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calReorderDF.c @ 13

Last change on this file since 13 was 13, checked in by cecile, 13 years ago
library glu 2.3
File size: 52.9 KB

Line
1	/CFile*********************************************************************
2
3	FileName [calReorderDF.c]
4
5	PackageName [cal]
6
7	Synopsis [Routines for dynamic reordering of variables.]
8
9	Description [This method is based on traditional dynamic reordering
10	technique found in depth-first based packages. The data structure is
11	first converted to conform to traditional one and then reordering is
12	performed. At the end the nodes are arranged back on the pages. The
13	computational overheads are in terms of converting the data
14	structure back and forth and the memory overhead due to the extra
15	space needed to arrange the nodes. This overhead can be eliminated
16	by proper implementation. For details, please refer to the work by
17	Rajeev K. Ranjan et al - "Dynamic variable reordering in a
18	breadth-first manipulation based package: Challenges and Solutions"-
19	Proceedings of ICCD'97.]
20
21	SeeAlso [calReorderBF.c calReorderUtil.c]
22
23	Author [Rajeev K. Ranjan (rajeev@@ic. eecs.berkeley.edu)]
24
25	Copyright [Copyright (c) 1994-1996 The Regents of the Univ. of California.
26	All rights reserved.
27
28	Permission is hereby granted, without written agreement and without license
29	or royalty fees, to use, copy, modify, and distribute this software and its
30	documentation for any purpose, provided that the above copyright notice and
31	the following two paragraphs appear in all copies of this software.
32
33	IN NO EVENT SHALL THE UNIVERSITY OF CALIFORNIA BE LIABLE TO ANY PARTY FOR
34	DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT
35	OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF THE UNIVERSITY OF
36	CALIFORNIA HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
37
38	THE UNIVERSITY OF CALIFORNIA SPECIFICALLY DISCLAIMS ANY WARRANTIES,
39	INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
40	FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS ON AN
41	"AS IS" BASIS, AND THE UNIVERSITY OF CALIFORNIA HAS NO OBLIGATION TO PROVIDE
42	MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.]
43
44	******************************************************************************/
45
46	#include "calInt.h"
47
48	/---------------------------------------------------------------------------/
49	/* Constant declarations */
50	/---------------------------------------------------------------------------/
51
52	/---------------------------------------------------------------------------/
53	/* Type declarations */
54	/---------------------------------------------------------------------------/
55
56	/---------------------------------------------------------------------------/
57	/* Stucture declarations */
58	/---------------------------------------------------------------------------/
59
60	/---------------------------------------------------------------------------/
61	/* Variable declarations */
62	/---------------------------------------------------------------------------/
63	static CalNodeManager_t *nodeManager;
64	static int freeListId;
65
66
67	/---------------------------------------------------------------------------/
68	/* Macro declarations */
69	/---------------------------------------------------------------------------/
70	/* These macros are needed because we are dealing with a new data
71	structures of the BDD nodes */
72
73	#define BddNodeIcrRefCount(f) \
74	{ \
75	CalBddNode_t *_bddNode = CAL_BDD_POINTER(f); \
76	if (_bddNode->elseBddId < CAL_MAX_REF_COUNT){ \
77	_bddNode->elseBddId++; \
78	} \
79	}
80
81	#define BddNodeDcrRefCount(f) \
82	{ \
83	CalBddNode_t *_bddNode = CAL_BDD_POINTER(f); \
84	if ((_bddNode->elseBddId < CAL_MAX_REF_COUNT) && (_bddNode->elseBddId)){ \
85	_bddNode->elseBddId--; \
86	} \
87	else if (_bddNode->elseBddId == 0){ \
88	CalBddWarningMessage("Trying to decrement reference count below zero"); \
89	} \
90	}
91
92	#define BddGetCofactors(bddManager, f, id, fThen, fElse) \
93	{ \
94	CalBddNode_t *_bddNode = CAL_BDD_POINTER(f); \
95	Cal_Assert(bddManager->idToIndex[_bddNode->thenBddId] <= \
96	bddManager->idToIndex[id]); \
97	if (bddManager->idToIndex[_bddNode->thenBddId] == \
98	bddManager->idToIndex[id]){ \
99	fThen = _bddNode->thenBddNode; \
100	fElse = _bddNode->elseBddNode; \
101	} \
102	else{ \
103	fThen = fElse = f; \
104	} \
105	}
106
107	#define BddNodeGetThenBddNode(bddNode) \
108	((CalBddNode_t*) ((CalAddress_t) \
109	(CAL_BDD_POINTER(bddNode)->thenBddNode) \
110	^ (CAL_TAG0(bddNode))))
111
112	#define BddNodeGetElseBddNode(bddNode) \
113	((CalBddNode_t*) ((CalAddress_t) \
114	(CAL_BDD_POINTER(bddNode)->elseBddNode) \
115	^ (CAL_TAG0(bddNode))))
116
117
118
119	/AutomaticStart***********************************************************/
120
121	/---------------------------------------------------------------------------/
122	/* Static function prototypes */
123	/---------------------------------------------------------------------------/
124
125	static int UniqueTableForIdFindOrAdd(Cal_BddManager_t * bddManager, CalHashTable_t * hashTable, CalBddNode_t thenBdd, CalBddNode_t elseBdd, CalBddNode_t **bddPtr);
126	static void HashTableAddDirect(CalHashTable_t * hashTable, CalBddNode_t *bddNode);
127	static int HashTableFindOrAdd(Cal_BddManager_t bddManager, CalHashTable_t hashTable, CalBddNode_t thenBdd, CalBddNode_t elseBdd, CalBddNode_t **bddPtr);
128	static void BddConvertDataStruct(Cal_BddManager_t *bddManager);
129	static void BddConvertDataStructBack(Cal_BddManager_t *bddManager);
130	static void BddReallocateNodes(Cal_BddManager_t *bddManager);
131	static void BddExchangeAux(Cal_BddManager_t bddManager, CalBddNode_t f, int id, int nextId);
132	static int CheckValidityOfNodes(Cal_BddManager_t *bddManager, long id);
133	static void SweepVarTable(Cal_BddManager_t *bddManager, long id);
134	static void BddExchange(Cal_BddManager_t *bddManager, long id);
135	static void BddExchangeVarBlocks(Cal_BddManager_t *bddManager, Cal_Block parent, long blockIndex);
136	static int BddReorderWindow2(Cal_BddManager_t *bddManager, Cal_Block block, long i);
137	static int BddReorderWindow3(Cal_BddManager_t *bddManager, Cal_Block block, long i);
138	static void BddReorderStableWindow3Aux(Cal_BddManager_t bddManager, Cal_Block block, char levels);
139	static void BddReorderStableWindow3(Cal_BddManager_t *bddManager);
140	static void BddSiftBlock(Cal_BddManager_t *bddManager, Cal_Block block, long startPosition, double maxSizeFactor);
141	static void BddReorderSiftAux(Cal_BddManager_t bddManager, Cal_Block block, Cal_Block toSift, double maxSizeFactor);
142	static void BddReorderSift(Cal_BddManager_t *bddManager, double maxSizeFactor);
143	static int CeilLog2(int number);
144
145	/AutomaticEnd*************************************************************/
146
147	/---------------------------------------------------------------------------/
148	/* Definition of exported functions */
149	/---------------------------------------------------------------------------/
150
151	/Function******************************************************************
152
153	Synopsis [required]
154
155	Description [optional]
156
157	SideEffects [required]
158
159	SeeAlso [optional]
160
161	******************************************************************************/
162	void
163	CalBddReorderAuxDF(Cal_BddManager_t *bddManager)
164	{
165	CalHashTableGC(bddManager, bddManager->uniqueTable[0]);
166	/Cal_BddManagerGC(bddManager);Cal_Assert(CalCheckAllValidity(bddManager));/
167	/* If we want to check the validity, we need to garbage collect */
168	CalInitInteract(bddManager); /* Initialize the interaction matrix
169	before changing the data structure */
170	nodeManager = CalNodeManagerInit(bddManager->pageManager2);
171	freeListId = 1;
172	#ifdef _CAL_QUANTIFY_
173	quantify_start_recording_data();
174	#endif
175	BddConvertDataStruct(bddManager);
176	if (bddManager->reorderTechnique == CAL_REORDER_WINDOW){
177	BddReorderStableWindow3(bddManager);
178	}
179	else {
180	BddReorderSift(bddManager, bddManager->maxSiftingGrowth);
181	}
182	BddReallocateNodes(bddManager);
183	BddConvertDataStructBack(bddManager);
184	#ifdef _CAL_QUANTIFY_
185	quantify_stop_recording_data();
186	#endif
187	nodeManager->numPages = 0; /* Since these pages have already been
188	freed */
189	CalNodeManagerQuit(nodeManager);
190	Cal_Assert(CalCheckAllValidity(bddManager));
191	Cal_MemFree(bddManager->interact);
192	bddManager->numReorderings++;
193	}
194
195
196	/---------------------------------------------------------------------------/
197	/* Definition of internal functions */
198	/---------------------------------------------------------------------------/
199	/---------------------------------------------------------------------------/
200	/* Definition of static functions */
201	/---------------------------------------------------------------------------/
202	static void
203	NodeManagerAllocNode(Cal_BddManager_t bddManager, CalBddNode_t *nodePtr)
204	{
205	/* First check the free list of bddManager */
206	if (nodeManager->freeNodeList){
207	*nodePtr = nodeManager->freeNodeList;
208	nodeManager->freeNodeList =
209	((CalBddNode_t )(nodePtr))->nextBddNode;
210	}
211	else{
212	if (freeListId < bddManager->numVars){
213	/* Find the next id with free list */
214	for (; freeListId <= bddManager->numVars; freeListId++){
215	CalNodeManager_t *nodeManagerForId =
216	bddManager->nodeManagerArray[freeListId];
217	if (nodeManagerForId->freeNodeList){
218	*nodePtr = nodeManagerForId->freeNodeList;
219	nodeManagerForId->freeNodeList = (CalBddNode_t *)0;
220	nodeManager->freeNodeList =
221	((CalBddNode_t )(nodePtr))->nextBddNode;
222	break;
223	}
224	}
225	}
226	}
227	if (!(*nodePtr)){
228	/* Create a new page */
229	CalBddNode_t _freeNodeList, _nextNode, *_node;
230	_freeNodeList =
231	(CalBddNode_t *)CalPageManagerAllocPage(nodeManager->pageManager);
232	for(_node = _freeNodeList + NUM_NODES_PER_PAGE - 1, _nextNode =0;
233	_node != _freeNodeList; _nextNode = _node--){
234	_node->nextBddNode = _nextNode;
235	}
236	nodeManager->freeNodeList = _freeNodeList + 1;
237	*nodePtr = _node;
238	if (nodeManager->numPages == nodeManager->maxNumPages){
239	nodeManager->maxNumPages *= 2;
240	nodeManager->pageList =
241	Cal_MemRealloc(CalAddress_t *, nodeManager->pageList,
242	nodeManager->maxNumPages);
243	}
244	nodeManager->pageList[nodeManager->numPages++] =
245	(CalAddress_t *)_freeNodeList;
246	}
247	}
248
249	/Function******************************************************************
250
251	Synopsis [find or add in the unique table for id.]
252
253	Description [optional]
254
255	SideEffects [If a new BDD node is created (found == false), then the
256	numNodes field of the manager needs to be incremented.]
257
258	SeeAlso [optional]
259
260	******************************************************************************/
261	static int
262	UniqueTableForIdFindOrAdd(Cal_BddManager_t * bddManager,
263	CalHashTable_t * hashTable,
264	CalBddNode_t *thenBdd,
265	CalBddNode_t *elseBdd,
266	CalBddNode_t **bddPtr)
267	{
268	int found = 0;
269	if (thenBdd == elseBdd){
270	*bddPtr = thenBdd;
271	found = 1;
272	}
273	else if(CalBddNodeIsOutPos(thenBdd)){
274	found = HashTableFindOrAdd(bddManager, hashTable, thenBdd, elseBdd, bddPtr);
275	}
276	else{
277	found = HashTableFindOrAdd(bddManager, hashTable,
278	CalBddNodeNot(thenBdd),
279	CalBddNodeNot(elseBdd), bddPtr);
280	bddPtr = CalBddNodeNot(bddPtr);
281	}
282	if (!found) bddManager->numNodes++;
283	return found;
284	}
285
286	/Function******************************************************************
287
288	Synopsis [Directly insert a BDD node in the hash table.]
289
290	Description [optional]
291
292	SideEffects [required]
293
294	SeeAlso [optional]
295
296	******************************************************************************/
297	static void
298	HashTableAddDirect(CalHashTable_t * hashTable, CalBddNode_t *bddNode)
299	{
300	int hashValue;
301	CalBddNode_t thenBddNode, elseBddNode;
302
303	hashTable->numEntries++;
304	if(hashTable->numEntries >= hashTable->maxCapacity){
305	CalHashTableRehash(hashTable, 1);
306	}
307	thenBddNode = bddNode->thenBddNode;
308	Cal_Assert(CalBddNodeIsOutPos(thenBddNode));
309	elseBddNode = bddNode->elseBddNode;
310	hashValue = CalDoHash2(thenBddNode, elseBddNode, hashTable);
311	bddNode->nextBddNode = hashTable->bins[hashValue];
312	hashTable->bins[hashValue] = bddNode;
313	}
314
315
316	/Function******************************************************************
317
318	Synopsis [required]
319
320	Description [optional]
321
322	SideEffects [required]
323
324	SeeAlso [optional]
325
326	******************************************************************************/
327	static int
328	HashTableFindOrAdd(Cal_BddManager_t *bddManager, CalHashTable_t
329	hashTable, CalBddNode_t thenBdd,
330	CalBddNode_t elseBdd, CalBddNode_t *bddPtr)
331	{
332	CalBddNode_t *ptr;
333	int hashValue;
334
335	Cal_Assert(CalBddNodeIsOutPos(thenBdd));
336	hashValue = CalDoHash2(thenBdd, elseBdd, hashTable);
337	for (ptr = hashTable->bins[hashValue]; ptr; ptr = ptr->nextBddNode){
338	if ((ptr->thenBddNode == thenBdd) &&
339	(ptr->elseBddNode == elseBdd)){
340	*bddPtr = ptr;
341	return 1;
342	}
343	}
344	hashTable->numEntries++;
345	if(hashTable->numEntries > hashTable->maxCapacity){
346	CalHashTableRehash(hashTable,1);
347	hashValue = CalDoHash2(thenBdd, elseBdd, hashTable);
348	}
349
350	NodeManagerAllocNode(bddManager, &ptr);
351
352	ptr->thenBddNode = thenBdd;
353	ptr->elseBddNode = elseBdd;
354	ptr->nextBddNode = hashTable->bins[hashValue];
355	ptr->thenBddId = hashTable->bddId;
356	ptr->elseBddId = 0;
357	hashTable->bins[hashValue] = ptr;
358	*bddPtr = ptr;
359	return 0;
360	}
361
362
363	/Function******************************************************************
364
365	Synopsis [Changes the data structure of the bdd nodes.]
366
367	Description [New data structure: thenBddId -> id
368	elseBddId -> ref count]
369
370	SideEffects [required]
371
372	SeeAlso [optional]
373
374	******************************************************************************/
375	static void
376	BddConvertDataStruct(Cal_BddManager_t *bddManager)
377	{
378	CalBddNode_t bddNode, thenBddNode, *elseBddNode,
379	*next = Cal_Nil(CalBddNode_t);
380	CalBddNode_t *last;
381	long numBins;
382	int i, refCount, id, index;
383	long oldNumEntries;
384	CalHashTable_t *uniqueTableForId;
385
386	if (bddManager->numPeakNodes < bddManager->numNodes){
387	bddManager->numPeakNodes = bddManager->numNodes;
388	}
389
390	for(index = 0; index < bddManager->numVars; index++){
391	id = bddManager->indexToId[index];
392	uniqueTableForId = bddManager->uniqueTable[id];
393	oldNumEntries = uniqueTableForId->numEntries;
394	numBins = uniqueTableForId->numBins;
395	for(i = 0; i < numBins; i++){
396	last = NULL;
397	bddNode = uniqueTableForId->bins[i];
398	while(bddNode != Cal_Nil(CalBddNode_t)){
399	next = CalBddNodeGetNextBddNode(bddNode);
400	CalBddNodeGetRefCount(bddNode, refCount);
401	thenBddNode = CalBddNodeGetThenBddNode(bddNode);
402	elseBddNode = CalBddNodeGetElseBddNode(bddNode);
403	if(refCount == 0){
404	if (last == NULL){
405	uniqueTableForId->bins[i] = next;
406	}
407	else{
408	last->nextBddNode = next;
409	}
410	CalBddNodeDcrRefCount(CAL_BDD_POINTER(thenBddNode));
411	CalBddNodeDcrRefCount(CAL_BDD_POINTER(elseBddNode));
412	CalNodeManagerFreeNode(nodeManager, bddNode);
413	uniqueTableForId->numEntries--;
414	}
415	else {
416	bddNode->thenBddId = id;
417	bddNode->elseBddId = refCount;
418	bddNode->nextBddNode = next;
419	bddNode->thenBddNode = thenBddNode;
420	bddNode->elseBddNode = elseBddNode;
421	last = bddNode;
422	}
423	bddNode = next;
424	}
425	}
426	if ((uniqueTableForId->numBins > uniqueTableForId->numEntries) &&
427	(uniqueTableForId->sizeIndex > HASH_TABLE_DEFAULT_SIZE_INDEX)){
428	CalHashTableRehash(uniqueTableForId, 0);
429	}
430	bddManager->numNodes -= oldNumEntries - uniqueTableForId->numEntries;
431	bddManager->numNodesFreed += oldNumEntries - uniqueTableForId->numEntries;
432	}
433	id = 0;
434	uniqueTableForId = bddManager->uniqueTable[id];
435	numBins = uniqueTableForId->numBins;
436	for(i = 0; i < numBins; i++){
437	bddNode = uniqueTableForId->bins[i];
438	while(bddNode != Cal_Nil(CalBddNode_t)){
439	next = CalBddNodeGetNextBddNode(bddNode);
440	CalBddNodeGetRefCount(bddNode, refCount);
441	Cal_Assert(refCount);
442	thenBddNode = CalBddNodeGetThenBddNode(bddNode);
443	elseBddNode = CalBddNodeGetElseBddNode(bddNode);
444	bddNode->thenBddId = id;
445	bddNode->elseBddId = refCount;
446	bddNode->nextBddNode = next;
447	bddNode->thenBddNode = thenBddNode;
448	bddNode->elseBddNode = elseBddNode;
449	bddNode = next;
450	}
451	}
452	bddNode = bddManager->bddOne.bddNode;
453	CalBddNodeGetRefCount(bddNode, refCount);
454	Cal_Assert(refCount);
455	thenBddNode = CalBddNodeGetThenBddNode(bddNode);
456	elseBddNode = CalBddNodeGetElseBddNode(bddNode);
457	bddNode->thenBddId = id;
458	bddNode->elseBddId = refCount;
459	bddNode->nextBddNode = next;
460	bddNode->thenBddNode = thenBddNode;
461	bddNode->elseBddNode = elseBddNode;
462	}
463
464
465	/Function******************************************************************
466
467	Synopsis [Changes the data structure of the bdd nodes to
468	the original one.]
469
470	Description [Data structure conversion: thenBddId -> id
471	elseBddId -> ref count]
472	SideEffects [required]
473
474	SeeAlso [optional]
475
476	******************************************************************************/
477	static void
478	BddConvertDataStructBack(Cal_BddManager_t *bddManager)
479	{
480	Cal_Bdd_t thenBdd, elseBdd;
481
482	CalBddNode_t bddNode, nextBddNode, **bins;
483	long numBins;
484	int i, id, index;
485	CalHashTable_t *uniqueTableForId;
486	uniqueTableForId = bddManager->uniqueTable[0];
487	numBins = uniqueTableForId->numBins;
488	bins = uniqueTableForId->bins;
489	for(i = 0; i < numBins; i++) {
490	for(bddNode = bins[i];
491	bddNode != Cal_Nil(CalBddNode_t);
492	bddNode = nextBddNode) {
493	nextBddNode = CalBddNodeGetNextBddNode(bddNode);
494	CalBddNodePutRefCount(bddNode, bddNode->elseBddId);
495	bddNode->thenBddId = CAL_BDD_POINTER(bddNode->thenBddNode)->thenBddId;
496	bddNode->elseBddId = CAL_BDD_POINTER(bddNode->elseBddNode)->thenBddId;
497	}
498	}
499	for(index = 0; index < bddManager->numVars; index++){
500	id = bddManager->indexToId[index];
501	uniqueTableForId = bddManager->uniqueTable[id];
502	numBins = uniqueTableForId->numBins;
503	bins = uniqueTableForId->bins;
504	for(i = 0; i < numBins; i++) {
505	for(bddNode = bins[i];
506	bddNode != Cal_Nil(CalBddNode_t);
507	bddNode = nextBddNode) {
508	nextBddNode = CalBddNodeGetNextBddNode(bddNode);
509	CalBddNodePutRefCount(bddNode, bddNode->elseBddId);
510	bddNode->thenBddId = CAL_BDD_POINTER(bddNode->thenBddNode)->thenBddId;
511	bddNode->elseBddId = CAL_BDD_POINTER(bddNode->elseBddNode)->thenBddId;
512	Cal_Assert(!CalBddNodeIsForwarded(bddNode));
513	Cal_Assert(!CalBddNodeIsRefCountZero(bddNode));
514	CalBddNodeGetThenBdd(bddNode, thenBdd);
515	CalBddNodeGetElseBdd(bddNode, elseBdd);
516	Cal_Assert(CalBddIsForwarded(thenBdd) == 0);
517	Cal_Assert(CalBddIsForwarded(elseBdd) == 0);
518	}
519	}
520	}
521	bddNode = bddManager->bddOne.bddNode;
522	CalBddNodePutRefCount(bddNode, bddNode->elseBddId);
523	bddNode->thenBddId = 0;
524	bddNode->elseBddId = 0;
525	}
526
527	#ifdef _FOO_
528	/Function******************************************************************
529
530	Synopsis [required]
531
532	Description [optional]
533
534	SideEffects [required]
535
536	SeeAlso [optional]
537
538	******************************************************************************/
539	static void
540	BddReallocateNodesInPlace(Cal_BddManager_t *bddManager)
541	{
542	Cal_Address_t *pageSegment;
543	CalPageManager_t *pageManager;
544	CalHashTable_t *uniqueTable;
545	CalNodeManager_t *nodeManager;
546	int index, id, i, pageCounter, numUsefulSegments, segmentCounter;
547
548	/* Initialize and set up few things */
549	pageManager = bddManager->pageManager;
550	uniqueTable = bddManager->uniqueTable;
551	for (id = 1; id <= bddManager->numVars; id++){
552	numPagesRequired =
553	uniqueTable[id]->numEntries/NUM_NODES_PER_PAGE+1;
554	nodeManager = uniqueTable[id]->nodeManager;
555	/* Clear out the page list of the node manager */
556	for (i=0; i<nodeManager->maxNumPages; i++){
557	nodeManager->pageList[i] = 0;
558	}
559	nodeManager->freeNodeList = (CalBddNode_t *)0;
560	nodeManager->numPages = numPagesRequired;
561	Cal_Assert(nodeManager->maxNumPages >= numPagesRequired);
562	for (i = 0; i<numPagesRequired; i++){
563	if (++pageCounter ==
564	pageManager->numPagesArray[segmentCounter]){
565	pageCounter = 0;
566	segmentCounter++;
567	pageSegment = pageManager->pageSegmentArray[segmentCounter];
568	}
569	nodeManager->pageList[i] = pageSegment[pageCounter];
570	}
571	}
572	numUsefulSegments = segmentCounter+1;
573	numUsefulPagesInLastSegment = pageCounter+1;
574
575	/* Traverse all the nodes belonging in each page */
576	/* Put the destination addresses in the next pointer */
577	for (numSegment=0; numSegment < pageManager->numSegments;
578	numSegment++){
579	for (numPage = 0, page = pageManager->pageSegmentArray[numSegment];
580	numPage < pageManager->numPagesArray[numSegment];
581	page += PAGE_SIZE, numPage++){
582	for (bddNode = (CalBddNode_t*) page, numNode = 0;
583	numNode < NUM_NODES_PER_PAGE; numNode++, bddNode += 1){
584	/* If the node is not useful, continue */
585	if (bddNode->elseBddId == 0) continue;
586	/* Find out the destination address */
587	bddId = bddNode->thenBddId;
588	nodeCounter[bddId]++;
589	if (nodeCounter[bddId] == NUM_NODES_PER_PAGE){
590	pageCounter[bddId]++;
591	nodePointerArray[bddId] =
592	pageListArray[bddId][pageCounter[bddId]];
593	nodeCounter[bddId] = 0;
594	}
595	bddNode->nextBddNode = nodePointerArray[bddId];
596	nodePointerArray[bddId] += 1;
597	}
598	}
599	}
600	/* Traverse all the nodes belonging in each page */
601	/* Update the contents */
602	for (numSegment=0; numSegment < pageManager->totalNumSegments;
603	numSegment++){
604	for (numPage = 0, page = pageManager->pageSegmentArray[numSegment];
605	numPage < pageManager->numPagesArray[numSegment];
606	page += PAGE_SIZE, numPage++){
607	for (bddNode = (CalBddNode_t*) page, numNode = 0;
608	numNode < NUM_NODES_PER_PAGE; numNode++, bddNode += 1){
609	/* If the node is not useful, continue */
610	if (bddNode->elseBddId == 0) continue;
611	/* If the node has been visited, continue */
612	if ((CalAddress_t)bddNode->nextBddNode & 01) continue;
613	/* If the nodes is supposed to remain at the same place,
614	update the then and else pointers and continue */
615	if (((CalAddress_t) bddNode->nextBddNode &~01) ==
616	((CalAddress_t) bddNode & ~01)){
617	CalBddNodeUpdatebddNode(bddNode);
618	continue;
619	}
620	origNode = bddNode; /* Remember the address */
621	/* Update the contents */
622	thenBddNode = bddNode->thenBddNode;
623	elseBddNode = bddNode->elseBddNode;
624	thenBddId = bddNode->thenBddId;
625	elseBddId = bddNode->elseBddId;
626	do{
627	thenBddNode = UpdateThenBddNode(thenBddNode);
628	elseBddNode = UpdateElseBddNode(elseBddNode);
629	destinationNode = bddNode->nextBddNode;
630	/* Mark the node visited */
631	bddNode->nextBddNode = (CalBddNode_t *)
632	((CalAddress_t)bddNode->nextBddNode \| 01);
633	thenBddNode2 = destinationNode->thenBddNode;
634	elseBddNode2 = destinationNode->elseBddNode;
635	thenBddId2 = destinationNode->thenBddId;
636	elseBddId2 = destinationNode->elseBddId;
637	destinationNode->thenBddNode = thenBddNode;
638	destinationNode->elseBddNode = elseBddNode;
639	destinationNode->thenBddId = thenBddId;
640	destinationNode->elseBddId = elseBddId;
641	bddNode = destinationNode;
642	thenBddNode = thenBddNode2;
643	elseBddNode = elseBddNode2;
644	thenBddId = thenBddId2;
645	elseBddId = elseBddId2;
646	} while ((elseBddId != 0) && (bddNode != origNode) &&
647	!((CalAddress_t)(bddNode->nextBddNode) & 01));
648	}
649	}
650	}
651	/* Fix the handles to the nodes being moved */
652	for (id = 1; id <= bddManager->numVars; id++){
653	/* Fix the varBdd array */
654	}
655	/* Need to update the handles to the nodes being moved */
656	if (bddManager->pipelineState == CREATE){
657	/* There are some results computed in pipeline */
658	CalBddReorderFixProvisionalNodesAfterReallocation(bddManager);
659	}
660
661	/* Fix the user BDDs */
662	CalBddReorderFixUserBddPtrsAfterReallocation(bddManager);
663
664	/* Fix the association */
665	CalReorderAssociationFixAfterReallocation(bddManager);
666
667	Cal_Assert(CalCheckAssoc(bddManager));
668
669
670	/* Update the next pointers */
671	/* Since the pages for the ids are distributed in the uniform
672	manner, we can scan the pages on id by id basis without any
673	disadvantage */
674	for (id = 1; id <= bddManager->numVars; id++){
675	nodeManager = uniqueTable[id]->nodeManager;
676	freeNodeList = Cal_Nil(CalBddNode_t);
677	for (i=0; i<nodeManager->numPages; i++){
678	page = nodeManager->pageList[i];
679	for (bddNode = (CalBddNode_t*) page, numNode = 0;
680	numNode < NUM_NODES_PER_PAGE; numNode++, bddNode += 1){
681	/* If the node is not useful, put it in the free list */
682	if ((bddNode->elseBddId == 0) \|\| (bddNode->elseBddNode == 0)){
683	bddNode->nextBddNode = freeNodeList;
684	freeNodeList = bddNode;
685	}
686	}
687	}
688	nodeManager->freeNodeList = freeNodeList;
689	}
690	/* We should put the unused pages in the free page list */
691	pageSegment = pageManager->pageSegmentArray[numUsefulSegments-1];
692	for (pageCounter = numUsefulPagesInLastSegment;
693	pageCounter < pageSegment->numPages ; pageCounter++){
694	CalPageManagerFreePage(pageManager, pageSegment[pageCounter]);
695	}
696	/* We have to free up the unnecessary page segments;*/
697	for (i = numUsefulSegments; i < pageManager->numSegments; i++){
698	free(pageManager->pageSegmentArray[i]);
699	pageManager->pageSegmentArray[i] = 0;
700	}
701	pageManager->numSegments = numUsefulSegments;
702	}
703	/Function******************************************************************
704
705	Synopsis [required]
706
707	Description [optional]
708
709	SideEffects [required]
710
711	SeeAlso [optional]
712
713	******************************************************************************/
714	void
715	CalAlignCollisionChains(Cal_BddManager_t *bddManager)
716	{
717	/* First find out the pages corresponding to each variable */
718	Cal_Address_t *pageListArray = Cal_MemAlloc(Cal_Address_t ,
719	bddManager->numVars+1);
720	for (id = 1; id <= bddManager->numVars; id++){
721	nodeManager = bddManager->nodeManagerArray[id];
722	numPages = nodeManager->numPages;
723	pageListArray[id] = Cal_MemAlloc(Cal_Address_t *, numPages);
724	for (i=0; i<numPages; i++){
725	pageListArray[id][i] = nodeManager->pageList[i];
726	}
727	}
728
729	/* Bottom up traversal */
730	for (index = bddManager->numVars-1; index >= 0; index--){
731	id = bddManager->indexToId[index];
732	uniqueTableForId = bddManager->uniqueTable[id];
733	nodeManager = uniqueTableForId->nodeManager;
734	/* Calculate the collision lengths */
735	collisionLengthArray = CalculateCollisionLength(uniqueTableForId);
736	/* Initialize the bins */
737	bins = uniqueTableForId->bins;
738	numBins = uniqueTableForId->numBins;
739	numNodes = 0;
740	pageNum = 0;
741	for (i=0; i<numBins; i++){
742	numNodes += collisionLengthArray[i];
743	if (numNodes < NUM_NODES_PER_PAGE){
744	nodePointer[i] += collisionLengthArray[i];
745	}
746	else if (numNodes == NUM_NODES_PER_PAGE){
747	nodePointer[i] = pageListArray[id][++pageNum];
748	numNodes = 0;
749	}
750	else {
751	/* put the rest of the nodes from this page in a free list */
752	nodePointer[i]->nextBddNode = nodeManager->freeNodeList;
753	nodeManager->freeNodeList = nodePointer;
754	nodePointer[i] = pageListArray[id][++pageNum]+collisionLengthArray[i];
755	numNodes = collisionLengthArray[i];
756	}
757	}
758	}
759	}
760	#endif
761
762	/Function******************************************************************
763
764	Synopsis [required]
765
766	Description [optional]
767
768	SideEffects [required]
769
770	SeeAlso [optional]
771
772	******************************************************************************/
773	static void
774	BddReallocateNodes(Cal_BddManager_t *bddManager)
775	{
776	int i;
777	int index;
778	CalNodeManager_t *nodeManager;
779	CalPageManager_t *pageManager;
780	int numSegments;
781	CalAddress_t **pageSegmentArray;
782
783	pageManager = bddManager->pageManager2;
784	numSegments = pageManager->numSegments;
785	pageSegmentArray = pageManager->pageSegmentArray;
786
787	/* Reinitialize the page manager */
788	pageManager->totalNumPages = 0;
789	pageManager->numSegments = 0;
790	pageManager->maxNumSegments = MAX_NUM_SEGMENTS;
791	pageManager->pageSegmentArray
792	= Cal_MemAlloc(CalAddress_t *, pageManager->maxNumSegments);
793	pageManager->freePageList = Cal_Nil(CalAddress_t);
794
795	/* Do a bottom up traversal */
796
797	for (index = bddManager->numVars-1; index >= 0; index--){
798	int id;
799	CalHashTable_t *uniqueTableForId;
800	int numPagesRequired, newSizeIndex;
801	CalBddNode_t bddNode, dupNode, thenNode, elseNode, **oldBins;
802	long hashValue, oldNumBins;
803
804	id = bddManager->indexToId[index];
805	uniqueTableForId = bddManager->uniqueTable[id];
806	nodeManager = bddManager->nodeManagerArray[id];
807	oldBins = uniqueTableForId->bins;
808	oldNumBins = uniqueTableForId->numBins;
809	nodeManager->freeNodeList = Cal_Nil(CalBddNode_t);
810	nodeManager->numPages = 0;
811	numPagesRequired =
812	uniqueTableForId->numEntries/NUM_NODES_PER_PAGE;
813	nodeManager->maxNumPages =
814	2*(numPagesRequired ? numPagesRequired : 1);
815	Cal_MemFree(nodeManager->pageList);
816	nodeManager->pageList = Cal_MemAlloc(CalAddress_t *,
817	nodeManager->maxNumPages);
818	/* Create the new set of bins */
819	newSizeIndex =
820	CeilLog2(uniqueTableForId->numEntries/HASH_TABLE_DEFAULT_MAX_DENSITY);
821	if (newSizeIndex < HASH_TABLE_DEFAULT_SIZE_INDEX){
822	newSizeIndex = HASH_TABLE_DEFAULT_SIZE_INDEX;
823	}
824	uniqueTableForId->sizeIndex = newSizeIndex;
825	uniqueTableForId->numBins = TABLE_SIZE(uniqueTableForId->sizeIndex);
826	uniqueTableForId->maxCapacity =
827	uniqueTableForId->numBins * HASH_TABLE_DEFAULT_MAX_DENSITY;
828
829	uniqueTableForId->bins = Cal_MemAlloc(CalBddNode_t *,
830	uniqueTableForId->numBins);
831	memset((char *)uniqueTableForId->bins, 0,
832	uniqueTableForId->numBinssizeof(CalBddNode_t ));
833	for (i=0; i<oldNumBins; i++){
834	for (bddNode = oldBins[i]; bddNode; bddNode = bddNode->nextBddNode){
835	CalNodeManagerAllocNode(nodeManager, dupNode);
836	thenNode = bddNode->thenBddNode;
837	CalBddNodeIsForwardedTo(thenNode);
838	Cal_Assert(thenNode);
839	Cal_Assert(!CalBddNodeIsForwarded(thenNode));
840	elseNode = bddNode->elseBddNode;
841	CalBddNodeIsForwardedTo(elseNode);
842	Cal_Assert(elseNode);
843	Cal_Assert(!CalBddNodeIsForwarded(CAL_BDD_POINTER(elseNode)));
844	Cal_Assert(bddManager->idToIndex[bddNode->thenBddId] <
845	bddManager->idToIndex[thenNode->thenBddId]);
846	Cal_Assert(bddManager->idToIndex[bddNode->thenBddId] <
847	bddManager->idToIndex[CAL_BDD_POINTER(elseNode)->thenBddId]);
848	dupNode->thenBddNode = thenNode;
849	dupNode->elseBddNode = elseNode;
850	dupNode->thenBddId = bddNode->thenBddId;
851	dupNode->elseBddId = bddNode->elseBddId;
852	hashValue = CalDoHash2(thenNode, elseNode, uniqueTableForId);
853	dupNode->nextBddNode = uniqueTableForId->bins[hashValue];
854	uniqueTableForId->bins[hashValue] = dupNode;
855	bddNode->thenBddNode = dupNode;
856	bddNode->elseBddNode = (CalBddNode_t *)0;
857	bddNode->thenBddId = id;
858	Cal_Assert(bddManager->idToIndex[dupNode->thenBddId] <
859	bddManager->idToIndex[thenNode->thenBddId]);
860	Cal_Assert(bddManager->idToIndex[dupNode->thenBddId] <
861	bddManager->idToIndex[CAL_BDD_POINTER(elseNode)->thenBddId]);
862	}
863	}
864	Cal_MemFree(oldBins);
865	CalBddIsForwardedTo(bddManager->varBdds[id]);
866	}
867
868	if (bddManager->pipelineState == CREATE){
869	/* There are some results computed in pipeline */
870	CalBddReorderFixProvisionalNodes(bddManager);
871	}
872
873	/* Fix the user BDDs */
874	CalBddReorderFixUserBddPtrs(bddManager);
875
876	/* Fix the association */
877	CalReorderAssociationFix(bddManager);
878
879	Cal_Assert(CalCheckAssoc(bddManager));
880
881	/* Free the page manager related stuff*/
882	for(i = 0; i < numSegments; i++){
883	free(pageSegmentArray[i]);
884	}
885	Cal_MemFree(pageSegmentArray);
886	}
887
888
889	/Function******************************************************************
890
891	Synopsis [required]
892
893	Description [optional]
894
895	SideEffects [required]
896
897	SeeAlso [optional]
898
899	******************************************************************************/
900	static void
901	BddExchangeAux(Cal_BddManager_t bddManager, CalBddNode_t f,
902	int id, int nextId)
903	{
904	CalBddNode_t f0, f1;
905	CalBddNode_t f00, f01, f10, f11;
906	CalBddNode_t newF0, newF1;
907	int f0Found, f1Found;
908	int fIndex;
909
910	f0 = f->elseBddNode;
911	f1 = f->thenBddNode;
912
913	if (CAL_BDD_POINTER(f0)->thenBddId == nextId){
914	f00 = BddNodeGetElseBddNode(f0);
915	f01 = BddNodeGetThenBddNode(f0);
916	}
917	else {
918	f00 = f01 = f0;
919	}
920	if (CAL_BDD_POINTER(f1)->thenBddId == nextId){
921	f10 = BddNodeGetElseBddNode(f1);
922	f11 = BddNodeGetThenBddNode(f1);
923	}
924	else {
925	f10 = f11 = f1;
926	}
927
928	if (f00 == f10){
929	newF0 = f00;
930	f0Found = 1;
931	}
932	else{
933	f0Found = UniqueTableForIdFindOrAdd(bddManager,
934	bddManager->uniqueTable[id], f10,
935	f00, &newF0);
936	}
937	BddNodeIcrRefCount(newF0);
938	if (f01 == f11){
939	newF1 = f11;
940	f1Found = 1;
941	}
942	else{
943	f1Found = UniqueTableForIdFindOrAdd(bddManager,
944	bddManager->uniqueTable[id], f11,
945	f01, &newF1);
946	}
947	BddNodeIcrRefCount(newF1);
948
949	f->thenBddId = nextId;
950	f->elseBddNode = newF0;
951	f->thenBddNode = newF1;
952
953	fIndex = bddManager->idToIndex[id];
954	Cal_Assert(fIndex <
955	bddManager->idToIndex[CAL_BDD_POINTER(f00)->thenBddId]);
956	Cal_Assert(fIndex <
957	bddManager->idToIndex[CAL_BDD_POINTER(f10)->thenBddId]);
958	Cal_Assert(fIndex <
959	bddManager->idToIndex[CAL_BDD_POINTER(f01)->thenBddId]);
960	Cal_Assert(fIndex <
961	bddManager->idToIndex[CAL_BDD_POINTER(f11)->thenBddId]);
962	Cal_Assert(CAL_BDD_POINTER(f00)->thenBddId != nextId);
963	Cal_Assert(CAL_BDD_POINTER(f01)->thenBddId != nextId);
964	Cal_Assert(CAL_BDD_POINTER(f10)->thenBddId != nextId);
965	Cal_Assert(CAL_BDD_POINTER(f11)->thenBddId != nextId);
966
967	if (!f0Found){
968	BddNodeIcrRefCount(f00);
969	BddNodeIcrRefCount(f10);
970	}
971
972	if (!f1Found){
973	BddNodeIcrRefCount(f01);
974	BddNodeIcrRefCount(f11);
975	}
976
977	BddNodeDcrRefCount(f0);
978	BddNodeDcrRefCount(f1);
979	}
980
981	/Function******************************************************************
982
983	Synopsis [required]
984
985	Description [optional]
986
987	SideEffects [required]
988
989	SeeAlso [optional]
990
991	******************************************************************************/
992	static int
993	CheckValidityOfNodes(Cal_BddManager_t *bddManager, long id)
994	{
995	#ifndef NDEBUG
996	CalHashTable_t *table = bddManager->uniqueTable[id];
997	int i;
998	CalBddNode_t *bddNode;
999	int index = bddManager->idToIndex[id];
1000	for(i = 0; i < table->numBins; ++i){
1001	for (bddNode = table->bins[i]; bddNode; bddNode = bddNode->nextBddNode){
1002	int thenIndex = bddManager->idToIndex[bddNode->thenBddNode->thenBddId];
1003	int elseIndex =
1004	bddManager->idToIndex[CAL_BDD_POINTER(bddNode->elseBddNode)->thenBddId];
1005	assert((thenIndex > index) && (elseIndex > index));
1006	}
1007	}
1008	#endif
1009	return 1;
1010	}
1011
1012	/Function******************************************************************
1013
1014	Synopsis [required]
1015
1016	Description [optional]
1017
1018	SideEffects [required]
1019
1020	SeeAlso [optional]
1021
1022	******************************************************************************/
1023	static void
1024	SweepVarTable(Cal_BddManager_t *bddManager, long id)
1025	{
1026	CalHashTable_t *table = bddManager->uniqueTable[id];
1027	long numNodesFreed, oldNumEntries;
1028	CalBddNode_t *ptr, bddNode;
1029	int i;
1030
1031	oldNumEntries = table->numEntries;
1032	for(i = 0; i < table->numBins; ++i){
1033	for (ptr = &table->bins[i], bddNode = *ptr; bddNode;
1034	bddNode = *ptr){
1035	if (bddNode->elseBddId == 0){
1036	*ptr = bddNode->nextBddNode;
1037	CalNodeManagerFreeNode(nodeManager, bddNode);
1038	BddNodeDcrRefCount(bddNode->thenBddNode);
1039	BddNodeDcrRefCount(bddNode->elseBddNode);
1040	table->numEntries--;
1041	}
1042	else{
1043	ptr = &bddNode->nextBddNode;
1044	}
1045	}
1046	}
1047	numNodesFreed = oldNumEntries - table->numEntries;
1048	bddManager->numNodes -= numNodesFreed;
1049	bddManager->numNodesFreed += numNodesFreed;
1050	}
1051
1052
1053	/Function******************************************************************
1054
1055	Synopsis [required]
1056
1057	Description [optional]
1058
1059	SideEffects [required]
1060
1061	SeeAlso [optional]
1062
1063	******************************************************************************/
1064	static void
1065	BddExchange(Cal_BddManager_t *bddManager, long id)
1066	{
1067	Cal_BddId_t nextId;
1068	CalBddNode_t *ptr, bddNode, *nodeList;
1069	CalHashTable_t table, nextTable;
1070	Cal_BddIndex_t index, nextIndex;
1071	int i;
1072	CalBddNode_t f1, f2;
1073	CalAssociation_t *p;
1074	CalNodeManager_t *nodeManager;
1075
1076	index = bddManager->idToIndex[id];
1077	nextIndex = index+1;
1078	nextId = bddManager->indexToId[nextIndex];
1079
1080	if (CalTestInteract(bddManager, id, nextId)){
1081	bddManager->numSwaps++;
1082	nodeManager = bddManager->nodeManagerArray[id];
1083	table = bddManager->uniqueTable[id];
1084	nextTable = bddManager->uniqueTable[nextId];
1085	nodeList = (CalBddNode_t*)0;
1086	for(i = 0; i < table->numBins; i++){
1087	for (ptr = &table->bins[i], bddNode = *ptr; bddNode;
1088	bddNode = *ptr){
1089	Cal_Assert(bddNode->elseBddId != 0);
1090	f1 = bddNode->elseBddNode;
1091	f2 = bddNode->thenBddNode;
1092	if ((CAL_BDD_POINTER(f1)->thenBddId != nextId) &&
1093	(CAL_BDD_POINTER(f2)->thenBddId != nextId)){
1094	ptr = &bddNode->nextBddNode;
1095	}
1096	else{
1097	*ptr = bddNode->nextBddNode;
1098	bddNode->nextBddNode = nodeList;
1099	nodeList = bddNode;
1100	}
1101	}
1102	}
1103	for (bddNode = nodeList; bddNode ; bddNode = nodeList){
1104	BddExchangeAux(bddManager, bddNode, id, nextId);
1105	nodeList = bddNode->nextBddNode;
1106	HashTableAddDirect(nextTable, bddNode);
1107	table->numEntries--;
1108	}
1109	SweepVarTable(bddManager, nextId);
1110	}
1111	else {
1112	bddManager->numTrivialSwaps++;
1113	}
1114
1115	CalFixupAssoc(bddManager, id, nextId, bddManager->tempAssociation);
1116	for(p = bddManager->associationList; p; p = p->next){
1117	CalFixupAssoc(bddManager, id, nextId, p);
1118	}
1119
1120	bddManager->idToIndex[id] = nextIndex;
1121	bddManager->idToIndex[nextId] = index;
1122	bddManager->indexToId[index] = nextId;
1123	bddManager->indexToId[nextIndex] = id;
1124
1125	Cal_Assert(CheckValidityOfNodes(bddManager, id));
1126	Cal_Assert(CheckValidityOfNodes(bddManager, nextId));
1127	Cal_Assert(CalCheckAssoc(bddManager));
1128	#ifdef _CAL_VERBOSE
1129	/fprintf(stdout,"Variable order after swap:\n");/
1130	for (i=0; i<bddManager->numVars; i++){
1131	fprintf(stdout, "%3d ", bddManager->indexToId[i]);
1132	}
1133	fprintf(stdout, "%8d\n", bddManager->numNodes);
1134	#endif
1135	}
1136
1137
1138	/Function******************************************************************
1139
1140	Synopsis [required]
1141
1142	Description [optional]
1143
1144	SideEffects [required]
1145
1146	SeeAlso [optional]
1147
1148	******************************************************************************/
1149	static void
1150	BddExchangeVarBlocks(Cal_BddManager_t *bddManager, Cal_Block parent,
1151	long blockIndex)
1152	{
1153	Cal_Block b1, b2, temp;
1154	long i, j, k, l, firstBlockWidth, secondBlockWidth;
1155
1156	b1 = parent->children[blockIndex];
1157	b2 = parent->children[blockIndex+1];
1158	/* This slides the blocks past each other in a kind of interleaving */
1159	/* fashion. */
1160	firstBlockWidth = b1->lastIndex - b1->firstIndex;
1161	secondBlockWidth = b2->lastIndex - b2->firstIndex;
1162
1163	for (i=0; i <= firstBlockWidth + secondBlockWidth; i++){
1164	j = i - firstBlockWidth;
1165	if (j < 0) j=0;
1166	k = ((i > secondBlockWidth) ? secondBlockWidth : i);
1167	while (j <= k) {
1168	l = b2->firstIndex + j - i + j;
1169	BddExchange(bddManager, bddManager->indexToId[l-1]);
1170	++j;
1171	}
1172	}
1173	CalBddBlockDelta(b1, secondBlockWidth+1);
1174	CalBddBlockDelta(b2, -(firstBlockWidth+1));
1175	temp = parent->children[blockIndex];
1176	parent->children[blockIndex] = parent->children[blockIndex+1];
1177	parent->children[blockIndex+1] = temp;
1178	}
1179
1180	/Function******************************************************************
1181
1182	Synopsis [required]
1183
1184	Description [optional]
1185
1186	SideEffects [required]
1187
1188	SeeAlso [optional]
1189
1190	******************************************************************************/
1191	static int
1192	BddReorderWindow2(Cal_BddManager_t *bddManager, Cal_Block block, long i)
1193	{
1194	long size, bestSize;
1195
1196	/* 1 2 */
1197	bestSize = bddManager->numNodes;
1198	BddExchangeVarBlocks(bddManager, block, i);
1199	/* 2 1 */
1200	size = bddManager->numNodes;
1201	if (size < bestSize) return (1);
1202	BddExchangeVarBlocks(bddManager, block, i);
1203	return (0);
1204	}
1205
1206
1207	/Function******************************************************************
1208
1209	Synopsis [required]
1210
1211	Description [optional]
1212
1213	SideEffects [required]
1214
1215	SeeAlso [optional]
1216
1217	******************************************************************************/
1218	static int
1219	BddReorderWindow3(Cal_BddManager_t *bddManager, Cal_Block block, long i)
1220	{
1221	int best;
1222	long size, bestSize;
1223	long origSize;
1224
1225	origSize = bddManager->numNodes;
1226	best = 0;
1227	/* 1 2 3 */
1228	bestSize = bddManager->numNodes;
1229	BddExchangeVarBlocks(bddManager, block, i);
1230	/* 2 1 3 */
1231	size=bddManager->numNodes;
1232	if (size < bestSize) {
1233	best=1;
1234	bestSize=size;
1235	}
1236	BddExchangeVarBlocks(bddManager, block, i+1);
1237	/* 2 3 1 */
1238	size=bddManager->numNodes;
1239	if (size < bestSize) {
1240	best=2;
1241	bestSize=size;
1242	}
1243	BddExchangeVarBlocks(bddManager, block, i);
1244	/* 3 2 1 */
1245	size=bddManager->numNodes;
1246	if (size <= bestSize) {
1247	best=3;
1248	bestSize=size;
1249	}
1250	BddExchangeVarBlocks(bddManager, block, i+1);
1251	/* 3 1 2 */
1252	size=bddManager->numNodes;
1253	if (size <= bestSize) {
1254	best=4;
1255	bestSize=size;
1256	}
1257	BddExchangeVarBlocks(bddManager, block, i);
1258	/* 1 3 2 */
1259	size=bddManager->numNodes;
1260	if (size <= bestSize) {
1261	best=5;
1262	bestSize=size;
1263	}
1264	switch (best){
1265	case 0:
1266	BddExchangeVarBlocks(bddManager, block, i+1);
1267	break;
1268	case 1:
1269	BddExchangeVarBlocks(bddManager, block, i+1);
1270	BddExchangeVarBlocks(bddManager, block, i);
1271	break;
1272	case 2:
1273	BddExchangeVarBlocks(bddManager, block, i+1);
1274	BddExchangeVarBlocks(bddManager, block, i);
1275	BddExchangeVarBlocks(bddManager, block, i+1);
1276	break;
1277	case 3:
1278	BddExchangeVarBlocks(bddManager, block, i);
1279	BddExchangeVarBlocks(bddManager, block, i+1);
1280	break;
1281	case 4:
1282	BddExchangeVarBlocks(bddManager, block, i);
1283	break;
1284	case 5:
1285	break;
1286	}
1287	return ((best > 0) && (origSize > bestSize));
1288	}
1289
1290	/Function******************************************************************
1291
1292	Synopsis [required]
1293
1294	Description [optional]
1295
1296	SideEffects [required]
1297
1298	SeeAlso [optional]
1299
1300	******************************************************************************/
1301	static void
1302	BddReorderStableWindow3Aux(Cal_BddManager_t *bddManager, Cal_Block block,
1303	char *levels)
1304	{
1305	long i;
1306	int moved;
1307	int anySwapped;
1308
1309	if (block->reorderable) {
1310	for (i=0; i < block->numChildren-1; ++i) levels[i]=1;
1311	do {
1312	anySwapped=0;
1313	for (i=0; i < block->numChildren-1; i++){
1314	if (levels[i]){
1315	#ifdef _CAL_VERBOSE
1316	fprintf(stdout,"Moving block %3d -- %3d\n",
1317	bddManager->indexToId[block->children[i]-> firstIndex],
1318	bddManager->indexToId[block->children[i]->lastIndex]);
1319	fflush(stdout);
1320	for (j=0; j<bddManager->numVars; j++){
1321	fprintf(stdout, "%3d ", bddManager->indexToId[j]);
1322	}
1323	fprintf(stdout, "%8d\n", bddManager->numNodes);
1324	#endif
1325	if (i < block->numChildren-2){
1326	moved = BddReorderWindow3(bddManager, block, i);
1327	}
1328	else{
1329	moved = BddReorderWindow2(bddManager, block, i);
1330	}
1331	if (moved){
1332	if (i > 0) {
1333	levels[i-1]=1;
1334	if (i > 1)
1335	levels[i-2]=1;
1336	}
1337	levels[i]=1;
1338	levels[i+1]=1;
1339	if (i < block->numChildren-2){
1340	levels[i+2]=1;
1341	if (i < block->numChildren-3) {
1342	levels[i+3]=1;
1343	if (i < block->numChildren-4) levels[i+4]=1;
1344	}
1345	}
1346	anySwapped=1;
1347	}
1348	else levels[i]=0;
1349	}
1350	}
1351	} while (anySwapped);
1352	}
1353	for (i=0; i < block->numChildren; ++i){
1354	BddReorderStableWindow3Aux(bddManager, block->children[i], levels);
1355	}
1356	}
1357
1358	/Function******************************************************************
1359
1360	Synopsis [required]
1361
1362	Description [optional]
1363
1364	SideEffects [required]
1365
1366	SeeAlso [optional]
1367
1368	******************************************************************************/
1369	static void
1370	BddReorderStableWindow3(Cal_BddManager_t *bddManager)
1371	{
1372	char *levels;
1373	levels = Cal_MemAlloc(char, bddManager->numVars);
1374	bddManager->numSwaps = 0;
1375	BddReorderStableWindow3Aux(bddManager, bddManager->superBlock, levels);
1376	Cal_MemFree(levels);
1377	}
1378
1379	/Function******************************************************************
1380
1381	Synopsis [required]
1382
1383	Description [optional]
1384
1385	SideEffects [required]
1386
1387	SeeAlso [optional]
1388
1389	******************************************************************************/
1390	static void
1391	BddSiftBlock(Cal_BddManager_t *bddManager, Cal_Block block, long
1392	startPosition, double maxSizeFactor)
1393	{
1394	long startSize;
1395	long bestSize;
1396	long bestPosition;
1397	long currentSize;
1398	long currentPosition;
1399	long maxSize;
1400
1401	startSize = bddManager->numNodes;
1402	bestSize = startSize;
1403	bestPosition = startPosition;
1404	currentSize = startSize;
1405	currentPosition = startPosition;
1406	maxSize = maxSizeFactor*startSize;
1407	if (bddManager->nodeLimit && maxSize > bddManager->nodeLimit)
1408	maxSize = bddManager->nodeLimit;
1409
1410	/* Need to do optimization here */
1411	if (startPosition > (block->numChildren >> 1)){
1412	while (currentPosition < block->numChildren-1 && currentSize <= maxSize){
1413	BddExchangeVarBlocks(bddManager, block, currentPosition);
1414	++currentPosition;
1415	currentSize = bddManager->numNodes;
1416	if (currentSize < bestSize){
1417	bestSize = currentSize;
1418	bestPosition=currentPosition;
1419	}
1420	}
1421	while (currentPosition != startPosition){
1422	--currentPosition;
1423	BddExchangeVarBlocks(bddManager, block, currentPosition);
1424	}
1425	currentSize = startSize;
1426	while (currentPosition && currentSize <= maxSize){
1427	--currentPosition;
1428	BddExchangeVarBlocks(bddManager, block, currentPosition);
1429	currentSize = bddManager->numNodes;
1430	if (currentSize <= bestSize){
1431	bestSize = currentSize;
1432	bestPosition = currentPosition;
1433	}
1434	}
1435	while (currentPosition != bestPosition){
1436	BddExchangeVarBlocks(bddManager, block, currentPosition);
1437	++currentPosition;
1438	}
1439	}
1440	else{
1441	while (currentPosition && currentSize <= maxSize){
1442	--currentPosition;
1443	BddExchangeVarBlocks(bddManager, block, currentPosition);
1444	currentSize = bddManager->numNodes;
1445	if (currentSize < bestSize){
1446	bestSize = currentSize;
1447	bestPosition = currentPosition;
1448	}
1449	}
1450	while (currentPosition != startPosition){
1451	BddExchangeVarBlocks(bddManager, block, currentPosition);
1452	++currentPosition;
1453	}
1454	currentSize = startSize;
1455	while (currentPosition < block->numChildren-1 && currentSize <= maxSize){
1456	BddExchangeVarBlocks(bddManager, block, currentPosition);
1457	currentSize = bddManager->numNodes;
1458	++currentPosition;
1459	if (currentSize <= bestSize){
1460	bestSize = currentSize;
1461	bestPosition = currentPosition;
1462	}
1463	}
1464	while (currentPosition != bestPosition){
1465	--currentPosition;
1466	BddExchangeVarBlocks(bddManager, block, currentPosition);
1467	}
1468	}
1469	}
1470
1471
1472
1473	/Function******************************************************************
1474
1475	Synopsis [Reorder variables using "sift" algorithm.]
1476
1477	Description [Reorder variables using "sift" algorithm.]
1478
1479	SideEffects [None]
1480
1481	******************************************************************************/
1482	static void
1483	BddReorderSiftAux(Cal_BddManager_t *bddManager, Cal_Block block,
1484	Cal_Block *toSift, double maxSizeFactor)
1485	{
1486	long i, j, k;
1487	long width;
1488	long maxWidth;
1489	long widest;
1490	long numVarsShifted = 0;
1491	bddManager->numSwaps = 0;
1492	if (block->reorderable) {
1493	for (i=0; i < block->numChildren; ++i){
1494	toSift[i] = block->children[i];
1495	}
1496	while (i &&
1497	(numVarsShifted <=
1498	bddManager->maxNumVarsSiftedPerReordering) &&
1499	(bddManager->numSwaps <=
1500	bddManager->maxNumSwapsPerReordering)){
1501	i--;
1502	numVarsShifted++;
1503	maxWidth = 0;
1504	widest = 0;
1505	for (j=0; j <= i; ++j) {
1506	for (width=0, k=toSift[j]->firstIndex; k <= toSift[j]->lastIndex; ++k){
1507	width +=
1508	bddManager->uniqueTable[bddManager->indexToId[k]]->numEntries;
1509	}
1510	width /= toSift[j]->lastIndex - toSift[j]->firstIndex+1;
1511	if (width > maxWidth) {
1512	maxWidth = width;
1513	widest = j;
1514	}
1515	}
1516	if (maxWidth > 1) {
1517	for (j=0; block->children[j] != toSift[widest]; ++j);
1518	#ifdef _CAL_VERBOSE
1519	fprintf(stdout,"Moving block %3d -- %3d\n",
1520	bddManager->indexToId[block->children[j]-> firstIndex],
1521	bddManager->indexToId[block->children[j]->lastIndex]);
1522	fflush(stdout);
1523	for (l=0; l<bddManager->numVars; l++){
1524	fprintf(stdout, "%3d ", bddManager->indexToId[l]);
1525	}
1526	fprintf(stdout, "%8d\n", bddManager->numNodes);
1527	#endif
1528	BddSiftBlock(bddManager, block, j, maxSizeFactor);
1529	toSift[widest] = toSift[i];
1530	}
1531	else {
1532	break;
1533	}
1534	}
1535	}
1536	for (i=0; i < block->numChildren; ++i)
1537	BddReorderSiftAux(bddManager, block->children[i], toSift,
1538	maxSizeFactor);
1539	}
1540
1541	/Function******************************************************************
1542
1543	Synopsis [required]
1544
1545	Description [optional]
1546
1547	SideEffects [required]
1548
1549	SeeAlso [optional]
1550
1551	******************************************************************************/
1552	static void
1553	BddReorderSift(Cal_BddManager_t *bddManager, double maxSizeFactor)
1554	{
1555	Cal_Block *toSift;
1556
1557	toSift = Cal_MemAlloc(Cal_Block, bddManager->numVars);
1558	BddReorderSiftAux(bddManager, bddManager->superBlock, toSift,
1559	maxSizeFactor);
1560	Cal_MemFree(toSift);
1561	}
1562
1563
1564
1565
1566	/Function******************************************************************
1567
1568	Synopsis [Returns the smallest integer greater than or equal to log2 of a
1569	number]
1570
1571	Description [Returns the smallest integer greater than or equal to log2 of a
1572	number (The assumption is that the number is >= 1)]
1573
1574	SideEffects [None]
1575
1576	******************************************************************************/
1577	static int
1578	CeilLog2(int number)
1579	{
1580	int num, count;
1581	for (num=number, count=0; num > 1; num >>= 1, count++);
1582	if ((1 << count) != number) count++;
1583	return count;
1584	}

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source: vis_dev/glu-2.3/src/calBdd/calReorderDF.c @ 13

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