/* Concrete implementation of NSSet based on GNU Set class Copyright (C) 1998 Free Software Foundation, Inc. Written by: Richard frith-Macdonald Created: October 1998 This file is part of the GNUstep Base Library. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111 USA. */ #include #include #include #include #include #include #include #include #include #define GSI_MAP_RETAIN_VAL(X) #define GSI_MAP_RELEASE_VAL(X) #define GSI_MAP_KTYPES GSUNION_OBJ #define GSI_MAP_VTYPES GSUNION_INT #include @class NSSetNonCore; @class NSMutableSetNonCore; @interface NSGCountedSet : NSCountedSet { @public GSIMapTable_t map; } @end @interface NSGCountedSetEnumerator : NSEnumerator { NSGCountedSet *set; GSIMapNode node; } @end @implementation NSGCountedSetEnumerator - (id) initWithSet: (NSSet*)d { self = [super init]; if (self) { set = RETAIN((NSGCountedSet*)d); node = set->map.firstNode; } return self; } - (id) nextObject { GSIMapNode old = node; if (node == 0) { return nil; } node = node->nextInMap; return old->key.obj; } - (void) dealloc { RELEASE(set); [super dealloc]; } @end @implementation NSGCountedSet + (void) initialize { if (self == [NSGCountedSet class]) { class_add_behavior(self, [NSSetNonCore class]); class_add_behavior(self, [NSMutableSetNonCore class]); } } - (void) dealloc { GSIMapEmptyMap(&map); [super dealloc]; } - (void) encodeWithCoder: (NSCoder*)aCoder { unsigned count = map.nodeCount; GSIMapNode node = map.firstNode; SEL sel1 = @selector(encodeObject:); IMP imp1 = [aCoder methodForSelector: sel1]; SEL sel2 = @selector(encodeValueOfObjCType:at:); IMP imp2 = [aCoder methodForSelector: sel2]; const char *type = @encode(unsigned); (*imp2)(aCoder, sel2, type, &count); while (node != 0) { (*imp1)(aCoder, sel1, node->key.obj); (*imp2)(aCoder, sel2, type, &node->value.uint); node = node->nextInMap; } } - (id) initWithCoder: (NSCoder*)aCoder { unsigned count; id value; unsigned valcnt; SEL sel = @selector(decodeValueOfObjCType:at:); IMP imp = [aCoder methodForSelector: sel]; const char *utype = @encode(unsigned); const char *otype = @encode(id); (*imp)(aCoder, sel, utype, &count); GSIMapInitWithZoneAndCapacity(&map, [self zone], count); while (count-- > 0) { (*imp)(aCoder, sel, otype, &value); (*imp)(aCoder, sel, utype, &valcnt); GSIMapAddPairNoRetain(&map, (GSIMapKey)value, (GSIMapVal)valcnt); } return self; } /* Designated initialiser */ - (id) initWithCapacity: (unsigned)cap { GSIMapInitWithZoneAndCapacity(&map, [self zone], cap); return self; } - (id) initWithObjects: (id*)objs count: (unsigned)c { int i; if ([self initWithCapacity: c] == nil) { return nil; } for (i = 0; i < c; i++) { GSIMapNode node; if (objs[i] == nil) { IF_NO_GC(AUTORELEASE(self)); [NSException raise: NSInvalidArgumentException format: @"Tried to init counted set with nil value"]; } node = GSIMapNodeForKey(&map, (GSIMapKey)objs[i]); if (node == 0) { GSIMapAddPair(&map,(GSIMapKey)objs[i],(GSIMapVal)(unsigned)1); } else { node->value.uint++; } } return self; } - (void) addObject: (NSObject*)anObject { GSIMapNode node; if (anObject == nil) { [NSException raise: NSInvalidArgumentException format: @"Tried to nil value to counted set"]; } node = GSIMapNodeForKey(&map, (GSIMapKey)anObject); if (node == 0) { GSIMapAddPair(&map,(GSIMapKey)anObject,(GSIMapVal)(unsigned)1); } else { node->value.uint++; } } - (unsigned) count { return map.nodeCount; } - (unsigned) countForObject: (id)anObject { if (anObject) { GSIMapNode node = GSIMapNodeForKey(&map, (GSIMapKey)anObject); if (node) { return node->value.uint; } } return 0; } - (unsigned) hash { return map.nodeCount; } - (id) member: (id)anObject { if (anObject) { GSIMapNode node = GSIMapNodeForKey(&map, (GSIMapKey)anObject); if (node) { return node->key.obj; } } return nil; } - (NSEnumerator*) objectEnumerator { return AUTORELEASE([[NSGCountedSetEnumerator allocWithZone: NSDefaultMallocZone()] initWithSet: self]); } - (void) purge: (int)level { if (level > 0) { GSIMapNode node = map.firstNode; while (node != 0) { GSIMapNode tmp = node->nextInMap; if (node->value.uint <= level) { GSIMapBucket bucket; bucket = GSIMapBucketForKey(&map, node->key); GSIMapRemoveNodeFromMap(&map, bucket, node); GSIMapFreeNode(&map, node); } node = tmp; } } } - (void) removeObject: (NSObject*)anObject { GSIMapBucket bucket; if (anObject == nil) { NSWarnMLog(@"attempt to remove nil object", 0); return; } bucket = GSIMapBucketForKey(&map, (GSIMapKey)anObject); if (bucket != 0) { GSIMapNode node; node = GSIMapNodeForKeyInBucket(bucket, (GSIMapKey)anObject); if (node != 0) { if (--node->value.uint == 0) { GSIMapRemoveNodeFromMap(&map, bucket, node); GSIMapFreeNode(&map, node); } } } } - (void) removeAllObjects { GSIMapCleanMap(&map); } - (id) unique: (id)anObject { GSIMapNode node; id result; if (anObject == nil) { [NSException raise: NSInvalidArgumentException format: @"Tried to unique nil value in counted set"]; } node = GSIMapNodeForKey(&map, (GSIMapKey)anObject); if (node == 0) { result = anObject; GSIMapAddPair(&map,(GSIMapKey)anObject,(GSIMapVal)(unsigned)1); } else { result = node->key.obj; node->value.uint++; #if !GS_WITH_GC if (result != anObject) { [anObject release]; [result retain]; } #endif } return result; } @end