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authorAlan Mishchenko <alanmi@berkeley.edu>2011-12-04 22:58:24 -0800
committerAlan Mishchenko <alanmi@berkeley.edu>2011-12-04 22:58:24 -0800
commitf0d44a4a933dfc4ee023b5896486dd99afa2c06c (patch)
tree8966cf466684fa987fb2fcea3c07384f97f78e51
parent09d3e1ff77e656976268fa27b6045ff6f284fd3b (diff)
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Proof-logging in the updated solver.
-rw-r--r--src/sat/bsat/satSolver.c3
-rw-r--r--src/sat/bsat/satSolver2.c621
-rw-r--r--src/sat/bsat/satSolver2.h11
3 files changed, 352 insertions, 283 deletions
diff --git a/src/sat/bsat/satSolver.c b/src/sat/bsat/satSolver.c
index 96541f2d..8b6468b2 100644
--- a/src/sat/bsat/satSolver.c
+++ b/src/sat/bsat/satSolver.c
@@ -1460,6 +1460,9 @@ int sat_solver_solve(sat_solver* s, lit* begin, lit* end, ABC_INT64_T nConfLimit
{
veci_resize(&s->conf_final,0);
veci_push(&s->conf_final, lit_neg(p));
+ // the two lines below are a bug fix by Siert Wieringa
+ if (s->levels[lit_var(p)] > 0)
+ veci_push(&s->conf_final, p);
}
sat_solver_canceluntil(s, 0);
return l_False;
diff --git a/src/sat/bsat/satSolver2.c b/src/sat/bsat/satSolver2.c
index 405e4367..35ccf36f 100644
--- a/src/sat/bsat/satSolver2.c
+++ b/src/sat/bsat/satSolver2.c
@@ -71,7 +71,7 @@ static inline float sat_int2float( int Num ) { union { int x; float y; } v;
//=================================================================================================
// Predeclarations:
-static void sat_solver2_sort(void** array, int size, int(*comp)(const void *, const void *));
+static void solver2_sort(void** array, int size, int(*comp)(const void *, const void *));
//=================================================================================================
// Variable datatype + minor functions:
@@ -135,8 +135,8 @@ static inline void solver2_clear_marks(sat_solver2* s) {
}
// other inlines
-//static inline int var_reason (sat_solver2* s, int v) { return (s->reasons[v]&1) ? 0 : s->reasons[v]; }
-//static inline int lit_reason (sat_solver2* s, int l) { return (s->reasons[lit_var(l)&1]) ? 0 : s->reasons[lit_var(l)]; }
+//static inline int var_reason (sat_solver2* s, int v) { return (s->reasons[v]&1) ? 0 : s->reasons[v] >> 1; }
+//static inline int lit_reason (sat_solver2* s, int l) { return (s->reasons[lit_var(l)&1]) ? 0 : s->reasons[lit_var(l)] >> 1; }
static inline int var_reason (sat_solver2* s, int v) { return s->reasons[v]; }
static inline int lit_reason (sat_solver2* s, int l) { return s->reasons[lit_var(l)]; }
@@ -154,21 +154,26 @@ struct satset_t // should have even number of entries!
lit pLits[0];
};
-static inline lit* clause_begin (satset* c) { return c->pLits; }
-static inline int clause_learnt (satset* c) { return c->learnt; }
-static inline int clause_nlits (satset* c) { return c->nLits; }
-static inline int clause_size (int nLits) { return sizeof(satset)/4 + nLits + (nLits & 1); }
+static inline int clause_size (int nLits) { return sizeof(satset)/4 + nLits; }
static inline satset* get_clause (sat_solver2* s, int c) { return c ? (satset*)(veci_begin(&s->clauses) + c) : NULL; }
static inline cla clause_id (sat_solver2* s, satset* c) { return (cla)((int *)c - veci_begin(&s->clauses)); }
-static inline satset* var_unit_clause(sat_solver2* s, int v) { return (s->reasons[v]&1) ? get_clause(s, s->reasons[v] >> 1) : NULL; }
-static inline void var_set_unit_clause(sat_solver2* s, int v, cla i){ assert(i && !s->reasons[v]); s->reasons[v] = (i << 1) | 1; }
+//static inline satset* var_unit_clause(sat_solver2* s, int v) { return (s->reasons[v]&1) ? get_clause(s, s->reasons[v] >> 1) : NULL; }
+//static inline void var_set_unit_clause(sat_solver2* s, int v, cla i){ assert(i && !s->reasons[v]); s->reasons[v] = (i << 1) | 1; }
+static inline satset* var_unit_clause(sat_solver2* s, int v) { return get_clause(s, s->units[v]); }
+static inline void var_set_unit_clause(sat_solver2* s, int v, cla i){ assert(v >= 0 && v < s->size && !s->units[v]); s->units[v] = i; }
#define sat_solver_foreach_clause( s, c, i ) \
for ( i = 16; (i < s->nMemSize) && (((c) = get_clause(s, i)), 1); i += clause_size(c->nLits) )
#define sat_solver_foreach_learnt( s, c, i ) \
- for ( i = s->iLearnt; (i < s->nMemSize) && (((c) = get_clause(s, i)), 1); i += clause_size(c->nLits) )
+ for ( i = s->iFirstLearnt; (i < s->nMemSize) && (((c) = get_clause(s, i)), 1); i += clause_size(c->nLits) )
+
+//=================================================================================================
+// Simple helpers:
+
+static inline int solver2_dlevel(sat_solver2* s) { return veci_size(&s->trail_lim); }
+static inline veci* solver2_wlist(sat_solver2* s, lit l) { return &s->wlists[l]; }
//=================================================================================================
// Proof logging:
@@ -187,89 +192,28 @@ static inline void proof_chain_start( sat_solver2* s, satset* c )
}
}
-static inline void proof_chain_resolve( sat_solver2* s, satset* c, int Var )
+static inline void proof_chain_resolve( sat_solver2* s, satset* cls, int Var )
{
- if ( s->fProofLogging && c )
+ if ( s->fProofLogging )
{
+ satset* c = cls ? cls : var_unit_clause( s, Var );
veci_push(&s->proof_clas, c->learnt ? veci_begin(&s->claProofs)[c->Id] : clause_id(s,c) ^ 1 );
veci_push(&s->proof_vars, Var);
}
}
-static inline void proof_chain_stop( sat_solver2* s )
+static inline int proof_chain_stop( sat_solver2* s )
{
if ( s->fProofLogging )
{
+ int RetValue = s->iStartChain;
satset* c = (satset*)(veci_begin(&s->proof_clas) + s->iStartChain);
assert( s->iStartChain > 0 && s->iStartChain < veci_size(&s->proof_clas) );
c->nLits = veci_size(&s->proof_clas) - s->iStartChain - 2;
s->iStartChain = 0;
-// printf( "%d ", c->nLits );
- }
-}
-
-//=================================================================================================
-// Simple helpers:
-
-static inline int solver2_dlevel(sat_solver2* s) { return veci_size(&s->trail_lim); }
-static inline veci* solver2_wlist(sat_solver2* s, lit l) { return &s->wlists[l]; }
-
-//=================================================================================================
-// Clause functions:
-
-static int clause_new(sat_solver2* s, lit* begin, lit* end, int learnt)
-{
- satset* c;
- int i, Cid, nLits = end - begin;
- assert(nLits > 1);
- assert(begin[0] >= 0);
- assert(begin[1] >= 0);
- assert(lit_var(begin[0]) < s->size);
- assert(lit_var(begin[1]) < s->size);
- // add memory if needed
- if ( veci_size(&s->clauses) + clause_size(nLits) > s->clauses.cap )
- {
- int nMemAlloc = s->clauses.cap ? 2 * s->clauses.cap : (1 << 20);
- s->clauses.ptr = ABC_REALLOC( int, veci_begin(&s->clauses), nMemAlloc );
- memset( veci_begin(&s->clauses) + s->clauses.cap, 0, sizeof(int) * (nMemAlloc - s->clauses.cap) );
-// printf( "Reallocing from %d to %d...\n", s->clauses.cap, nMemAlloc );
- s->clauses.cap = nMemAlloc;
- s->clauses.size = Abc_MaxInt( veci_size(&s->clauses), 2 );
+ return RetValue;
}
- // create clause
- c = (satset*)(veci_begin(&s->clauses) + veci_size(&s->clauses));
- c->learnt = learnt;
- c->nLits = nLits;
- for (i = 0; i < nLits; i++)
- c->pLits[i] = begin[i];
- // assign clause ID
- if ( learnt )
- {
- c->Id = s->stats.learnts + 1;
- assert( c->Id == veci_size(&s->claActs) );
- veci_push(&s->claActs, 0);
- //veci_push(&s->claProof, 0);
- }
- else
- c->Id = s->stats.clauses + 1;
-
- // extend storage
- Cid = veci_size(&s->clauses);
- s->clauses.size += clause_size(nLits);
- if ( veci_size(&s->clauses) > s->clauses.cap )
- printf( "Out of memory!!!\n" );
- assert( veci_size(&s->clauses) <= s->clauses.cap );
- assert(((ABC_PTRUINT_T)c & 7) == 0);
-
- // watch the clause
- veci_push(solver2_wlist(s,lit_neg(begin[0])),clause_id(s,c));
- veci_push(solver2_wlist(s,lit_neg(begin[1])),clause_id(s,c));
-
- // remember the last one and first learnt
- s->iLast = Cid;
- if ( learnt && s->iLearnt == -1 )
- s->iLearnt = Cid;
- return Cid;
+ return 0;
}
//=================================================================================================
@@ -282,9 +226,7 @@ static inline void order_update(sat_solver2* s, int v) // updateorder
int i = orderpos[v];
int x = heap[i];
int parent = (i - 1) / 2;
-
assert(s->orderpos[v] != -1);
-
while (i != 0 && s->activity[x] > s->activity[heap[parent]]){
heap[i] = heap[parent];
orderpos[heap[i]] = i;
@@ -294,11 +236,9 @@ static inline void order_update(sat_solver2* s, int v) // updateorder
heap[i] = x;
orderpos[x] = i;
}
-
static inline void order_assigned(sat_solver2* s, int v)
{
}
-
static inline void order_unassigned(sat_solver2* s, int v) // undoorder
{
int* orderpos = s->orderpos;
@@ -308,12 +248,10 @@ static inline void order_unassigned(sat_solver2* s, int v) // undoorder
order_update(s,v);
}
}
-
static inline int order_select(sat_solver2* s, float random_var_freq) // selectvar
{
int* heap = veci_begin(&s->order);
int* orderpos = s->orderpos;
-
// Random decision:
if (drand(&s->random_seed) < random_var_freq){
int next = irand(&s->random_seed,s->size);
@@ -321,31 +259,23 @@ static inline int order_select(sat_solver2* s, float random_var_freq) // select
if (var_value(s, next) == varX)
return next;
}
-
// Activity based decision:
while (veci_size(&s->order) > 0){
int next = heap[0];
int size = veci_size(&s->order)-1;
int x = heap[size];
-
veci_resize(&s->order,size);
-
orderpos[next] = -1;
-
if (size > 0){
unsigned act = s->activity[x];
int i = 0;
int child = 1;
-
while (child < size){
if (child+1 < size && s->activity[heap[child]] < s->activity[heap[child+1]])
child++;
-
assert(child < size);
-
if (act >= s->activity[heap[child]])
break;
-
heap[i] = heap[child];
orderpos[heap[i]] = i;
i = child;
@@ -354,7 +284,6 @@ static inline int order_select(sat_solver2* s, float random_var_freq) // select
heap[i] = x;
orderpos[heap[i]] = i;
}
-
if (var_value(s, next) == varX)
return next;
}
@@ -446,13 +375,86 @@ static inline void act_clause_decay(sat_solver2* s) { s->cla_inc += (s->cla_inc
#endif
//=================================================================================================
+// Clause functions:
+
+static int clause_new(sat_solver2* s, lit* begin, lit* end, int learnt, int proof_id)
+{
+ satset* c;
+ int i, Cid, nLits = end - begin;
+ assert(nLits < 1 || begin[0] >= 0);
+ assert(nLits < 2 || begin[1] >= 0);
+ assert(nLits < 1 || lit_var(begin[0]) < s->size);
+ assert(nLits < 2 || lit_var(begin[1]) < s->size);
+ // add memory if needed
+ if ( veci_size(&s->clauses) + clause_size(nLits) > s->clauses.cap )
+ {
+ int nMemAlloc = s->clauses.cap ? 2 * s->clauses.cap : (1 << 20);
+ s->clauses.ptr = ABC_REALLOC( int, veci_begin(&s->clauses), nMemAlloc );
+ memset( veci_begin(&s->clauses) + s->clauses.cap, 0, sizeof(int) * (nMemAlloc - s->clauses.cap) );
+// printf( "Reallocing from %d to %d...\n", s->clauses.cap, nMemAlloc );
+ s->clauses.cap = nMemAlloc;
+ s->clauses.size = Abc_MaxInt( veci_size(&s->clauses), 2 );
+ }
+ // create clause
+ c = (satset*)(veci_begin(&s->clauses) + veci_size(&s->clauses));
+ c->learnt = learnt;
+ c->nLits = nLits;
+ for (i = 0; i < nLits; i++)
+ c->pLits[i] = begin[i];
+ // assign clause ID
+ if ( learnt )
+ {
+ c->Id = s->stats.learnts + 1;
+ assert( c->Id == veci_size(&s->claActs) );
+ veci_push(&s->claActs, 0);
+ if ( proof_id )
+ veci_push(&s->claProofs, proof_id);
+
+ if ( nLits > 2 )
+ act_clause_bump( s,c );
+
+ s->stats.learnts++;
+ s->stats.learnts_literals += nLits;
+ }
+ else
+ {
+ c->Id = s->stats.clauses + 1;
+
+ // count literals
+ s->stats.clauses++;
+ s->stats.clauses_literals += nLits;
+ }
+
+ // extend storage
+ Cid = veci_size(&s->clauses);
+ s->clauses.size += clause_size(nLits);
+ if ( veci_size(&s->clauses) > s->clauses.cap )
+ printf( "Out of memory!!!\n" );
+ assert( veci_size(&s->clauses) <= s->clauses.cap );
+ assert(((ABC_PTRUINT_T)c & 3) == 0);
+
+ // watch the clause
+ if ( nLits > 1 )
+ {
+ veci_push(solver2_wlist(s,lit_neg(begin[0])),clause_id(s,c));
+ veci_push(solver2_wlist(s,lit_neg(begin[1])),clause_id(s,c));
+ }
+
+ // remember the last one and first learnt
+ s->fLastConfId = Cid;
+ if ( learnt && s->iFirstLearnt == -1 )
+ s->iFirstLearnt = Cid;
+ return Cid;
+}
+
+//=================================================================================================
// Minor (solver) functions:
-static inline int enqueue(sat_solver2* s, lit l, int from)
+static inline int solver2_enqueue(sat_solver2* s, lit l, int from)
{
- int v = lit_var(l);
+ int v = lit_var(l);
#ifdef VERBOSEDEBUG
- printf(L_IND"enqueue("L_LIT")\n", L_ind, L_lit(l));
+ printf(L_IND"solver2_enqueue("L_LIT")\n", L_ind, L_lit(l));
#endif
if (var_value(s, v) != varX)
return var_value(s, v) == lit_sign(l);
@@ -463,25 +465,25 @@ static inline int enqueue(sat_solver2* s, lit l, int from)
#endif
var_set_value( s, v, lit_sign(l) );
var_set_level( s, v, solver2_dlevel(s) );
- s->reasons[v] = from;
+ s->reasons[v] = from; // = from << 1;
s->trail[s->qtail++] = l;
order_assigned(s, v);
return true;
}
}
-static inline int assume(sat_solver2* s, lit l)
+static inline int solver2_assume(sat_solver2* s, lit l)
{
assert(s->qtail == s->qhead);
assert(var_value(s, lit_var(l)) == varX);
#ifdef VERBOSEDEBUG
- printf(L_IND"assume("L_LIT")\n", L_ind, L_lit(l));
+ printf(L_IND"solver2_assume("L_LIT")\n", L_ind, L_lit(l));
#endif
veci_push(&s->trail_lim,s->qtail);
- return enqueue(s,l,0);
+ return solver2_enqueue(s,l,0);
}
-static void sat_solver2_canceluntil(sat_solver2* s, int level) {
+static void solver2_canceluntil(sat_solver2* s, int level) {
lit* trail;
int bound;
int lastLev;
@@ -510,24 +512,23 @@ static void sat_solver2_canceluntil(sat_solver2* s, int level) {
veci_resize(&s->trail_lim,level);
}
-static void sat_solver2_record(sat_solver2* s, veci* cls)
+
+static void solver2_record(sat_solver2* s, veci* cls, int proof_id)
{
lit* begin = veci_begin(cls);
lit* end = begin + veci_size(cls);
- int c = (veci_size(cls) > 1) ? clause_new(s,begin,end,1) : 0;
- enqueue(s,*begin,c);
-
+ int Cid = clause_new(s,begin,end,1, proof_id);
assert(veci_size(cls) > 0);
-
- if (c) {
- act_clause_bump(s,get_clause(s,c));
- s->stats.learnts++;
- s->stats.learnts_literals += veci_size(cls);
+ if ( veci_size(cls) == 1 )
+ {
+ var_set_unit_clause(s, lit_var(begin[0]), Cid);
+ Cid = 0;
}
+ solver2_enqueue(s, begin[0], Cid);
}
-static double sat_solver2_progress(sat_solver2* s)
+static double solver2_progress(sat_solver2* s)
{
int i;
double progress = 0.0, F = 1.0 / s->size;
@@ -591,29 +592,37 @@ void Solver::analyzeFinal(satset* confl, bool skip_first)
#ifdef SAT_USE_ANALYZE_FINAL
-static void sat_solver2_analyze_final(sat_solver2* s, satset* conf, int skip_first)
+static int solver2_analyze_final(sat_solver2* s, satset* conf, int skip_first)
{
- int i, j, start, x;
+ int i, j, x;//, start;
veci_resize(&s->conf_final,0);
if ( s->root_level == 0 )
- return;
+ return -1;
+ proof_chain_start( s, conf );
assert( veci_size(&s->tagged) == 0 );
- for (i = skip_first ? 1 : 0; i < clause_nlits(conf); i++)
+ for ( i = skip_first; i < (int)conf->nLits; i++ )
{
- x = lit_var(clause_begin(conf)[i]);
+ x = lit_var(conf->pLits[i]);
if ( var_level(s,x) )
var_set_tag(s, x, 1);
+ else
+ proof_chain_resolve( s, NULL, x );
}
- start = (s->root_level >= veci_size(&s->trail_lim))? s->qtail-1 : (veci_begin(&s->trail_lim))[s->root_level];
- for (i = start; i >= (veci_begin(&s->trail_lim))[0]; i--){
+ assert( s->root_level >= veci_size(&s->trail_lim) );
+// start = (s->root_level >= veci_size(&s->trail_lim))? s->qtail-1 : (veci_begin(&s->trail_lim))[s->root_level];
+ for (i = s->qtail-1; i >= (veci_begin(&s->trail_lim))[0]; i--){
x = lit_var(s->trail[i]);
if (var_tag(s,x)){
satset* c = get_clause(s, var_reason(s,x));
if (c){
- int* lits = clause_begin(c);
- for (j = 1; j < clause_nlits(c); j++)
- if ( var_level(s,lit_var(lits[j])) )
- var_set_tag(s, lit_var(lits[j]), 1);
+ proof_chain_resolve( s, c, x );
+ for (j = 1; j < (int)c->nLits; j++) {
+ x = lit_var(c->pLits[j]);
+ if ( var_level(s,x) )
+ var_set_tag(s, x, 1);
+ else
+ proof_chain_resolve( s, NULL, x );
+ }
}else {
assert( var_level(s,x) );
veci_push(&s->conf_final,lit_neg(s->trail[i]));
@@ -621,12 +630,13 @@ static void sat_solver2_analyze_final(sat_solver2* s, satset* conf, int skip_fir
}
}
solver2_clear_tags(s,0);
+ return proof_chain_stop( s );
}
#endif
-static int sat_solver2_lit_removable_rec(sat_solver2* s, int v)
+static int solver2_lit_removable_rec(sat_solver2* s, int v)
{
// tag[0]: True if original conflict clause literal.
// tag[1]: Processed by this procedure
@@ -649,10 +659,10 @@ static int sat_solver2_lit_removable_rec(sat_solver2* s, int v)
for ( i = 1; i < (int)c->nLits; i++ ){
x = lit_var(c->pLits[i]);
if (var_tag(s,x) & 1)
- sat_solver2_lit_removable_rec(s, x);
+ solver2_lit_removable_rec(s, x);
else{
if (var_level(s,x) == 0 || var_tag(s,x) == 6) continue; // -- 'x' checked before, found to be removable (or belongs to the toplevel)
- if (var_tag(s,x) == 2 || !var_lev_mark(s,x) || !sat_solver2_lit_removable_rec(s, x))
+ if (var_tag(s,x) == 2 || !var_lev_mark(s,x) || !solver2_lit_removable_rec(s, x))
{ // -- 'x' checked before, found NOT to be removable, or it belongs to a wrong level, or cannot be removed
var_add_tag(s,v,2);
return 0;
@@ -665,7 +675,7 @@ static int sat_solver2_lit_removable_rec(sat_solver2* s, int v)
return 1;
}
-static int sat_solver2_lit_removable(sat_solver2* s, int x)
+static int solver2_lit_removable(sat_solver2* s, int x)
{
satset* c;
int i, top;
@@ -707,7 +717,7 @@ static int sat_solver2_lit_removable(sat_solver2* s, int x)
return 1;
}
-static void sat_solver2_logging_order(sat_solver2* s, int x)
+static void solver2_logging_order(sat_solver2* s, int x)
{
satset* c;
int i;
@@ -727,7 +737,7 @@ static void sat_solver2_logging_order(sat_solver2* s, int x)
x >>= 1;
c = get_clause(s, var_reason(s,x));
// if ( !c )
-// printf( "sat_solver2_logging_order(): Error in conflict analysis!!!\n" );
+// printf( "solver2_logging_order(): Error in conflict analysis!!!\n" );
for (i = 1; i < (int)c->nLits; i++){
x = lit_var(c->pLits[i]);
if ( !var_level(s,x) || (var_tag(s,x) & 1) )
@@ -738,53 +748,23 @@ static void sat_solver2_logging_order(sat_solver2* s, int x)
}
}
-static void sat_solver2_analyze(sat_solver2* s, satset* c, veci* learnt)
+static int solver2_analyze(sat_solver2* s, satset* c, veci* learnt)
{
- int cnt = 0;
- lit p = lit_Undef;
- int x, ind = s->qtail-1;
+ int cnt = 0;
+ lit p = lit_Undef;
+ int x, ind = s->qtail-1;
+ int proof_id = 0;
lit* lits,* vars, i, j, k;
assert( veci_size(&s->tagged) == 0 );
// tag[0] - visited by conflict analysis (afterwards: literals of the learned clause)
- // tag[1] - visited by sat_solver2_lit_removable() with success
- // tag[2] - visited by sat_solver2_logging_order()
-/*
- proof_chain_start( s, c );
- veci_push(learnt,lit_Undef);
- do{
- assert(c != 0);
- if (clause_learnt(c))
- act_clause_bump(s,c);
-
- lits = clause_begin(c);
- for (j = (p == lit_Undef ? 0 : 1); j < clause_nlits(c); j++){
- lit q = lits[j];
- assert(lit_var(q) >= 0 && lit_var(q) < s->size);
- if (!var_tag(s, lit_var(q)) && var_level(s,lit_var(q))){
- var_set_tag(s, lit_var(q), 1);
- act_var_bump(s,lit_var(q));
- if (var_level(s,lit_var(q)) == solver2_dlevel(s))
- cnt++;
- else
- veci_push(learnt,q);
- }
- }
-
- while (!var_tag(s, lit_var(s->trail[ind--])));
-
- p = s->trail[ind+1];
- c = get_clause(s, lit_reason(s,p));
- cnt--;
-
- }while (cnt > 0);
- *veci_begin(learnt) = lit_neg(p);
-*/
+ // tag[1] - visited by solver2_lit_removable() with success
+ // tag[2] - visited by solver2_logging_order()
proof_chain_start( s, c );
veci_push(learnt,lit_Undef);
while ( 1 ){
assert(c != 0);
- if (clause_learnt(c))
+ if (c->learnt)
act_clause_bump(s,c);
for ( j = (int)(p != lit_Undef); j < (int)c->nLits; j++){
x = lit_var(c->pLits[j]);
@@ -793,7 +773,7 @@ static void sat_solver2_analyze(sat_solver2* s, satset* c, veci* learnt)
continue;
if ( var_level(s,x) == 0 )
{
- proof_chain_resolve( s, var_unit_clause(s, x), x );
+ proof_chain_resolve( s, NULL, x );
continue;
}
var_set_tag(s, x, 1);
@@ -824,8 +804,8 @@ static void sat_solver2_analyze(sat_solver2* s, satset* c, veci* learnt)
// simplify (full)
veci_resize(&s->min_lit_order, 0);
for (i = j = 1; i < veci_size(learnt); i++){
-// if (!sat_solver2_lit_removable_rec(s,lit_var(lits[i]))) // changed to vars!!!
- if (!sat_solver2_lit_removable( s,lit_var(lits[i])) )
+// if (!solver2_lit_removable_rec(s,lit_var(lits[i]))) // changed to vars!!!
+ if (!solver2_lit_removable( s,lit_var(lits[i])) )
lits[j++] = lits[i];
}
@@ -836,7 +816,7 @@ static void sat_solver2_analyze(sat_solver2* s, satset* c, veci* learnt)
veci_resize(&s->min_step_order, 0);
vars = veci_begin(&s->min_lit_order);
for (i = 0; i < veci_size(&s->min_lit_order); i++)
- sat_solver2_logging_order( s, vars[i] );
+ solver2_logging_order( s, vars[i] );
// add them in the reverse order
vars = veci_begin(&s->min_step_order);
@@ -847,10 +827,10 @@ static void sat_solver2_analyze(sat_solver2* s, satset* c, veci* learnt)
{
x = lit_var(c->pLits[k]);
if ( var_level(s,x) == 0 )
- proof_chain_resolve( s, var_unit_clause(s, x), x );
+ proof_chain_resolve( s, NULL, x );
}
}
- proof_chain_stop( s );
+ proof_id = proof_chain_stop( s );
}
// unmark levels
@@ -893,9 +873,10 @@ static void sat_solver2_analyze(sat_solver2* s, satset* c, veci* learnt)
printf(" } at level %d\n", lev);
}
#endif
+ return proof_id;
}
-satset* sat_solver2_propagate(sat_solver2* s)
+satset* solver2_propagate(sat_solver2* s)
{
satset* c, * confl = NULL;
veci* ws;
@@ -903,6 +884,7 @@ satset* sat_solver2_propagate(sat_solver2* s)
cla* begin,* end, *i, *j;
while (confl == 0 && s->qtail - s->qhead > 0){
+
p = s->trail[s->qhead++];
ws = solver2_wlist(s,p);
begin = (cla*)veci_begin(ws);
@@ -912,48 +894,71 @@ satset* sat_solver2_propagate(sat_solver2* s)
s->simpdb_props--;
for (i = j = begin; i < end; ){
- {
- c = get_clause(s,*i);
- lits = clause_begin(c);
-
- // Make sure the false literal is data[1]:
- false_lit = lit_neg(p);
- if (lits[0] == false_lit){
- lits[0] = lits[1];
- lits[1] = false_lit;
+ c = get_clause(s,*i);
+ lits = c->pLits;
+
+ // Make sure the false literal is data[1]:
+ false_lit = lit_neg(p);
+ if (lits[0] == false_lit){
+ lits[0] = lits[1];
+ lits[1] = false_lit;
+ }
+ assert(lits[1] == false_lit);
+
+ // If 0th watch is true, then clause is already satisfied.
+ if (var_value(s, lit_var(lits[0])) == lit_sign(lits[0]))
+ *j++ = *i;
+ else{
+ // Look for new watch:
+ stop = lits + c->nLits;
+ for (k = lits + 2; k < stop; k++){
+ if (var_value(s, lit_var(*k)) != !lit_sign(*k)){
+ lits[1] = *k;
+ *k = false_lit;
+ veci_push(solver2_wlist(s,lit_neg(lits[1])),*i);
+ goto WatchFound; }
}
- assert(lits[1] == false_lit);
-
- // If 0th watch is true, then clause is already satisfied.
- // sig = !lit_sign(lits[0]); sig += sig - 1;
- // if (values[lit_var(lits[0])] == sig){
- if (var_value(s, lit_var(lits[0])) == lit_sign(lits[0]))
- *j++ = *i;
- else{
- // Look for new watch:
- stop = lits + clause_nlits(c);
- for (k = lits + 2; k < stop; k++){
- // lbool sig = lit_sign(*k); sig += sig - 1;
- // if (values[lit_var(*k)] != sig){
- if (var_value(s, lit_var(*k)) != !lit_sign(*k)){
- lits[1] = *k;
- *k = false_lit;
- veci_push(solver2_wlist(s,lit_neg(lits[1])),*i);
- goto next; }
- }
- *j++ = *i;
- // Clause is unit under assignment:
- if (!enqueue(s,lits[0], *i)){
- confl = get_clause(s,*i++);
- // Copy the remaining watches:
- // s->stats.inspects2 += end - i;
- while (i < end)
- *j++ = *i++;
+ // Did not find watch -- clause is unit under assignment:
+ if (s->fProofLogging && solver2_dlevel(s) == 0){
+ int k, proof_id, Cid, Var = lit_var(lits[0]);
+ int fLitIsFalse = (var_value(s, Var) == !lit_sign(lits[0]));
+ // Log production of top-level unit clause:
+ proof_chain_start( s, c );
+ for ( k = 1; k < (int)c->nLits; k++ )
+ {
+ int x = lit_var(c->pLits[k]);
+ assert( var_level(s, x) == 0 );
+ proof_chain_resolve( s, NULL, x );
+ }
+ proof_id = proof_chain_stop( s );
+//printf( "Deriving clause %d\n", lits[0] );
+ // get a new clause
+ Cid = clause_new( s, lits, lits + 1, 1, proof_id );
+ assert( (var_unit_clause(s, Var) == NULL) != fLitIsFalse );
+ // if variable already has unit clause, it must be with the other polarity
+ // in this case, we should derive the empty clause here
+ if ( var_unit_clause(s, Var) == NULL )
+ var_set_unit_clause(s, Var, Cid);
+ else{
+ // Empty clause derived:
+ proof_chain_start( s, get_clause(s,Cid) );
+ proof_chain_resolve( s, NULL, Var );
+ proof_id = proof_chain_stop( s );
+ clause_new( s, lits, lits, 1, proof_id );
}
}
+
+ *j++ = *i;
+ // Clause is unit under assignment:
+ if (!solver2_enqueue(s,lits[0], *i)){
+ confl = get_clause(s,*i++);
+ // Copy the remaining watches:
+ while (i < end)
+ *j++ = *i++;
+ }
}
-next: i++;
+WatchFound: i++;
}
s->stats.inspects += j - (int*)veci_begin(ws);
veci_resize(ws,j - (int*)veci_begin(ws));
@@ -966,30 +971,28 @@ next: i++;
static void clause_remove(sat_solver2* s, satset* c)
{
- lit* lits = clause_begin(c);
- assert(lit_neg(lits[0]) < s->size*2);
- assert(lit_neg(lits[1]) < s->size*2);
+ assert(lit_neg(c->pLits[0]) < s->size*2);
+ assert(lit_neg(c->pLits[1]) < s->size*2);
- veci_remove(solver2_wlist(s,lit_neg(lits[0])),clause_id(s,c));
- veci_remove(solver2_wlist(s,lit_neg(lits[1])),clause_id(s,c));
+ veci_remove(solver2_wlist(s,lit_neg(c->pLits[0])),clause_id(s,c));
+ veci_remove(solver2_wlist(s,lit_neg(c->pLits[1])),clause_id(s,c));
- if (clause_learnt(c)){
+ if (c->learnt){
s->stats.learnts--;
- s->stats.learnts_literals -= clause_nlits(c);
+ s->stats.learnts_literals -= c->nLits;
}else{
s->stats.clauses--;
- s->stats.clauses_literals -= clause_nlits(c);
+ s->stats.clauses_literals -= c->nLits;
}
}
static lbool clause_simplify(sat_solver2* s, satset* c)
{
- lit* lits = clause_begin(c);
int i;
assert(solver2_dlevel(s) == 0);
- for (i = 0; i < clause_nlits(c); i++){
- if (var_value(s, lit_var(lits[i])) == lit_sign(lits[i]))
+ for (i = 0; i < (int)c->nLits; i++){
+ if (var_value(s, lit_var(c->pLits[i])) == lit_sign(c->pLits[i]))
return l_True;
}
return l_False;
@@ -1000,7 +1003,7 @@ int sat_solver2_simplify(sat_solver2* s)
// int type;
int Counter = 0;
assert(solver2_dlevel(s) == 0);
- if (sat_solver2_propagate(s) != 0)
+ if (solver2_propagate(s) != 0)
return false;
if (s->qhead == s->simpdb_assigns || s->simpdb_props > 0)
return true;
@@ -1011,7 +1014,7 @@ int sat_solver2_simplify(sat_solver2* s)
int i, j;
for (j = i = 0; i < veci_size(cs); i++){
satset* c = get_clause(s,cls[i]);
- if (lit_reason(s,*clause_begin(c)) != cls[i] &&
+ if (lit_reason(s,c->pLits[0]) != cls[i] &&
clause_simplify(s,c) == l_True)
clause_remove(s,c), Counter++;
else
@@ -1027,7 +1030,7 @@ int sat_solver2_simplify(sat_solver2* s)
return true;
}
-void sat_solver2_reducedb(sat_solver2* s)
+void solver2_reducedb(sat_solver2* s)
{
/*
satset* c;
@@ -1051,7 +1054,7 @@ void sat_solver2_reducedb(sat_solver2* s)
{
assert( c->Id == k );
c->mark = 0;
- if ( clause_nlits(c) > 2 && lit_reason(s,*clause_begin(c)) != Cid && (k < nLearnts/2 || pActs[k] < extra_lim) )
+ if ( c->nLits > 2 && lit_reason(s,c->pLits[0]) != Cid && (k < nLearnts/2 || pActs[k] < extra_lim) )
{
c->mark = 1;
Counter++;
@@ -1066,12 +1069,13 @@ Abc_PrintTime( 1, "Time", clock() - clk );
}
-static lbool sat_solver2_search(sat_solver2* s, ABC_INT64_T nof_conflicts, ABC_INT64_T * nof_learnts)
+static lbool solver2_search(sat_solver2* s, ABC_INT64_T nof_conflicts, ABC_INT64_T * nof_learnts)
{
double random_var_freq = s->fNotUseRandom ? 0.0 : 0.02;
ABC_INT64_T conflictC = 0;
veci learnt_clause;
+ int proof_id;
assert(s->root_level == solver2_dlevel(s));
@@ -1080,7 +1084,7 @@ static lbool sat_solver2_search(sat_solver2* s, ABC_INT64_T nof_conflicts, ABC_I
veci_new(&learnt_clause);
for (;;){
- satset* confl = sat_solver2_propagate(s);
+ satset* confl = solver2_propagate(s);
if (confl != 0){
// CONFLICT
int blevel;
@@ -1089,20 +1093,22 @@ static lbool sat_solver2_search(sat_solver2* s, ABC_INT64_T nof_conflicts, ABC_I
printf(L_IND"**CONFLICT**\n", L_ind);
#endif
s->stats.conflicts++; conflictC++;
- if (solver2_dlevel(s) == s->root_level){
+ if (solver2_dlevel(s) <= s->root_level){
#ifdef SAT_USE_ANALYZE_FINAL
- sat_solver2_analyze_final(s, confl, 0);
+ proof_id = solver2_analyze_final(s, confl, 0);
+ if ( proof_id > 0 )
+ solver2_record(s,&s->conf_final, proof_id);
#endif
veci_delete(&learnt_clause);
return l_False;
}
veci_resize(&learnt_clause,0);
- sat_solver2_analyze(s, confl, &learnt_clause);
+ proof_id = solver2_analyze(s, confl, &learnt_clause);
blevel = veci_size(&learnt_clause) > 1 ? var_level(s, lit_var(veci_begin(&learnt_clause)[1])) : s->root_level;
blevel = s->root_level > blevel ? s->root_level : blevel;
- sat_solver2_canceluntil(s,blevel);
- sat_solver2_record(s,&learnt_clause);
+ solver2_canceluntil(s,blevel);
+ solver2_record(s,&learnt_clause, proof_id);
#ifdef SAT_USE_ANALYZE_FINAL
// if (learnt_clause.size() == 1) level[var(learnt_clause[0])] = 0;
// (this is ugly (but needed for 'analyzeFinal()') -- in future versions, we will backtrack past the 'root_level' and redo the assumptions)
@@ -1118,8 +1124,8 @@ static lbool sat_solver2_search(sat_solver2* s, ABC_INT64_T nof_conflicts, ABC_I
if (nof_conflicts >= 0 && conflictC >= nof_conflicts){
// Reached bound on number of conflicts:
- s->progress_estimate = sat_solver2_progress(s);
- sat_solver2_canceluntil(s,s->root_level);
+ s->progress_estimate = solver2_progress(s);
+ solver2_canceluntil(s,s->root_level);
veci_delete(&learnt_clause);
return l_Undef; }
@@ -1128,8 +1134,8 @@ static lbool sat_solver2_search(sat_solver2* s, ABC_INT64_T nof_conflicts, ABC_I
(s->nInsLimit && s->stats.propagations > s->nInsLimit) )
{
// Reached bound on number of conflicts:
- s->progress_estimate = sat_solver2_progress(s);
- sat_solver2_canceluntil(s,s->root_level);
+ s->progress_estimate = solver2_progress(s);
+ solver2_canceluntil(s,s->root_level);
veci_delete(&learnt_clause);
return l_Undef;
}
@@ -1141,7 +1147,7 @@ static lbool sat_solver2_search(sat_solver2* s, ABC_INT64_T nof_conflicts, ABC_I
if (*nof_learnts >= 0 && s->stats.learnts - s->qtail >= *nof_learnts)
{
// Reduce the set of learnt clauses:
- sat_solver2_reducedb(s);
+ solver2_reducedb(s);
*nof_learnts = *nof_learnts * 11 / 10; //*= 1.1;
}
@@ -1155,7 +1161,7 @@ static lbool sat_solver2_search(sat_solver2* s, ABC_INT64_T nof_conflicts, ABC_I
veci_resize(&s->model, 0);
for (i = 0; i < s->size; i++)
veci_push( &s->model, var_value(s,i)==var1 ? l_True : l_False );
- sat_solver2_canceluntil(s,s->root_level);
+ solver2_canceluntil(s,s->root_level);
veci_delete(&learnt_clause);
/*
@@ -1170,9 +1176,9 @@ static lbool sat_solver2_search(sat_solver2* s, ABC_INT64_T nof_conflicts, ABC_I
}
if ( var_polar(s, next) ) // positive polarity
- assume(s,toLit(next));
+ solver2_assume(s,toLit(next));
else
- assume(s,lit_neg(toLit(next)));
+ solver2_assume(s,lit_neg(toLit(next)));
}
}
@@ -1203,8 +1209,8 @@ sat_solver2* sat_solver2_new(void)
veci_new(&s->claProofs); veci_push(&s->claProofs, -1);
// initialize other
- s->iLearnt = -1; // the first learnt clause
- s->iLast = -1; // the last learnt clause
+ s->iFirstLearnt = -1; // the first learnt clause
+ s->fLastConfId = -1; // the last learnt clause
#ifdef USE_FLOAT_ACTIVITY
s->var_inc = 1;
s->cla_inc = 1;
@@ -1216,6 +1222,16 @@ sat_solver2* sat_solver2_new(void)
#endif
s->random_seed = 91648253;
s->fProofLogging = 1;
+/*
+ // prealloc some arrays
+ if ( s->fProofLogging )
+ {
+ s->proof_clas.cap = (1 << 20);
+ s->proof_clas.ptr = ABC_ALLOC( int, s->proof_clas.cap );
+ s->proof_vars.cap = (1 << 20);
+ s->proof_vars.ptr = ABC_ALLOC( int, s->proof_clas.cap );
+ }
+*/
return s;
}
@@ -1230,9 +1246,11 @@ void sat_solver2_setnvars(sat_solver2* s,int n)
s->wlists = ABC_REALLOC(veci, s->wlists, s->cap*2);
s->vi = ABC_REALLOC(varinfo, s->vi, s->cap);
+ s->trail = ABC_REALLOC(lit, s->trail, s->cap);
s->orderpos = ABC_REALLOC(int, s->orderpos, s->cap);
s->reasons = ABC_REALLOC(cla, s->reasons, s->cap);
- s->trail = ABC_REALLOC(lit, s->trail, s->cap);
+ if ( s->fProofLogging )
+ s->units = ABC_REALLOC(cla, s->units, s->cap);
#ifdef USE_FLOAT_ACTIVITY
s->activity = ABC_REALLOC(double, s->activity, s->cap);
#else
@@ -1244,9 +1262,10 @@ void sat_solver2_setnvars(sat_solver2* s,int n)
veci_new(&s->wlists[2*var]);
veci_new(&s->wlists[2*var+1]);
*((int*)s->vi + var) = 0; s->vi[var].val = varX;
- s->activity [var] = (1<<10);
- s->orderpos [var] = veci_size(&s->order);
- s->reasons [var] = 0;
+ s->orderpos[var] = veci_size(&s->order);
+ s->reasons [var] = 0;
+ s->units [var] = 0;
+ s->activity[var] = (1<<10);
// does not hold because variables enqueued at top level will not be reinserted in the heap
// assert(veci_size(&s->order) == var);
veci_push(&s->order,var);
@@ -1286,31 +1305,36 @@ void sat_solver2_delete(sat_solver2* s)
veci_delete(&s->wlists[i]);
ABC_FREE(s->wlists );
ABC_FREE(s->vi );
+ ABC_FREE(s->trail );
ABC_FREE(s->orderpos );
ABC_FREE(s->reasons );
- ABC_FREE(s->trail );
+ ABC_FREE(s->units );
ABC_FREE(s->activity );
}
ABC_FREE(s);
}
-int sat_solver2_addclause(sat_solver2* s, lit* begin, lit* end)
+int sat_solver2_addclause__(sat_solver2* s, lit* begin, lit* end)
{
- int c;
+ cla Cid;
lit *i,*j;
int maxvar;
lit last;
+ if (begin == end)
+ {
+ assert( 0 );
+ return false;
+ }
+
+ // copy clause into storage
veci_resize( &s->temp_clause, 0 );
for ( i = begin; i < end; i++ )
veci_push( &s->temp_clause, *i );
begin = veci_begin( &s->temp_clause );
end = begin + veci_size( &s->temp_clause );
- if (begin == end)
- return false;
-
//printlits(begin,end); printf("\n");
// insertion sort
maxvar = lit_var(*begin);
@@ -1322,38 +1346,73 @@ int sat_solver2_addclause(sat_solver2* s, lit* begin, lit* end)
*j = l;
}
sat_solver2_setnvars(s,maxvar+1);
-// sat_solver2_setnvars(s, lit_var(*(end-1))+1 );
-
- //printlits(begin,end); printf("\n");
-// values = s->assigns;
// delete duplicates
last = lit_Undef;
for (i = j = begin; i < end; i++){
//printf("lit: "L_LIT", value = %d\n", L_lit(*i), (lit_sign(*i) ? -values[lit_var(*i)] : values[lit_var(*i)]));
-// lbool sig = !lit_sign(*i); sig += sig - 1;
-// if (*i == lit_neg(last) || sig == values[lit_var(*i)])
if (*i == lit_neg(last) || var_value(s, lit_var(*i)) == lit_sign(*i))
return true; // tautology
-// else if (*i != last && values[lit_var(*i)] == l_Undef)
else if (*i != last && var_value(s, lit_var(*i)) == varX)
last = *j++ = *i;
}
-
//printf("final: "); printlits(begin,j); printf("\n");
-
if (j == begin) // empty clause
+ {
+ assert( 0 );
return false;
+ }
if (j - begin == 1) // unit clause
- return enqueue(s,*begin,0);
+ return solver2_enqueue(s,*begin,0);
// create new clause
- c = clause_new(s,begin,j,0);
+ Cid = clause_new(s,begin,j,0,0);
+ return true;
+}
+int sat_solver2_addclause(sat_solver2* s, lit* begin, lit* end)
+{
+ cla Cid;
+ lit *i,*j;
+ int maxvar;
+ assert( begin < end );
+
+ // copy clause into storage
+ veci_resize( &s->temp_clause, 0 );
+ for ( i = begin; i < end; i++ )
+ veci_push( &s->temp_clause, *i );
+ begin = veci_begin( &s->temp_clause );
+ end = begin + veci_size( &s->temp_clause );
+
+ // insertion sort
+ maxvar = lit_var(*begin);
+ for (i = begin + 1; i < end; i++){
+ lit l = *i;
+ maxvar = lit_var(l) > maxvar ? lit_var(l) : maxvar;
+ for (j = i; j > begin && *(j-1) > l; j--)
+ *j = *(j-1);
+ *j = l;
+ }
+ sat_solver2_setnvars(s,maxvar+1);
+
+ // create a new clause
+ Cid = clause_new( s, begin, end, 0, 0 );
+ // handle unit clause
+ if ( begin + 1 == end )
+ {
+ printf( "Adding unit clause %d\n", begin[0] );
+// solver2_canceluntil(s, 0);
+ if ( s->fProofLogging )
+ var_set_unit_clause( s, lit_var(begin[0]), Cid );
+ if ( !solver2_enqueue(s,begin[0],0) )
+ assert( 0 );
+ }
+
+ // count literals
s->stats.clauses++;
- s->stats.clauses_literals += j - begin;
- return true;
+ s->stats.clauses_literals += end - begin;
+ return 1;
}
@@ -1386,6 +1445,8 @@ int sat_solver2_solve(sat_solver2* s, lit* begin, lit* end, ABC_INT64_T nConfLim
// lbool* values = s->assigns;
lit* i;
+ s->fLastConfId = -1;
+
// set the external limits
// s->nCalls++;
// s->nRestarts = 0;
@@ -1410,12 +1471,12 @@ int sat_solver2_solve(sat_solver2* s, lit* begin, lit* end, ABC_INT64_T nConfLim
case var1: // l_True:
break;
case varX: // l_Undef
- assume(s, *i);
- if (sat_solver2_propagate(s) == NULL)
+ solver2_assume(s, *i);
+ if (solver2_propagate(s) == NULL)
break;
// fallthrough
case var0: // l_False
- sat_solver2_canceluntil(s, 0);
+ solver2_canceluntil(s, 0);
return l_False;
}
}
@@ -1429,7 +1490,7 @@ int sat_solver2_solve(sat_solver2* s, lit* begin, lit* end, ABC_INT64_T nConfLim
for (int i = 0; i < assumps.size(); i++){
Lit p = assumps[i];
assert(var(p) < nVars());
- if (!assume(p)){
+ if (!solver2_assume(p)){
GClause r = reason[var(p)];
if (r != GClause_NULL){
satset* confl;
@@ -1463,31 +1524,35 @@ int sat_solver2_solve(sat_solver2* s, lit* begin, lit* end, ABC_INT64_T nConfLim
lit p = *i;
assert(lit_var(p) < s->size);
veci_push(&s->trail_lim,s->qtail);
- if (!enqueue(s,p,0))
+ if (!solver2_enqueue(s,p,0))
{
satset* r = get_clause(s, lit_reason(s,p));
if (r != NULL)
{
satset* confl = r;
- sat_solver2_analyze_final(s, confl, 1);
+ solver2_analyze_final(s, confl, 1);
veci_push(&s->conf_final, lit_neg(p));
}
else
{
veci_resize(&s->conf_final,0);
veci_push(&s->conf_final, lit_neg(p));
+ // the two lines below are a bug fix by Siert Wieringa
+ if (var_level(s, lit_var(p)) > 0)
+ veci_push(&s->conf_final, p);
}
- sat_solver2_canceluntil(s, 0);
+ solver2_canceluntil(s, 0);
return l_False;
}
else
{
- satset* confl = sat_solver2_propagate(s);
+ satset* confl = solver2_propagate(s);
if (confl != NULL){
- sat_solver2_analyze_final(s, confl, 0);
+ solver2_analyze_final(s, confl, 0);
assert(s->conf_final.size > 0);
- sat_solver2_canceluntil(s, 0);
- return l_False; }
+ solver2_canceluntil(s, 0);
+ return l_False;
+ }
}
}
assert(s->root_level == solver2_dlevel(s));
@@ -1525,7 +1590,7 @@ int sat_solver2_solve(sat_solver2* s, lit* begin, lit* end, ABC_INT64_T nConfLim
nof_conflicts = (ABC_INT64_T)( 100 * luby2(2, restart_iter++) );
//printf( "%d ", (int)nof_conflicts );
// nConfs = s->stats.conflicts;
- status = sat_solver2_search(s, nof_conflicts, &nof_learnts);
+ status = solver2_search(s, nof_conflicts, &nof_learnts);
// if ( status == l_True )
// printf( "%d ", s->stats.conflicts - nConfs );
@@ -1550,7 +1615,7 @@ int sat_solver2_solve(sat_solver2* s, lit* begin, lit* end, ABC_INT64_T nConfLim
if (s->verbosity >= 1)
printf("==============================================================================\n");
- sat_solver2_canceluntil(s,0);
+ solver2_canceluntil(s,0);
return status;
}
diff --git a/src/sat/bsat/satSolver2.h b/src/sat/bsat/satSolver2.h
index 937972a6..134f6e57 100644
--- a/src/sat/bsat/satSolver2.h
+++ b/src/sat/bsat/satSolver2.h
@@ -93,8 +93,7 @@ struct sat_solver2_t
// clauses
veci clauses; // clause memory
veci* wlists; // watcher lists (for each literal)
- int iLearnt; // the first learnt clause
- int iLast; // the last learnt clause
+ int iFirstLearnt; // the first learnt clause
// activities
#ifdef USE_FLOAT_ACTIVITY
@@ -113,9 +112,10 @@ struct sat_solver2_t
// internal state
varinfo * vi; // variable information
- cla* reasons;
- lit* trail;
+ lit* trail; // sequence of assignment and implications
int* orderpos; // Index in variable order.
+ cla* reasons; // reason clauses
+ cla* units; // unit clauses
veci tagged; // (contains: var)
veci stack; // (contains: var)
@@ -132,7 +132,8 @@ struct sat_solver2_t
// proof logging
veci proof_clas; // sequence of proof clauses
veci proof_vars; // sequence of proof variables
- int iStartChain; // beginning of the chain
+ int iStartChain; // temporary variable to remember beginning of the current chain in proof logging
+ int fLastConfId; // in proof-logging mode, the ID of the final conflict clause (conf_final)
// statistics
stats_t stats;