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authorMike Buland <eichlan@xagasoft.com>2006-05-01 17:11:04 +0000
committerMike Buland <eichlan@xagasoft.com>2006-05-01 17:11:04 +0000
commitf7a9549bd6ad83f2e0bceec9cddacfa5e3f84a54 (patch)
tree53cec4864776e07950e3c72f2a990a1017d08045 /src/hashtable.cpp
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libbu++ is finally laid out the way it should be, trunk, branches, and tags.
Diffstat (limited to 'src/hashtable.cpp')
-rw-r--r--src/hashtable.cpp345
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diff --git a/src/hashtable.cpp b/src/hashtable.cpp
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1#include <string.h>
2#include <stdio.h>
3#include <math.h>
4
5#include "hashtable.h"
6
7HashTable::HashTable( HashFunction *hNewFunc, unsigned long int nInitSize, bool bAllowDupes )
8{
9 hFunc = hNewFunc;
10 nTableSize = nextPrime( nInitSize );
11 aTable = new HashNode[nTableSize];
12 //for( int j = 0; j < nTableSize; j++ ) if( aTable[j].id || aTable[j].data || aTable[j].bDeleted ) printf("Unclean entry\n");
13 nSize = 0;
14 nFilled = 0;
15 this->bAllowDupes = bAllowDupes;
16}
17
18HashTable::~HashTable()
19{
20 delete[] aTable;
21 delete hFunc;
22}
23
24void HashTable::set( int j, const void *newID, const void *newData )
25{
26 if( newData == NULL )
27 {
28 printf("Inserting NULL data is indestinguishable from uninserted data!\n");
29 }
30 aTable[j].id = newID;
31 aTable[j].data = newData;
32}
33
34bool HashTable::isFilled( int j )
35{
36 return (aTable[j].id != NULL)||(aTable[j].bDeleted);
37}
38
39bool HashTable::reHash( unsigned long int nNewSize )
40{
41 HashNode *aOldTable = aTable;
42 unsigned long int oldSize = nTableSize;
43
44 // If the table can still be used if we just get rid of deleted items, don't
45 // change the size of the table, otherwise, go ahead and use the number
46 // passed in.
47 if( nSize > nTableSize>>1 )
48 {
49 nTableSize = nextPrime( nNewSize );
50 }
51
52 aTable = newTable( nTableSize );
53 //for( int j = 0; j < nTableSize; j++ ) if( aTable[j].id || aTable[j].data || aTable[j].bDeleted ) printf("Unclean entry\n");
54
55 nSize = 0;
56 nFilled = 0;
57
58 for( unsigned long int j = 0; j < oldSize; j++ )
59 {
60 if( aOldTable[j].id != NULL && aOldTable[j].bDeleted == false )
61 {
62 insert( aOldTable[j].id, aOldTable[j].data );
63 }
64 }
65
66 delete[] aOldTable;
67}
68
69unsigned long int HashTable::probe( unsigned long int nStart, const void *id )
70{
71 int nHash = nStart;
72 nStart = nStart%nTableSize;
73 if( bAllowDupes == true )
74 {
75 for(
76 unsigned long int j=0;
77 isFilled( nStart ) && j < 32;
78 nStart = (nStart+(1<<j))%nTableSize, j++
79 );
80
81 /**
82 * This is an ugly little hack. If the hash table is too full in allow-
83 * dups mode we have to fall back on a linear search, otherwise you can
84 * only get up to 32 entries with the same name.
85 */
86 if( isFilled( nStart ) )
87 {
88 int nOldStart = nStart;
89 for(
90 nStart++;
91 isFilled( nStart ) && nStart != nOldStart;
92 nStart = (nStart+1)%nTableSize
93 );
94 }
95 }
96 else
97 {
98 for(
99 unsigned long int j=0;
100 isFilled( nStart ) && j < 32;
101 nStart = (nStart+(1<<j))%nTableSize, j++
102 )
103 {
104 if( isFilled( nStart ) )
105 {
106 if( hFunc->cmpIDs( aTable[nStart].id, id ) == true &&
107 aTable[nStart].bDeleted == false )
108 {
109 return nStart;
110 }
111 }
112 }
113 }
114 // This is our insurance, if the table is full, then go ahead and rehash,
115 // then try again.
116 if( isFilled( nStart ) )
117 {
118 reHash( getCapacity()*2 );
119 return probe( nHash, id );
120 }
121 return nStart;
122}
123
124HashTable::HashNode *HashTable::newTable( unsigned long int nNewSize )
125{
126 return new HashNode[nNewSize];
127}
128
129#ifdef HASH_DEBUG_VIS
130void HashTable::printDebugLine( const char *exData )
131{
132 char *buf = new char[getCapacity()+3];
133 int j;
134 buf[0] = '[';
135 for( j = 0; j < getCapacity(); j++ )
136 {
137 buf[j+1] = (aTable[j].bDeleted)?('X'):((isFilled( j ))?('#'):('-'));
138 }
139 buf[j+1] = ']';
140 buf[j+2] = '\0';
141 printf("%s %s\n", buf, exData );
142 delete[] buf;
143}
144#endif
145
146bool HashTable::insert( const void *id, const void *data )
147{
148 unsigned long int nPos = probe( hFunc->hash( id ), id )%nTableSize;
149
150 if( bAllowDupes == true )
151 {
152 if( aTable[nPos].id == NULL && aTable[nPos].bDeleted == false )
153 {
154 set( nPos, id, data );
155#ifdef HASH_DEBUG_VIS
156 printDebugLine( (const char *)id );
157#endif
158 nSize++;
159 nFilled++;
160 return true;
161 }
162 else
163 {
164 return false;
165 }
166 }
167 else
168 {
169 if( aTable[nPos].id == NULL && aTable[nPos].bDeleted == false )
170 {
171 set( nPos, id, data );
172#ifdef HASH_DEBUG_VIS
173 printDebugLine( (const char *)id );
174#endif
175 nSize++;
176 nFilled++;
177 return true;
178 }
179 else if( hFunc->cmpIDs( aTable[nPos].id, id ) == true )
180 {
181 set( nPos, id, data );
182#ifdef HASH_DEBUG_VIS
183 printDebugLine( (const char *)id );
184#endif
185 return true;
186 }
187 else
188 {
189 return false;
190 }
191 }
192}
193
194const void *HashTable::get( const void *id, unsigned long int nSkip )
195{
196 unsigned long int nPos = hFunc->hash( id )%nTableSize;
197
198 for( unsigned long int j=0; j < 32; nPos = (nPos+(1<<j))%nTableSize, j++ )
199 {
200 if( !isFilled( nPos ) ) return NULL;
201 if( hFunc->cmpIDs( id, aTable[nPos].id ) &&
202 aTable[nPos].bDeleted == false )
203 {
204 if( nSkip == 0 )
205 {
206 return aTable[nPos].data;
207 }
208 else
209 {
210 nSkip--;
211 }
212 }
213 }
214
215 return NULL;
216}
217
218void *HashTable::getFirstItemPos()
219{
220 HashPos *pos = new HashPos;
221 return pos;
222}
223
224const void *HashTable::getItemData( void *xPos )
225{
226 return aTable[((HashPos *)xPos)->nPos].data;
227}
228
229const void *HashTable::getItemID( void *xPos )
230{
231 return aTable[((HashPos *)xPos)->nPos].id;
232}
233
234void *HashTable::getNextItemPos( void *xPos )
235{
236 HashPos *pos = (HashPos *)xPos;
237 if( pos->bStarted == false )
238 {
239 pos->bStarted = true;
240 pos->nPos = 0;
241 }
242 else
243 {
244 pos->nPos++;
245 }
246 if( pos->nPos < nTableSize )
247 {
248 for( ; pos->nPos < nTableSize; pos->nPos++ )
249 {
250 if( isFilled( pos->nPos ) &&
251 aTable[pos->nPos].bDeleted == false )
252 {
253 return xPos;
254 }
255 }
256 }
257
258 delete pos;
259
260 return NULL;
261}
262
263// Big-O sqrt(n)
264// Change this to be erethpothynies table with a storage
265// lookup later on.
266bool HashTable::isPrime (int num)
267{
268 if (num == 2) // the only even prime
269 return true;
270 else if (num % 2 == 0) // other even numbers are composite
271 return false;
272 else
273 {
274 //bool prime = true;
275 int divisor = 3;
276 int upperLimit = static_cast<int>(sqrt(num) + 1);
277 while (divisor <= upperLimit)
278 {
279 if (num % divisor == 0)
280 return false;
281 // prime = false;
282 divisor +=2;
283 }
284 return true;
285 }
286}
287
288// Big-O n^(3/2)
289int HashTable::nextPrime( int base )
290{
291 int nPrime;
292 for( nPrime = base; isPrime( nPrime ) == false; nPrime++ );
293 return nPrime;
294}
295
296unsigned long int HashTable::getCapacity()
297{
298 return nTableSize;
299}
300
301unsigned long int HashTable::getSize()
302{
303 return nSize;
304}
305
306double HashTable::getLoad()
307{
308 return (double)(nFilled)/(double)(nTableSize);
309}
310
311const void *HashTable::operator[](const void *id)
312{
313 return get( id );
314}
315
316bool HashTable::del( const void *id, int nSkip )
317{
318 unsigned long int nPos = hFunc->hash( id )%nTableSize;
319
320 for( unsigned long int j=0; j < 32; nPos = (nPos+(1<<j))%nTableSize, j++ )
321 {
322 if( !isFilled( nPos ) ) return false;
323 if( hFunc->cmpIDs( id, aTable[nPos].id ) &&
324 aTable[nPos].bDeleted == false )
325 {
326 if( nSkip == 0 )
327 {
328 aTable[nPos].bDeleted = true;
329// aTable[nPos].
330 nSize--;
331#ifdef HASH_DEBUG_VIS
332 printDebugLine( (const char *)id );
333#endif
334 return true;
335 }
336 else
337 {
338 nSkip--;
339 }
340 }
341 }
342
343 return false;
344}
345