab64890Smrg 23161ab64890Smrg/* find loose entry */ 23171ab64890Smrg#define VLOOSE(q) \ 23181ab64890Smrg entry = LeafHash(table, q); \ 23191ab64890Smrg while (entry && entry->name != q) \ 23201ab64890Smrg entry = entry->next; \ 23211ab64890Smrg if (entry) { \ 23221ab64890Smrg if (!entry->tight) \ 23231ab64890Smrg break; \ 23241ab64890Smrg if ((entry = entry->next) && entry->name == q) \ 23251ab64890Smrg break; \ 23261ab64890Smrg } 23271ab64890Smrg 23281ab64890Smrg list = (LTable *)searchList; 23291ab64890Smrg /* figure out which combination of name and class we need to search for */ 23301ab64890Smrg flags = 0; 23311ab64890Smrg if (IsResourceQuark(name)) 23321ab64890Smrg flags = 2; 23331ab64890Smrg if (IsResourceQuark(class)) 23341ab64890Smrg flags |= 1; 23351ab64890Smrg if (!flags) { 23361ab64890Smrg /* neither name nor class has ever been used to name a resource */ 23371ab64890Smrg table = (LTable)NULL; 23381ab64890Smrg } else if (flags == 3) { 23391ab64890Smrg /* both name and class */ 23401ab64890Smrg while ((table = *list++)) { 23411ab64890Smrg if (table != LOOSESEARCH) { 23421ab64890Smrg VTIGHTLOOSE(name); /* do name, tight and loose */ 23431ab64890Smrg VTIGHTLOOSE(class); /* do class, tight and loose */ 23441ab64890Smrg } else { 23451ab64890Smrg table = *list++; 23461ab64890Smrg VLOOSE(name); /* do name, loose only */ 23471ab64890Smrg VLOOSE(class); /* do class, loose only */ 23481ab64890Smrg } 23491ab64890Smrg } 23501ab64890Smrg } else { 23511ab64890Smrg /* just one of name or class */ 23521ab64890Smrg if (flags == 1) 23531ab64890Smrg name = class; 23541ab64890Smrg while ((table = *list++)) { 23551ab64890Smrg if (table != LOOSESEARCH) { 23561ab64890Smrg VTIGHTLOOSE(name); /* tight and loose */ 23571ab64890Smrg } else { 23581ab64890Smrg table = *list++; 23591ab64890Smrg VLOOSE(name); /* loose only */ 23601ab64890Smrg } 23611ab64890Smrg } 23621ab64890Smrg } 23631ab64890Smrg if (table) { 23641ab64890Smrg /* found a match */ 23651ab64890Smrg if (entry->string) { 23661ab64890Smrg *pType = XrmQString; 23671ab64890Smrg pValue->addr = StringValue(entry); 23681ab64890Smrg } else { 23691ab64890Smrg *pType = RepType(entry); 23701ab64890Smrg pValue->addr = DataValue(entry); 23711ab64890Smrg } 23721ab64890Smrg pValue->size = entry->size; 23731ab64890Smrg return True; 23741ab64890Smrg } 23751ab64890Smrg *pType = NULLQUARK; 23761ab64890Smrg pValue->addr = (XPointer)NULL; 23771ab64890Smrg pValue->size = 0; 23781ab64890Smrg return False; 23791ab64890Smrg 23801ab64890Smrg#undef VTIGHTLOOSE 23811ab64890Smrg#undef VLOOSE 23821ab64890Smrg} 23831ab64890Smrg 23841ab64890Smrg/* look for a tight/loose value */ 23851ab64890Smrgstatic Bool GetVEntry( 23861ab64890Smrg LTable table, 23871ab64890Smrg XrmNameList names, 23881ab64890Smrg XrmClassList classes, 23891ab64890Smrg VClosure closure) 23901ab64890Smrg{ 23911ab64890Smrg register VEntry entry; 23921ab64890Smrg register XrmQuark q; 23931ab64890Smrg 23941ab64890Smrg /* try name first */ 23951ab64890Smrg q = *names; 23961ab64890Smrg entry = LeafHash(table, q); 23971ab64890Smrg while (entry && entry->name != q) 23981ab64890Smrg entry = entry->next; 23991ab64890Smrg if (!entry) { 24001ab64890Smrg /* not found, try class */ 24011ab64890Smrg q = *classes; 24021ab64890Smrg entry = LeafHash(table, q); 24031ab64890Smrg while (entry && entry->name != q) 24041ab64890Smrg entry = entry->next; 24051ab64890Smrg if (!entry) 24061ab64890Smrg return False; 24071ab64890Smrg } 24081ab64890Smrg if (entry->string) { 24091ab64890Smrg *closure->type = XrmQString; 24101ab64890Smrg closure->value->addr = StringValue(entry); 24111ab64890Smrg } else { 24121ab64890Smrg *closure->type = RepType(entry); 24131ab64890Smrg closure->value->addr = DataValue(entry); 24141ab64890Smrg } 24151ab64890Smrg closure->value->size = entry->size; 24161ab64890Smrg return True; 24171ab64890Smrg} 24181ab64890Smrg 24191ab64890Smrg/* look for a loose value */ 24201ab64890Smrgstatic Bool GetLooseVEntry( 24211ab64890Smrg LTable table, 24221ab64890Smrg XrmNameList names, 24231ab64890Smrg XrmClassList classes, 24241ab64890Smrg VClosure closure) 24251ab64890Smrg{ 24261ab64890Smrg register VEntry entry; 24271ab64890Smrg register XrmQuark q; 24281ab64890Smrg 24291ab64890Smrg#define VLOOSE(ename) \ 24301ab64890Smrg q = ename; \ 24311ab64890Smrg entry = LeafHash(table, q); \ 24321ab64890Smrg while (entry && entry->name != q) \ 24331ab64890Smrg entry = entry->next; \ 24341ab64890Smrg if (entry && entry->tight && (entry = entry->next) && entry->name != q) \ 24351ab64890Smrg entry = (VEntry)NULL; 24361ab64890Smrg 24371ab64890Smrg /* bump to last component */ 24381ab64890Smrg while (names[1]) { 24391ab64890Smrg names++; 24401ab64890Smrg classes++; 24411ab64890Smrg } 24421ab64890Smrg VLOOSE(*names); /* do name, loose only */ 24431ab64890Smrg if (!entry) { 24441ab64890Smrg VLOOSE(*classes); /* do class, loose only */ 24451ab64890Smrg if (!entry) 24461ab64890Smrg return False; 24471ab64890Smrg } 24481ab64890Smrg if (entry->string) { 24491ab64890Smrg *closure->type = XrmQString; 24501ab64890Smrg closure->value->addr = StringValue(entry); 24511ab64890Smrg } else { 24521ab64890Smrg *closure->type = RepType(entry); 24531ab64890Smrg closure->value->addr = DataValue(entry); 24541ab64890Smrg } 24551ab64890Smrg closure->value->size = entry->size; 24561ab64890Smrg return True; 24571ab64890Smrg 24581ab64890Smrg#undef VLOOSE 24591ab64890Smrg} 24601ab64890Smrg 24611ab64890Smrg/* recursive search for a value */ 24621ab64890Smrgstatic Bool GetNEntry( 24631ab64890Smrg NTable table, 24641ab64890Smrg XrmNameList names, 24651ab64890Smrg XrmClassList classes, 24661ab64890Smrg VClosure closure) 24671ab64890Smrg{ 24681ab64890Smrg register NTable entry; 24691ab64890Smrg register XrmQuark q; 24701ab64890Smrg register unsigned int leaf; 24711ab64890Smrg Bool (*get)( 24721ab64890Smrg NTable table, 24731ab64890Smrg XrmNameList names, 24741ab64890Smrg XrmClassList classes, 24751ab64890Smrg VClosure closure); 24761ab64890Smrg NTable otable; 24771ab64890Smrg 24781ab64890Smrg if (names[2]) { 24791ab64890Smrg get = GetNEntry; /* recurse */ 24801ab64890Smrg leaf = 0; 24811ab64890Smrg } else { 24821ab64890Smrg get = (getNTableVProcp)GetVEntry; /* bottom of recursion */ 24831ab64890Smrg leaf = 1; 24841ab64890Smrg } 24851ab64890Smrg GTIGHTLOOSE(*names, GetLooseVEntry); /* do name, tight and loose */ 24861ab64890Smrg GTIGHTLOOSE(*classes, GetLooseVEntry); /* do class, tight and loose */ 24871ab64890Smrg if (table->hasany) { 24881ab64890Smrg GTIGHTLOOSE(XrmQANY, GetLooseVEntry); /* do ANY, tight and loose */ 24891ab64890Smrg } 24901ab64890Smrg if (table->hasloose) { 24911ab64890Smrg while (1) { 24921ab64890Smrg names++; 24931ab64890Smrg classes++; 24941ab64890Smrg if (!names[1]) 24951ab64890Smrg break; 24961ab64890Smrg if (!names[2]) { 24971ab64890Smrg get = (getNTableVProcp)GetVEntry; /* bottom of recursion */ 24981ab64890Smrg leaf = 1; 24991ab64890Smrg } 25001ab64890Smrg GLOOSE(*names, GetLooseVEntry); /* do name, loose only */ 25011ab64890Smrg GLOOSE(*classes, GetLooseVEntry); /* do class, loose only */ 25021ab64890Smrg if (table->hasany) { 25031ab64890Smrg GLOOSE(XrmQANY, GetLooseVEntry); /* do ANY, loose only */ 25041ab64890Smrg } 25051ab64890Smrg } 25061ab64890Smrg } 25071ab64890Smrg /* look for matching leaf tables */ 25081ab64890Smrg otable = table; 25091ab64890Smrg table = table->next; 25101ab64890Smrg if (!table) 25111ab64890Smrg return False; 25121ab64890Smrg if (table->leaf) { 25131ab64890Smrg if (table->tight && !otable->tight) 25141ab64890Smrg table = table->next; 25151ab64890Smrg } else { 25161ab64890Smrg table = table->next; 25171ab64890Smrg if (!table || !table->tight) 25181ab64890Smrg return False; 25191ab64890Smrg } 25201ab64890Smrg if (!table || table->name != otable->name) 25211ab64890Smrg return False; 25221ab64890Smrg /* found one */ 25231ab64890Smrg if (table->hasloose && 25241ab64890Smrg GetLooseVEntry((LTable)table, names, classes, closure)) 25251ab64890Smrg return True; 25261ab64890Smrg if (table->tight && table == otable->next) { 25271ab64890Smrg table = table->next; 25281ab64890Smrg if (table && table->name == otable->name && table->hasloose) 25291ab64890Smrg return GetLooseVEntry((LTable)table, names, classes, closure); 25301ab64890Smrg } 25311ab64890Smrg return False; 25321ab64890Smrg} 25331ab64890Smrg 25341ab64890SmrgBool XrmQGetResource( 25351ab64890Smrg XrmDatabase db, 25361ab64890Smrg XrmNameList names, 25371ab64890Smrg XrmClassList classes, 25381ab64890Smrg XrmRepresentation *pType, /* RETURN */ 25391ab64890Smrg XrmValuePtr pValue) /* RETURN */ 25401ab64890Smrg{ 25411ab64890Smrg register NTable table; 25421ab64890Smrg VClosureRec closure; 25431ab64890Smrg 25441ab64890Smrg if (db && *names) { 25451ab64890Smrg _XLockMutex(&db->linfo); 25461ab64890Smrg closure.type = pType; 25471ab64890Smrg closure.value = pValue; 25481ab64890Smrg table = db->table; 25491ab64890Smrg if (names[1]) { 25501ab64890Smrg if (table && !table->leaf) { 25511ab64890Smrg if (GetNEntry(table, names, classes, &closure)) { 25521ab64890Smrg _XUnlockMutex(&db->linfo); 25531ab64890Smrg return True; 25541ab64890Smrg } 25551ab64890Smrg } else if (table && table->hasloose && 25561ab64890Smrg GetLooseVEntry((LTable)table, names, classes, &closure)) { 25571ab64890Smrg _XUnlockMutex (&db->linfo); 25581ab64890Smrg return True; 25591ab64890Smrg } 25601ab64890Smrg } else { 25611ab64890Smrg if (table && !table->leaf) 25621ab64890Smrg table = table->next; 25631ab64890Smrg if (table && GetVEntry((LTable)table, names, classes, &closure)) { 25641ab64890Smrg _XUnlockMutex(&db->linfo); 25651ab64890Smrg return True; 25661ab64890Smrg } 25671ab64890Smrg } 25681ab64890Smrg _XUnlockMutex(&db->linfo); 25691ab64890Smrg } 25701ab64890Smrg *pType = NULLQUARK; 25711ab64890Smrg pValue->addr = (XPointer)NULL; 25721ab64890Smrg pValue->size = 0; 25731ab64890Smrg return False; 25741ab64890Smrg} 25751ab64890Smrg 25761ab64890SmrgBool 257761b2299dSmrgXrmGetResource(XrmDatabase db, _Xconst char *name_str, _Xconst char *class_str, 257861b2299dSmrg XrmString *pType_str, XrmValuePtr pValue) 25791ab64890Smrg{ 25801ab64890Smrg XrmName names[MAXDBDEPTH+1]; 25811ab64890Smrg XrmClass classes[MAXDBDEPTH+1]; 25821ab64890Smrg XrmRepresentation fromType; 25831ab64890Smrg Bool result; 25841ab64890Smrg 25851ab64890Smrg XrmStringToNameList(name_str, names); 25861ab64890Smrg XrmStringToClassList(class_str, classes); 25871ab64890Smrg result = XrmQGetResource(db, names, classes, &fromType, pValue); 25881ab64890Smrg (*pType_str) = XrmQuarkToString(fromType); 25891ab64890Smrg return result; 25901ab64890Smrg} 25911ab64890Smrg 25921ab64890Smrg/* destroy all values, plus table itself */ 25931ab64890Smrgstatic void DestroyLTable( 25941ab64890Smrg LTable table) 25951ab64890Smrg{ 25961ab64890Smrg register int i; 25971ab64890Smrg register VEntry *buckets; 25981ab64890Smrg register VEntry entry, next; 25991ab64890Smrg 26001ab64890Smrg buckets = table->buckets; 26011ab64890Smrg for (i = table->table.mask; i >= 0; i--, buckets++) { 26021ab64890Smrg for (next = *buckets; (entry = next); ) { 26031ab64890Smrg next = entry->next; 26041ab64890Smrg Xfree((char *)entry); 26051ab64890Smrg } 26061ab64890Smrg } 26071ab64890Smrg Xfree((char *)table->buckets); 26081ab64890Smrg Xfree((char *)table); 26091ab64890Smrg} 26101ab64890Smrg 26111ab64890Smrg/* destroy all contained tables, plus table itself */ 26121ab64890Smrgstatic void DestroyNTable( 26131ab64890Smrg NTable table) 26141ab64890Smrg{ 26151ab64890Smrg register int i; 26161ab64890Smrg register NTable *buckets; 26171ab64890Smrg register NTable entry, next; 26181ab64890Smrg 26191ab64890Smrg buckets = NodeBuckets(table); 26201ab64890Smrg for (i = table->mask; i >= 0; i--, buckets++) { 26211ab64890Smrg for (next = *buckets; (entry = next); ) { 26221ab64890Smrg next = entry->next; 26231ab64890Smrg if (entry->leaf) 26241ab64890Smrg DestroyLTable((LTable)entry); 26251ab64890Smrg else 26261ab64890Smrg DestroyNTable(entry); 26271ab64890Smrg } 26281ab64890Smrg } 26291ab64890Smrg Xfree((char *)table); 26301ab64890Smrg} 26311ab64890Smrg 26321ab64890Smrgconst char * 26331ab64890SmrgXrmLocaleOfDatabase( 26341ab64890Smrg XrmDatabase db) 26351ab64890Smrg{ 26361ab64890Smrg const char* retval; 26371ab64890Smrg _XLockMutex(&db->linfo); 26381ab64890Smrg retval = (*db->methods->lcname)(db->mbstate); 26391ab64890Smrg _XUnlockMutex(&db->linfo); 26401ab64890Smrg return retval; 26411ab64890Smrg} 26421ab64890Smrg 26431ab64890Smrgvoid XrmDestroyDatabase( 26441ab64890Smrg XrmDatabase db) 26451ab64890Smrg{ 26461ab64890Smrg register NTable table, next; 26471ab64890Smrg 26481ab64890Smrg if (db) { 26491ab64890Smrg _XLockMutex(&db->linfo); 26501ab64890Smrg for (next = db->table; (table = next); ) { 26511ab64890Smrg next = table->next; 26521ab64890Smrg if (table->leaf) 26531ab64890Smrg DestroyLTable((LTable)table); 26541ab64890Smrg else 26551ab64890Smrg DestroyNTable(table); 26561ab64890Smrg } 26571ab64890Smrg _XUnlockMutex(&db->linfo); 26581ab64890Smrg _XFreeMutex(&db->linfo); 26591ab64890Smrg (*db->methods->destroy)(db->mbstate); 26601ab64890Smrg Xfree((char *)db); 26611ab64890Smrg } 26621ab64890Smrg} 2663