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lvzhengyang
abc
Commits
937979d9
Commit
937979d9
authored
Mar 08, 2011
by
Alan Mishchenko
Browse files
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Plain Diff
Improvements to the interpolation command 'int'; change of default switch -t.
parent
eabc42a2
Show whitespace changes
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Side-by-side
Showing
4 changed files
with
81 additions
and
17 deletions
+81
-17
src/aig/int/intCore.c
+49
-1
src/aig/int/intInt.h
+16
-8
src/aig/int/module.make
+2
-1
src/base/abci/abc.c
+14
-7
No files found.
src/aig/int/intCore.c
View file @
937979d9
...
...
@@ -50,7 +50,7 @@ void Inter_ManSetDefaultParams( Inter_ManParams_t * p )
p
->
nSecLimit
=
0
;
// time limit in seconds
p
->
nFramesK
=
1
;
// the number of timeframes to use in induction
p
->
fRewrite
=
0
;
// use additional rewriting to simplify timeframes
p
->
fTransLoop
=
1
;
// add transition into the init state under new PI var
p
->
fTransLoop
=
0
;
// add transition into the init state under new PI var
p
->
fUsePudlak
=
0
;
// use Pudluk interpolation procedure
p
->
fUseOther
=
0
;
// use other undisclosed option
p
->
fUseMiniSat
=
0
;
// use MiniSat-1.14p instead of internal proof engine
...
...
@@ -78,6 +78,7 @@ int Inter_ManPerformInterpolation( Aig_Man_t * pAig, Inter_ManParams_t * pPars,
{
extern
int
Inter_ManCheckInductiveContainment
(
Aig_Man_t
*
pTrans
,
Aig_Man_t
*
pInter
,
int
nSteps
,
int
fBackward
);
Inter_Man_t
*
p
;
Inter_Check_t
*
pCheck
=
NULL
;
Aig_Man_t
*
pAigTemp
;
int
s
,
i
,
RetValue
,
Status
,
clk
,
clk2
,
clkTotal
=
clock
();
// sanity checks
...
...
@@ -122,6 +123,8 @@ p->timeCnf += clock() - clk;
p
->
nFrames
=
1
;
for
(
s
=
0
;
;
s
++
)
{
Cnf_Dat_t
*
pCnfInter2
;
clk2
=
clock
();
// initial state
if
(
pPars
->
fUseBackward
)
...
...
@@ -157,6 +160,23 @@ p->timeCnf += clock() - clk;
s
+
1
,
p
->
nFrames
,
Aig_ManNodeNum
(
p
->
pFrames
),
Aig_ManLevelNum
(
p
->
pFrames
)
);
ABC_PRT
(
"Time"
,
clock
()
-
clk2
);
}
//////////////////////////////////////////
// start containment checking
if
(
!
(
pPars
->
fTransLoop
||
pPars
->
fUseBackward
)
)
{
pCheck
=
Inter_CheckStart
(
p
->
pAigTrans
,
pPars
->
nFramesK
);
// try new containment check for the initial state
clk
=
clock
();
pCnfInter2
=
Cnf_Derive
(
p
->
pInter
,
1
);
p
->
timeCnf
+=
clock
()
-
clk
;
RetValue
=
Inter_CheckPerform
(
pCheck
,
pCnfInter2
);
// assert( RetValue == 0 );
Cnf_DataFree
(
pCnfInter2
);
}
//////////////////////////////////////////
// iterate the interpolation procedure
for
(
i
=
0
;
;
i
++
)
{
...
...
@@ -166,6 +186,7 @@ p->timeCnf += clock() - clk;
printf
(
"Reached limit (%d) on the number of timeframes.
\n
"
,
pPars
->
nFramesMax
);
p
->
timeTotal
=
clock
()
-
clkTotal
;
Inter_ManStop
(
p
);
Inter_CheckStop
(
pCheck
);
return
-
1
;
}
...
...
@@ -199,6 +220,7 @@ p->timeCnf += clock() - clk;
*
piFrame
=
p
->
nFrames
;
pAig
->
pSeqModel
=
(
Abc_Cex_t
*
)
Inter_ManGetCounterExample
(
pAig
,
p
->
nFrames
+
1
,
pPars
->
fVerbose
);
Inter_ManStop
(
p
);
Inter_CheckStop
(
pCheck
);
return
0
;
}
// likely spurious counter-example
...
...
@@ -213,6 +235,7 @@ p->timeCnf += clock() - clk;
assert
(
p
->
nConfCur
>=
p
->
nConfLimit
);
p
->
timeTotal
=
clock
()
-
clkTotal
;
Inter_ManStop
(
p
);
Inter_CheckStop
(
pCheck
);
return
-
1
;
}
assert
(
RetValue
==
1
);
// found new interpolant
...
...
@@ -234,6 +257,7 @@ p->timeRwr += clock() - clk;
printf
(
"The problem is trivially true for all states.
\n
"
);
p
->
timeTotal
=
clock
()
-
clkTotal
;
Inter_ManStop
(
p
);
Inter_CheckStop
(
pCheck
);
return
1
;
}
...
...
@@ -242,8 +266,19 @@ clk = clock();
if
(
pPars
->
fCheckKstep
)
// k-step unique-state induction
{
if
(
Aig_ManPiNum
(
p
->
pInterNew
)
==
Aig_ManPiNum
(
p
->
pInter
)
)
{
if
(
pPars
->
fTransLoop
||
pPars
->
fUseBackward
)
Status
=
Inter_ManCheckInductiveContainment
(
p
->
pAigTrans
,
p
->
pInterNew
,
pPars
->
nFramesK
,
pPars
->
fUseBackward
);
else
{
// new containment check
clk2
=
clock
();
pCnfInter2
=
Cnf_Derive
(
p
->
pInterNew
,
1
);
p
->
timeCnf
+=
clock
()
-
clk2
;
Status
=
Inter_CheckPerform
(
pCheck
,
pCnfInter2
);
Cnf_DataFree
(
pCnfInter2
);
}
}
else
Status
=
0
;
}
else
// combinational containment
...
...
@@ -260,6 +295,7 @@ p->timeEqu += clock() - clk;
printf
(
"Proved containment of interpolants.
\n
"
);
p
->
timeTotal
=
clock
()
-
clkTotal
;
Inter_ManStop
(
p
);
Inter_CheckStop
(
pCheck
);
return
1
;
}
if
(
pPars
->
nSecLimit
&&
((
float
)
pPars
->
nSecLimit
<=
(
float
)(
clock
()
-
clkTotal
)
/
(
float
)(
CLOCKS_PER_SEC
))
)
...
...
@@ -267,6 +303,7 @@ p->timeEqu += clock() - clk;
printf
(
"Reached timeout (%d seconds).
\n
"
,
pPars
->
nSecLimit
);
p
->
timeTotal
=
clock
()
-
clkTotal
;
Inter_ManStop
(
p
);
Inter_CheckStop
(
pCheck
);
return
-
1
;
}
// save interpolant and convert it into CNF
...
...
@@ -277,6 +314,8 @@ p->timeEqu += clock() - clk;
}
else
{
if
(
pPars
->
fUseBackward
)
{
p
->
pInter
=
Aig_ManCreateMiter
(
pAigTemp
=
p
->
pInter
,
p
->
pInterNew
,
2
);
Aig_ManStop
(
pAigTemp
);
Aig_ManStop
(
p
->
pInterNew
);
...
...
@@ -286,12 +325,21 @@ clk = clock();
Aig_ManStop
(
pAigTemp
);
p
->
timeRwr
+=
clock
()
-
clk
;
}
else
// forward with the new containment checking (using only the frontier)
{
Aig_ManStop
(
p
->
pInter
);
p
->
pInter
=
p
->
pInterNew
;
}
}
p
->
pInterNew
=
NULL
;
Cnf_DataFree
(
p
->
pCnfInter
);
clk
=
clock
();
p
->
pCnfInter
=
Cnf_Derive
(
p
->
pInter
,
0
);
p
->
timeCnf
+=
clock
()
-
clk
;
}
// start containment checking
Inter_CheckStop
(
pCheck
);
}
assert
(
0
);
return
RetValue
;
...
...
src/aig/int/intInt.h
View file @
937979d9
...
...
@@ -79,6 +79,9 @@ struct Inter_Man_t_
int
timeTotal
;
};
// containment checking manager
typedef
struct
Inter_Check_t_
Inter_Check_t
;
////////////////////////////////////////////////////////////////////////
/// MACRO DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
...
...
@@ -87,36 +90,41 @@ struct Inter_Man_t_
/// FUNCTION DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
/*=== intContain.c ==========================================================*/
/*=== intCheck.c ============================================================*/
extern
Inter_Check_t
*
Inter_CheckStart
(
Aig_Man_t
*
pTrans
,
int
nFramesK
);
extern
void
Inter_CheckStop
(
Inter_Check_t
*
p
);
extern
int
Inter_CheckPerform
(
Inter_Check_t
*
p
,
Cnf_Dat_t
*
pCnf
);
/*=== intContain.c ============================================================*/
extern
int
Inter_ManCheckContainment
(
Aig_Man_t
*
pNew
,
Aig_Man_t
*
pOld
);
extern
int
Inter_ManCheckEquivalence
(
Aig_Man_t
*
pNew
,
Aig_Man_t
*
pOld
);
extern
int
Inter_ManCheckInductiveContainment
(
Aig_Man_t
*
pTrans
,
Aig_Man_t
*
pInter
,
int
nSteps
,
int
fBackward
);
/*=== intCtrex.c ==========================================================*/
/*=== intCtrex.c ==========================================================
==
*/
extern
void
*
Inter_ManGetCounterExample
(
Aig_Man_t
*
pAig
,
int
nFrames
,
int
fVerbose
);
/*=== intDup.c ==========================================================*/
/*=== intDup.c ==========================================================
==
*/
extern
Aig_Man_t
*
Inter_ManStartInitState
(
int
nRegs
);
extern
Aig_Man_t
*
Inter_ManStartDuplicated
(
Aig_Man_t
*
p
);
extern
Aig_Man_t
*
Inter_ManStartOneOutput
(
Aig_Man_t
*
p
,
int
fAddFirstPo
);
/*=== intFrames.c ==========================================================*/
/*=== intFrames.c ==========================================================
==
*/
extern
Aig_Man_t
*
Inter_ManFramesInter
(
Aig_Man_t
*
pAig
,
int
nFrames
,
int
fAddRegOuts
);
/*=== intMan.c ==========================================================*/
/*=== intMan.c ==========================================================
==
*/
extern
Inter_Man_t
*
Inter_ManCreate
(
Aig_Man_t
*
pAig
,
Inter_ManParams_t
*
pPars
);
extern
void
Inter_ManClean
(
Inter_Man_t
*
p
);
extern
void
Inter_ManStop
(
Inter_Man_t
*
p
);
/*=== intM114.c ==========================================================*/
/*=== intM114.c ==========================================================
==
*/
extern
int
Inter_ManPerformOneStep
(
Inter_Man_t
*
p
,
int
fUseBias
,
int
fUseBackward
);
/*=== intM114p.c ==========================================================*/
/*=== intM114p.c ==========================================================
==
*/
#ifdef ABC_USE_LIBRARIES
extern
int
Inter_ManPerformOneStepM114p
(
Inter_Man_t
*
p
,
int
fUsePudlak
,
int
fUseOther
);
#endif
/*=== intUtil.c ==========================================================*/
/*=== intUtil.c ==========================================================
==
*/
extern
int
Inter_ManCheckInitialState
(
Aig_Man_t
*
p
);
extern
int
Inter_ManCheckAllStates
(
Aig_Man_t
*
p
);
...
...
src/aig/int/module.make
View file @
937979d9
SRC
+=
src/aig/int/intContain.c
\
SRC
+=
src/aig/int/intCheck.c
\
src/aig/int/intContain.c
\
src/aig/int/intCore.c
\
src/aig/int/intCtrex.c
\
src/aig/int/intDup.c
\
...
...
src/base/abci/abc.c
View file @
937979d9
...
...
@@ -8427,6 +8427,7 @@ int Abc_CommandTest( Abc_Frame_t * pAbc, int argc, char ** argv )
extern
void
Bbl_ManTest
(
Abc_Ntk_t
*
pNtk
);
extern
void
Bbl_ManSimpleDemo
();
extern
Abc_Ntk_t
*
Abc_NtkCRetime
(
Abc_Ntk_t
*
pNtk
,
int
fVerbose
);
extern
void
Abc_NktMffcTest
(
Abc_Ntk_t
*
pNtk
);
pNtk
=
Abc_FrameReadNtk
(
pAbc
);
...
...
@@ -8489,13 +8490,18 @@ int Abc_CommandTest( Abc_Frame_t * pAbc, int argc, char ** argv )
Abc_Print
(
-
1
,
"Empty network.
\n
"
);
return
1
;
}
/*
if ( Abc_NtkLatchNum(pNtk) == 0 )
{
Abc_Print( -1, "Only works for sequential networks.\n" );
return 1;
}
Abc_NtkDarTest
(
pNtk
,
nLevels
);
*/
// if ( fBmc )
// Abc_NtkBddDec( pNtk, 1 );
// else
// Abc_NktMffcTest( pNtk );
// Abc_NtkDarTest( pNtk, nLevels );
// Abc_NtkTestEsop( pNtk );
// Abc_NtkTestSop( pNtk );
...
...
@@ -18603,7 +18609,7 @@ int Abc_CommandBmcInter( Abc_Frame_t * pAbc, int argc, char ** argv )
// set defaults
Inter_ManSetDefaultParams
(
pPars
);
Extra_UtilGetoptReset
();
while
(
(
c
=
Extra_UtilGetopt
(
argc
,
argv
,
"CFT
N
Lrtpomcgbkdvh"
)
)
!=
EOF
)
while
(
(
c
=
Extra_UtilGetopt
(
argc
,
argv
,
"CFT
K
Lrtpomcgbkdvh"
)
)
!=
EOF
)
{
switch
(
c
)
{
...
...
@@ -18640,7 +18646,7 @@ int Abc_CommandBmcInter( Abc_Frame_t * pAbc, int argc, char ** argv )
if
(
pPars
->
nSecLimit
<
0
)
goto
usage
;
break
;
case
'
N
'
:
case
'
K
'
:
if
(
globalUtilOptind
>=
argc
)
{
Abc_Print
(
-
1
,
"Command line switch
\"
-N
\"
should be followed by an integer.
\n
"
);
...
...
@@ -18760,12 +18766,13 @@ int Abc_CommandBmcInter( Abc_Frame_t * pAbc, int argc, char ** argv )
return
0
;
usage:
Abc_Print
(
-
2
,
"usage: int [-CFT
N
num] [-L file] [-rtpomcgbkdvh]
\n
"
);
Abc_Print
(
-
2
,
"usage: int [-CFT
K
num] [-L file] [-rtpomcgbkdvh]
\n
"
);
Abc_Print
(
-
2
,
"
\t
uses interpolation to prove the property
\n
"
);
Abc_Print
(
-
2
,
"
\t
-C num : the limit on conflicts for one SAT run [default = %d]
\n
"
,
pPars
->
nBTLimit
);
Abc_Print
(
-
2
,
"
\t
-F num : the limit on number of frames to unroll [default = %d]
\n
"
,
pPars
->
nFramesMax
);
Abc_Print
(
-
2
,
"
\t
-T num : the limit on runtime per output in seconds [default = %d]
\n
"
,
pPars
->
nSecLimit
);
Abc_Print
(
-
2
,
"
\t
-N num : the number of steps in inductive checking [default = %d]
\n
"
,
pPars
->
nFramesK
);
Abc_Print
(
-
2
,
"
\t
-K num : the number of steps in inductive checking [default = %d]
\n
"
,
pPars
->
nFramesK
);
Abc_Print
(
-
2
,
"
\t
(K = 1 works in all cases; K > 1 works without -t and -b)
\n
"
);
Abc_Print
(
-
2
,
"
\t
-L file: the log file name [default = %s]
\n
"
,
pLogFileName
?
pLogFileName
:
"no logging"
);
Abc_Print
(
-
2
,
"
\t
-r : toggle rewriting of the unrolled timeframes [default = %s]
\n
"
,
pPars
->
fRewrite
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-t : toggle adding transition into the initial state [default = %s]
\n
"
,
pPars
->
fTransLoop
?
"yes"
:
"no"
);
...
...
@@ -18774,7 +18781,7 @@ usage:
Abc_Print
(
-
2
,
"
\t
-m : toggle using MiniSat-1.14p (now, Windows-only) [default = %s]
\n
"
,
pPars
->
fUseMiniSat
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-c : toggle using inductive containment check [default = %s]
\n
"
,
pPars
->
fCheckKstep
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-g : toggle using bias for global variables using SAT [default = %s]
\n
"
,
pPars
->
fUseBias
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-b : toggle using backward interpolation [default = %s]
\n
"
,
pPars
->
fUseBackward
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-b : toggle using backward interpolation
(works with -t)
[default = %s]
\n
"
,
pPars
->
fUseBackward
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-k : toggle solving each output separately [default = %s]
\n
"
,
pPars
->
fUseSeparate
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-d : drops (replaces by 0) sat outputs (with -k is used) [default = %s]
\n
"
,
pPars
->
fDropSatOuts
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-v : toggle verbose output [default = %s]
\n
"
,
pPars
->
fVerbose
?
"yes"
:
"no"
);
...
...
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