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lvzhengyang
abc
Commits
e7a5a74b
Commit
e7a5a74b
authored
Jul 25, 2011
by
Alan Mishchenko
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Adding procedures to find the care bits of a counter-example.
parent
67e84b71
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5 changed files
with
439 additions
and
4 deletions
+439
-4
abclib.dsp
+4
-0
src/aig/saig/module.make
+1
-0
src/aig/saig/saig.h
+2
-0
src/aig/saig/saigRefSat.c
+429
-0
src/base/abci/abc.c
+3
-4
No files found.
abclib.dsp
View file @
e7a5a74b
...
@@ -3547,6 +3547,10 @@ SOURCE=.\src\aig\saig\saigPhase.c
...
@@ -3547,6 +3547,10 @@ SOURCE=.\src\aig\saig\saigPhase.c
# End Source File
# End Source File
# Begin Source File
# Begin Source File
SOURCE=.\src\aig\saig\saigRefSat.c
# End Source File
# Begin Source File
SOURCE=.\src\aig\saig\saigRetFwd.c
SOURCE=.\src\aig\saig\saigRetFwd.c
# End Source File
# End Source File
# Begin Source File
# Begin Source File
...
...
src/aig/saig/module.make
View file @
e7a5a74b
...
@@ -14,6 +14,7 @@ SRC += src/aig/saig/saigAbs.c \
...
@@ -14,6 +14,7 @@ SRC += src/aig/saig/saigAbs.c \
src/aig/saig/saigOutDec.c
\
src/aig/saig/saigOutDec.c
\
src/aig/saig/saigPba.c
\
src/aig/saig/saigPba.c
\
src/aig/saig/saigPhase.c
\
src/aig/saig/saigPhase.c
\
src/aig/saig/saigRefSat.c
\
src/aig/saig/saigRetFwd.c
\
src/aig/saig/saigRetFwd.c
\
src/aig/saig/saigRetMin.c
\
src/aig/saig/saigRetMin.c
\
src/aig/saig/saigRetStep.c
\
src/aig/saig/saigRetStep.c
\
...
...
src/aig/saig/saig.h
View file @
e7a5a74b
...
@@ -175,6 +175,8 @@ extern int Saig_ManDemiterNew( Aig_Man_t * pMan );
...
@@ -175,6 +175,8 @@ extern int Saig_ManDemiterNew( Aig_Man_t * pMan );
extern
Aig_Man_t
*
Saig_ManDecPropertyOutput
(
Aig_Man_t
*
pAig
,
int
nLits
,
int
fVerbose
);
extern
Aig_Man_t
*
Saig_ManDecPropertyOutput
(
Aig_Man_t
*
pAig
,
int
nLits
,
int
fVerbose
);
/*=== saigPhase.c ==========================================================*/
/*=== saigPhase.c ==========================================================*/
extern
Aig_Man_t
*
Saig_ManPhaseAbstract
(
Aig_Man_t
*
p
,
Vec_Int_t
*
vInits
,
int
nFrames
,
int
nPref
,
int
fIgnore
,
int
fPrint
,
int
fVerbose
);
extern
Aig_Man_t
*
Saig_ManPhaseAbstract
(
Aig_Man_t
*
p
,
Vec_Int_t
*
vInits
,
int
nFrames
,
int
nPref
,
int
fIgnore
,
int
fPrint
,
int
fVerbose
);
/*=== saigRefSat.c ==========================================================*/
extern
Abc_Cex_t
*
Saig_ManRefineCexSat
(
Aig_Man_t
*
pAig
,
Abc_Cex_t
*
pCex
,
int
nInputs
,
int
fVerbose
);
/*=== saigRetFwd.c ==========================================================*/
/*=== saigRetFwd.c ==========================================================*/
extern
void
Saig_ManMarkAutonomous
(
Aig_Man_t
*
p
);
extern
void
Saig_ManMarkAutonomous
(
Aig_Man_t
*
p
);
extern
Aig_Man_t
*
Saig_ManRetimeForward
(
Aig_Man_t
*
p
,
int
nMaxIters
,
int
fVerbose
);
extern
Aig_Man_t
*
Saig_ManRetimeForward
(
Aig_Man_t
*
p
,
int
nMaxIters
,
int
fVerbose
);
...
...
src/aig/saig/saigRefSat.c
0 → 100644
View file @
e7a5a74b
/**CFile****************************************************************
FileName [saigRefSat.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Sequential AIG package.]
Synopsis [SAT based refinement of a counter-example.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [$Id: saigRefSat.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
***********************************************************************/
#include "saig.h"
#include "cnf.h"
#include "satSolver.h"
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
// local manager
typedef
struct
Saig_RefMan_t_
Saig_RefMan_t
;
struct
Saig_RefMan_t_
{
// user data
Aig_Man_t
*
pAig
;
// user's AIG
Abc_Cex_t
*
pCex
;
// user's CEX
int
nInputs
;
// the number of first inputs to skip
int
fVerbose
;
// verbose flag
// unrolling
Aig_Man_t
*
pFrames
;
// unrolled timeframes
Vec_Int_t
*
vMapPiA3F
;
// mapping of frame PIs into real PIs
};
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Collect nodes in the unrolled timeframes.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
Saig_ManUnrollCollect_rec
(
Aig_Man_t
*
pAig
,
Aig_Obj_t
*
pObj
,
Vec_Int_t
*
vObjs
,
Vec_Int_t
*
vRoots
)
{
if
(
Aig_ObjIsTravIdCurrent
(
pAig
,
pObj
)
)
return
;
Aig_ObjSetTravIdCurrent
(
pAig
,
pObj
);
if
(
Aig_ObjIsPo
(
pObj
)
)
Saig_ManUnrollCollect_rec
(
pAig
,
Aig_ObjFanin0
(
pObj
),
vObjs
,
vRoots
);
else
if
(
Aig_ObjIsNode
(
pObj
)
)
{
Saig_ManUnrollCollect_rec
(
pAig
,
Aig_ObjFanin0
(
pObj
),
vObjs
,
vRoots
);
Saig_ManUnrollCollect_rec
(
pAig
,
Aig_ObjFanin1
(
pObj
),
vObjs
,
vRoots
);
}
if
(
vRoots
&&
Saig_ObjIsLo
(
pAig
,
pObj
)
)
Vec_IntPush
(
vRoots
,
Aig_ObjId
(
Saig_ObjLoToLi
(
pAig
,
pObj
)
)
);
Vec_IntPush
(
vObjs
,
Aig_ObjId
(
pObj
)
);
}
/**Function*************************************************************
Synopsis [Derive unrolled timeframes.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Aig_Man_t
*
Saig_ManUnrollWithCex
(
Aig_Man_t
*
pAig
,
Abc_Cex_t
*
pCex
,
int
nInputs
,
Vec_Int_t
**
pvMapPiA3F
)
{
Aig_Man_t
*
pFrames
;
// unrolled timeframes
Vec_Vec_t
*
vFrameCos
;
// the list of COs per frame
Vec_Vec_t
*
vFrameObjs
;
// the list of objects per frame
Vec_Int_t
*
vRoots
,
*
vObjs
;
Aig_Obj_t
*
pObj
;
int
i
,
f
;
// sanity checks
assert
(
Saig_ManPiNum
(
pAig
)
==
pCex
->
nPis
);
assert
(
Saig_ManRegNum
(
pAig
)
==
pCex
->
nRegs
);
assert
(
pCex
->
iPo
>=
0
&&
pCex
->
iPo
<
Saig_ManPoNum
(
pAig
)
);
// map PIs of the unrolled frames into PIs of the original design
*
pvMapPiA3F
=
Vec_IntAlloc
(
1000
);
// collect COs and Objs visited in each frame
vFrameCos
=
Vec_VecStart
(
pCex
->
iFrame
+
1
);
vFrameObjs
=
Vec_VecStart
(
pCex
->
iFrame
+
1
);
// initialized the topmost frame
pObj
=
Aig_ManPo
(
pAig
,
pCex
->
iPo
);
Vec_VecPushInt
(
vFrameCos
,
pCex
->
iFrame
,
Aig_ObjId
(
pObj
)
);
for
(
f
=
pCex
->
iFrame
;
f
>=
0
;
f
--
)
{
// collect nodes starting from the roots
Aig_ManIncrementTravId
(
pAig
);
vRoots
=
(
Vec_Int_t
*
)
Vec_VecEntry
(
vFrameCos
,
f
);
Aig_ManForEachNodeVec
(
pAig
,
vRoots
,
pObj
,
i
)
Saig_ManUnrollCollect_rec
(
pAig
,
pObj
,
(
Vec_Int_t
*
)
Vec_VecEntry
(
vFrameObjs
,
f
),
(
Vec_Int_t
*
)(
f
?
Vec_VecEntry
(
vFrameCos
,
f
-
1
)
:
NULL
)
);
}
// derive unrolled timeframes
pFrames
=
Aig_ManStart
(
Aig_ManObjNumMax
(
pAig
)
*
(
pCex
->
iFrame
+
1
)
);
pFrames
->
pName
=
Aig_UtilStrsav
(
pAig
->
pName
);
pFrames
->
pSpec
=
Aig_UtilStrsav
(
pAig
->
pSpec
);
// initialize the flops of
Saig_ManForEachLo
(
pAig
,
pObj
,
i
)
pObj
->
pData
=
Aig_NotCond
(
Aig_ManConst1
(
pFrames
),
!
Aig_InfoHasBit
(
pCex
->
pData
,
i
)
);
// iterate through the frames
for
(
f
=
0
;
f
<=
pCex
->
iFrame
;
f
++
)
{
// construct
vObjs
=
(
Vec_Int_t
*
)
Vec_VecEntry
(
vFrameObjs
,
f
);
Aig_ManForEachNodeVec
(
pAig
,
vObjs
,
pObj
,
i
)
{
if
(
Aig_ObjIsNode
(
pObj
)
)
pObj
->
pData
=
Aig_And
(
pFrames
,
Aig_ObjChild0Copy
(
pObj
),
Aig_ObjChild1Copy
(
pObj
)
);
else
if
(
Aig_ObjIsPo
(
pObj
)
)
pObj
->
pData
=
Aig_ObjChild0Copy
(
pObj
);
else
if
(
Aig_ObjIsConst1
(
pObj
)
)
pObj
->
pData
=
Aig_ManConst1
(
pFrames
);
else
if
(
Saig_ObjIsPi
(
pAig
,
pObj
)
)
{
if
(
Aig_ObjPioNum
(
pObj
)
<
nInputs
)
{
int
iBit
=
pCex
->
nRegs
+
f
*
pCex
->
nPis
+
Aig_ObjPioNum
(
pObj
);
pObj
->
pData
=
Aig_NotCond
(
Aig_ManConst1
(
pFrames
),
!
Aig_InfoHasBit
(
pCex
->
pData
,
iBit
)
);
}
else
{
pObj
->
pData
=
Aig_ObjCreatePi
(
pFrames
);
Vec_IntPush
(
*
pvMapPiA3F
,
Aig_ObjPioNum
(
pObj
)
);
Vec_IntPush
(
*
pvMapPiA3F
,
f
);
}
}
}
if
(
f
==
pCex
->
iFrame
)
break
;
// transfer
vRoots
=
(
Vec_Int_t
*
)
Vec_VecEntry
(
vFrameCos
,
f
);
Aig_ManForEachNodeVec
(
pAig
,
vRoots
,
pObj
,
i
)
Saig_ObjLiToLo
(
pAig
,
pObj
)
->
pData
=
pObj
->
pData
;
}
// create output
pObj
=
Aig_ManPo
(
pAig
,
pCex
->
iPo
);
Aig_ObjCreatePo
(
pFrames
,
Aig_Not
((
Aig_Obj_t
*
)
pObj
->
pData
)
);
// cleanup
Vec_VecFree
(
vFrameCos
);
Vec_VecFree
(
vFrameObjs
);
// finallize
Aig_ManCleanup
(
pFrames
);
// return
return
pFrames
;
}
/**Function*************************************************************
Synopsis [Creates refinement manager.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Saig_RefMan_t
*
Saig_RefManStart
(
Aig_Man_t
*
pAig
,
Abc_Cex_t
*
pCex
,
int
nInputs
,
int
fVerbose
)
{
Saig_RefMan_t
*
p
;
p
=
ABC_CALLOC
(
Saig_RefMan_t
,
1
);
p
->
pAig
=
pAig
;
p
->
pCex
=
pCex
;
p
->
nInputs
=
nInputs
;
p
->
fVerbose
=
fVerbose
;
return
p
;
}
/**Function*************************************************************
Synopsis [Destroys refinement manager.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
Saig_RefManStop
(
Saig_RefMan_t
*
p
)
{
Aig_ManStopP
(
&
p
->
pFrames
);
Vec_IntFreeP
(
&
p
->
vMapPiA3F
);
ABC_FREE
(
p
);
}
/**Function*************************************************************
Synopsis [Sets phase bits in the timeframe AIG.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int
Saig_RefManSetPhases
(
Saig_RefMan_t
*
p
,
Abc_Cex_t
*
pCare
,
int
fValue1
)
{
Aig_Obj_t
*
pObj
;
int
i
,
iFrame
,
iInput
;
Aig_ManConst1
(
p
->
pFrames
)
->
fPhase
=
1
;
Aig_ManForEachPi
(
p
->
pFrames
,
pObj
,
i
)
{
iInput
=
Vec_IntEntry
(
p
->
vMapPiA3F
,
2
*
i
);
iFrame
=
Vec_IntEntry
(
p
->
vMapPiA3F
,
2
*
i
+
1
);
pObj
->
fPhase
=
Aig_InfoHasBit
(
p
->
pCex
->
pData
,
p
->
pCex
->
nRegs
+
p
->
pCex
->
nPis
*
iFrame
+
iInput
);
// update value if it is a don't-care
if
(
pCare
&&
!
Aig_InfoHasBit
(
pCare
->
pData
,
p
->
pCex
->
nRegs
+
p
->
pCex
->
nPis
*
iFrame
+
iInput
)
)
pObj
->
fPhase
=
fValue1
;
}
Aig_ManForEachNode
(
p
->
pFrames
,
pObj
,
i
)
pObj
->
fPhase
=
(
Aig_ObjFanin0
(
pObj
)
->
fPhase
^
Aig_ObjFaninC0
(
pObj
)
)
&
(
Aig_ObjFanin1
(
pObj
)
->
fPhase
^
Aig_ObjFaninC1
(
pObj
)
);
Aig_ManForEachPo
(
p
->
pFrames
,
pObj
,
i
)
pObj
->
fPhase
=
(
Aig_ObjFanin0
(
pObj
)
->
fPhase
^
Aig_ObjFaninC0
(
pObj
)
);
pObj
=
Aig_ManPo
(
p
->
pFrames
,
0
);
return
pObj
->
fPhase
;
}
/**Function*************************************************************
Synopsis [Generate the care set using SAT solver.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Abc_Cex_t
*
Saig_RefManRunSat
(
Saig_RefMan_t
*
p
)
{
int
nConfLimit
=
1000000
;
Abc_Cex_t
*
pCare
;
Cnf_Dat_t
*
pCnf
;
sat_solver
*
pSat
;
Aig_Obj_t
*
pObj
;
Vec_Int_t
*
vAssumps
,
*
vVar2PiId
;
int
i
,
f
,
iInput
,
iFrame
,
RetValue
,
Counter
;
int
nCoreLits
,
*
pCoreLits
;
// create CNF
assert
(
Aig_ManRegNum
(
p
->
pFrames
)
==
0
);
pCnf
=
Cnf_Derive
(
p
->
pFrames
,
0
);
RetValue
=
Saig_RefManSetPhases
(
p
,
NULL
,
0
);
if
(
RetValue
)
{
printf
(
"Constructed frames are incorrect.
\n
"
);
Cnf_DataFree
(
pCnf
);
return
NULL
;
}
Cnf_DataTranformPolarity
(
pCnf
,
0
);
// create SAT solver
pSat
=
(
sat_solver
*
)
Cnf_DataWriteIntoSolver
(
pCnf
,
1
,
0
);
if
(
pSat
==
NULL
)
{
Cnf_DataFree
(
pCnf
);
return
NULL
;
}
// look for a true counter-example
if
(
p
->
nInputs
>
0
)
{
RetValue
=
sat_solver_solve
(
pSat
,
NULL
,
NULL
,
(
ABC_INT64_T
)
nConfLimit
,
(
ABC_INT64_T
)
0
,
(
ABC_INT64_T
)
0
,
(
ABC_INT64_T
)
0
);
if
(
RetValue
==
l_False
)
{
printf
(
"The problem is trivially UNSAT. The CEX is real.
\n
"
);
// create counter-example
pCare
=
Abc_CexDup
(
p
->
pCex
,
p
->
pCex
->
nRegs
);
memset
(
pCare
->
pData
,
0
,
sizeof
(
unsigned
)
*
Aig_BitWordNum
(
pCare
->
nBits
)
);
return
pCare
;
}
// the problem is SAT - it is expected
}
// create assumptions
vVar2PiId
=
Vec_IntStartFull
(
pCnf
->
nVars
);
vAssumps
=
Vec_IntAlloc
(
Aig_ManPiNum
(
p
->
pFrames
)
);
Aig_ManForEachPi
(
p
->
pFrames
,
pObj
,
i
)
{
iInput
=
Vec_IntEntry
(
p
->
vMapPiA3F
,
2
*
i
);
iFrame
=
Vec_IntEntry
(
p
->
vMapPiA3F
,
2
*
i
+
1
);
// RetValue = Aig_InfoHasBit( p->pCex->pData, p->pCex->nRegs + p->pCex->nPis * iFrame + iInput );
// Vec_IntPush( vAssumps, toLitCond( pCnf->pVarNums[Aig_ObjId(pObj)], !RetValue ) );
Vec_IntPush
(
vAssumps
,
toLitCond
(
pCnf
->
pVarNums
[
Aig_ObjId
(
pObj
)],
1
)
);
Vec_IntWriteEntry
(
vVar2PiId
,
pCnf
->
pVarNums
[
Aig_ObjId
(
pObj
)],
i
);
}
// solve
RetValue
=
sat_solver_solve
(
pSat
,
Vec_IntArray
(
vAssumps
),
Vec_IntArray
(
vAssumps
)
+
Vec_IntSize
(
vAssumps
),
(
ABC_INT64_T
)
nConfLimit
,
(
ABC_INT64_T
)
0
,
(
ABC_INT64_T
)
0
,
(
ABC_INT64_T
)
0
);
if
(
RetValue
!=
l_False
)
{
if
(
RetValue
==
l_True
)
printf
(
"Internal Error!!! The resulting problem is SAT.
\n
"
);
else
printf
(
"Internal Error!!! SAT solver timed out.
\n
"
);
Cnf_DataFree
(
pCnf
);
sat_solver_delete
(
pSat
);
Vec_IntFree
(
vAssumps
);
Vec_IntFree
(
vVar2PiId
);
return
NULL
;
}
// get relevant SAT literals
nCoreLits
=
sat_solver_final
(
pSat
,
&
pCoreLits
);
assert
(
nCoreLits
>
0
);
if
(
p
->
fVerbose
)
printf
(
"Analize final selected %d assumptions out of %d.
\n
"
,
nCoreLits
,
Vec_IntSize
(
vAssumps
)
);
// create counter-example
pCare
=
Abc_CexDup
(
p
->
pCex
,
p
->
pCex
->
nRegs
);
memset
(
pCare
->
pData
,
0
,
sizeof
(
unsigned
)
*
Aig_BitWordNum
(
pCare
->
nBits
)
);
// set new values
for
(
i
=
0
;
i
<
nCoreLits
;
i
++
)
{
int
iPiNum
=
Vec_IntEntry
(
vVar2PiId
,
lit_var
(
pCoreLits
[
i
])
);
assert
(
iPiNum
>=
0
&&
iPiNum
<
Aig_ManPiNum
(
p
->
pFrames
)
);
iInput
=
Vec_IntEntry
(
p
->
vMapPiA3F
,
2
*
iPiNum
);
iFrame
=
Vec_IntEntry
(
p
->
vMapPiA3F
,
2
*
iPiNum
+
1
);
Aig_InfoSetBit
(
pCare
->
pData
,
pCare
->
nRegs
+
pCare
->
nPis
*
iFrame
+
iInput
);
}
// further reduce the CEX
Counter
=
0
;
for
(
i
=
p
->
nInputs
;
i
<
Saig_ManPiNum
(
p
->
pAig
);
i
++
)
{
for
(
f
=
0
;
f
<=
pCare
->
iFrame
;
f
++
)
if
(
Aig_InfoHasBit
(
pCare
->
pData
,
pCare
->
nRegs
+
pCare
->
nPis
*
f
+
i
)
)
break
;
if
(
f
==
pCare
->
iFrame
+
1
)
continue
;
Counter
++
;
// try removing this input
}
if
(
p
->
fVerbose
)
printf
(
"Essential primary inputs %d out of %d.
\n
"
,
Counter
,
Saig_ManPiNum
(
p
->
pAig
)
-
p
->
nInputs
);
// cleanup
Cnf_DataFree
(
pCnf
);
sat_solver_delete
(
pSat
);
Vec_IntFree
(
vAssumps
);
Vec_IntFree
(
vVar2PiId
);
// verify counter-example
RetValue
=
Saig_RefManSetPhases
(
p
,
pCare
,
0
);
if
(
RetValue
)
printf
(
"Reduced CEX verification has failed.
\n
"
);
RetValue
=
Saig_RefManSetPhases
(
p
,
pCare
,
1
);
if
(
RetValue
)
printf
(
"Reduced CEX verification has failed.
\n
"
);
return
pCare
;
}
/**Function*************************************************************
Synopsis [SAT-based refinement of the counter-example.]
Description [The first parameter (nInputs) indicates how many first
primary inputs to skip without considering as care candidates.]
SideEffects []
SeeAlso []
***********************************************************************/
Abc_Cex_t
*
Saig_ManRefineCexSat
(
Aig_Man_t
*
pAig
,
Abc_Cex_t
*
pCex
,
int
nInputs
,
int
fVerbose
)
{
Abc_Cex_t
*
pCare
=
NULL
;
int
clk
=
clock
();
Saig_RefMan_t
*
p
=
Saig_RefManStart
(
pAig
,
pCex
,
nInputs
,
fVerbose
);
p
->
pFrames
=
Saig_ManUnrollWithCex
(
pAig
,
pCex
,
nInputs
,
&
p
->
vMapPiA3F
);
if
(
p
->
fVerbose
)
Aig_ManPrintStats
(
p
->
pFrames
);
if
(
p
->
fVerbose
)
Abc_PrintTime
(
1
,
"Frames"
,
clock
()
-
clk
);
clk
=
clock
();
pCare
=
Saig_RefManRunSat
(
p
);
Saig_RefManStop
(
p
);
if
(
p
->
fVerbose
)
Abc_PrintTime
(
1
,
"Filter"
,
clock
()
-
clk
);
if
(
p
->
fVerbose
)
Abc_CexPrintStats
(
pCex
);
if
(
p
->
fVerbose
)
Abc_CexPrintStats
(
pCare
);
return
pCare
;
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
src/base/abci/abc.c
View file @
e7a5a74b
...
@@ -8763,20 +8763,19 @@ int Abc_CommandTest( Abc_Frame_t * pAbc, int argc, char ** argv )
...
@@ -8763,20 +8763,19 @@ int Abc_CommandTest( Abc_Frame_t * pAbc, int argc, char ** argv )
Aig_ManStop( pAig );
Aig_ManStop( pAig );
}
}
*/
*/
/*
{
{
extern
Aig_Man_t
*
Abc_NtkToDar
(
Abc_Ntk_t
*
pNtk
,
int
fExors
,
int
fRegisters
);
extern
Aig_Man_t
*
Abc_NtkToDar
(
Abc_Ntk_t
*
pNtk
,
int
fExors
,
int
fRegisters
);
extern Abc_Cex_t * Saig_PhaseTranslateCex( Aig_Man_t * p, Abc_Cex_t * pCex );
if
(
pAbc
->
pCex
&&
pNtk
)
if
(
pAbc
->
pCex
&&
pNtk
)
{
{
Abc_Cex_t
*
pNew
;
Abc_Cex_t
*
pNew
;
Aig_Man_t
*
pAig
=
Abc_NtkToDar
(
pNtk
,
0
,
1
);
Aig_Man_t
*
pAig
=
Abc_NtkToDar
(
pNtk
,
0
,
1
);
pNew = Saig_
PhaseTranslateCex( pAig, pAbc->pCex
);
pNew
=
Saig_
ManRefineCexSat
(
pAig
,
pAbc
->
pCex
,
0
,
0
);
Aig_ManStop
(
pAig
);
Aig_ManStop
(
pAig
);
Abc_FrameReplaceCex
(
pAbc
,
&
pNew
);
Abc_FrameReplaceCex
(
pAbc
,
&
pNew
);
}
}
}
}
*/
return
0
;
return
0
;
usage:
usage:
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