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lvzhengyang
abc
Commits
5161978d
Commit
5161978d
authored
Dec 01, 2011
by
Alan Mishchenko
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Started proof transformations.
parent
1c16c456
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4 changed files
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497 additions
and
0 deletions
+497
-0
abclib.dsp
+4
-0
src/misc/vec/vecInt.h
+16
-0
src/sat/bsat/module.make
+1
-0
src/sat/bsat/satProof.c
+476
-0
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abclib.dsp
View file @
5161978d
...
@@ -1267,6 +1267,10 @@ SOURCE=.\src\sat\bsat\satMem.h
...
@@ -1267,6 +1267,10 @@ SOURCE=.\src\sat\bsat\satMem.h
# End Source File
# End Source File
# Begin Source File
# Begin Source File
SOURCE=.\src\sat\bsat\satProof.c
# End Source File
# Begin Source File
SOURCE=.\src\sat\bsat\satSolver.c
SOURCE=.\src\sat\bsat\satSolver.c
# End Source File
# End Source File
# Begin Source File
# Begin Source File
...
...
src/misc/vec/vecInt.h
View file @
5161978d
...
@@ -327,6 +327,22 @@ static inline int * Vec_IntArray( Vec_Int_t * p )
...
@@ -327,6 +327,22 @@ static inline int * Vec_IntArray( Vec_Int_t * p )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
static
inline
int
*
Vec_IntLimit
(
Vec_Int_t
*
p
)
{
return
p
->
pArray
+
p
->
nSize
;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
Vec_IntSize
(
Vec_Int_t
*
p
)
static
inline
int
Vec_IntSize
(
Vec_Int_t
*
p
)
{
{
return
p
->
nSize
;
return
p
->
nSize
;
...
...
src/sat/bsat/module.make
View file @
5161978d
...
@@ -3,6 +3,7 @@ SRC += src/sat/bsat/satMem.c \
...
@@ -3,6 +3,7 @@ SRC += src/sat/bsat/satMem.c \
src/sat/bsat/satInterA.c
\
src/sat/bsat/satInterA.c
\
src/sat/bsat/satInterB.c
\
src/sat/bsat/satInterB.c
\
src/sat/bsat/satInterP.c
\
src/sat/bsat/satInterP.c
\
src/sat/bsat/satProof.c
\
src/sat/bsat/satSolver.c
\
src/sat/bsat/satSolver.c
\
src/sat/bsat/satSolver2.c
\
src/sat/bsat/satSolver2.c
\
src/sat/bsat/satStore.c
\
src/sat/bsat/satStore.c
\
...
...
src/sat/bsat/satProof.c
0 → 100644
View file @
5161978d
/**CFile****************************************************************
FileName [satProof.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [SAT solver.]
Synopsis [Proof manipulation procedures.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [$Id: satProof.c,v 1.4 2005/09/16 22:55:03 casem Exp $]
***********************************************************************/
#include "satSolver.h"
#include "vec.h"
#include "aig.h"
ABC_NAMESPACE_IMPL_START
/*
Proof is represented as a vector of integers.
The first entry is -1.
The clause is represented as an offset in this array.
One clause's entry is <size><label><ant1><ant2>...<antN>
Label is initialized to 0.
Root clauses are 1-based. They are marked by prepending bit 1;
*/
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
typedef
struct
Sat_Set_t_
Sat_Set_t
;
struct
Sat_Set_t_
{
int
nEnts
;
int
Label
;
int
pEnts
[
0
];
};
static
inline
int
Sat_SetCheck
(
Vec_Int_t
*
p
,
Sat_Set_t
*
pNode
)
{
return
(
int
*
)
pNode
>
Vec_IntArray
(
p
)
&&
(
int
*
)
pNode
<
Vec_IntLimit
(
p
);
}
static
inline
int
Sat_SetId
(
Vec_Int_t
*
p
,
Sat_Set_t
*
pNode
)
{
return
(
int
*
)
pNode
-
Vec_IntArray
(
p
);
}
static
inline
Sat_Set_t
*
Sat_SetFromId
(
Vec_Int_t
*
p
,
int
i
)
{
return
(
Sat_Set_t
*
)(
Vec_IntArray
(
p
)
+
i
);
}
static
inline
int
Sat_SetSize
(
Sat_Set_t
*
pNode
)
{
return
pNode
->
nEnts
+
2
;
}
#define Sat_PoolForEachSet( p, pNode, i ) \
for ( i = 1; (i < Vec_IntSize(p)) && ((pNode) = Sat_SetFromId(p, Vec_IntEntry(p,i))); i += Sat_SetSize(pNode) )
#define Sat_SetForEachSet( p, pSet, pNode, i ) \
for ( i = 0; (i < pSet->nEnts) && (((pNode) = ((pSet->pEnts[i] & 1) ? NULL : Sat_SetFromId(p, pSet->pEnts[i]))), 1); i++ )
#define Sat_VecForEachSet( pVec, p, pNode, i ) \
for ( i = 0; (i < Vec_IntSize(pVec)) && ((pNode) = Sat_SetFromId(p, Vec_IntEntry(pVec,i))); i++ )
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Recursively visits useful proof nodes.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int
Sat_ProofReduceOne
(
Vec_Int_t
*
p
,
Sat_Set_t
*
pNode
,
int
*
pnSize
,
Vec_Int_t
*
vStack
)
{
Sat_Set_t
*
pNext
;
int
i
,
NodeId
;
if
(
pNode
->
Label
)
return
pNode
->
Label
;
// start with node
pNode
->
Label
=
1
;
Vec_IntPush
(
vStack
,
Sat_SetId
(
p
,
pNode
)
);
// perform DFS search
while
(
Vec_IntSize
(
vStack
)
)
{
NodeId
=
Vec_IntPop
(
vStack
);
if
(
NodeId
&
1
)
// extrated second time
{
pNode
=
Sat_SetFromId
(
p
,
NodeId
^
1
);
pNode
->
Label
=
*
pnSize
;
*
pnSize
+=
Sat_SetSize
(
pNode
);
// update fanins
Sat_SetForEachSet
(
p
,
pNode
,
pNext
,
i
)
if
(
pNext
)
pNode
->
pEnts
[
i
]
=
pNext
->
Label
;
continue
;
}
// extracted first time
// add second time
Vec_IntPush
(
vStack
,
NodeId
^
1
);
// add its anticedents
pNode
=
Sat_SetFromId
(
p
,
NodeId
);
Sat_SetForEachSet
(
p
,
pNode
,
pNext
,
i
)
if
(
pNext
&&
!
pNext
->
Label
)
{
pNext
->
Label
=
1
;
Vec_IntPush
(
vStack
,
Sat_SetId
(
p
,
pNode
)
);
// add first time
}
}
return
pNode
->
Label
;
}
/**Function*************************************************************
Synopsis [Recursively visits useful proof nodes.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
/*
int Sat_ProofReduce_rec( Vec_Int_t * p, Sat_Set_t * pNode, int * pnSize )
{
int * pBeg;
assert( Sat_SetCheck(p, pNode) );
if ( pNode->Label )
return pNode->Label;
for ( pBeg = pNode->pEnts; pBeg < pNode->pEnts + pNode->nEnts; pBeg++ )
if ( !(*pBeg & 1) )
*pBeg = Sat_ProofReduce_rec( p, Sat_SetFromId(p, *pBeg), pnSize );
pNode->Label = *pnSize;
*pnSize += Sat_SetSize(pNode);
return pNode->Label;
}
*/
/**Function*************************************************************
Synopsis [Reduces the proof to contain only roots and their children.]
Description [The result is updated proof and updated roots.]
SideEffects []
SeeAlso []
***********************************************************************/
void
Sat_ProofReduce
(
Vec_Int_t
*
p
,
Vec_Int_t
*
vRoots
)
{
int
i
,
nSize
=
1
;
int
*
pBeg
,
*
pEnd
,
*
pNew
;
Vec_Int_t
*
vStack
;
Sat_Set_t
*
pNode
;
// mark used nodes
vStack
=
Vec_IntAlloc
(
1000
);
Sat_VecForEachSet
(
vRoots
,
p
,
pNode
,
i
)
vRoots
->
pArray
[
i
]
=
Sat_ProofReduceOne
(
p
,
pNode
,
&
nSize
,
vStack
);
Vec_IntFree
(
vStack
);
// compact proof
pNew
=
Vec_IntArray
(
p
)
+
1
;
Sat_PoolForEachSet
(
p
,
pNode
,
i
)
{
if
(
!
pNode
->
Label
)
continue
;
assert
(
pNew
-
Vec_IntArray
(
p
)
==
pNode
->
Label
);
pNode
->
Label
=
0
;
pBeg
=
(
int
*
)
pNode
;
pEnd
=
pBeg
+
Sat_SetSize
(
pNode
);
while
(
pBeg
<
pEnd
)
*
pNew
++
=
*
pBeg
++
;
}
// report the result
printf
(
"The proof was reduced from %d to %d (by %6.2f %%)
\n
"
,
Vec_IntSize
(
p
),
nSize
,
100
.
0
*
(
Vec_IntSize
(
p
)
-
nSize
)
/
Vec_IntSize
(
p
)
);
assert
(
pNew
-
Vec_IntArray
(
p
)
==
nSize
);
Vec_IntShrink
(
p
,
nSize
);
}
/**Function*************************************************************
Synopsis [Recursively visits useful proof nodes.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
Sat_ProofLabel
(
Vec_Int_t
*
p
,
Sat_Set_t
*
pNode
,
Vec_Int_t
*
vUsed
,
Vec_Int_t
*
vStack
)
{
Sat_Set_t
*
pNext
;
int
i
,
NodeId
;
if
(
pNode
->
Label
)
return
;
// start with node
pNode
->
Label
=
1
;
Vec_IntPush
(
vStack
,
Sat_SetId
(
p
,
pNode
)
);
// perform DFS search
while
(
Vec_IntSize
(
vStack
)
)
{
NodeId
=
Vec_IntPop
(
vStack
);
if
(
NodeId
&
1
)
// extrated second time
{
Vec_IntPush
(
vUsed
,
NodeId
^
1
);
continue
;
}
// extracted first time
// add second time
Vec_IntPush
(
vStack
,
NodeId
^
1
);
// add its anticedents
pNode
=
Sat_SetFromId
(
p
,
NodeId
);
Sat_SetForEachSet
(
p
,
pNode
,
pNext
,
i
)
if
(
pNext
&&
!
pNext
->
Label
)
{
pNext
->
Label
=
1
;
Vec_IntPush
(
vStack
,
Sat_SetId
(
p
,
pNode
)
);
// add first time
}
}
}
/**Function*************************************************************
Synopsis [Computes UNSAT core.]
Description [The result is the array of root clause indexes.]
SideEffects []
SeeAlso []
***********************************************************************/
Vec_Int_t
*
Sat_ProofCore
(
Vec_Int_t
*
p
,
int
nRoots
,
int
*
pBeg
,
int
*
pEnd
)
{
unsigned
*
pSeen
;
Vec_Int_t
*
vCore
,
*
vUsed
,
*
vStack
;
Sat_Set_t
*
pNode
;
int
i
;
// collect visited clauses
vUsed
=
Vec_IntAlloc
(
1000
);
vStack
=
Vec_IntAlloc
(
1000
);
while
(
pBeg
<
pEnd
)
Sat_ProofLabel
(
p
,
Sat_SetFromId
(
p
,
*
pBeg
++
),
vUsed
,
vStack
);
Vec_IntFree
(
vStack
);
// find the core
vCore
=
Vec_IntAlloc
(
1000
);
pSeen
=
ABC_CALLOC
(
unsigned
,
Aig_BitWordNum
(
nRoots
)
);
Sat_VecForEachSet
(
vUsed
,
p
,
pNode
,
i
)
{
pNode
->
Label
=
0
;
for
(
pBeg
=
pNode
->
pEnts
;
pBeg
<
pNode
->
pEnts
+
pNode
->
nEnts
;
pBeg
++
)
if
(
(
*
pBeg
&
1
)
&&
!
Aig_InfoHasBit
(
pBeg
,
*
pBeg
>>
1
)
)
{
Aig_InfoSetBit
(
pBeg
,
*
pBeg
>>
1
);
Vec_IntPush
(
vCore
,
(
*
pBeg
>>
1
)
-
1
);
}
}
Vec_IntFree
(
vUsed
);
ABC_FREE
(
pSeen
);
return
vCore
;
}
/**Function*************************************************************
Synopsis [Performs one resultion step.]
Description [Returns ID of the resolvent if success, and -1 if failure.]
SideEffects []
SeeAlso []
***********************************************************************/
Sat_Set_t
*
Sat_ProofResolve
(
Vec_Int_t
*
p
,
Sat_Set_t
*
c1
,
Sat_Set_t
*
c2
)
{
int
i
,
k
,
Id
,
Var
=
-
1
,
Count
=
0
;
// find resolution variable
for
(
i
=
0
;
i
<
c1
->
nEnts
;
i
++
)
for
(
k
=
0
;
k
<
c2
->
nEnts
;
k
++
)
if
(
(
c1
->
pEnts
[
i
]
^
c2
->
pEnts
[
k
])
==
1
)
{
Var
=
(
c1
->
pEnts
[
i
]
>>
1
);
Count
++
;
}
if
(
Count
==
0
)
{
printf
(
"Cannot find resolution variable
\n
"
);
return
NULL
;
}
if
(
Count
>
1
)
{
printf
(
"Found more than 1 resolution variables
\n
"
);
return
NULL
;
}
// perform resolution
Id
=
Vec_IntSize
(
p
);
Vec_IntPush
(
p
,
0
);
// placeholder
Vec_IntPush
(
p
,
0
);
for
(
i
=
0
;
i
<
c1
->
nEnts
;
i
++
)
{
if
(
(
c1
->
pEnts
[
i
]
>>
1
)
==
Var
)
continue
;
for
(
k
=
Id
+
2
;
k
<
Vec_IntSize
(
p
);
k
++
)
if
(
p
->
pArray
[
k
]
==
c1
->
pEnts
[
i
]
)
break
;
if
(
k
==
Vec_IntSize
(
p
)
)
Vec_IntPush
(
p
,
c1
->
pEnts
[
i
]
);
}
for
(
i
=
0
;
i
<
c2
->
nEnts
;
i
++
)
{
if
(
(
c2
->
pEnts
[
i
]
>>
1
)
==
Var
)
continue
;
for
(
k
=
Id
+
2
;
k
<
Vec_IntSize
(
p
);
k
++
)
if
(
p
->
pArray
[
k
]
==
c2
->
pEnts
[
i
]
)
break
;
if
(
k
==
Vec_IntSize
(
p
)
)
Vec_IntPush
(
p
,
c2
->
pEnts
[
i
]
);
}
Vec_IntWriteEntry
(
p
,
Id
,
Vec_IntSize
(
p
)
-
Id
-
2
);
return
Sat_SetFromId
(
p
,
Id
);
}
/**Function*************************************************************
Synopsis [Checks the proof for consitency.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Sat_Set_t
*
Sat_ProofCheckGetOne
(
Vec_Int_t
*
vClauses
,
Vec_Int_t
*
vProof
,
Vec_Int_t
*
vResolves
,
int
iAnt
)
{
Sat_Set_t
*
pAnt
;
if
(
iAnt
&
1
)
return
Sat_SetFromId
(
vClauses
,
iAnt
>>
1
);
pAnt
=
Sat_SetFromId
(
vProof
,
iAnt
);
return
Sat_SetFromId
(
vResolves
,
pAnt
->
Label
);
}
/**Function*************************************************************
Synopsis [Checks the proof for consitency.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
Sat_ProofCheck
(
Vec_Int_t
*
vClauses
,
Vec_Int_t
*
vProof
,
int
iRoot
)
{
Vec_Int_t
*
vOrigs
,
*
vStack
,
*
vUsed
,
*
vResolves
;
Sat_Set_t
*
pSet
,
*
pSet0
,
*
pSet1
;
int
i
,
k
;
// collect original clauses
vOrigs
=
Vec_IntAlloc
(
1000
);
Vec_IntPush
(
vOrigs
,
-
1
);
Sat_PoolForEachSet
(
vClauses
,
pSet
,
i
)
Vec_IntPush
(
vOrigs
,
Sat_SetId
(
vClauses
,
pSet
)
);
// collect visited clauses
vUsed
=
Vec_IntAlloc
(
1000
);
vStack
=
Vec_IntAlloc
(
1000
);
Sat_ProofLabel
(
vProof
,
Sat_SetFromId
(
vProof
,
iRoot
),
vUsed
,
vStack
);
Vec_IntFree
(
vStack
);
// perform resolution steps
vResolves
=
Vec_IntAlloc
(
1000
);
Vec_IntPush
(
vResolves
,
-
1
);
Sat_VecForEachSet
(
vUsed
,
vProof
,
pSet
,
i
)
{
pSet0
=
Sat_ProofCheckGetOne
(
vOrigs
,
vProof
,
vResolves
,
pSet
->
pEnts
[
0
]
);
for
(
k
=
1
;
k
<
pSet
->
nEnts
;
k
++
)
{
pSet1
=
Sat_ProofCheckGetOne
(
vOrigs
,
vProof
,
vResolves
,
pSet
->
pEnts
[
k
]
);
pSet0
=
Sat_ProofResolve
(
vResolves
,
pSet0
,
pSet1
);
}
pSet
->
Label
=
Sat_SetId
(
vResolves
,
pSet0
);
}
// clean the proof
Sat_VecForEachSet
(
vUsed
,
vProof
,
pSet
,
i
)
pSet
->
Label
=
0
;
// compare the final clause
if
(
pSet0
->
nEnts
>
0
)
printf
(
"Cound not derive the empty clause
\n
"
);
Vec_IntFree
(
vResolves
);
Vec_IntFree
(
vUsed
);
Vec_IntFree
(
vOrigs
);
}
/**Function*************************************************************
Synopsis [Creates variable map.]
Description [1=A, 2=B, neg=global]
SideEffects []
SeeAlso []
***********************************************************************/
void
Sat_ProofVarMapCheck
(
Vec_Int_t
*
vClauses
,
Vec_Int_t
*
vVarMap
)
{
Sat_Set_t
*
pSet
;
int
i
,
k
,
fSeeA
,
fSeeB
;
// make sure all clauses are either A or B
Sat_PoolForEachSet
(
vClauses
,
pSet
,
i
)
{
fSeeA
=
fSeeB
=
0
;
for
(
k
=
0
;
k
<
pSet
->
nEnts
;
k
++
)
{
fSeeA
+=
(
Vec_IntEntry
(
vVarMap
,
pSet
->
pEnts
[
k
])
==
1
);
fSeeB
+=
(
Vec_IntEntry
(
vVarMap
,
pSet
->
pEnts
[
k
])
==
2
);
}
if
(
fSeeA
&&
fSeeB
)
printf
(
"VarMap error!
\n
"
);
}
}
/**Function*************************************************************
Synopsis [Computes interpolant of the proof.]
Description [Assuming that res vars are recorded, too...]
SideEffects []
SeeAlso []
***********************************************************************/
Aig_Man_t
*
Sat_ProofInterpolant
(
Vec_Int_t
*
vProof
,
int
iRoot
,
Vec_Int_t
*
vClauses
,
Vec_Int_t
*
vVarMap
)
{
Vec_Int_t
*
vOrigs
,
*
vUsed
,
*
vStack
;
Aig_Man_t
*
pAig
;
Sat_Set_t
*
pSet
;
int
i
;
Sat_ProofVarMapCheck
(
vClauses
,
vVarMap
);
// collect original clauses
vOrigs
=
Vec_IntAlloc
(
1000
);
Vec_IntPush
(
vOrigs
,
-
1
);
Sat_PoolForEachSet
(
vClauses
,
pSet
,
i
)
Vec_IntPush
(
vOrigs
,
Sat_SetId
(
vClauses
,
pSet
)
);
// collect visited clauses
vUsed
=
Vec_IntAlloc
(
1000
);
vStack
=
Vec_IntAlloc
(
1000
);
Sat_ProofLabel
(
vProof
,
Sat_SetFromId
(
vProof
,
iRoot
),
vUsed
,
vStack
);
Vec_IntFree
(
vStack
);
// start the AIG
pAig
=
Aig_ManStart
(
10000
);
pAig
->
pName
=
Aig_UtilStrsav
(
"interpol"
);
for
(
i
=
0
;
i
<
Vec_IntSize
(
vVarMap
);
i
++
)
if
(
Vec_IntEntry
(
vVarMap
,
i
)
<
0
)
Aig_ObjCreatePi
(
pAig
);
return
pAig
;
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
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