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lvzhengyang
abc
Commits
0a3af509
Commit
0a3af509
authored
Oct 04, 2017
by
Alan Mishchenko
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Plain Diff
Experiments with SAT-based quantification.
parent
39621553
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2 changed files
with
212 additions
and
26 deletions
+212
-26
src/sat/glucose/AbcGlucose.cpp
+210
-26
src/sat/glucose/AbcGlucose.h
+2
-0
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src/sat/glucose/AbcGlucose.cpp
View file @
0a3af509
...
@@ -295,6 +295,28 @@ int bmcg_sat_solver_minimize_assumptions( bmcg_sat_solver * s, int * plits, int
...
@@ -295,6 +295,28 @@ int bmcg_sat_solver_minimize_assumptions( bmcg_sat_solver * s, int * plits, int
return
nresL
+
nresR
;
return
nresL
+
nresR
;
}
}
int
bmcg_sat_solver_add_and
(
bmcg_sat_solver
*
s
,
int
iVar
,
int
iVar0
,
int
iVar1
,
int
fCompl0
,
int
fCompl1
,
int
fCompl
)
{
int
Lits
[
3
];
Lits
[
0
]
=
Abc_Var2Lit
(
iVar
,
!
fCompl
);
Lits
[
1
]
=
Abc_Var2Lit
(
iVar0
,
fCompl0
);
if
(
!
bmcg_sat_solver_addclause
(
s
,
Lits
,
2
)
)
return
0
;
Lits
[
0
]
=
Abc_Var2Lit
(
iVar
,
!
fCompl
);
Lits
[
1
]
=
Abc_Var2Lit
(
iVar1
,
fCompl1
);
if
(
!
bmcg_sat_solver_addclause
(
s
,
Lits
,
2
)
)
return
0
;
Lits
[
0
]
=
Abc_Var2Lit
(
iVar
,
fCompl
);
Lits
[
1
]
=
Abc_Var2Lit
(
iVar0
,
!
fCompl0
);
Lits
[
2
]
=
Abc_Var2Lit
(
iVar1
,
!
fCompl1
);
if
(
!
bmcg_sat_solver_addclause
(
s
,
Lits
,
3
)
)
return
0
;
return
1
;
}
#else
#else
...
@@ -723,44 +745,26 @@ Vec_Int_t * Glucose_SolverFromAig2( Gia_Man_t * p, SimpSolver& S )
...
@@ -723,44 +745,26 @@ Vec_Int_t * Glucose_SolverFromAig2( Gia_Man_t * p, SimpSolver& S )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
void
Glucose_GenerateSop
(
Gia_Man_t
*
p
)
Vec_Str_t
*
Glucose_GenerateCubes
(
bmcg_sat_solver
*
pSat
[
2
],
Vec_Int_t
*
vVars
,
Vec_Int_t
*
vVarMa
p
)
{
{
int
fCreatePrime
=
1
;
int
fCreatePrime
=
1
;
int
nVars
=
Vec_IntSize
(
vVars
);
bmcg_sat_solver
*
pSat
[
2
]
=
{
bmcg_sat_solver_start
(),
bmcg_sat_solver_start
()
};
Vec_Str_t
*
vSop
=
Vec_StrAlloc
(
1000
);
// generate CNF for the on-set and off-set
Cnf_Dat_t
*
pCnf
=
(
Cnf_Dat_t
*
)
Mf_ManGenerateCnf
(
p
,
8
/*nLutSize*/
,
0
/*fCnfObjIds*/
,
0
/*fAddOrCla*/
,
0
,
0
/*verbose*/
);
int
i
,
n
,
nVars
=
Gia_ManCiNum
(
p
),
Count
=
0
;
int
iFirstVar
=
pCnf
->
nVars
-
nVars
;
assert
(
Gia_ManCoNum
(
p
)
==
1
);
for
(
n
=
0
;
n
<
2
;
n
++
)
{
int
Lit
=
Abc_Var2Lit
(
1
,
!
n
);
// output variable is 1
for
(
i
=
0
;
i
<
pCnf
->
nClauses
;
i
++
)
if
(
!
bmcg_sat_solver_addclause
(
pSat
[
n
],
pCnf
->
pClauses
[
i
],
pCnf
->
pClauses
[
i
+
1
]
-
pCnf
->
pClauses
[
i
]
)
)
assert
(
0
);
if
(
!
bmcg_sat_solver_addclause
(
pSat
[
n
],
&
Lit
,
1
)
)
assert
(
0
);
}
Cnf_DataFree
(
pCnf
);
// generate assignments
Vec_Int_t
*
vLits
=
Vec_IntAlloc
(
nVars
);
Vec_Int_t
*
vLits
=
Vec_IntAlloc
(
nVars
);
Vec_Str_t
*
vCube
=
Vec_StrAlloc
(
nVars
+
4
);
Vec_Str_t
*
vCube
=
Vec_StrAlloc
(
nVars
+
4
);
Vec_StrFill
(
vCube
,
nVars
,
'-'
);
Vec_StrFill
(
vCube
,
nVars
,
'-'
);
Vec_StrPrintF
(
vCube
,
" 1
\n\0
"
);
Vec_StrPrintF
(
vCube
,
" 1
\n\0
"
);
while
(
1
)
while
(
1
)
{
{
int
*
pFinal
,
nFinal
;
int
*
pFinal
,
nFinal
,
iVar
,
i
;
// generate onset minterm
// generate onset minterm
int
status
=
bmcg_sat_solver_solve
(
pSat
[
1
],
NULL
,
0
);
int
status
=
bmcg_sat_solver_solve
(
pSat
[
1
],
NULL
,
0
);
if
(
status
==
GLUCOSE_UNSAT
)
if
(
status
==
GLUCOSE_UNSAT
)
break
;
break
;
assert
(
status
==
GLUCOSE_SAT
);
assert
(
status
==
GLUCOSE_SAT
);
Vec_IntClear
(
vLits
);
Vec_IntClear
(
vLits
);
for
(
i
=
0
;
i
<
nVars
;
i
++
)
Vec_IntForEachEntry
(
vVars
,
iVar
,
i
)
Vec_IntPush
(
vLits
,
Abc_Var2Lit
(
i
FirstVar
+
i
,
!
bmcg_sat_solver_read_cex_varvalue
(
pSat
[
1
],
iFirstVar
+
i
))
);
Vec_IntPush
(
vLits
,
Abc_Var2Lit
(
i
Var
,
!
bmcg_sat_solver_read_cex_varvalue
(
pSat
[
1
],
iVar
))
);
// expand against offset
// expand against offset
if
(
fCreatePrime
)
if
(
fCreatePrime
)
{
{
...
@@ -779,14 +783,58 @@ void Glucose_GenerateSop( Gia_Man_t * p )
...
@@ -779,14 +783,58 @@ void Glucose_GenerateSop( Gia_Man_t * p )
// print cube
// print cube
Vec_StrFill
(
vCube
,
nVars
,
'-'
);
Vec_StrFill
(
vCube
,
nVars
,
'-'
);
for
(
i
=
0
;
i
<
nFinal
;
i
++
)
for
(
i
=
0
;
i
<
nFinal
;
i
++
)
Vec_StrWriteEntry
(
vCube
,
Abc_Lit2Var
(
pFinal
[
i
])
-
iFirstVar
,
(
char
)(
'0'
+
Abc_LitIsCompl
(
pFinal
[
i
]))
);
{
printf
(
"%4d : %s"
,
Count
++
,
Vec_StrArray
(
vCube
)
);
iVar
=
Vec_IntEntry
(
vVarMap
,
Abc_Lit2Var
(
pFinal
[
i
]));
assert
(
iVar
>=
0
&&
iVar
<
nVars
);
Vec_StrWriteEntry
(
vCube
,
iVar
,
(
char
)(
'0'
+
Abc_LitIsCompl
(
pFinal
[
i
]))
);
}
Vec_StrAppend
(
vSop
,
Vec_StrArray
(
vCube
)
);
//printf( "%4d : %s", Count++, Vec_StrArray(vCube) );
// add blocking clause
// add blocking clause
if
(
!
bmcg_sat_solver_addclause
(
pSat
[
1
],
pFinal
,
nFinal
)
)
if
(
!
bmcg_sat_solver_addclause
(
pSat
[
1
],
pFinal
,
nFinal
)
)
break
;
break
;
}
}
Vec_IntFree
(
vLits
);
Vec_IntFree
(
vLits
);
Vec_StrFree
(
vCube
);
Vec_StrFree
(
vCube
);
Vec_StrPush
(
vSop
,
'\0'
);
return
vSop
;
}
void
Glucose_GenerateSop
(
Gia_Man_t
*
p
)
{
bmcg_sat_solver
*
pSat
[
2
]
=
{
bmcg_sat_solver_start
(),
bmcg_sat_solver_start
()
};
// generate CNF for the on-set and off-set
Cnf_Dat_t
*
pCnf
=
(
Cnf_Dat_t
*
)
Mf_ManGenerateCnf
(
p
,
8
/*nLutSize*/
,
0
/*fCnfObjIds*/
,
0
/*fAddOrCla*/
,
0
,
0
/*verbose*/
);
int
i
,
n
,
nVars
=
Gia_ManCiNum
(
p
),
Lit
,
Count
=
0
;
int
iFirstVar
=
pCnf
->
nVars
-
nVars
;
assert
(
Gia_ManCoNum
(
p
)
==
1
);
for
(
n
=
0
;
n
<
2
;
n
++
)
{
bmcg_sat_solver_set_nvars
(
pSat
[
n
],
pCnf
->
nVars
);
Lit
=
Abc_Var2Lit
(
1
,
!
n
);
// output variable is 1
for
(
i
=
0
;
i
<
pCnf
->
nClauses
;
i
++
)
if
(
!
bmcg_sat_solver_addclause
(
pSat
[
n
],
pCnf
->
pClauses
[
i
],
pCnf
->
pClauses
[
i
+
1
]
-
pCnf
->
pClauses
[
i
]
)
)
assert
(
0
);
if
(
!
bmcg_sat_solver_addclause
(
pSat
[
n
],
&
Lit
,
1
)
)
assert
(
0
);
}
Cnf_DataFree
(
pCnf
);
// collect cube vars and map SAT vars into them
Vec_Int_t
*
vVars
=
Vec_IntAlloc
(
100
);
Vec_Int_t
*
vVarMap
=
Vec_IntStartFull
(
iFirstVar
+
nVars
);
for
(
i
=
0
;
i
<
nVars
;
i
++
)
{
Vec_IntPush
(
vVars
,
iFirstVar
+
i
);
Vec_IntWriteEntry
(
vVarMap
,
iFirstVar
+
i
,
i
);
}
Vec_Str_t
*
vSop
=
Glucose_GenerateCubes
(
pSat
,
vVars
,
vVarMap
);
Vec_IntFree
(
vVarMap
);
Vec_IntFree
(
vVars
);
printf
(
"%s"
,
Vec_StrArray
(
vSop
)
);
Vec_StrFree
(
vSop
);
bmcg_sat_solver_stop
(
pSat
[
0
]
);
bmcg_sat_solver_stop
(
pSat
[
0
]
);
bmcg_sat_solver_stop
(
pSat
[
1
]
);
bmcg_sat_solver_stop
(
pSat
[
1
]
);
...
@@ -794,6 +842,142 @@ void Glucose_GenerateSop( Gia_Man_t * p )
...
@@ -794,6 +842,142 @@ void Glucose_GenerateSop( Gia_Man_t * p )
/**Function*************************************************************
/**Function*************************************************************
Synopsis [Performs SAT-based quantification.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int
Gia_ManSatAndCollect_rec
(
Gia_Man_t
*
p
,
int
iObj
,
int
(
*
pFuncCiToKeep
)(
int
),
Vec_Int_t
*
vCiSatVarsToKeep
,
Vec_Int_t
*
vObjsUsed
)
{
Gia_Obj_t
*
pObj
;
int
iVar
;
if
(
(
iVar
=
Gia_ObjCopyArray
(
p
,
iObj
))
>
0
)
return
iVar
;
iVar
=
Vec_IntSize
(
vObjsUsed
);
Vec_IntPush
(
vObjsUsed
,
iObj
);
Gia_ObjSetCopyArray
(
p
,
iObj
,
iVar
);
pObj
=
Gia_ManObj
(
p
,
iObj
);
assert
(
Gia_ObjIsCand
(
pObj
)
);
if
(
Gia_ObjIsAnd
(
pObj
)
)
{
Gia_ManSatAndCollect_rec
(
p
,
Gia_ObjFaninId0
(
pObj
,
iObj
),
pFuncCiToKeep
,
vCiSatVarsToKeep
,
vObjsUsed
);
Gia_ManSatAndCollect_rec
(
p
,
Gia_ObjFaninId1
(
pObj
,
iObj
),
pFuncCiToKeep
,
vCiSatVarsToKeep
,
vObjsUsed
);
}
else
if
(
pFuncCiToKeep
(
Gia_ObjCioId
(
pObj
))
)
Vec_IntPush
(
vCiSatVarsToKeep
,
iVar
);
return
iVar
;
}
void
Gia_ManQuantLoadCnf
(
Gia_Man_t
*
p
,
Vec_Int_t
*
vObjsUsed
,
bmcg_sat_solver
*
pSats
[
2
]
)
{
Gia_Obj_t
*
pObj
;
int
i
;
bmcg_sat_solver_set_nvars
(
pSats
[
0
],
Vec_IntSize
(
vObjsUsed
)
);
bmcg_sat_solver_set_nvars
(
pSats
[
1
],
Vec_IntSize
(
vObjsUsed
)
);
Gia_ManForEachObjVec
(
vObjsUsed
,
p
,
pObj
,
i
)
if
(
Gia_ObjIsAnd
(
pObj
)
)
{
int
iObj
=
Gia_ObjId
(
p
,
pObj
);
int
iVar
=
Gia_ObjCopyArray
(
p
,
iObj
);
int
iVar0
=
Gia_ObjCopyArray
(
p
,
Gia_ObjFaninId0
(
pObj
,
iObj
));
int
iVar1
=
Gia_ObjCopyArray
(
p
,
Gia_ObjFaninId1
(
pObj
,
iObj
));
bmcg_sat_solver_add_and
(
pSats
[
0
],
iVar
,
iVar0
,
iVar1
,
Gia_ObjFaninC0
(
pObj
),
Gia_ObjFaninC1
(
pObj
),
0
);
bmcg_sat_solver_add_and
(
pSats
[
1
],
iVar
,
iVar0
,
iVar1
,
Gia_ObjFaninC0
(
pObj
),
Gia_ObjFaninC1
(
pObj
),
0
);
}
}
int
Gia_ManFactorSop
(
Gia_Man_t
*
p
,
Vec_Int_t
*
vCiObjIds
,
Vec_Str_t
*
vSop
,
int
fHash
)
{
extern
Gia_Man_t
*
Abc_SopSynthesizeOne
(
char
*
pSop
);
Gia_Man_t
*
pMan
=
Abc_SopSynthesizeOne
(
Vec_StrArray
(
vSop
)
);
Gia_Obj_t
*
pObj
;
int
i
,
Result
;
assert
(
Gia_ManPiNum
(
pMan
)
==
Vec_IntSize
(
vCiObjIds
)
);
Gia_ManConst0
(
pMan
)
->
Value
=
0
;
Gia_ManForEachPi
(
pMan
,
pObj
,
i
)
pObj
->
Value
=
Abc_Var2Lit
(
Vec_IntEntry
(
vCiObjIds
,
i
),
0
);
Gia_ManForEachAnd
(
pMan
,
pObj
,
i
)
if
(
fHash
)
pObj
->
Value
=
Gia_ManHashAnd
(
p
,
Gia_ObjFanin0Copy
(
pObj
),
Gia_ObjFanin1Copy
(
pObj
)
);
else
pObj
->
Value
=
Gia_ManAppendAnd
(
p
,
Gia_ObjFanin0Copy
(
pObj
),
Gia_ObjFanin1Copy
(
pObj
)
);
pObj
=
Gia_ManPo
(
pMan
,
0
);
Result
=
Gia_ObjFanin0Copy
(
pObj
);
Gia_ManStop
(
pMan
);
return
Result
;
}
int
Glucose_QuantifyAig
(
Gia_Man_t
*
p
,
int
iLit
,
int
(
*
pFuncCiToKeep
)(
int
),
int
fHash
)
{
bmcg_sat_solver
*
pSats
[
2
]
=
{
bmcg_sat_solver_start
(),
bmcg_sat_solver_start
()
};
Vec_Int_t
*
vCiSatVarsToKeep
=
Vec_IntAlloc
(
100
);
Vec_Int_t
*
vObjsUsed
=
Vec_IntAlloc
(
100
);
Vec_Int_t
*
vVarMap
=
NULL
;
Vec_Str_t
*
vSop
=
NULL
;
int
i
,
iVar
,
iVarLast
,
Lit
,
RetValue
,
Result
=
-
1
;
if
(
Vec_IntSize
(
&
p
->
vCopies
)
==
0
)
Gia_ManCleanCopyArray
(
p
);
Vec_IntPush
(
vObjsUsed
,
0
);
iVarLast
=
Gia_ManSatAndCollect_rec
(
p
,
Abc_Lit2Var
(
iLit
),
pFuncCiToKeep
,
vCiSatVarsToKeep
,
vObjsUsed
);
Gia_ManQuantLoadCnf
(
p
,
vObjsUsed
,
pSats
);
Lit
=
Abc_Var2Lit
(
iVarLast
,
!
Abc_LitIsCompl
(
iLit
)
);
RetValue
=
bmcg_sat_solver_addclause
(
pSats
[
0
],
&
Lit
,
1
);
if
(
!
RetValue
||
bmcg_sat_solver_solve
(
pSats
[
0
],
NULL
,
0
)
==
GLUCOSE_UNSAT
)
{
Result
=
1
;
goto
cleanup
;
}
Lit
=
Abc_Var2Lit
(
iVarLast
,
Abc_LitIsCompl
(
iLit
)
);
RetValue
=
bmcg_sat_solver_addclause
(
pSats
[
1
],
&
Lit
,
1
);
if
(
!
RetValue
||
bmcg_sat_solver_solve
(
pSats
[
1
],
NULL
,
0
)
==
GLUCOSE_UNSAT
)
{
Result
=
0
;
goto
cleanup
;
}
// map used SAT vars into their cube IDs
vVarMap
=
Vec_IntStartFull
(
Vec_IntSize
(
vObjsUsed
)
);
Vec_IntForEachEntry
(
vCiSatVarsToKeep
,
iVar
,
i
)
Vec_IntWriteEntry
(
vVarMap
,
iVar
,
i
);
vSop
=
Glucose_GenerateCubes
(
pSats
,
vCiSatVarsToKeep
,
vVarMap
);
printf
(
"%s"
,
Vec_StrArray
(
vSop
)
);
// remap SAT vars into obj IDs of CI nodes
Vec_IntForEachEntry
(
vCiSatVarsToKeep
,
iVar
,
i
)
Vec_IntWriteEntry
(
vCiSatVarsToKeep
,
i
,
Vec_IntEntry
(
vObjsUsed
,
iVar
)
);
Result
=
Gia_ManFactorSop
(
p
,
vCiSatVarsToKeep
,
vSop
,
fHash
);
cleanup
:
Vec_IntForEachEntry
(
vObjsUsed
,
iVar
,
i
)
Gia_ObjSetCopyArray
(
p
,
iVar
,
-
1
);
Vec_IntFree
(
vCiSatVarsToKeep
);
Vec_IntFree
(
vObjsUsed
);
Vec_IntFreeP
(
&
vVarMap
);
Vec_StrFreeP
(
&
vSop
);
bmcg_sat_solver_stop
(
pSats
[
0
]
);
bmcg_sat_solver_stop
(
pSats
[
1
]
);
return
Abc_LitNotCond
(
Result
,
Abc_LitIsCompl
(
iLit
)
);
}
int
Gia_ManCiIsToKeep
(
int
i
)
{
return
i
&
1
;
// return 1;
}
void
Glucose_QuantifyAigTest
(
Gia_Man_t
*
p
)
{
int
iRes
=
Glucose_QuantifyAig
(
p
,
Gia_ObjFaninLit0p
(
p
,
Gia_ManPo
(
p
,
0
)),
Gia_ManCiIsToKeep
,
0
);
Gia_ManAppendCo
(
p
,
iRes
);
}
/**Function*************************************************************
Synopsis []
Synopsis []
Description []
Description []
...
...
src/sat/glucose/AbcGlucose.h
View file @
0a3af509
...
@@ -91,6 +91,8 @@ extern int bmcg_sat_solver_varnum( bmcg_sat_solver* s );
...
@@ -91,6 +91,8 @@ extern int bmcg_sat_solver_varnum( bmcg_sat_solver* s );
extern
int
bmcg_sat_solver_clausenum
(
bmcg_sat_solver
*
s
);
extern
int
bmcg_sat_solver_clausenum
(
bmcg_sat_solver
*
s
);
extern
int
bmcg_sat_solver_learntnum
(
bmcg_sat_solver
*
s
);
extern
int
bmcg_sat_solver_learntnum
(
bmcg_sat_solver
*
s
);
extern
int
bmcg_sat_solver_conflictnum
(
bmcg_sat_solver
*
s
);
extern
int
bmcg_sat_solver_conflictnum
(
bmcg_sat_solver
*
s
);
extern
int
bmcg_sat_solver_minimize_assumptions
(
bmcg_sat_solver
*
s
,
int
*
plits
,
int
nlits
,
int
pivot
);
extern
int
bmcg_sat_solver_add_and
(
bmcg_sat_solver
*
s
,
int
iVar
,
int
iVar0
,
int
iVar1
,
int
fCompl0
,
int
fCompl1
,
int
fCompl
);
extern
void
Glucose_SolveCnf
(
char
*
pFilename
,
Glucose_Pars
*
pPars
);
extern
void
Glucose_SolveCnf
(
char
*
pFilename
,
Glucose_Pars
*
pPars
);
extern
int
Glucose_SolveAig
(
Gia_Man_t
*
p
,
Glucose_Pars
*
pPars
);
extern
int
Glucose_SolveAig
(
Gia_Man_t
*
p
,
Glucose_Pars
*
pPars
);
...
...
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