// // ACBTree.m // ST4 // // Created by Alan Condit on 4/18/11. // Copyright 2011 Alan Condit. All rights reserved. // #import #import "ACBTree.h" #import "AMutableDictionary.h" #import "ANTLRRuntimeException.h" @class AMutableDictionary; @implementation ACBKey static NSInteger RECNUM = 0; @synthesize recnum; @synthesize key; + (ACBKey *)newKey { return [[ACBKey alloc] init]; } + (ACBKey *)newKeyWithKStr:(NSString *)aKey { return [[ACBKey alloc] initWithKStr:(NSString *)aKey]; } - (id) init { self =[super init]; if ( self != nil ) { recnum = RECNUM++; } return self; } - (id) initWithKStr:(NSString *)aKey { self =[super init]; if ( self != nil ) { NSInteger len; recnum = RECNUM++; key = aKey; len = [aKey length]; if ( len >= BTKeySize ) { len = BTKeySize - 1; } strncpy( kstr, [aKey cStringUsingEncoding:NSASCIIStringEncoding], len); kstr[len] = '\0'; } return self; } @end @implementation ACBTree @synthesize dict; @synthesize lnode; @synthesize rnode; @synthesize keys; @synthesize btNodes; @synthesize lnodeid; @synthesize rnodeid; @synthesize nodeid; @synthesize nodeType; @synthesize numkeys; @synthesize numrecs; @synthesize updtd; @synthesize keylen; @synthesize kidx; + (ACBTree *) newNodeWithDictionary:(AMutableDictionary *)theDict { return [[ACBTree alloc] initWithDictionary:theDict]; } - (id)initWithDictionary:(AMutableDictionary *)theDict { self = [super init]; if (self) { // Initialization code here. dict = theDict; nodeid = theDict.nxt_nodeid++; keys = keyArray; btNodes = btNodeArray; if ( nodeid == 0 ) { numkeys = 0; } } return self; } - (ACBTree *)createnode:(ACBKey *)kp { ACBTree *tmp; tmp = [ACBTree newNodeWithDictionary:dict]; tmp.nodeType = nodeType; tmp.lnode = self; tmp.rnode = self.rnode; self.rnode = tmp; //tmp.btNodes[0] = self; //tmp.keys[0] = kp; tmp.updtd = YES; tmp.numrecs = ((nodeType == LEAF)?1:numrecs); updtd = YES; tmp.numkeys = 1; [tmp retain]; return(tmp); } - (ACBTree *)deletekey:(NSString *)dkey { ACBKey /* *del, */ *dkp; ACBTree *told, *sNode; BOOL mustRelease = NO; if ( [dkey isKindOfClass:[NSString class]] ) { dkp = [ACBKey newKeyWithKStr:dkey]; mustRelease = YES; } else if ( [dkey isKindOfClass:[ACBKey class]] ) dkp = (ACBKey *)dkey; else @throw [ANTLRIllegalArgumentException newException:[NSString stringWithFormat:@"Don't understand this key:\"%@\"", dkey]]; sNode = [self search:dkp.key]; if ( sNode == nil || [sNode searchnode:dkp.key match:YES] == FAILURE ) { if ( mustRelease ) [dkp release]; return(self); } told = dict.root; /* del = */[self internaldelete:dkp]; /* check for shrink at the root */ if ( numkeys == 1 && nodeType != LEAF ) { told = btNodes[0]; told.nodeid = 1; told.updtd = YES; dict.root = told; } #ifdef DONTUSENOMO if (debug == 'd') [self printtree]; #endif if ( mustRelease ) [dkp release]; return(told); } /** insertKey is the insertion entry point * It determines if the key exists in the tree already * it calls internalInsert to determine if the key already exists in the tree, * and returns the node to be updated */ - (ACBTree *)insertkey:(ACBKey *)kp value:(id)value { ACBTree *tnew, *q; NSInteger h, nodeNum; tnew = self; q = [self internalinsert:kp value:value split:&h]; /* check for growth at the root */ if ( q != nil ) { tnew = [[ACBTree newNodeWithDictionary:dict] retain]; tnew.nodeType = BTNODE; nodeNum = tnew.nodeid; tnew.nodeid = 0; self.nodeid = nodeNum; [tnew insert:self.keys[numkeys-1] value:self index:0 split:&h]; [tnew insert:q.keys[q.numkeys-1] value:q index:1 split:&h]; tnew.numrecs = self.numrecs + q.numrecs; tnew.lnodeid = self.nodeid; tnew.rnodeid = self.rnodeid; self.rnodeid = tnew.nodeid; tnew.lnode = self; tnew.rnode = self.rnode; self.rnode = tnew; /* affected by nodeid swap */ // newnode.lnodeid = tnew.btNodes[0].nodeid; } //dict.root = t; //l.reccnt++; return(tnew); } - (ACBTree *)search:(NSString *)kstr { NSInteger i, ret; NSInteger srchlvl = 0; ACBTree *t; t = self; if ( self.numkeys == 0 && self.nodeType == LEAF ) return nil; while (t != nil) { for (i = 0; i < t.numkeys; i++) { ret = [t.keys[i].key compare:kstr]; if ( ret >= 0 ) { if ( t.nodeType == LEAF ) { if ( ret == 0 ) return (t); /* node containing keyentry found */ else return nil; } else { break; } } } srchlvl++; if ( t.nodeType == BTNODE ) t = t.btNodes[i]; else { t = nil; } } return(nil); /* entry not found */ } /** SEARCHNODE * calling parameters -- * BKEY PTR for key to search for. * TYPE for exact match(YES) or position(NO) * returns -- i * i == FAILURE when match required but does not exist. * i == t.numkeys if no existing insertion branch found. * otherwise i == insertion branch. */ - (NSInteger)searchnode:(NSString *)kstr match:(BOOL)match { NSInteger i, ret; for ( i = 0; i < numkeys; i++ ) { ret = [keys[i].key compare:kstr]; if ( ret >= 0 ) { /* key node found */ if ( ret == 0 && match == NO ) { return FAILURE; } else if ( ret > 0 && match == YES ) { return FAILURE; } break; } } if ( i == numkeys && match == YES ) { i = FAILURE; } return(i); } - (ACBKey *)internaldelete:(ACBKey *)dkp { NSInteger i, nkey; __strong ACBKey *del = nil; ACBTree *tsb; NSInteger srchlvl = 0; /* find deletion branch */ if ( self.nodeType != LEAF ) { srchlvl++; /* search for end of tree */ i = [self searchnode:dkp.key match:NO]; del = [btNodes[i] internaldelete:dkp]; srchlvl--; /* if not LEAF propagate back high key */ tsb = btNodes[i]; nkey = tsb.numkeys - 1; } /*** the bottom of the tree has been reached ***/ else { /* set up deletion ptrs */ if ( [self delfrmnode:dkp] == SUCCESS ) { if ( numkeys < BTHNODESIZE+1 ) { del = dkp; } else { del = nil; } dkp.recnum = nodeid; return(del); } } /*** indicate deletion to be done ***/ if ( del != nil ) { /*** the key in "del" has to be deleted from in present node ***/ if ( btNodes[i].numkeys >= BTHNODESIZE+1 ) { /* node does not need balancing */ del = nil; self.keys[i] = tsb.keys[nkey]; } else { /* node requires balancing */ if ( i == 0 ) { [self rotateright:0]; self.btNodes[0] = tsb; } else if ( i < numkeys-1 ) { /* look to the right first */ if ( self.btNodes[i+1].numkeys > BTHNODESIZE+1 ) { /* carry from right */ [self borrowright:i]; } else { /* merge present node with right node */ [self mergenode:i]; } } else { /* look to the left */ if ( i > 0 ) { /* carry or merge with left node */ if ( self.btNodes[i-1].numkeys > BTHNODESIZE+1 ) { /* carry from left */ [self borrowleft:i]; } else { /*** merge present node with left node ***/ i--; [self mergenode:i]; tsb = self.btNodes[i]; } } } self.keys[i] = tsb.keys[nkey]; } } numrecs--; updtd = TRUE; return(del); } /** Search key kp on B-tree with root t; if found increment counter. * otherwise insert an item with key kp in tree. If an ACBKey * emerges to be passed to a lower level, then assign it to kp; * h = "tree t has become higher" */ - (ACBTree *) internalinsert:(ACBKey *)kp value:(id)value split:(NSInteger *)h { /* search key ins on node t^; h = false */ NSInteger i, ret; ACBTree *q, *tmp; for (i = 0; i < numkeys; i++) { ret = [keys[i].key compare:kp.key]; if ( ret >= 0 ) { if ( nodeType == LEAF && ret == 0 ) return (self); /* node containing keyentry found */ break; } } if ( nodeType == LEAF ) { /* key goes in this node */ q = [self insert:kp value:value index:i split:h]; } else { /* nodeType == BTNODE */ /* key is not on this node */ q = [self.btNodes[i] internalinsert:kp value:value split:h]; if ( *h ) { [self insert:kp value:q index:i split:h]; } else { self.numrecs++; } tmp = self.btNodes[numkeys-1]; keys[numkeys-1] = tmp.keys[tmp.numkeys-1]; if ( i != numkeys-1 ) { tmp = self.btNodes[i]; keys[i] = tmp.keys[tmp.numkeys-1]; } updtd = YES; } /* search */ return q; } /** Do the actual insertion or split and insert * insert key to the right of t.keys[hi] */ - (ACBTree *) insert:(ACBKey *)kp value:(id)value index:(NSInteger)hi split:(NSInteger *)h { ACBTree *b; if ( numkeys < BTNODESIZE ) { *h = NO; [self rotateright:hi]; keys[hi] = kp; btNodes[hi] = value; numrecs++; numkeys++; updtd = YES; //[kp retain]; return nil; } else { /* node t is full; split it and assign the emerging ACBKey to olditem */ b = [self splitnode:hi]; if ( hi <= BTHNODESIZE ) { /* insert key in left page */ [self rotateright:hi]; keys[hi] = kp; btNodes[hi] = value; numrecs++; numkeys++; } else { /* insert key in right page */ hi -= BTHNODESIZE; if ( b.rnode == nil ) hi--; [b rotateright:hi]; b.keys[hi] = kp; b.btNodes[hi] = value; b.numrecs++; b.numkeys++; } numkeys = b.numkeys = BTHNODESIZE+1; b.updtd = updtd = YES; } return b; } /* insert */ - (void)borrowleft:(NSInteger)i { ACBTree *t0, *t1; NSInteger nkey; t0 = btNodes[i]; t1 = btNodes[i-1]; nkey = t1.numkeys-1; [t0 insinnode:t1.keys[nkey] value:t1.btNodes[nkey]]; [t1 delfrmnode:t1.keys[nkey]]; nkey--; keys[i-1] = t1.keys[nkey]; keys[i-1].recnum = t1.nodeid; } - (void)borrowright:(NSInteger)i { ACBTree *t0, *t1; NSInteger nkey; t0 = btNodes[i]; t1 = btNodes[i+1]; [t0 insinnode:t1.keys[0] value:t1.btNodes[0]]; [t1 delfrmnode:t1.keys[0]]; nkey = t0.numkeys - 1; keys[i] = t0.keys[nkey]; keys[i].recnum = t0.nodeid; } - (NSInteger)delfrmnode:(ACBKey *)ikp { NSInteger j; j = [self searchnode:ikp.key match:YES]; if (j == FAILURE) { return(FAILURE); } ACBKey *k0 = nil; ACBTree *n0 = nil; if ( self.nodeType == LEAF ) { k0 = self.keys[j]; n0 = self.btNodes[j]; } [self rotateleft:j]; self.numkeys--; numrecs -= ((self.nodeType == LEAF)?1:btNodes[j].numrecs); if ( k0 ) [k0 release]; if ( n0 ) [n0 release]; updtd = TRUE; return(SUCCESS); } - (NSInteger)insinnode:(ACBKey *)ikp value:(id)value { NSInteger j; j = [self searchnode:ikp.key match:NO]; [self rotateright:j]; keys[j] = ikp; btNodes[j] = value; numkeys++; if ( nodeType == LEAF ) { numrecs++; } else { numrecs += btNodes[j].numrecs; } updtd = TRUE; return(j); } - (void)mergenode:(NSInteger)i { ACBTree *t0, *t1, *tr; NSInteger j, k, nkeys; t0 = btNodes[i]; t1 = btNodes[i+1]; /*** move keys and pointers from t1 node to t0 node ***/ for (j=t0.numkeys, k=0; j < BTNODESIZE && k < t1.numkeys; j++, k++) { t0.keys[j] = t1.keys[k]; t0.btNodes[j] = t1.btNodes[k]; t0.numkeys++; } t0.numrecs += t1.numrecs; t0.rnode = t1.rnode; t0.rnodeid = t1.rnodeid; t0.updtd = YES; nkeys = t0.numkeys - 1; keys[i] = t0.keys[nkeys]; /* update key to point to new high key */ [self rotateleft:i+1]; /* copy over the keys and nodes */ t1.nodeType = -1; if (t1.rnodeid != 0xffff && i < numkeys - 2) { tr = btNodes[i+1]; tr.lnodeid = t0.nodeid; tr.lnode = t0; tr.updtd = YES; } self.numkeys--; updtd = YES; } - (ACBTree *)splitnode:(NSInteger)idx { ACBTree *t1; NSInteger j, k; k = (idx <= BTHNODESIZE) ? BTHNODESIZE : BTHNODESIZE+1; /*** create new node ***/ // checknode(l, t, k); t1 = [ACBTree newNodeWithDictionary:dict]; t1.nodeType = nodeType; t1.rnode = self.rnode; self.rnode = t1; t1.lnode = self; self.updtd = t1.updtd = YES; /*** move keys and pointers ***/ NSInteger i = 0; for (j = k; j < BTNODESIZE; j++, i++ ) { t1.keys[i] = keys[j]; t1.btNodes[i] = btNodes[j]; t1.numrecs += ((nodeType == LEAF) ? 1 : btNodes[j].numrecs); numrecs -= ((nodeType == LEAF) ? 1 : btNodes[j].numrecs); keys[j] = nil; btNodes[j] = nil; } t1.numkeys = BTNODESIZE-k; self.numkeys = k; return(t1); } #ifdef DONTUSENOMO freetree(l, t) FIDB *l; ACBTree *t; { ACBTree *tmp; NSInteger i; if (dict.root == nil) return(SUCCESS); if (t.nodeid == 1) { srchlvl = 0; } else srchlvl++; for (i = 0; i < t.numkeys; i++) { tmp = t.btNodes[i]; if (tmp != nil) { if (tmp.nodeType == LEAF) { free(tmp); /* free the leaf */ if (tmp == l.rrnode) { l.rrnode = nil; } t.btNodes[i] = nil; l.chknode.nods_inuse--; /* putpage(l, l.chknode, 0); */ } else { freetree(l, tmp); /* continue up the tree */ srchlvl--; /* decrement the srchlvl on return */ } } } free(t); /* free the node entered with */ if (t == l.rrnode) { l.rrnode = nil; } l.chknode.nods_inuse--; /* putpage(l, l.chknode, 0); */ t = nil; } - (void) notfound:(ACBKey *)kp { /* error routine to perform if entry was expected and not found */ } - (void)printtree:(ACBTree *)t { BYTE *str; NSInteger i, j; NSUInteger *pdate, *ptime; syslst = stdprn; if ( t.nodeid == 1 ) { srchlvl = 0; } else srchlvl++; for (j = 0; j < t.numkeys; j++) { checknode(l, t, j); if ( t.btNodes[j] != nil ) [self printtree:t.btNodes[j]]; } NSLog(@"Nodeid = %d, nodeType = %s, numkeys = %d, numrecs = %d\n", t.nodeid, (t.nodeType == BTNODE)?@"NODE":@"LEAF", t.numkeys, t.numrecs); NSLog(@"Left nodeid = %d, Right nodeid = %d\n", t.lnodeid, t.rnodeid); for (i = 0; i < t.numkeys; i++) { NSLog(@" t.keys[%d] recnum = %d, keyval = %@", i, t.keys[i].recnum, t.keys[i]); str = t.keys[i].kstr; pdate = (NSUInteger *) (str + 6); ptime = (NSUInteger *) (str + 8); NSLog(@" date = %04.4x, time = %04.4x\n", *pdate, *ptime); } } - (BOOL)puttree:(ACBTree *)t { NSInteger i; if (t.nodeType != LEAF) { for (i = 0; i < t.numkeys; i++) { if ( t.btNodes[i] != nil ) puttree(l, t.btNodes[i]); } } if ( t.updtd ) { putnode(l, t, t.nodeid); return(YES); } return(NO); } #endif /** ROTATELEFT -- rotate keys from right to the left * starting at position j */ - (void)rotateleft:(NSInteger)j { while ( j+1 < numkeys ) { keys[j] = keys[j+1]; btNodes[j] = btNodes[j+1]; j++; } } /** ROTATERIGHT -- rotate keys to the right by 1 position * starting at the last key down to position j. */ - (void)rotateright:(NSInteger)j { NSInteger k; for ( k = numkeys; k > j; k-- ) { keys[k] = keys[k-1]; btNodes[k] = btNodes[k-1]; } keys[j] = nil; btNodes[j] = nil; } - (NSInteger) keyWalkLeaves { NSInteger i, idx = 0; NSInteger keycnt; ACBTree *t; if ( self != dict.root ) { return 0; // maybe I need to throw an exception here } t = self; self.dict.data = [[NSMutableData dataWithLength:(numkeys * sizeof(id))] retain]; self.dict.ptrBuffer = [self.dict.data mutableBytes]; while ( t != nil && t.nodeType != LEAF ) { t = t.btNodes[0]; } do { keycnt = t.numkeys; for ( i = 0; i < keycnt; i++ ) { if ( t.btNodes[i] != nil ) { dict.ptrBuffer[idx++] = (id) t.keys[i].key; } } t = t.rnode; } while ( t != nil ); return( idx ); } - (NSInteger) objectWalkLeaves { NSInteger i, idx = 0; NSInteger keycnt; ACBTree *t; if ( self != dict.root ) { return 0; // maybe I need to throw an exception here } t = self; self.dict.data = [[NSMutableData dataWithLength:(numrecs * sizeof(id))] retain]; self.dict.ptrBuffer = [self.dict.data mutableBytes]; while ( t != nil && t.nodeType != LEAF ) { t = t.btNodes[0]; } do { keycnt = t.numkeys; for ( i = 0; i < keycnt; i++ ) { if ( t.btNodes[i] != nil ) { dict.ptrBuffer[idx++] = (id) t.btNodes[i]; } } t = t.rnode; } while ( t != nil ); return( idx ); } - (void)dealloc { #ifdef DEBUG_DEALLOC NSLog( @"called dealloc in ACBTree" ); #endif [super dealloc]; } @end