source: vis_dev/vis-2.3/src/puresat/puresatUtil.c @ 35

Last change on this file since 35 was 14, checked in by cecile, 13 years ago

vis2.3

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Line 
1/**CFile***********************************************************************
2
3  FileName    [puresatUtil.c]
4
5  PackageName [puresat]
6
7  Synopsis    [Abstraction refinement for large scale invariant checking.]
8
9  Description [This file contains the functions to check invariant properties
10  by the PureSAT abstraction refinement algorithm, which is entirely based on
11  SAT solver, the input of which could be either CNF or AIG. It has several
12  parts:
13
14  * Localization-reduction base Abstraction
15  * K-induction or interpolation to prove the truth of a property
16  * Bounded Model Checking to find bugs
17  * Incremental concretization based methods to verify abstract bugs
18  * Incremental SAT solver to improve efficiency
19  * UNSAT proof based method to obtain refinement
20  * AROSAT to bring in only necessary latches into unsat proofs
21  * Bridge abstraction to get compact coarse refinement
22  * Refinement minization to guarrantee minimal refinements
23  * Unsat proof-based refinement minimization to eliminate multiple candidate
24    by on SAT test
25  * Refinement prediction to decrease the number of refinement iterations
26  * Dynamic switching to redistribute computional resources to improve
27    efficiency
28
29  For more information, please check the BMC'03, ICCAD'04, STTT'05 and TACAS'05
30  paper of Li et al., "A satisfiability-based appraoch to abstraction
31  refinement in model checking", " Abstraction in symbolic model checking
32  using satisfiability as the only decision procedure", "Efficient computation
33  of small abstraction refinements", and "Efficient abstraction refinement in
34  interpolation-based unbounded model checking"]
35
36  Author      [Bing Li]
37
38  Copyright   [Copyright (c) 2004 The Regents of the Univ. of Colorado.
39  All rights reserved.
40
41  Permission is hereby granted, without written agreement and without
42  license or royalty fees, to use, copy, modify, and distribute this
43  software and its documentation for any purpose, provided that the
44  above copyright notice and the following two paragraphs appear in
45  all copies of this software.]
46
47******************************************************************************/
48
49#include "puresatInt.h"
50#include "sat.h"
51
52/*---------------------------------------------------------------------------*/
53/* Constant declarations                                                     */
54/*---------------------------------------------------------------------------*/
55
56/*---------------------------------------------------------------------------*/
57/* Structure declarations                                                    */
58/*---------------------------------------------------------------------------*/
59
60/*---------------------------------------------------------------------------*/
61/* Type declarations                                                         */
62/*---------------------------------------------------------------------------*/
63
64/*---------------------------------------------------------------------------*/
65/* Variable declarations                                                     */
66/*---------------------------------------------------------------------------*/
67static array_t *RCArray;
68
69/*---------------------------------------------------------------------------*/
70/* Macro declarations                                                        */
71/*---------------------------------------------------------------------------*/
72
73/**AutomaticStart*************************************************************/
74
75/*---------------------------------------------------------------------------*/
76/* Static function prototypes                                                */
77/*---------------------------------------------------------------------------*/
78
79
80/**AutomaticEnd***************************************************************/
81
82/*---------------------------------------------------------------------------*/
83/* Definition of exported functions                                          */
84/*---------------------------------------------------------------------------*/
85
86
87/*---------------------------------------------------------------------------*/
88/* Definition of internal functions                                          */
89/*---------------------------------------------------------------------------*/
90
91
92/**Function********************************************************************
93
94  Synopsis    [time out function]
95
96  Description [time out function]
97
98  SideEffects []
99
100  SeeAlso     []
101
102*******************************************************************************/
103
104static int DfsLevel = 0;
105static array_t *NumInCone;
106static array_t *NumInAbs;
107static array_t *DfsArray;
108/*static array_t *RCArray;*/
109
110
111/**Function********************************************************************
112
113  Synopsis    [Allocate a puresat manager]
114
115  Description [Allocate a puresat manager]
116
117  SideEffects []
118
119  SeeAlso     []
120
121******************************************************************************/
122
123PureSat_Manager_t * PureSatManagerAlloc(void)
124{
125  PureSat_Manager_t * pm = ALLOC(PureSat_Manager_t,1);
126  memset(pm,0,sizeof(PureSat_Manager_t));
127  pm->incre = TRUE;
128  pm->ltlFileName = ALLOC(char,200);
129  pm->timeOutPeriod = 10000000;
130  pm->Arosat = TRUE;;
131  pm->CoreRefMin = TRUE;
132  pm->RefPredict = TRUE;
133  pm->Switch = TRUE;
134  return pm;
135}
136
137/**Function********************************************************************
138
139  Synopsis    [Free a puresat manager]
140
141  Description [Free a puresat manager]
142
143  SideEffects []
144
145  SeeAlso     []
146
147******************************************************************************/
148void
149PureSatManagerFree(PureSat_Manager_t * pm){
150  if(pm->latchToTableBaigNodes)
151    st_free_table(pm->latchToTableBaigNodes);
152  if(pm->ClsidxToLatchTable)
153    st_free_table(pm->ClsidxToLatchTable);
154  if(pm->CoiTable)
155    st_free_table(pm->CoiTable);
156  if(pm->AbsTable)
157    st_free_table(pm->AbsTable);
158  if(pm->vertexTable)
159    st_free_table(pm->vertexTable);
160  if(pm->SufAbsTable)
161    st_free_table(pm->SufAbsTable);;
162  if(pm->supportTable)
163    st_free_table(pm->supportTable);
164  if(pm->node2dfsTable)
165    st_free_table(pm->node2dfsTable);
166  if(pm->result!=NIL(array_t))
167    array_free(pm->result);
168  FREE(pm->ltlFileName);
169  FREE(pm);
170
171}
172
173/**Function********************************************************************
174
175  Synopsis    [Allocate a puresat incremental SAT manager]
176
177  Description [Allocate a puresat incremental SAT manager]
178
179  SideEffects []
180
181  SeeAlso     []
182
183******************************************************************************/
184PureSat_IncreSATManager_t * PureSatIncreSATManagerAlloc(PureSat_Manager_t * pm)
185{
186  PureSat_IncreSATManager_t * pism = ALLOC(PureSat_IncreSATManager_t,1);
187  pism->beginPosition = 0;
188  pism->Length = 0;
189  pism->oldLength = 0;
190  pism->propertyPos = 0;
191  memset(pism,0,sizeof(PureSat_IncreSATManager_t));
192  if(pm->sss){
193    pism->cnfClauses = BmcCnfClausesAlloc();
194    pism->cm = sat_InitManager(0);
195    pism->cm->comment = ALLOC(char, 2);
196    pism->cm->comment[0] = ' ';
197    pism->cm->comment[1] = '\0';
198
199    pism->cm->maxNodesArraySize = 1;
200    pism->cm->nodesArray = ALLOC(long, pism->cm->maxNodesArraySize );
201    pism->cm->nodesArraySize = satNodeSize;
202    pism->cm->stdErr = vis_stderr;
203    pism->cm->stdOut = vis_stdout;
204    pism->cm->unitLits = sat_ArrayAlloc(16);
205    pism->cm->pureLits = sat_ArrayAlloc(16);
206    pism->cm->each = sat_InitStatistics();
207    pism->cm->option = sat_InitOption();
208    pism->cm->option->ForceFinish = 1;
209    pism->cm->option->incTraceObjective = 1;
210    pism->cm->option->includeLevelZeroLiteral = 1;
211    pism->cm->option->minimizeConflictClause = 0;
212    pism->cm->option->SSS = 1;
213  }
214  return pism;
215}
216
217/**Function********************************************************************
218
219  Synopsis    [Free a puresat incremental SAT manager]
220
221  Description [Free a puresat incremental SAT manager]
222
223  SideEffects []
224
225  SeeAlso     []
226
227******************************************************************************/
228
229void
230PureSatIncreSATManagerFree(PureSat_Manager_t *pm,
231                           PureSat_IncreSATManager_t * pism)
232{
233  if(pm->sss){
234    BmcCnfClausesFree(pism->cnfClauses);
235    FREE(pism->cm->nodesArray);
236    sat_ArrayFree(pism->cm->unitLits);
237    sat_ArrayFree(pism->cm->pureLits);
238    sat_FreeStatistics(pism->cm->each);
239    sat_FreeOption(pism->cm->option);
240    FREE(pism->cm);
241  }
242  FREE(pism);
243}
244
245/**Function********************************************************************
246
247  Synopsis    [Get the cone of influence for a network node]
248
249  Description [Get the cone of influence for a network node]
250
251  SideEffects []
252
253  SeeAlso     []
254
255******************************************************************************/
256
257void
258PureSatBmcGetCoiForNtkNode(
259  Ntk_Node_t  *node,
260  st_table    *CoiTable,
261  st_table    *visited)
262{
263  int        i, j;
264  Ntk_Node_t *faninNode;
265
266  if(node == NIL(Ntk_Node_t)){
267    return;
268  }
269  if(Ntk_NodeTestIsLatch(node)){
270    DfsLevel++;
271    if (st_lookup_int(CoiTable, node, &j)&&j<=DfsLevel){
272      DfsLevel--;
273      return;
274    }
275  }
276
277  if (st_lookup_int(visited,  node, &j)&&j<=DfsLevel){
278    if(Ntk_NodeTestIsLatch(node))
279      DfsLevel--;
280    return;
281  }
282  st_insert(visited, node, (char *)(long)DfsLevel);
283  if (Ntk_NodeTestIsLatch(node)){
284    st_insert(CoiTable,  node, (char *)(long)DfsLevel);
285  }
286
287  if(Ntk_NodeTestIsInput(node))
288    {
289      return;
290    }
291
292  Ntk_NodeForEachFanin(node, i, faninNode) {
293    PureSatBmcGetCoiForNtkNode(faninNode, CoiTable, visited);
294  }
295  if(Ntk_NodeTestIsLatch(node))
296    DfsLevel--;
297  return;
298}
299
300/**Function********************************************************************
301
302  Synopsis    [Get the cone of influence for a ltl formula]
303
304  Description [Get the cone of influence for a ltl formula]
305
306  SideEffects []
307
308  SeeAlso     []
309
310******************************************************************************/
311
312void
313PureSatBmcGetCoiForLtlFormulaRecursive(
314  Ntk_Network_t   *network,
315  Ctlsp_Formula_t *formula,
316  st_table        *ltlCoiTable,
317  st_table        *visited)
318{
319  if (formula == NIL(Ctlsp_Formula_t)) {
320    return;
321  }
322  /* leaf node */
323  if (formula->type == Ctlsp_ID_c){
324    char       *name = Ctlsp_FormulaReadVariableName(formula);
325    Ntk_Node_t *node = Ntk_NetworkFindNodeByName(network, name);
326    int        tmp;
327
328    if (st_lookup_int(visited, node, &tmp)){
329      /* Node already visited */
330      return;
331    }
332    PureSatBmcGetCoiForNtkNode(node, ltlCoiTable, visited);
333    return;
334  }
335  PureSatBmcGetCoiForLtlFormulaRecursive(network, formula->left,  ltlCoiTable, visited);
336  PureSatBmcGetCoiForLtlFormulaRecursive(network, formula->right, ltlCoiTable, visited);
337
338  return;
339}
340
341/**Function********************************************************************
342
343  Synopsis    [Get the color of a node]
344
345  Description [Get the color of a node]
346
347  SideEffects []
348
349  SeeAlso     []
350
351******************************************************************************/
352DfsColor
353PureSatNodeReadColor(
354  Ntk_Node_t * node)
355{
356  return ((DfsColor) (long) Ntk_NodeReadUndef(node));
357}
358
359/**Function********************************************************************
360
361  Synopsis    [Set the color of a node]
362
363  Description [Set the color of a node]
364
365  SideEffects []
366
367  SeeAlso     []
368
369******************************************************************************/
370void
371PureSatNodeSetColor(
372  Ntk_Node_t * node,
373  DfsColor  color)
374{
375  Ntk_NodeSetUndef(node, (void *) (long) color);
376}
377
378/**Function********************************************************************
379
380  Synopsis    [Recursively compute the transitive fan in nodes of a node]
381
382  Description [Recursively compute the transitive fan in nodes of a node]
383
384  SideEffects []
385
386  SeeAlso     []
387
388******************************************************************************/
389void
390PureSatNodeRecursivelyComputeTransitiveFaninNodes_AllNodes(
391  Ntk_Node_t *node,
392  int * NumofSupports,
393  boolean stopAtLatches)
394{
395  int i;
396  Ntk_Node_t * fanin;
397
398  /* test if we have already started processing this node */
399  if ( PureSatNodeReadColor( node ) == dfsBlack_c ) {
400        return;
401  }
402  PureSatNodeSetColor( node, dfsBlack_c );
403
404  /* if ( Ntk_NodeTestIsCombInput( node ) ) {
405  st_insert( resultTable, (char *) node, (char *) 0 );
406         }*/
407
408  (*NumofSupports)++;
409
410  if ( Ntk_NodeTestIsInput(node) || ((stopAtLatches == TRUE)&&(Ntk_NodeTestIsLatch(node))) ) {
411        return;
412  }
413
414  Ntk_NodeForEachFanin( node, i, fanin ) {
415        PureSatNodeRecursivelyComputeTransitiveFaninNodes_AllNodes( fanin, NumofSupports, stopAtLatches );
416  }
417}
418
419/**Function********************************************************************
420
421  Synopsis    [Get the number of combination support of a node]
422
423  Description [Get the number of combination support of a node]
424
425  SideEffects []
426
427  SeeAlso     []
428
429******************************************************************************/
430
431int
432PureSatNodeComputeCombinationalSupport_AllNodes(
433  Ntk_Network_t *network,
434  array_t * nodeArray,
435  boolean stopAtLatches )
436{
437  lsGen gen;
438  int i, NumofSupports=0;
439  Ntk_Node_t *node;
440
441  Ntk_NetworkForEachNode( network, gen, node ) {
442        PureSatNodeSetColor( node, dfsWhite_c );
443  }
444
445/* for each lacthes(node) in the nodeArray, compute the number of gates in
446   the cone of this latch, put the number in NumofSupports*/
447  arrayForEachItem( Ntk_Node_t *, nodeArray, i, node ) {
448    NumofSupports = 0;
449    PureSatNodeRecursivelyComputeTransitiveFaninNodes_AllNodes( node, &NumofSupports, stopAtLatches );
450  }
451
452  return NumofSupports;
453}
454
455/**Function********************************************************************
456
457  Synopsis    [Build a support table,each value associated with a latch is the
458               number of gates in its cone of influence ]
459
460  Description [Build a support table,each value associated with a latch is the
461               number of gates in its cone of influence ]
462
463  SideEffects []
464
465  SeeAlso     []
466
467******************************************************************************/
468/*build a supportTable, each value associated with a latch is NumofGatesInCone*/
469void PureSatGenerateSupportTable(
470  Ntk_Network_t   *network,
471  PureSat_Manager_t *pm)
472{
473  array_t    *roots = array_alloc(Ntk_Node_t *,0); /*supports;*/
474  st_generator *stgen;
475  Ntk_Node_t *node,*DataNode=(Ntk_Node_t *)0;
476  int        count, NumofSupports;
477
478  st_foreach_item_int(pm->CoiTable, stgen, &node, &count) {
479    if (Ntk_NodeTestIsLatch(node))
480      DataNode = Ntk_LatchReadDataInput(node);
481    array_insert(Ntk_Node_t *, roots, 0, DataNode);
482    NumofSupports = PureSatNodeComputeCombinationalSupport_AllNodes(network, roots,FALSE);
483
484    st_insert(pm->supportTable,node, (char *)(long)NumofSupports);
485  }
486  array_free(roots);
487}
488
489/**Function********************************************************************
490
491  Synopsis    [Compute the cone of influence for a ltl formula]
492
493  Description [Compute the cone of influence for a ltl formula]
494
495  SideEffects []
496
497  SeeAlso     []
498
499******************************************************************************/
500void
501PureSatBmcGetCoiForLtlFormula(
502  Ntk_Network_t   *network,
503  Ctlsp_Formula_t *formula,
504  st_table        *ltlCoiTable)
505{
506  st_table *visited = st_init_table(st_ptrcmp, st_ptrhash);
507
508  PureSatBmcGetCoiForLtlFormulaRecursive(network, formula, ltlCoiTable, visited);
509  st_free_table(visited);
510  return;
511}
512
513
514/**Function********************************************************************
515
516  Synopsis    []
517
518  Description [recursively compute the nodes in a ltl formula and put them in
519               an array]
520
521  SideEffects []
522
523  SeeAlso     []
524
525******************************************************************************/
526
527void
528PureSatGetFormulaNodes(
529  Ntk_Network_t *network,
530  Ctlsp_Formula_t *F,
531  array_t *formulaNodes)
532{
533
534  if (F == NIL(Ctlsp_Formula_t))
535    return;
536
537  if (Ctlsp_FormulaReadType(F) == Ctlsp_ID_c) {
538    char *nodeNameString = Ctlsp_FormulaReadVariableName(F);
539    Ntk_Node_t *node = Ntk_NetworkFindNodeByName(network, nodeNameString);
540    assert(node);
541    array_insert_last(Ntk_Node_t *, formulaNodes, node);
542    return;
543  }
544
545  PureSatGetFormulaNodes(network, Ctlsp_FormulaReadRightChild(F), formulaNodes);
546  PureSatGetFormulaNodes(network, Ctlsp_FormulaReadLeftChild(F),  formulaNodes);
547}
548
549
550
551/**Function********************************************************************
552
553  Synopsis    [Get direct fan in latches for a node]
554
555  Description [Get direct fan in latches for a node]
556
557  SideEffects []
558
559  SeeAlso     []
560
561******************************************************************************/
562
563void
564PureSatGetFaninLatches(
565  Ntk_Node_t *node,
566  st_table *visited,
567  st_table *vertexTable)
568{
569  if (st_is_member(visited, node))
570    return;
571
572  st_insert(visited, node, (char *)0);
573
574  if (Ntk_NodeTestIsLatch(node))
575    st_insert(vertexTable, Ntk_NodeReadName(node), (char *)0);
576  else {
577    int i;
578    Ntk_Node_t *fanin;
579    Ntk_NodeForEachFanin(node, i, fanin) {
580      PureSatGetFaninLatches(fanin, visited, vertexTable);
581    }
582  }
583}
584/**Function********************************************************************
585
586  Synopsis    [Build a vertex table which stores all the latches in the
587  beginning abstract model]
588
589  Description [The table contains only those immediate fanin latches of the
590  given formula.]
591
592  SideEffects []
593
594  SeeAlso     []
595******************************************************************************/
596
597st_table *
598PureSatCreateInitialAbstraction(
599  Ntk_Network_t *network,
600  Ctlsp_Formula_t *invFormula,
601  int * Num,
602  PureSat_Manager_t *pm)
603{
604  array_t *formulaNodes = array_alloc(Ntk_Node_t *, 0);
605  Ntk_Node_t *node;
606  int i;
607
608  st_table *vertexTable = st_init_table(strcmp, st_strhash);
609  st_table *visited = st_init_table(st_ptrcmp, st_ptrhash);
610  *Num=0;
611
612  PureSatGetFormulaNodes(network, invFormula, formulaNodes);
613  arrayForEachItem(Ntk_Node_t *, formulaNodes, i, node) {
614    PureSatGetFaninLatches(node, visited, vertexTable);
615  }
616
617  st_free_table(visited);
618  array_free(formulaNodes);
619
620  if (1) {
621    st_generator *stgen;
622    char *nodeNameString;
623
624    if(pm->verbosity>=1)
625      fprintf(vis_stdout, "\n Create_InitialAbstraction() =\n");
626    st_foreach_item(vertexTable, stgen, &nodeNameString, 0) {
627      if(pm->verbosity>=1)
628        fprintf(vis_stdout, "%s\n", nodeNameString);
629      (*Num)++;
630    }
631    if(pm->verbosity>=1){
632      fprintf(vis_stdout, "\n");
633      fflush(vis_stdout);
634    }
635  }
636
637
638  return vertexTable;
639}
640
641
642/**Function********************************************************************
643
644  Synopsis    [Recursively get direct fan in gates of a node]
645
646  Description [Recursively get direct fan in gates of a node]
647
648  SideEffects []
649
650  SeeAlso     []
651
652******************************************************************************/
653
654void
655PureSatRecursivelyComputeTableForLatch(Ntk_Network_t * network,
656                                       st_table *Table,
657                                       Ntk_Node_t * node)
658{
659  int i;
660  Ntk_Node_t * fanin;
661
662  //want input to be in the Table
663  if(Ntk_NodeTestIsLatch(node))
664    return;
665
666  if(!st_lookup(Table,node,NIL(char *)))
667    st_insert(Table,node, (char *)0);
668  else
669    return;
670
671   if ( Ntk_NodeTestIsCombInput(node)) {
672        return;
673  }
674
675  Ntk_NodeForEachFanin( node,i,fanin)
676   PureSatRecursivelyComputeTableForLatch(network,Table,fanin);
677}
678
679
680/**Function********************************************************************
681
682  Synopsis    [Get direct fan in gates of a node]
683
684  Description [Get direct fan in gates of a node]
685
686  SideEffects []
687
688  SeeAlso     []
689
690******************************************************************************/
691/* put all the gates of Abs model to the Table */
692void
693PureSatComputeTableForLatch(Ntk_Network_t * network,
694                            st_table * Table,
695                            Ntk_Node_t * Latch)
696{
697  Ntk_Node_t * fanin;
698  int i;
699
700  if(!Ntk_NodeTestIsLatch(Latch))
701    {
702      char * name = Ntk_NodeReadName(Latch);
703      fprintf(vis_stdout,"%s is not a latch!\n",name);
704      exit (0);
705    }
706
707  if(!st_lookup(Table,Latch,NIL(char *)))
708    {
709      st_insert(Table,Latch, (char *)0);
710      Ntk_NodeForEachFanin(Latch,i,fanin)
711        PureSatRecursivelyComputeTableForLatch(network,Table,fanin);
712    }
713}
714
715
716/**Function********************************************************************
717
718  Synopsis    [Take latches in visibleArray as the first level
719  compute the DFS level of each latch in ltlCoiTable]
720
721  Description [Take latches in visibleArray as the first level
722  compute the DFS level of each latch in ltlCoiTable]
723
724  SideEffects []
725
726  SeeAlso     []
727
728******************************************************************************/
729
730void
731PureSatGetCoiForVisibleArray_Ring(
732  Ntk_Network_t   *network,
733  array_t *visibleArray,
734  int             position,
735  st_table        *ltlCoiTable)
736{
737  int i;
738  char * name;
739  Ntk_Node_t * node;
740
741  st_table *visited = st_init_table(st_ptrcmp, st_ptrhash);
742
743
744  for(i=position;i<array_n(visibleArray);i++){
745    name = array_fetch(char *,visibleArray,i);
746    node = Ntk_NetworkFindNodeByName(network,name);
747    DfsLevel = 0;
748    PureSatBmcGetCoiForNtkNode(node,ltlCoiTable, visited);
749  }
750  st_free_table(visited);
751  return;
752}
753
754
755/**Function********************************************************************
756
757  Synopsis    [Compare function for quick sort]
758
759  Description [Compare function for quick sort]
760
761  SideEffects []
762
763  SeeAlso     []
764
765******************************************************************************/
766
767int
768NumInConeCompare(int *ptrX,
769                 int *ptrY)
770{
771  int a,b;
772  int c,d;
773  double e,f;
774  a = array_fetch(int,NumInCone,(int)*ptrX);
775  b = array_fetch(int,NumInCone,(int)*ptrY);
776  c = array_fetch(int,NumInAbs,(int)*ptrX);
777  d = array_fetch(int,NumInAbs,(int)*ptrY);
778  e = (double)c/(double)a;
779  f = (double)d/(double)b;
780  if(e > f)
781    return -1;
782  if( e < f)
783    return 1;
784  return 0;
785}
786
787
788/**Function********************************************************************
789
790  Synopsis    [Compare function for quick sort]
791
792  Description [Compare function for quick sort]
793
794  SideEffects []
795
796  SeeAlso     []
797
798******************************************************************************/
799
800int
801NumInConeCompare_Ring(int *ptrX,
802                      int *ptrY)
803{
804  int a,b;
805  double c,d;
806  double e,f;
807  a = array_fetch(int,DfsArray,(int)*ptrX);
808  b = array_fetch(int,DfsArray,(int)*ptrY);
809  c = array_fetch(double,RCArray,(int)*ptrX);
810  d = array_fetch(double,RCArray,(int)*ptrY);
811  e = (double)((a)*1000000)-c;
812  f = (double)((b)*1000000)-d;
813  if(e > f)
814    return 1;
815  if( e < f)
816    return -1;
817  return 0;
818}
819
820
821/**Function********************************************************************
822
823  Synopsis    [Recursively compute the relative correlation of a latch.
824  For more information of Relative Correlation, please check the BMC'03 and STTT'05
825  paper of Li et al., "A satisfiability-based appraoch to abstraction
826  refinement in model checking", and " Abstraction in symbolic model checking
827  using satisfiability as the only decision procedure"]
828
829  Description [Recursively compute the relative correlation of a latch.
830  For more information of Relative Correlation, please check the BMC'03 and STTT'05
831  paper of Li et al., "A satisfiability-based appraoch to abstraction
832  refinement in model checking", and " Abstraction in symbolic model checking
833  using satisfiability as the only decision procedure"]
834
835  SideEffects []
836
837  SeeAlso     []
838
839******************************************************************************/
840
841void PureSatRecursivelyComputeCorrelationforLatch(Ntk_Network_t *network,
842                                                  st_table *AbsTable,
843                                                  st_table * visited,
844                                                  Ntk_Node_t *node,
845                                                  int *count)
846{
847  Ntk_Node_t * fanin;
848  int i;
849
850  if(!st_lookup(visited,node,NIL(char *)))
851  {
852    st_insert(visited,node,(char *)0);
853    if(st_lookup(AbsTable,node,NIL(char *)))
854      {
855        (*count)++;
856      }
857  }
858  else
859    return;
860
861  if(Ntk_NodeTestIsCombInput(node))
862    return;
863
864  Ntk_NodeForEachFanin(node,i,fanin)
865    PureSatRecursivelyComputeCorrelationforLatch(network,AbsTable,visited,fanin,count);
866}
867
868
869
870/**Function********************************************************************
871
872  Synopsis    [Compute the relative correlation of a latch.
873  For more information of Relative Correlation, please check the BMC'03 and STTT'05
874  paper of Li et al., "A satisfiability-based appraoch to abstraction
875  refinement in model checking", and " Abstraction in symbolic model checking
876  using satisfiability as the only decision procedure"]
877
878  Description [Compute the relative correlation of a latch.
879  For more information of Relative Correlation, please check the BMC'03 and STTT'05
880  paper of Li et al., "A satisfiability-based appraoch to abstraction
881  refinement in model checking", and " Abstraction in symbolic model checking
882  using satisfiability as the only decision procedure"]
883
884  SideEffects []
885
886  SeeAlso     []
887
888******************************************************************************/
889
890int PureSatComputeCorrelationforLatch(Ntk_Network_t * network, st_table *
891                              AbsTable, Ntk_Node_t *Latch)
892{
893  int count =0,i;
894  Ntk_Node_t * fanin;
895
896  st_table *visited = st_init_table(st_ptrcmp,st_ptrhash);
897  Ntk_NodeForEachFanin(Latch,i,fanin)
898    PureSatRecursivelyComputeCorrelationforLatch(network,AbsTable,visited,fanin,&count);
899  st_free_table(visited);
900  return count*10000;
901}
902
903/**Function********************************************************************
904
905  Synopsis    [Generating the ring information needed for the computation of
906  the relative correlation of a latch. For more information of Relative
907  Correlation, please check the BMC'03 and STTT'05 paper of Li et al., "A
908  satisfiability-based appraoch to abstraction refinement in model checking",
909  and " Abstraction in symbolic model checking
910  using satisfiability as the only decision procedure]
911
912  Description [Generating the ring information needed for the computation of
913  the relative correlation of a latch. For more information of Relative
914  Correlation, please check the BMC'03 and STTT'05 paper of Li et al., "A
915  satisfiability-based appraoch to abstraction refinement in model checking",
916  and " Abstraction in symbolic model checking
917  using satisfiability as the only decision procedure"]
918
919  SideEffects []
920
921  SeeAlso     []
922
923******************************************************************************/
924
925array_t * PureSatGenerateRingFromAbs(Ntk_Network_t *network,
926                                    PureSat_Manager_t *pm,
927                                    array_t *invisibleArray,
928                                    int * NumInSecondLevel)
929{
930  st_table *CoiTable = pm->CoiTable;
931  st_table *supportTable = pm->supportTable;
932  st_table *AbsTable= pm->AbsTable;
933
934  array_t * arrayRC = array_alloc(char *,array_n(invisibleArray)),* NumInConeArray = array_alloc(int,0),* NumInAbsArray = array_alloc(int,0);
935  array_t * tmpNumInCone = array_alloc(int,0),* tmpNumInAbs = array_alloc(int,0);
936  array_t * tmpDfsArray = array_alloc(int,0), *tmpRCArray = array_alloc(double,0);
937  array_t * tmpDfsArray1 = array_alloc(int,0), *tmpRCArray1 = array_alloc(double,0);
938  int numincone,i,j,dfs;
939  char *name;
940  double d1;
941
942  (*NumInSecondLevel) = 0;
943
944  for(i=0;i<array_n(invisibleArray);i++)
945   {
946     int tmp;
947     Ntk_Node_t *tmpnode;
948     name = array_fetch(char *,invisibleArray,i);
949     tmpnode = Ntk_NetworkFindNodeByName(network,name);
950     tmp = PureSatComputeCorrelationforLatch(network,AbsTable,tmpnode);
951     tmp = tmp/10000;
952
953     if(!st_lookup_int(CoiTable,tmpnode,&dfs)){
954       fprintf(vis_stderr,"not in Coitable,  Wrong");
955       exit(0);
956     }
957     if(!st_lookup_int(supportTable,tmpnode, &numincone)){
958       fprintf(vis_stderr,"not in supporttable,  Wrong");
959       exit(0);
960     }
961     d1 = (double)tmp/(double)numincone;
962     array_insert_last(double,tmpRCArray,d1);
963     array_insert_last(int,tmpDfsArray,dfs);
964
965   }
966
967
968  DfsArray = tmpDfsArray;
969  RCArray = tmpRCArray;
970   {
971     int tmpvalue;
972     double dvalue;
973     int nn = array_n(invisibleArray);
974     int *tay=ALLOC(int,nn);
975     for(j=0;j<nn;j++)
976       tay[j]=j;
977     qsort((void *)tay, nn, sizeof(int),
978           (int (*)(const void *, const void *))NumInConeCompare_Ring);
979     for(i=0;i<nn;i++)
980       {
981         char *str=ALLOC(char,100);
982         name = array_fetch(char *,invisibleArray,tay[i]);
983         strcpy(str,name);
984         array_insert(char *,arrayRC,i,str);
985         tmpvalue = array_fetch(int,tmpDfsArray,tay[i]);
986         if(tmpvalue == 2)
987           (*NumInSecondLevel)++;
988         array_insert(int,tmpDfsArray1,i,tmpvalue);
989         dvalue = array_fetch(double,tmpRCArray,tay[i]);
990         array_insert(double,tmpRCArray1,i,dvalue);
991         if(pm->verbosity>=2){
992           int i1;
993           double d1,d2;
994           i1 = array_fetch(int,tmpDfsArray1,i)*1000000;
995           d1 = array_fetch(double,tmpRCArray1,i);
996           d2 = (double)array_fetch(int,tmpDfsArray1,i)*1000000 - d1;
997           if(pm->verbosity>=1)
998             fprintf(vis_stdout,"arrayRC %s: %d-%f = %f\n",name,i1,d1,d2);
999           /* fprintf(vis_stdout,"arrayRC %s: %d-%f = %f\n",name,array_fetch(int,tmpDfsArray1,i)*1000000,array_fetch(double,tmpRCArray1,i),
1000              (double)array_fetch(int,tmpDfsArray1,i)*1000000-(double)array_fetch(double,tmpRCArray1,i));*/
1001         }
1002       }
1003     FREE(tay);
1004   }
1005   array_free(NumInConeArray);
1006   array_free(NumInAbsArray);
1007   array_free(tmpNumInCone);
1008   array_free(tmpNumInAbs);
1009   array_free(tmpDfsArray);
1010   array_free(tmpRCArray);
1011   array_free(tmpDfsArray1);
1012   array_free(tmpRCArray1);
1013   return arrayRC;
1014}
1015
1016/**Function********************************************************************
1017
1018  Synopsis    [Clean the SAT solver after a SAT solving procedure is done]
1019
1020  Description [Clean the SAT solver after a SAT solving procedure is done]
1021
1022  SideEffects []
1023
1024  SeeAlso     []
1025
1026******************************************************************************/
1027
1028void PureSatCleanSat(satManager_t * cm)
1029{
1030  int i;
1031  satVariable_t *var;
1032  satLevel_t *d;
1033
1034  cm->nodesArraySize = satNodeSize;
1035  sat_ArrayFree(cm->unitLits);
1036  sat_ArrayFree(cm->pureLits);
1037  cm->unitLits = sat_ArrayAlloc(16);
1038  cm->pureLits = sat_ArrayAlloc(16);
1039  memset(cm->each,0,sizeof(satStatistics_t));
1040  cm->literals->last = cm->literals->begin+1;
1041  cm->literals->initialSize = cm->literals->last;
1042  cm->status = 0;
1043  cm->currentVarPos = 0;
1044  cm->currentTopConflict = 0;
1045  cm->lowestBacktrackLevel = 0;
1046  cm->implicatedSoFar = 0;
1047  /*cm->decisionHead = ALLOC(satLevel_t, cm->decisionHeadSize);*/
1048  memset(cm->decisionHead, 0, sizeof(satLevel_t) * cm->decisionHeadSize);
1049  /* FREE(cm->variableArray);
1050  cm->variableArray = 0;*/
1051  if(cm->variableArray) {
1052    for(i=0; i<=cm->initNumVariables; i++) {
1053      var = &(cm->variableArray[i]);
1054      if(var->wl[0]) {
1055        sat_ArrayFree(var->wl[0]);
1056        var->wl[0] = 0;
1057      }
1058      if(var->wl[1]) {
1059        sat_ArrayFree(var->wl[1]);
1060        var->wl[1] = 0;
1061      }
1062    }
1063    free(cm->variableArray);
1064    cm->variableArray = 0;
1065  }
1066
1067  if(cm->decisionHead) {
1068    for(i=0; i<cm->decisionHeadSize; i++) {
1069      d = &(cm->decisionHead[i]);
1070      if(d->implied)
1071        sat_ArrayFree(d->implied);
1072      if(d->satisfied)
1073        sat_ArrayFree(d->satisfied);
1074    }
1075    free(cm->decisionHead);
1076    cm->decisionHead = 0;
1077    cm->decisionHeadSize = 0;
1078  }
1079
1080  sat_FreeQueue(cm->queue);
1081  cm->queue = 0;
1082  sat_FreeQueue(cm->BDDQueue);
1083  cm->BDDQueue = 0;
1084  sat_FreeQueue(cm->unusedAigQueue);
1085  cm->unusedAigQueue = 0;
1086  sat_ArrayFree(cm->auxArray);
1087  sat_ArrayFree(cm->nonobjUnitLitArray);
1088  sat_ArrayFree(cm->objUnitLitArray);
1089
1090}
1091
1092/**Function********************************************************************
1093
1094  Synopsis    [Read clauses from a puresat incremental SAT manager to the
1095  CirCUs SAT solver]
1096
1097  Description [Read clauses from a puresat incremental SAT manager to the
1098  CirCUs SAT solver]
1099
1100  SideEffects []
1101
1102  SeeAlso     []
1103
1104******************************************************************************/
1105
1106void PureSatReadClauses(PureSat_IncreSATManager_t * pism,
1107                        PureSat_Manager_t * pm)
1108{
1109  int i,node,nVar = pism->cnfClauses->cnfGlobalIndex - 1;
1110  satManager_t * cm = pism->cm;
1111  satArray_t * clauseArray;
1112
1113  cm->option->verbose = pm->verbosity;
1114  cm->initNumVariables = nVar;
1115  cm->variableArray = ALLOC(satVariable_t, cm->initNumVariables+1);
1116  memset(cm->variableArray, 0, sizeof(satVariable_t) *
1117         (cm->initNumVariables+1));
1118  if(cm->maxNodesArraySize <= (cm->initNumVariables+2)*satNodeSize){
1119    cm->nodesArray = ALLOC(long, (cm->initNumVariables+2)*satNodeSize);
1120    cm->maxNodesArraySize = (cm->initNumVariables+2)*satNodeSize;
1121  }
1122
1123
1124  if(pism->cm->option->coreGeneration){
1125    pism->cm->dependenceTable = st_init_table(st_ptrcmp, st_ptrhash);
1126
1127    /*the tables stroes entry of (var_node_idx,cls_idx);*/
1128    pism->cm->anteTable = st_init_table(st_numcmp, st_numhash);
1129
1130  }
1131  sat_AllocLiteralsDB(cm);
1132
1133  for(i=1;i<=nVar;i++){
1134    node = sat_CreateNode(cm,2,2);
1135    SATflags(node) |= CoiMask;
1136    SATvalue(node) = 2;
1137    /*SATfanout(node) = 0;*/
1138    cm->nodesArray[node+satFanout] = 0;
1139    SATnFanout(node) = 0;
1140  }
1141
1142  clauseArray = sat_ArrayAlloc(4096);
1143  for(i=0; i<pism->cnfClauses->nextIndex;i++){
1144    int k, cls_idx,v;
1145    k = array_fetch(int,pism->cnfClauses->clauseArray,i);
1146    if(k!=0){
1147      int sign = 1;
1148      if(k<0){
1149        sign = 0;
1150        k = -k;
1151      }
1152      v = k*satNodeSize + sign;
1153      sat_ArrayInsert(clauseArray, v);
1154    }
1155    else{
1156      if(clauseArray->num == 1) {
1157        v = clauseArray->space[0];
1158        sat_ArrayInsert(cm->unitLits, SATnot(v));
1159        cls_idx = sat_AddUnitClause(cm, clauseArray);
1160        if(pism->cm->option->coreGeneration){
1161          v = SATnormalNode(v);
1162          st_insert(pism->cm->anteTable,(char *)(long)v,(char *)(long)cls_idx);
1163        }
1164      }
1165      else{
1166        cls_idx = sat_AddClause(cm, clauseArray);
1167      }
1168      cm->initNumClauses++;
1169      cm->initNumLiterals += clauseArray->num;
1170      if(i>pism->propertyPos)
1171        SATflags(cls_idx) |= ObjMask;
1172      clauseArray->num = 0;
1173    }
1174  }
1175  sat_ArrayFree(clauseArray);
1176
1177}
1178
1179/**Function********************************************************************
1180
1181  Synopsis    [Get immediate latch supports for latches in latchNameArray]
1182
1183  Description [Get immediate latch supports for latches in latchNameArray]
1184
1185  SideEffects []
1186
1187  SeeAlso     []
1188
1189******************************************************************************/
1190
1191array_t * PureSatGetImmediateSupportLatches(
1192  Ntk_Network_t *network,
1193  int            beginPosition,
1194  array_t       *latchNameArray)
1195{
1196  /* old support, form 0 to 'beginPosition'-1*/
1197  array_t    *dataInputs, *supports;
1198  /* new support, from 'beginPosition' to array_n(latchNameArray)-1*/
1199  array_t    *dataInputs2, *supports2, *supportLatches2;
1200  /* The result should be {new support}-{old support}*/
1201  st_table   *oldSupportTable;
1202  Ntk_Node_t *latch, *dataInput;
1203  int        i;
1204  char       *latchName;
1205
1206  dataInputs = array_alloc(Ntk_Node_t *, 0);
1207  dataInputs2 = array_alloc(Ntk_Node_t *, 0);
1208  arrayForEachItem(char *, latchNameArray, i, latchName) {
1209    latch = Ntk_NetworkFindNodeByName(network, latchName);
1210    assert(latch);
1211    assert(Ntk_NodeTestIsLatch(latch));
1212    dataInput = Ntk_LatchReadDataInput(latch);
1213    if (i < beginPosition)
1214      array_insert_last(Ntk_Node_t *, dataInputs, dataInput);
1215    else
1216      array_insert_last(Ntk_Node_t *, dataInputs2, dataInput);
1217  }
1218
1219  supports = Ntk_NodeComputeCombinationalSupport(network, dataInputs, 1);
1220  supports2 = Ntk_NodeComputeCombinationalSupport(network, dataInputs2, 1);
1221  array_free(dataInputs);
1222  array_free(dataInputs2);
1223
1224  oldSupportTable = st_init_table(st_ptrcmp, st_ptrhash);
1225  arrayForEachItem(Ntk_Node_t *, supports, i, latch) {
1226    st_insert(oldSupportTable, latch, NIL(char));
1227  }
1228  array_free(supports);
1229
1230  supportLatches2 = array_alloc(char *, 0);
1231  arrayForEachItem(Ntk_Node_t *,  supports2, i, latch) {
1232    if (Ntk_NodeTestIsLatch(latch) &&
1233        !st_is_member(oldSupportTable,latch))
1234      array_insert_last(char *, supportLatches2, Ntk_NodeReadName(latch));
1235  }
1236  array_free(supports2);
1237
1238  arrayForEachItem(char *, latchNameArray, i, latchName) {
1239    if (i < beginPosition) continue;
1240    latch = Ntk_NetworkFindNodeByName(network, latchName);
1241    if (!st_is_member(oldSupportTable, latch))
1242      array_insert_last(char *, supportLatches2, latchName);
1243  }
1244  st_free_table(oldSupportTable);
1245
1246  return supportLatches2;
1247}
1248
1249
1250/**Function********************************************************************
1251
1252  Synopsis    [Dump out clauses to a file]
1253
1254  Description [Dump out clauses to a file]
1255
1256  SideEffects []
1257
1258  SeeAlso     []
1259
1260******************************************************************************/
1261void PureSatWriteClausesToFile(PureSat_IncreSATManager_t * pism,
1262                               mAig_Manager_t  *maigManager,
1263                               char *coreFile)
1264{
1265
1266  BmcCnfClauses_t *cnfClauses = pism->cnfClauses;
1267  st_generator *stGen;
1268  char         *name;
1269  int          cnfIndex, i, k;
1270  FILE *cnfFile;
1271
1272  coreFile = BmcCreateTmpFile();
1273  cnfFile = fopen(coreFile,"w");
1274
1275  fprintf(vis_stdout, "coreFile is %s\n", coreFile);
1276  fprintf(vis_stdout,
1277          "Number of Variables = %d Number of Clauses = %d\n",
1278          cnfClauses->cnfGlobalIndex-1,  cnfClauses->noOfClauses);
1279
1280
1281  st_foreach_item_int(cnfClauses->cnfIndexTable, stGen, &name, &cnfIndex) {
1282    fprintf(cnfFile, "c %s %d\n",name, cnfIndex);
1283  }
1284  (void) fprintf(cnfFile, "p cnf %d %d\n", cnfClauses->cnfGlobalIndex-1,
1285                 cnfClauses->noOfClauses);
1286  if (cnfClauses->clauseArray != NIL(array_t)) {
1287    for (i = 0; i < cnfClauses->nextIndex; i++) {
1288      k = array_fetch(int, cnfClauses->clauseArray, i);
1289      (void) fprintf(cnfFile, "%d%c", k, (k == 0) ? '\n' : ' ');
1290    }
1291  }
1292  fclose(cnfFile);
1293  FREE(coreFile);
1294  return;
1295}
1296
1297
1298/**Function********************************************************************
1299
1300  Synopsis    [Dump out all the clauses, including conflict clauses, to a file]
1301
1302  Description [Dump out all the clauses, including conflict clauses, to a file]
1303
1304  SideEffects []
1305
1306  SeeAlso     []
1307
1308******************************************************************************/
1309
1310void PureSatWriteAllClausesToFile(PureSat_IncreSATManager_t * pism,
1311                                  char *coreFile)
1312{
1313  satManager_t *cm = pism->cm;
1314  char *tmpallcnfFile = BmcCreateTmpFile();
1315  FILE *fp1 = fopen(coreFile,"r");
1316  FILE *fp2 = fopen(tmpallcnfFile,"w");
1317  char buffer[1024], buffer1[1024];
1318  long *space;
1319  int i, numOfConCls=0, numOfVar, sign,var;
1320  satArray_t *saved = cm->savedConflictClauses;
1321
1322  for(i=0, space=saved->space; i<saved->num; i++,space++){
1323    if(*space<0)
1324      numOfConCls++;
1325  }
1326  if(numOfConCls%2!=0){
1327    fprintf(vis_stdout,"should be times of 2\n");
1328    exit(0);
1329  }
1330  numOfConCls/=2;
1331
1332  numOfConCls += cm->initNumClauses;
1333  numOfVar = cm->initNumVariables;
1334  i=0;
1335  /*sprintf(buffer,"p cnf %d %d 0\n", numOfConCls, numOfVar);
1336    fputs(buffer, fp2);*/
1337  while(fgets(buffer,1024,fp1)){
1338    if(strncmp(buffer,"c ",2)!=0){
1339      if(strncmp(buffer,"p cnf ",6)==0){
1340        sprintf(buffer1,"p cnf %d %d 0\n", numOfVar, numOfConCls);
1341        fputs(buffer1, fp2);
1342      }
1343      else
1344        fputs(buffer, fp2);
1345    }
1346  }
1347
1348  saved = cm->savedConflictClauses;
1349
1350  for(i=0, space=saved->space; i<saved->num; i++){
1351    if(*space<0){
1352      space++;
1353      i++;
1354      while(*space>0){
1355        sign = !SATisInverted(*space);
1356        var = SATnormalNode(*space);
1357        if(sign == 0)
1358          var = -var;
1359        fprintf(fp2,"%d ",var);
1360        space++;
1361        i++;
1362      }
1363      fprintf(fp2,"0\n");
1364      space++;
1365      i++;
1366    }
1367  }
1368  fclose(fp1);
1369  fclose(fp2);
1370  FREE(tmpallcnfFile);
1371}
1372
1373
1374
1375/**Function********************************************************************
1376
1377  Synopsis    [Generate refinement latches from UNSAT proof]
1378
1379  Description [Generate refinement latches from UNSAT proof]
1380
1381  SideEffects []
1382
1383  SeeAlso     []
1384
1385******************************************************************************/
1386
1387array_t * PureSatGetLatchFromTable(Ntk_Network_t *network,
1388                                  PureSat_Manager_t * pm,
1389                                  char *coreFile)
1390{
1391  FILE *fp;
1392  char buffer[1024],*nodeName;
1393  int idx;
1394  st_table * localTable = st_init_table(strcmp,st_strhash);
1395  array_t * refinement = array_alloc(char *,0);
1396  st_table *ClsidxToLatchTable = pm->ClsidxToLatchTable;
1397  st_table *vertexTable = pm->vertexTable;
1398
1399  fp = fopen(coreFile,"r");
1400  while(fgets(buffer,1024,fp)){
1401    if(strncmp(buffer,"#clause index:",14)==0){
1402      sscanf(buffer,"#clause index:%d\n",&idx);
1403      if(st_lookup(ClsidxToLatchTable,(char *)(long)idx,&nodeName))
1404        if(!st_lookup(vertexTable,nodeName,NIL(char *))&&!st_lookup(localTable,nodeName,NIL(char *)))
1405          {
1406            st_insert(localTable,nodeName,(char *)0);
1407            array_insert_last(char *,refinement,nodeName);
1408          }
1409    }
1410  }
1411  st_free_table(localTable);
1412  return refinement;
1413}
1414
1415
1416
1417/**Function********************************************************************
1418
1419  Synopsis    [remove the ith member of a certain array]
1420
1421  Description [remove the ith member of a certain array]
1422
1423  SideEffects []
1424
1425  SeeAlso     []
1426
1427******************************************************************************/
1428
1429
1430array_t * PureSatRemove_char(array_t * array1, int i)
1431{
1432  int j;
1433  char * str;
1434  array_t * array2=array_alloc(char *,0);
1435  assert(i<array_n(array1));
1436  arrayForEachItem(char *,array1,j,str)
1437    {
1438      if(j!=i)
1439        {
1440
1441          array_insert_last(char *,array2,str);
1442        }
1443    }
1444      return array2;
1445}
1446
1447
1448/**Function********************************************************************
1449
1450  Synopsis    [For one node: count number of gates and how many of them are already in abstraction]
1451
1452  Description []
1453
1454  SideEffects []
1455
1456  SeeAlso     []
1457
1458******************************************************************************/
1459
1460void PureSatComputeNumGatesInAbsForNode(Ntk_Network_t * network,
1461                                        PureSat_Manager_t * pm,
1462                                        Ntk_Node_t * node,
1463                                        st_table * visited,
1464                                        int  * ct,
1465                                        int  * ct1)
1466{
1467  int i;
1468  Ntk_Node_t *fanin;
1469
1470
1471  st_insert(visited,node,(char *)0);
1472
1473  (*ct1)++;
1474  if(st_lookup(pm->AbsTable,node,NIL(char*)))
1475    (*ct)++;
1476
1477  if(Ntk_NodeTestIsCombInput(node))
1478    return;
1479
1480  Ntk_NodeForEachFanin(node,i,fanin){
1481    if(!st_lookup(visited,(char *)fanin,NIL(char *))&&
1482        !Ntk_NodeTestIsLatch(fanin))
1483      PureSatComputeNumGatesInAbsForNode(network,pm,fanin,visited,ct,ct1);
1484  }
1485  return;
1486
1487}
1488
1489
1490/**Function********************************************************************
1491
1492  Synopsis    [For nodes in one array: count number of gates and how many of
1493  them are already in abstraction]
1494
1495  Description []
1496
1497  SideEffects []
1498
1499  SeeAlso     []
1500
1501******************************************************************************/
1502
1503void PureSatComputeNumGatesInAbs(Ntk_Network_t *network,
1504                                PureSat_Manager_t *pm,
1505                                array_t * invisibleArray)
1506{
1507  int i,ct,ct1,j;
1508  char * name;
1509  Ntk_Node_t * node,*fanin;
1510  st_table * visited;
1511
1512
1513  arrayForEachItem(char*,invisibleArray,i,name){
1514    node = Ntk_NetworkFindNodeByName(network,name);
1515    ct = 0;
1516    ct1 = 0;
1517    visited = st_init_table(st_ptrcmp,st_ptrhash);
1518    st_insert(visited,node,(char *)0);
1519
1520    ct1++;
1521
1522    Ntk_NodeForEachFanin(node,j,fanin){
1523      if(!st_lookup(visited,(char *)fanin,NIL(char *))&&
1524         !Ntk_NodeTestIsLatch(fanin))
1525        PureSatComputeNumGatesInAbsForNode(network,pm,
1526                                      fanin,visited,&ct,&ct1);
1527    }
1528    st_insert(pm->niaTable,name,(char*)(long)ct);
1529
1530    st_free_table(visited);
1531  }
1532  return;
1533
1534}
1535
1536
1537/**Function********************************************************************
1538
1539  Synopsis    [For one node: count how many nodes are in its cone]
1540
1541  Description []
1542
1543  SideEffects []
1544
1545  SeeAlso     []
1546
1547******************************************************************************/
1548
1549void PureSatComputeNumGatesInConeForNode(Ntk_Network_t * network,
1550                                       PureSat_Manager_t * pm,
1551                                       Ntk_Node_t * node,
1552                                       st_table * visited,
1553                                       int  * ct)
1554{
1555  int i;
1556  Ntk_Node_t *fanin;
1557
1558
1559  st_insert(visited,node,(char *)0);
1560
1561  (*ct)++;
1562
1563  if(Ntk_NodeTestIsCombInput(node))
1564    return;
1565
1566  Ntk_NodeForEachFanin(node,i,fanin){
1567    if(!st_lookup(visited,(char *)fanin,NIL(char *))&&
1568       !Ntk_NodeTestIsLatch(fanin))
1569      PureSatComputeNumGatesInConeForNode(network,pm,fanin,visited,ct);
1570  }
1571  return;
1572
1573}
1574
1575
1576/**Function********************************************************************
1577
1578  Synopsis    [For each node in one array: count how many nodes are in its cone]
1579
1580  Description []
1581
1582  SideEffects []
1583
1584  SeeAlso     []
1585
1586******************************************************************************/
1587
1588void PureSatComputeNumGatesInCone(Ntk_Network_t *network,
1589                                PureSat_Manager_t *pm,
1590                                array_t * latchArray)
1591{
1592  int i,ct,j;
1593  char * name;
1594  Ntk_Node_t * node,* fanin;
1595  st_table * visited;
1596
1597
1598  arrayForEachItem(char*,latchArray,i,name){
1599    node = Ntk_NetworkFindNodeByName(network,name);
1600    ct = 0;
1601    visited = st_init_table(st_ptrcmp,st_ptrhash);
1602    st_insert(visited,node,(char *)0);
1603    ct++;
1604
1605    Ntk_NodeForEachFanin(node,j,fanin){
1606      if(!st_lookup(visited,(char *)fanin,NIL(char *))&&
1607         !Ntk_NodeTestIsLatch(fanin))
1608        PureSatComputeNumGatesInConeForNode(network,pm
1609                                            ,fanin,visited,&ct);
1610    }
1611    st_insert(pm->nicTable,name,(char*)(long)ct);
1612
1613    st_free_table(visited);
1614  }
1615  return;
1616
1617}
1618
1619
1620/**Function********************************************************************
1621
1622  Synopsis    [Generate latch candidate array based on BFS ring and RC information]
1623
1624  Description []
1625
1626  SideEffects []
1627
1628  SeeAlso     []
1629
1630******************************************************************************/
1631
1632array_t * PureSatGenerateRCArray_2(Ntk_Network_t *network,
1633                                   PureSat_Manager_t *pm,
1634                                   array_t *invisibleArray,
1635                                   int *NumInSecondLevel)
1636{
1637  array_t * tmpRCArray = array_alloc(double,0);
1638  array_t * tmpDfsArray = array_alloc(int,0);
1639  array_t * arrayRC = array_alloc(char*,array_n(invisibleArray));
1640  int i,j;
1641  char * name;
1642
1643  if(pm->RefPredict)
1644    pm->latchArray = array_alloc(char *,0);
1645
1646  PureSatComputeNumGatesInAbs(network,pm,invisibleArray);
1647
1648  for(i=0;i<array_n(invisibleArray);i++){
1649    int nic,nia,dfs;
1650    Ntk_Node_t *tmpnode;
1651    int retVal;
1652    name = array_fetch(char *,invisibleArray,i);
1653    tmpnode = Ntk_NetworkFindNodeByName(network,name);
1654    retVal = st_lookup(pm->node2dfsTable,name,&dfs);
1655    assert(retVal);
1656    array_insert_last(int,tmpDfsArray,dfs);
1657    retVal = st_lookup(pm->nicTable,name,&nic);
1658    assert(retVal);
1659    retVal = st_lookup(pm->niaTable,name,&nia);
1660    assert(retVal);
1661    array_insert_last(double,tmpRCArray,
1662                      (double)nia/(double)nic);
1663  }
1664
1665
1666  DfsArray = tmpDfsArray;
1667  RCArray = tmpRCArray;
1668  *NumInSecondLevel = 0;
1669
1670   {
1671     int tmpvalue;
1672     double rcvalue;
1673     int nn = array_n(invisibleArray);
1674     int *tay=ALLOC(int,nn);
1675     for(j=0;j<nn;j++)
1676       tay[j]=j;
1677     qsort((void *)tay, nn, sizeof(int),
1678           (int (*)(const void *, const void *))NumInConeCompare_Ring);
1679     for(i=0;i<nn;i++)
1680       {
1681         name = array_fetch(char *,invisibleArray,tay[i]);
1682         array_insert(char *,arrayRC,i,name);
1683         tmpvalue = array_fetch(int,tmpDfsArray,tay[i]);
1684         if(tmpvalue == 2)
1685           (*NumInSecondLevel)++;
1686         rcvalue = array_fetch(double,tmpRCArray,tay[i]);
1687         if(pm->verbosity>=1)
1688           fprintf(vis_stdout,"arrayRC %s: %f-%f = %f\n",name,
1689                   (double)tmpvalue*1000000,rcvalue,(double)tmpvalue*1000000-rcvalue);
1690
1691         if(pm->RefPredict){
1692           if(rcvalue>=0.87&&tmpvalue==2){
1693             array_insert_last(char*,pm->latchArray,name);
1694             if(pm->verbosity>=1)
1695               fprintf(vis_stdout,"add %s into pm->latchArray\n",name);
1696           }
1697         }
1698
1699       }
1700     FREE(tay);
1701   }
1702
1703   array_free(DfsArray);
1704   array_free(RCArray);
1705
1706   return arrayRC;
1707}
1708
1709/*---------------------------------------------------------------------------*/
1710/* Definition of static functions                                            */
1711/*---------------------------------------------------------------------------*/
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