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lvzhengyang
abc
Commits
023e92c4
Commit
023e92c4
authored
Sep 17, 2014
by
Alan Mishchenko
Browse files
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Plain Diff
Improvements to Boolean matching.
parent
69827a5a
Hide whitespace changes
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Side-by-side
Showing
4 changed files
with
220 additions
and
64 deletions
+220
-64
src/base/abci/abc.c
+29
-4
src/map/if/if.h
+1
-0
src/map/if/ifDsd.c
+65
-0
src/map/if/ifTune.c
+125
-60
No files found.
src/base/abci/abc.c
View file @
023e92c4
...
@@ -16042,9 +16042,11 @@ usage:
...
@@ -16042,9 +16042,11 @@ usage:
***********************************************************************/
***********************************************************************/
int
Abc_CommandDsdTune
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
)
int
Abc_CommandDsdTune
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
)
{
{
int
c
,
fVerbose
=
0
,
fFast
=
0
,
fAdd
=
0
,
fSpec
=
0
,
LutSize
=
0
;
char
*
pStruct
=
NULL
;
int
c
,
fVerbose
=
0
,
fFast
=
0
,
fAdd
=
0
,
fSpec
=
0
,
LutSize
=
0
,
nConfls
=
10000
;
If_DsdMan_t
*
pDsdMan
=
(
If_DsdMan_t
*
)
Abc_FrameReadManDsd
();
Extra_UtilGetoptReset
();
Extra_UtilGetoptReset
();
while
(
(
c
=
Extra_UtilGetopt
(
argc
,
argv
,
"Kfasvh"
)
)
!=
EOF
)
while
(
(
c
=
Extra_UtilGetopt
(
argc
,
argv
,
"K
CS
fasvh"
)
)
!=
EOF
)
{
{
switch
(
c
)
switch
(
c
)
{
{
...
@@ -16059,6 +16061,24 @@ int Abc_CommandDsdTune( Abc_Frame_t * pAbc, int argc, char ** argv )
...
@@ -16059,6 +16061,24 @@ int Abc_CommandDsdTune( Abc_Frame_t * pAbc, int argc, char ** argv )
if
(
LutSize
<
4
||
LutSize
>
6
)
if
(
LutSize
<
4
||
LutSize
>
6
)
goto
usage
;
goto
usage
;
break
;
break
;
case
'C'
:
if
(
globalUtilOptind
>=
argc
)
{
Abc_Print
(
-
1
,
"Command line switch
\"
-C
\"
should be followed by a floating point number.
\n
"
);
goto
usage
;
}
nConfls
=
atoi
(
argv
[
globalUtilOptind
]);
globalUtilOptind
++
;
break
;
case
'S'
:
if
(
globalUtilOptind
>=
argc
)
{
Abc_Print
(
-
1
,
"Command line switch
\"
-S
\"
should be followed by string.
\n
"
);
goto
usage
;
}
pStruct
=
argv
[
globalUtilOptind
];
globalUtilOptind
++
;
break
;
case
'f'
:
case
'f'
:
fFast
^=
1
;
fFast
^=
1
;
break
;
break
;
...
@@ -16082,17 +16102,22 @@ int Abc_CommandDsdTune( Abc_Frame_t * pAbc, int argc, char ** argv )
...
@@ -16082,17 +16102,22 @@ int Abc_CommandDsdTune( Abc_Frame_t * pAbc, int argc, char ** argv )
Abc_Print
(
1
,
"The DSD manager is not started.
\n
"
);
Abc_Print
(
1
,
"The DSD manager is not started.
\n
"
);
return
0
;
return
0
;
}
}
If_DsdManTune
(
(
If_DsdMan_t
*
)
Abc_FrameReadManDsd
(),
LutSize
,
fFast
,
fAdd
,
fSpec
,
fVerbose
);
if
(
pStruct
)
Id_DsdManTuneStr
(
pDsdMan
,
pStruct
,
nConfls
,
fVerbose
);
else
If_DsdManTune
(
pDsdMan
,
LutSize
,
fFast
,
fAdd
,
fSpec
,
fVerbose
);
return
0
;
return
0
;
usage:
usage:
Abc_Print
(
-
2
,
"usage: dsd_tune [-K
num] [-fasvh
]
\n
"
);
Abc_Print
(
-
2
,
"usage: dsd_tune [-K
C num] [-fasvh] [-S str
]
\n
"
);
Abc_Print
(
-
2
,
"
\t
tunes DSD manager for the given LUT size
\n
"
);
Abc_Print
(
-
2
,
"
\t
tunes DSD manager for the given LUT size
\n
"
);
Abc_Print
(
-
2
,
"
\t
-K num : LUT size used for tuning [default = %d]
\n
"
,
LutSize
);
Abc_Print
(
-
2
,
"
\t
-K num : LUT size used for tuning [default = %d]
\n
"
,
LutSize
);
Abc_Print
(
-
2
,
"
\t
-C num : the maximum number of conflicts [default = %d]
\n
"
,
nConfls
);
Abc_Print
(
-
2
,
"
\t
-f : toggles using fast check [default = %s]
\n
"
,
fFast
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-f : toggles using fast check [default = %s]
\n
"
,
fFast
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-a : toggles adding tuning to the current one [default = %s]
\n
"
,
fAdd
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-a : toggles adding tuning to the current one [default = %s]
\n
"
,
fAdd
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-s : toggles using specialized check [default = %s]
\n
"
,
fSpec
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-s : toggles using specialized check [default = %s]
\n
"
,
fSpec
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-v : toggles verbose output [default = %s]
\n
"
,
fVerbose
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-v : toggles verbose output [default = %s]
\n
"
,
fVerbose
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-S str : string representing programmable cell [default = %s]
\n
"
,
pStruct
?
pStruct
:
"not used"
);
Abc_Print
(
-
2
,
"
\t
-h : print the command usage
\n
"
);
Abc_Print
(
-
2
,
"
\t
-h : print the command usage
\n
"
);
return
1
;
return
1
;
}
}
src/map/if/if.h
View file @
023e92c4
...
@@ -539,6 +539,7 @@ extern If_DsdMan_t * If_DsdManAlloc( int nVars, int nLutSize );
...
@@ -539,6 +539,7 @@ extern If_DsdMan_t * If_DsdManAlloc( int nVars, int nLutSize );
extern
void
If_DsdManAllocIsops
(
If_DsdMan_t
*
p
,
int
nLutSize
);
extern
void
If_DsdManAllocIsops
(
If_DsdMan_t
*
p
,
int
nLutSize
);
extern
void
If_DsdManPrint
(
If_DsdMan_t
*
p
,
char
*
pFileName
,
int
Number
,
int
Support
,
int
fOccurs
,
int
fTtDump
,
int
fVerbose
);
extern
void
If_DsdManPrint
(
If_DsdMan_t
*
p
,
char
*
pFileName
,
int
Number
,
int
Support
,
int
fOccurs
,
int
fTtDump
,
int
fVerbose
);
extern
void
If_DsdManTune
(
If_DsdMan_t
*
p
,
int
LutSize
,
int
fFast
,
int
fAdd
,
int
fSpec
,
int
fVerbose
);
extern
void
If_DsdManTune
(
If_DsdMan_t
*
p
,
int
LutSize
,
int
fFast
,
int
fAdd
,
int
fSpec
,
int
fVerbose
);
extern
void
Id_DsdManTuneStr
(
If_DsdMan_t
*
p
,
char
*
pStruct
,
int
nConfls
,
int
fVerbose
);
extern
void
If_DsdManFree
(
If_DsdMan_t
*
p
,
int
fVerbose
);
extern
void
If_DsdManFree
(
If_DsdMan_t
*
p
,
int
fVerbose
);
extern
void
If_DsdManSave
(
If_DsdMan_t
*
p
,
char
*
pFileName
);
extern
void
If_DsdManSave
(
If_DsdMan_t
*
p
,
char
*
pFileName
);
extern
If_DsdMan_t
*
If_DsdManLoad
(
char
*
pFileName
);
extern
If_DsdMan_t
*
If_DsdManLoad
(
char
*
pFileName
);
...
...
src/map/if/ifDsd.c
View file @
023e92c4
...
@@ -2253,6 +2253,71 @@ void If_DsdManTune( If_DsdMan_t * p, int LutSize, int fFast, int fAdd, int fSpec
...
@@ -2253,6 +2253,71 @@ void If_DsdManTune( If_DsdMan_t * p, int LutSize, int fFast, int fAdd, int fSpec
}
}
typedef
struct
Ifn_Ntk_t_
Ifn_Ntk_t
;
extern
Ifn_Ntk_t
*
Ifn_NtkParse
(
char
*
pStr
);
extern
int
Ifn_NtkMatch
(
Ifn_Ntk_t
*
p
,
word
*
pTruth
,
int
nVars
,
int
nConfls
,
int
fVerbose
,
int
fVeryVerbose
);
extern
void
Ifn_NtkPrint
(
Ifn_Ntk_t
*
p
);
extern
int
Ifn_NtkLutSizeMax
(
Ifn_Ntk_t
*
p
);
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
Id_DsdManTuneStr
(
If_DsdMan_t
*
p
,
char
*
pStruct
,
int
nConfls
,
int
fVerbose
)
{
int
fVeryVerbose
=
0
;
ProgressBar
*
pProgress
=
NULL
;
If_DsdObj_t
*
pObj
;
word
*
pTruth
;
int
i
,
nVars
,
Value
,
LutSize
;
abctime
clk
=
Abc_Clock
();
// parse the structure
Ifn_Ntk_t
*
pNtk
=
Ifn_NtkParse
(
pStruct
);
LutSize
=
Ifn_NtkLutSizeMax
(
pNtk
);
// print
if
(
fVerbose
)
{
printf
(
"Considering programmable cell: "
);
Ifn_NtkPrint
(
pNtk
);
printf
(
"Largest LUT size = %d.
\n
"
,
LutSize
);
}
// clean the attributes
If_DsdVecForEachObj
(
&
p
->
vObjs
,
pObj
,
i
)
pObj
->
fMark
=
0
;
pProgress
=
Extra_ProgressBarStart
(
stdout
,
Vec_PtrSize
(
&
p
->
vObjs
)
);
If_DsdVecForEachObj
(
&
p
->
vObjs
,
pObj
,
i
)
{
Extra_ProgressBarUpdate
(
pProgress
,
i
,
NULL
);
nVars
=
If_DsdObjSuppSize
(
pObj
);
if
(
nVars
<=
LutSize
)
continue
;
pTruth
=
If_DsdManComputeTruth
(
p
,
Abc_Var2Lit
(
i
,
0
),
NULL
);
if
(
fVeryVerbose
)
Dau_DsdPrintFromTruth
(
pTruth
,
nVars
);
if
(
fVerbose
)
printf
(
"%6d : %2d "
,
i
,
nVars
);
Value
=
Ifn_NtkMatch
(
pNtk
,
pTruth
,
nVars
,
nConfls
,
fVerbose
,
fVeryVerbose
);
if
(
fVeryVerbose
)
printf
(
"
\n
"
);
if
(
Value
==
0
)
continue
;
If_DsdVecObjSetMark
(
&
p
->
vObjs
,
i
);
}
Extra_ProgressBarStop
(
pProgress
);
printf
(
"Finished matching %d functions. "
,
Vec_PtrSize
(
&
p
->
vObjs
)
);
Abc_PrintTime
(
1
,
"Time"
,
Abc_Clock
()
-
clk
);
if
(
fVeryVerbose
)
If_DsdManPrintDistrib
(
p
);
}
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
...
...
src/map/if/ifTune.c
View file @
023e92c4
...
@@ -57,10 +57,10 @@ static char * Ifn_Symbs[16] = {
...
@@ -57,10 +57,10 @@ static char * Ifn_Symbs[16] = {
"{}"
// 6: PRIME
"{}"
// 6: PRIME
};
};
typedef
struct
If
t_Obj_t_
Ift
_Obj_t
;
typedef
struct
If
n_Obj_t_
Ifn
_Obj_t
;
typedef
struct
If
t_Ntk_t_
Ift
_Ntk_t
;
typedef
struct
If
n_Ntk_t_
Ifn
_Ntk_t
;
struct
If
t
_Obj_t_
struct
If
n
_Obj_t_
{
{
unsigned
Type
:
3
;
// node type
unsigned
Type
:
3
;
// node type
unsigned
nFanins
:
5
;
// fanin counter
unsigned
nFanins
:
5
;
// fanin counter
...
@@ -68,12 +68,12 @@ struct Ift_Obj_t_
...
@@ -68,12 +68,12 @@ struct Ift_Obj_t_
unsigned
Var
:
16
;
// current variable
unsigned
Var
:
16
;
// current variable
int
Fanins
[
IFN_INS
];
// fanin IDs
int
Fanins
[
IFN_INS
];
// fanin IDs
};
};
struct
If
t
_Ntk_t_
struct
If
n
_Ntk_t_
{
{
// cell structure
// cell structure
int
nInps
;
// inputs
int
nInps
;
// inputs
int
nObjs
;
// objects
int
nObjs
;
// objects
If
t
_Obj_t
Nodes
[
2
*
IFN_INS
];
// nodes
If
n
_Obj_t
Nodes
[
2
*
IFN_INS
];
// nodes
// constraints
// constraints
int
pConstr
[
IFN_INS
];
// constraint pairs
int
pConstr
[
IFN_INS
];
// constraint pairs
int
nConstr
;
// number of pairs
int
nConstr
;
// number of pairs
...
@@ -90,8 +90,8 @@ struct Ift_Ntk_t_
...
@@ -90,8 +90,8 @@ struct Ift_Ntk_t_
word
pTtObjs
[
2
*
IFN_INS
*
IFN_WRD
];
// object truth tables
word
pTtObjs
[
2
*
IFN_INS
*
IFN_WRD
];
// object truth tables
};
};
static
inline
word
*
If
t_ElemTruth
(
Ift
_Ntk_t
*
p
,
int
i
)
{
return
p
->
pTtElems
+
i
*
Abc_TtWordNum
(
p
->
nInps
);
}
static
inline
word
*
If
n_ElemTruth
(
Ifn
_Ntk_t
*
p
,
int
i
)
{
return
p
->
pTtElems
+
i
*
Abc_TtWordNum
(
p
->
nInps
);
}
static
inline
word
*
If
t_ObjTruth
(
Ift
_Ntk_t
*
p
,
int
i
)
{
return
p
->
pTtObjs
+
i
*
p
->
nWords
;
}
static
inline
word
*
If
n_ObjTruth
(
Ifn
_Ntk_t
*
p
,
int
i
)
{
return
p
->
pTtObjs
+
i
*
p
->
nWords
;
}
// variable ordering
// variable ordering
// - primary inputs [0; p->nInps)
// - primary inputs [0; p->nInps)
...
@@ -114,7 +114,7 @@ static inline word * Ift_ObjTruth( Ift_Ntk_t * p, int i ) { return p->pTt
...
@@ -114,7 +114,7 @@ static inline word * Ift_ObjTruth( Ift_Ntk_t * p, int i ) { return p->pTt
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
int
Ifn_Prepare
(
If
t
_Ntk_t
*
p
,
word
*
pTruth
,
int
nVars
)
int
Ifn_Prepare
(
If
n
_Ntk_t
*
p
,
word
*
pTruth
,
int
nVars
)
{
{
int
i
,
fVerbose
=
0
;
int
i
,
fVerbose
=
0
;
assert
(
nVars
<=
p
->
nInps
);
assert
(
nVars
<=
p
->
nInps
);
...
@@ -140,7 +140,7 @@ int Ifn_Prepare( Ift_Ntk_t * p, word * pTruth, int nVars )
...
@@ -140,7 +140,7 @@ int Ifn_Prepare( Ift_Ntk_t * p, word * pTruth, int nVars )
memset
(
p
->
Values
,
0xFF
,
sizeof
(
int
)
*
p
->
nPars
);
memset
(
p
->
Values
,
0xFF
,
sizeof
(
int
)
*
p
->
nPars
);
return
p
->
nPars
;
return
p
->
nPars
;
}
}
void
Ifn_NtkPrint
(
If
t
_Ntk_t
*
p
)
void
Ifn_NtkPrint
(
If
n
_Ntk_t
*
p
)
{
{
int
i
,
k
;
int
i
,
k
;
if
(
p
==
NULL
)
if
(
p
==
NULL
)
...
@@ -158,6 +158,14 @@ void Ifn_NtkPrint( Ift_Ntk_t * p )
...
@@ -158,6 +158,14 @@ void Ifn_NtkPrint( Ift_Ntk_t * p )
}
}
printf
(
"
\n
"
);
printf
(
"
\n
"
);
}
}
int
Ifn_NtkLutSizeMax
(
Ifn_Ntk_t
*
p
)
{
int
i
,
LutSize
=
0
;
for
(
i
=
p
->
nInps
;
i
<
p
->
nObjs
;
i
++
)
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_PRIME
)
LutSize
=
Abc_MaxInt
(
LutSize
,
(
int
)
p
->
Nodes
[
i
].
nFanins
);
return
LutSize
;
}
/**Function*************************************************************
/**Function*************************************************************
...
@@ -181,6 +189,8 @@ int Ifn_ManStrCheck( char * pStr, int * pnInps, int * pnObjs )
...
@@ -181,6 +189,8 @@ int Ifn_ManStrCheck( char * pStr, int * pnInps, int * pnObjs )
pStr
[
i
]
==
'<'
||
pStr
[
i
]
==
'>'
||
pStr
[
i
]
==
'<'
||
pStr
[
i
]
==
'>'
||
pStr
[
i
]
==
'{'
||
pStr
[
i
]
==
'}'
)
pStr
[
i
]
==
'{'
||
pStr
[
i
]
==
'}'
)
continue
;
continue
;
if
(
pStr
[
i
]
>=
'A'
&&
pStr
[
i
]
<=
'Z'
)
continue
;
if
(
pStr
[
i
]
>=
'a'
&&
pStr
[
i
]
<=
'z'
)
if
(
pStr
[
i
]
>=
'a'
&&
pStr
[
i
]
<=
'z'
)
{
{
if
(
pStr
[
i
+
1
]
==
'='
)
if
(
pStr
[
i
+
1
]
==
'='
)
...
@@ -200,6 +210,8 @@ int Ifn_ManStrCheck( char * pStr, int * pnInps, int * pnObjs )
...
@@ -200,6 +210,8 @@ int Ifn_ManStrCheck( char * pStr, int * pnInps, int * pnObjs )
pStr
[
i
]
==
'<'
||
pStr
[
i
]
==
'>'
||
pStr
[
i
]
==
'<'
||
pStr
[
i
]
==
'>'
||
pStr
[
i
]
==
'{'
||
pStr
[
i
]
==
'}'
)
pStr
[
i
]
==
'{'
||
pStr
[
i
]
==
'}'
)
continue
;
continue
;
if
(
pStr
[
i
]
>=
'A'
&&
pStr
[
i
]
<=
'Z'
)
continue
;
if
(
pStr
[
i
]
>=
'a'
&&
pStr
[
i
]
<=
'z'
)
if
(
pStr
[
i
]
>=
'a'
&&
pStr
[
i
]
<=
'z'
)
{
{
if
(
pStr
[
i
+
1
]
!=
'='
&&
Marks
[
pStr
[
i
]
-
'a'
]
!=
2
)
if
(
pStr
[
i
+
1
]
!=
'='
&&
Marks
[
pStr
[
i
]
-
'a'
]
!=
2
)
...
@@ -228,11 +240,11 @@ int Ifn_ManStrCheck( char * pStr, int * pnInps, int * pnObjs )
...
@@ -228,11 +240,11 @@ int Ifn_ManStrCheck( char * pStr, int * pnInps, int * pnObjs )
*
pnObjs
=
MaxDef
;
*
pnObjs
=
MaxDef
;
return
1
;
return
1
;
}
}
If
t_Ntk_t
*
Ifn_ManStr
Parse
(
char
*
pStr
)
If
n_Ntk_t
*
Ifn_Ntk
Parse
(
char
*
pStr
)
{
{
int
i
,
k
,
n
,
f
,
nFans
,
iFan
;
int
i
,
k
,
n
,
f
,
nFans
,
iFan
;
static
If
t
_Ntk_t
P
,
*
p
=
&
P
;
static
If
n
_Ntk_t
P
,
*
p
=
&
P
;
memset
(
p
,
0
,
sizeof
(
If
t
_Ntk_t
)
);
memset
(
p
,
0
,
sizeof
(
If
n
_Ntk_t
)
);
if
(
!
Ifn_ManStrCheck
(
pStr
,
&
p
->
nInps
,
&
p
->
nObjs
)
)
if
(
!
Ifn_ManStrCheck
(
pStr
,
&
p
->
nInps
,
&
p
->
nObjs
)
)
return
NULL
;
return
NULL
;
if
(
p
->
nInps
>
IFN_INS
)
if
(
p
->
nInps
>
IFN_INS
)
...
@@ -293,6 +305,18 @@ Ift_Ntk_t * Ifn_ManStrParse( char * pStr )
...
@@ -293,6 +305,18 @@ Ift_Ntk_t * Ifn_ManStrParse( char * pStr )
}
}
// truth tables
// truth tables
Abc_TtElemInit2
(
p
->
pTtElems
,
p
->
nInps
);
Abc_TtElemInit2
(
p
->
pTtElems
,
p
->
nInps
);
// parse constraints
p
->
nConstr
=
0
;
for
(
i
=
0
;
i
<
p
->
nInps
;
i
++
)
for
(
k
=
0
;
pStr
[
k
];
k
++
)
if
(
pStr
[
k
]
==
'A'
+
i
&&
pStr
[
k
-
1
]
==
';'
)
{
p
->
pConstr
[
p
->
nConstr
++
]
=
((
int
)(
pStr
[
k
]
-
'A'
)
<<
16
)
|
(
int
)(
pStr
[
k
+
1
]
-
'A'
);
// printf( "Added constraint (%c < %c)\n", pStr[k], pStr[k+1] );
}
// if ( p->nConstr )
// printf( "Total constraints = %d\n", p->nConstr );
/*
/*
// constraints
// constraints
p->nConstr = 5;
p->nConstr = 5;
...
@@ -318,7 +342,7 @@ Ift_Ntk_t * Ifn_ManStrParse( char * pStr )
...
@@ -318,7 +342,7 @@ Ift_Ntk_t * Ifn_ManStrParse( char * pStr )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
word
*
If
t_NtkDeriveTruth
(
Ift
_Ntk_t
*
p
,
int
*
pValues
)
word
*
If
n_NtkDeriveTruth
(
Ifn
_Ntk_t
*
p
,
int
*
pValues
)
{
{
int
i
,
v
,
f
,
iVar
,
iStart
;
int
i
,
v
,
f
,
iVar
,
iStart
;
// elementary variables
// elementary variables
...
@@ -330,35 +354,35 @@ word * Ift_NtkDeriveTruth( Ift_Ntk_t * p, int * pValues )
...
@@ -330,35 +354,35 @@ word * Ift_NtkDeriveTruth( Ift_Ntk_t * p, int * pValues )
if
(
p
->
Values
[
iStart
+
v
]
)
if
(
p
->
Values
[
iStart
+
v
]
)
iVar
+=
(
1
<<
v
);
iVar
+=
(
1
<<
v
);
// assign variable
// assign variable
Abc_TtCopy
(
If
t_ObjTruth
(
p
,
i
),
Ift
_ElemTruth
(
p
,
iVar
),
p
->
nWords
,
0
);
Abc_TtCopy
(
If
n_ObjTruth
(
p
,
i
),
Ifn
_ElemTruth
(
p
,
iVar
),
p
->
nWords
,
0
);
}
}
// internal variables
// internal variables
for
(
i
=
p
->
nInps
;
i
<
p
->
nObjs
;
i
++
)
for
(
i
=
p
->
nInps
;
i
<
p
->
nObjs
;
i
++
)
{
{
int
nFans
=
p
->
Nodes
[
i
].
nFanins
;
int
nFans
=
p
->
Nodes
[
i
].
nFanins
;
int
*
pFans
=
p
->
Nodes
[
i
].
Fanins
;
int
*
pFans
=
p
->
Nodes
[
i
].
Fanins
;
word
*
pTruth
=
If
t
_ObjTruth
(
p
,
i
);
word
*
pTruth
=
If
n
_ObjTruth
(
p
,
i
);
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_AND
)
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_AND
)
{
{
Abc_TtFill
(
pTruth
,
p
->
nWords
);
Abc_TtFill
(
pTruth
,
p
->
nWords
);
for
(
f
=
0
;
f
<
nFans
;
f
++
)
for
(
f
=
0
;
f
<
nFans
;
f
++
)
Abc_TtAnd
(
pTruth
,
pTruth
,
If
t
_ObjTruth
(
p
,
pFans
[
f
]),
p
->
nWords
,
0
);
Abc_TtAnd
(
pTruth
,
pTruth
,
If
n
_ObjTruth
(
p
,
pFans
[
f
]),
p
->
nWords
,
0
);
}
}
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_XOR
)
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_XOR
)
{
{
Abc_TtClear
(
pTruth
,
p
->
nWords
);
Abc_TtClear
(
pTruth
,
p
->
nWords
);
for
(
f
=
0
;
f
<
nFans
;
f
++
)
for
(
f
=
0
;
f
<
nFans
;
f
++
)
Abc_TtXor
(
pTruth
,
pTruth
,
If
t
_ObjTruth
(
p
,
pFans
[
f
]),
p
->
nWords
,
0
);
Abc_TtXor
(
pTruth
,
pTruth
,
If
n
_ObjTruth
(
p
,
pFans
[
f
]),
p
->
nWords
,
0
);
}
}
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_MUX
)
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_MUX
)
{
{
assert
(
nFans
==
3
);
assert
(
nFans
==
3
);
Abc_TtMux
(
pTruth
,
If
t_ObjTruth
(
p
,
pFans
[
0
]),
Ift_ObjTruth
(
p
,
pFans
[
1
]),
Ift
_ObjTruth
(
p
,
pFans
[
2
]),
p
->
nWords
);
Abc_TtMux
(
pTruth
,
If
n_ObjTruth
(
p
,
pFans
[
0
]),
Ifn_ObjTruth
(
p
,
pFans
[
1
]),
Ifn
_ObjTruth
(
p
,
pFans
[
2
]),
p
->
nWords
);
}
}
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_PRIME
)
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_PRIME
)
{
{
int
nValues
=
(
1
<<
nFans
);
int
nValues
=
(
1
<<
nFans
);
word
*
pTemp
=
If
t
_ObjTruth
(
p
,
p
->
nObjs
);
word
*
pTemp
=
If
n
_ObjTruth
(
p
,
p
->
nObjs
);
Abc_TtClear
(
pTruth
,
p
->
nWords
);
Abc_TtClear
(
pTruth
,
p
->
nWords
);
for
(
v
=
0
;
v
<
nValues
;
v
++
)
for
(
v
=
0
;
v
<
nValues
;
v
++
)
{
{
...
@@ -367,16 +391,16 @@ word * Ift_NtkDeriveTruth( Ift_Ntk_t * p, int * pValues )
...
@@ -367,16 +391,16 @@ word * Ift_NtkDeriveTruth( Ift_Ntk_t * p, int * pValues )
Abc_TtFill
(
pTemp
,
p
->
nWords
);
Abc_TtFill
(
pTemp
,
p
->
nWords
);
for
(
f
=
0
;
f
<
nFans
;
f
++
)
for
(
f
=
0
;
f
<
nFans
;
f
++
)
if
(
(
v
>>
f
)
&
1
)
if
(
(
v
>>
f
)
&
1
)
Abc_TtAnd
(
pTemp
,
pTemp
,
If
t
_ObjTruth
(
p
,
pFans
[
f
]),
p
->
nWords
,
0
);
Abc_TtAnd
(
pTemp
,
pTemp
,
If
n
_ObjTruth
(
p
,
pFans
[
f
]),
p
->
nWords
,
0
);
else
else
Abc_TtSharp
(
pTemp
,
pTemp
,
If
t
_ObjTruth
(
p
,
pFans
[
f
]),
p
->
nWords
);
Abc_TtSharp
(
pTemp
,
pTemp
,
If
n
_ObjTruth
(
p
,
pFans
[
f
]),
p
->
nWords
);
Abc_TtOr
(
pTruth
,
pTruth
,
pTemp
,
p
->
nWords
);
Abc_TtOr
(
pTruth
,
pTruth
,
pTemp
,
p
->
nWords
);
}
}
}
}
else
assert
(
0
);
else
assert
(
0
);
//Dau_DsdPrintFromTruth( pTruth, p->nVars );
//Dau_DsdPrintFromTruth( pTruth, p->nVars );
}
}
return
If
t
_ObjTruth
(
p
,
p
->
nObjs
-
1
);
return
If
n
_ObjTruth
(
p
,
p
->
nObjs
-
1
);
}
}
/**Function*************************************************************
/**Function*************************************************************
...
@@ -390,7 +414,7 @@ word * Ift_NtkDeriveTruth( Ift_Ntk_t * p, int * pValues )
...
@@ -390,7 +414,7 @@ word * Ift_NtkDeriveTruth( Ift_Ntk_t * p, int * pValues )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
void
If
t
_TtComparisonConstr
(
word
*
pTruth
,
int
nVars
,
int
fMore
,
int
fEqual
)
void
If
n
_TtComparisonConstr
(
word
*
pTruth
,
int
nVars
,
int
fMore
,
int
fEqual
)
{
{
word
Cond
[
4
],
Equa
[
4
],
Temp
[
4
];
word
Cond
[
4
],
Equa
[
4
],
Temp
[
4
];
word
s_TtElems
[
8
][
4
]
=
{
word
s_TtElems
[
8
][
4
]
=
{
...
@@ -433,7 +457,7 @@ void Ift_TtComparisonConstr( word * pTruth, int nVars, int fMore, int fEqual )
...
@@ -433,7 +457,7 @@ void Ift_TtComparisonConstr( word * pTruth, int nVars, int fMore, int fEqual )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
void
If
t
_AddClause
(
sat_solver
*
pSat
,
int
*
pBeg
,
int
*
pEnd
)
void
If
n
_AddClause
(
sat_solver
*
pSat
,
int
*
pBeg
,
int
*
pEnd
)
{
{
int
fVerbose
=
0
;
int
fVerbose
=
0
;
int
RetValue
=
sat_solver_addclause
(
pSat
,
pBeg
,
pEnd
);
int
RetValue
=
sat_solver_addclause
(
pSat
,
pBeg
,
pEnd
);
...
@@ -445,7 +469,7 @@ void Ift_AddClause( sat_solver * pSat, int * pBeg, int * pEnd )
...
@@ -445,7 +469,7 @@ void Ift_AddClause( sat_solver * pSat, int * pBeg, int * pEnd )
}
}
assert
(
RetValue
);
assert
(
RetValue
);
}
}
void
If
t
_NtkAddConstrOne
(
sat_solver
*
pSat
,
Vec_Int_t
*
vCover
,
int
*
pVars
,
int
nVars
)
void
If
n
_NtkAddConstrOne
(
sat_solver
*
pSat
,
Vec_Int_t
*
vCover
,
int
*
pVars
,
int
nVars
)
{
{
int
k
,
c
,
Cube
,
Literal
,
nLits
,
pLits
[
IFN_INS
];
int
k
,
c
,
Cube
,
Literal
,
nLits
,
pLits
[
IFN_INS
];
Vec_IntForEachEntry
(
vCover
,
Cube
,
c
)
Vec_IntForEachEntry
(
vCover
,
Cube
,
c
)
...
@@ -461,12 +485,12 @@ void Ift_NtkAddConstrOne( sat_solver * pSat, Vec_Int_t * vCover, int * pVars, in
...
@@ -461,12 +485,12 @@ void Ift_NtkAddConstrOne( sat_solver * pSat, Vec_Int_t * vCover, int * pVars, in
else
if
(
Literal
!=
0
)
else
if
(
Literal
!=
0
)
assert
(
0
);
assert
(
0
);
}
}
If
t
_AddClause
(
pSat
,
pLits
,
pLits
+
nLits
);
If
n
_AddClause
(
pSat
,
pLits
,
pLits
+
nLits
);
}
}
}
}
void
If
t_NtkAddConstraints
(
Ift
_Ntk_t
*
p
,
sat_solver
*
pSat
)
void
If
n_NtkAddConstraints
(
Ifn
_Ntk_t
*
p
,
sat_solver
*
pSat
)
{
{
int
fAddConstr
=
0
;
int
fAddConstr
=
1
;
Vec_Int_t
*
vCover
=
Vec_IntAlloc
(
0
);
Vec_Int_t
*
vCover
=
Vec_IntAlloc
(
0
);
word
uTruth
=
Abc_Tt6Stretch
(
~
Abc_Tt6Mask
(
p
->
nVars
),
p
->
nParsVNum
);
word
uTruth
=
Abc_Tt6Stretch
(
~
Abc_Tt6Mask
(
p
->
nVars
),
p
->
nParsVNum
);
assert
(
p
->
nParsVNum
<=
4
);
assert
(
p
->
nParsVNum
<=
4
);
...
@@ -481,7 +505,7 @@ void Ift_NtkAddConstraints( Ift_Ntk_t * p, sat_solver * pSat )
...
@@ -481,7 +505,7 @@ void Ift_NtkAddConstraints( Ift_Ntk_t * p, sat_solver * pSat )
{
{
for
(
k
=
0
;
k
<
p
->
nParsVNum
;
k
++
)
for
(
k
=
0
;
k
<
p
->
nParsVNum
;
k
++
)
pVars
[
k
]
=
p
->
nParsVIni
+
i
*
p
->
nParsVNum
+
k
;
pVars
[
k
]
=
p
->
nParsVIni
+
i
*
p
->
nParsVNum
+
k
;
If
t
_NtkAddConstrOne
(
pSat
,
vCover
,
pVars
,
p
->
nParsVNum
);
If
n
_NtkAddConstrOne
(
pSat
,
vCover
,
pVars
,
p
->
nParsVNum
);
}
}
}
}
// ordering constraints
// ordering constraints
...
@@ -490,7 +514,7 @@ void Ift_NtkAddConstraints( Ift_Ntk_t * p, sat_solver * pSat )
...
@@ -490,7 +514,7 @@ void Ift_NtkAddConstraints( Ift_Ntk_t * p, sat_solver * pSat )
word
pTruth
[
4
];
word
pTruth
[
4
];
int
i
,
k
,
RetValue
,
pVars
[
2
*
IFN_INS
];
int
i
,
k
,
RetValue
,
pVars
[
2
*
IFN_INS
];
int
fForceDiff
=
(
p
->
nVars
==
p
->
nInps
);
int
fForceDiff
=
(
p
->
nVars
==
p
->
nInps
);
If
t
_TtComparisonConstr
(
pTruth
,
p
->
nParsVNum
,
fForceDiff
,
fForceDiff
);
If
n
_TtComparisonConstr
(
pTruth
,
p
->
nParsVNum
,
fForceDiff
,
fForceDiff
);
RetValue
=
Kit_TruthIsop
(
(
unsigned
*
)
pTruth
,
2
*
p
->
nParsVNum
,
vCover
,
0
);
RetValue
=
Kit_TruthIsop
(
(
unsigned
*
)
pTruth
,
2
*
p
->
nParsVNum
,
vCover
,
0
);
assert
(
RetValue
==
0
);
assert
(
RetValue
==
0
);
// Kit_TruthIsopPrintCover( vCover, 2*p->nParsVNum, 0 );
// Kit_TruthIsopPrintCover( vCover, 2*p->nParsVNum, 0 );
...
@@ -503,7 +527,7 @@ void Ift_NtkAddConstraints( Ift_Ntk_t * p, sat_solver * pSat )
...
@@ -503,7 +527,7 @@ void Ift_NtkAddConstraints( Ift_Ntk_t * p, sat_solver * pSat )
pVars
[
2
*
k
+
0
]
=
p
->
nParsVIni
+
iVar1
*
p
->
nParsVNum
+
k
;
pVars
[
2
*
k
+
0
]
=
p
->
nParsVIni
+
iVar1
*
p
->
nParsVNum
+
k
;
pVars
[
2
*
k
+
1
]
=
p
->
nParsVIni
+
iVar2
*
p
->
nParsVNum
+
k
;
pVars
[
2
*
k
+
1
]
=
p
->
nParsVIni
+
iVar2
*
p
->
nParsVNum
+
k
;
}
}
If
t
_NtkAddConstrOne
(
pSat
,
vCover
,
pVars
,
2
*
p
->
nParsVNum
);
If
n
_NtkAddConstrOne
(
pSat
,
vCover
,
pVars
,
2
*
p
->
nParsVNum
);
// printf( "added constraint with %d clauses for %d and %d\n", Vec_IntSize(vCover), iVar1, iVar2 );
// printf( "added constraint with %d clauses for %d and %d\n", Vec_IntSize(vCover), iVar1, iVar2 );
}
}
}
}
...
@@ -521,7 +545,7 @@ void Ift_NtkAddConstraints( Ift_Ntk_t * p, sat_solver * pSat )
...
@@ -521,7 +545,7 @@ void Ift_NtkAddConstraints( Ift_Ntk_t * p, sat_solver * pSat )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
int
If
t_NtkAddClauses
(
Ift
_Ntk_t
*
p
,
int
*
pValues
,
sat_solver
*
pSat
)
int
If
n_NtkAddClauses
(
Ifn
_Ntk_t
*
p
,
int
*
pValues
,
sat_solver
*
pSat
)
{
{
int
i
,
f
,
v
,
nLits
,
pLits
[
IFN_INS
+
2
],
pLits2
[
IFN_INS
+
2
];
int
i
,
f
,
v
,
nLits
,
pLits
[
IFN_INS
+
2
],
pLits2
[
IFN_INS
+
2
];
// assign new variables
// assign new variables
...
@@ -548,7 +572,7 @@ int Ift_NtkAddClauses( Ift_Ntk_t * p, int * pValues, sat_solver * pSat )
...
@@ -548,7 +572,7 @@ int Ift_NtkAddClauses( Ift_Ntk_t * p, int * pValues, sat_solver * pSat )
// add clause literals
// add clause literals
for
(
f
=
0
;
f
<
p
->
nParsVNum
;
f
++
)
for
(
f
=
0
;
f
<
p
->
nParsVNum
;
f
++
)
pLits
[
f
+
1
]
=
Abc_Var2Lit
(
iParStart
+
f
,
(
v
>>
f
)
&
1
);
pLits
[
f
+
1
]
=
Abc_Var2Lit
(
iParStart
+
f
,
(
v
>>
f
)
&
1
);
If
t
_AddClause
(
pSat
,
pLits
,
pLits
+
p
->
nParsVNum
+
1
);
If
n
_AddClause
(
pSat
,
pLits
,
pLits
+
p
->
nParsVNum
+
1
);
}
}
}
}
//printf( "\n" );
//printf( "\n" );
...
@@ -566,18 +590,50 @@ int Ift_NtkAddClauses( Ift_Ntk_t * p, int * pValues, sat_solver * pSat )
...
@@ -566,18 +590,50 @@ int Ift_NtkAddClauses( Ift_Ntk_t * p, int * pValues, sat_solver * pSat )
// add small clause
// add small clause
pLits2
[
0
]
=
Abc_Var2Lit
(
p
->
Nodes
[
i
].
Var
,
1
);
pLits2
[
0
]
=
Abc_Var2Lit
(
p
->
Nodes
[
i
].
Var
,
1
);
pLits2
[
1
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
f
]].
Var
,
0
);
pLits2
[
1
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
f
]].
Var
,
0
);
If
t
_AddClause
(
pSat
,
pLits2
,
pLits2
+
2
);
If
n
_AddClause
(
pSat
,
pLits2
,
pLits2
+
2
);
}
}
// add big clause
// add big clause
If
t
_AddClause
(
pSat
,
pLits
,
pLits
+
nLits
);
If
n
_AddClause
(
pSat
,
pLits
,
pLits
+
nLits
);
}
}
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_XOR
)
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_XOR
)
{
{
assert
(
0
);
int
m
,
nMints
=
(
1
<<
(
nFans
+
1
));
for
(
m
=
0
;
m
<
nMints
;
m
++
)
{
// skip even
int
Count
=
0
;
for
(
v
=
0
;
v
<=
nFans
;
v
++
)
Count
+=
((
m
>>
v
)
&
1
);
if
(
(
Count
&
1
)
==
0
)
continue
;
// generate minterm
pLits
[
0
]
=
Abc_Var2Lit
(
p
->
Nodes
[
i
].
Var
,
(
m
>>
nFans
)
&
1
);
for
(
v
=
0
;
v
<
nFans
;
v
++
)
pLits
[
v
+
1
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
v
]].
Var
,
(
m
>>
v
)
&
1
);
Ifn_AddClause
(
pSat
,
pLits
,
pLits
+
nFans
+
1
);
}
}
}
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_MUX
)
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_MUX
)
{
{
assert
(
0
);
pLits
[
0
]
=
Abc_Var2Lit
(
p
->
Nodes
[
i
].
Var
,
0
);
pLits
[
1
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
0
]].
Var
,
1
);
// ctrl
pLits
[
2
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
1
]].
Var
,
1
);
Ifn_AddClause
(
pSat
,
pLits
,
pLits
+
3
);
pLits
[
0
]
=
Abc_Var2Lit
(
p
->
Nodes
[
i
].
Var
,
1
);
pLits
[
1
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
0
]].
Var
,
1
);
// ctrl
pLits
[
2
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
1
]].
Var
,
0
);
Ifn_AddClause
(
pSat
,
pLits
,
pLits
+
3
);
pLits
[
0
]
=
Abc_Var2Lit
(
p
->
Nodes
[
i
].
Var
,
0
);
pLits
[
1
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
0
]].
Var
,
0
);
// ctrl
pLits
[
2
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
2
]].
Var
,
1
);
Ifn_AddClause
(
pSat
,
pLits
,
pLits
+
3
);
pLits
[
0
]
=
Abc_Var2Lit
(
p
->
Nodes
[
i
].
Var
,
1
);
pLits
[
1
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
0
]].
Var
,
0
);
// ctrl
pLits
[
2
]
=
Abc_Var2Lit
(
p
->
Nodes
[
pFans
[
2
]].
Var
,
0
);
Ifn_AddClause
(
pSat
,
pLits
,
pLits
+
3
);
}
}
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_PRIME
)
else
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_PRIME
)
{
{
...
@@ -598,9 +654,9 @@ int Ift_NtkAddClauses( Ift_Ntk_t * p, int * pValues, sat_solver * pSat )
...
@@ -598,9 +654,9 @@ int Ift_NtkAddClauses( Ift_Ntk_t * p, int * pValues, sat_solver * pSat )
pLits2
[
nLits
]
=
Abc_Var2Lit
(
iParStart
+
v
,
0
);
pLits2
[
nLits
]
=
Abc_Var2Lit
(
iParStart
+
v
,
0
);
nLits
++
;
nLits
++
;
if
(
pValues
[
i
]
!=
0
)
if
(
pValues
[
i
]
!=
0
)
If
t
_AddClause
(
pSat
,
pLits2
,
pLits2
+
nLits
);
If
n
_AddClause
(
pSat
,
pLits2
,
pLits2
+
nLits
);
if
(
pValues
[
i
]
!=
1
)
if
(
pValues
[
i
]
!=
1
)
If
t
_AddClause
(
pSat
,
pLits
,
pLits
+
nLits
);
If
n
_AddClause
(
pSat
,
pLits
,
pLits
+
nLits
);
}
}
}
}
else
assert
(
0
);
else
assert
(
0
);
...
@@ -620,7 +676,7 @@ int Ift_NtkAddClauses( Ift_Ntk_t * p, int * pValues, sat_solver * pSat )
...
@@ -620,7 +676,7 @@ int Ift_NtkAddClauses( Ift_Ntk_t * p, int * pValues, sat_solver * pSat )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
void
If
t
_SatPrintStatus
(
sat_solver
*
p
,
int
Iter
,
int
status
,
int
iMint
,
int
Value
,
abctime
clk
)
void
If
n
_SatPrintStatus
(
sat_solver
*
p
,
int
Iter
,
int
status
,
int
iMint
,
int
Value
,
abctime
clk
)
{
{
printf
(
"Iter = %5d "
,
Iter
);
printf
(
"Iter = %5d "
,
Iter
);
printf
(
"Mint = %5d "
,
iMint
);
printf
(
"Mint = %5d "
,
iMint
);
...
@@ -636,19 +692,23 @@ void Ift_SatPrintStatus( sat_solver * p, int Iter, int status, int iMint, int Va
...
@@ -636,19 +692,23 @@ void Ift_SatPrintStatus( sat_solver * p, int Iter, int status, int iMint, int Va
printf
(
"status = undec"
);
printf
(
"status = undec"
);
Abc_PrintTime
(
1
,
""
,
clk
);
Abc_PrintTime
(
1
,
""
,
clk
);
}
}
void
If
t_SatPrintConfig
(
Ift
_Ntk_t
*
p
,
sat_solver
*
pSat
)
void
If
n_SatPrintConfig
(
Ifn
_Ntk_t
*
p
,
sat_solver
*
pSat
)
{
{
int
v
;
int
v
,
i
;
for
(
v
=
p
->
nObjs
;
v
<
p
->
nPars
;
v
++
)
for
(
v
=
p
->
nObjs
;
v
<
p
->
nPars
;
v
++
)
{
{
if
(
v
>=
p
->
nParsVIni
&&
(
v
-
p
->
nParsVIni
)
%
p
->
nParsVNum
==
0
)
for
(
i
=
p
->
nInps
;
i
<
p
->
nObjs
;
i
++
)
if
(
p
->
Nodes
[
i
].
Type
==
IF_DSD_PRIME
&&
(
int
)
p
->
Nodes
[
i
].
iFirst
==
v
)
break
;
if
(
i
<
p
->
nObjs
)
printf
(
" "
);
else
if
(
v
>=
p
->
nParsVIni
&&
(
v
-
p
->
nParsVIni
)
%
p
->
nParsVNum
==
0
)
printf
(
" %d="
,
(
v
-
p
->
nParsVIni
)
/
p
->
nParsVNum
);
printf
(
" %d="
,
(
v
-
p
->
nParsVIni
)
/
p
->
nParsVNum
);
printf
(
"%d"
,
sat_solver_var_value
(
pSat
,
v
)
);
printf
(
"%d"
,
sat_solver_var_value
(
pSat
,
v
)
);
}
}
printf
(
"
\n
"
);
}
}
int
If
t_NtkMatch
(
Ift_Ntk_t
*
p
,
word
*
pTruth
,
int
nVars
,
int
f
Verbose
)
int
If
n_NtkMatch
(
Ifn_Ntk_t
*
p
,
word
*
pTruth
,
int
nVars
,
int
nConfls
,
int
fVerbose
,
int
fVery
Verbose
)
{
{
word
*
pTruth1
;
word
*
pTruth1
;
int
RetValue
=
0
;
int
RetValue
=
0
;
...
@@ -659,9 +719,9 @@ int Ift_NtkMatch( Ift_Ntk_t * p, word * pTruth, int nVars, int fVerbose )
...
@@ -659,9 +719,9 @@ int Ift_NtkMatch( Ift_Ntk_t * p, word * pTruth, int nVars, int fVerbose )
sat_solver
*
pSat
=
sat_solver_new
();
sat_solver
*
pSat
=
sat_solver_new
();
Ifn_Prepare
(
p
,
pTruth
,
nVars
);
Ifn_Prepare
(
p
,
pTruth
,
nVars
);
sat_solver_setnvars
(
pSat
,
p
->
nPars
);
sat_solver_setnvars
(
pSat
,
p
->
nPars
);
If
t
_NtkAddConstraints
(
p
,
pSat
);
If
n
_NtkAddConstraints
(
p
,
pSat
);
if
(
fVerbose
)
if
(
fVer
yVer
bose
)
If
t
_SatPrintStatus
(
pSat
,
0
,
l_True
,
-
1
,
-
1
,
Abc_Clock
()
-
clk
);
If
n
_SatPrintStatus
(
pSat
,
0
,
l_True
,
-
1
,
-
1
,
Abc_Clock
()
-
clk
);
for
(
i
=
0
;
i
<
nIterMax
;
i
++
)
for
(
i
=
0
;
i
<
nIterMax
;
i
++
)
{
{
// get variable assignment
// get variable assignment
...
@@ -669,37 +729,41 @@ int Ift_NtkMatch( Ift_Ntk_t * p, word * pTruth, int nVars, int fVerbose )
...
@@ -669,37 +729,41 @@ int Ift_NtkMatch( Ift_Ntk_t * p, word * pTruth, int nVars, int fVerbose )
p
->
Values
[
v
]
=
v
<
p
->
nVars
?
(
iMint
>>
v
)
&
1
:
-
1
;
p
->
Values
[
v
]
=
v
<
p
->
nVars
?
(
iMint
>>
v
)
&
1
:
-
1
;
p
->
Values
[
p
->
nObjs
-
1
]
=
Abc_TtGetBit
(
pTruth
,
iMint
);
p
->
Values
[
p
->
nObjs
-
1
]
=
Abc_TtGetBit
(
pTruth
,
iMint
);
// derive clauses
// derive clauses
if
(
!
If
t
_NtkAddClauses
(
p
,
p
->
Values
,
pSat
)
)
if
(
!
If
n
_NtkAddClauses
(
p
,
p
->
Values
,
pSat
)
)
break
;
break
;
// find assignment of parameters
// find assignment of parameters
// clk2 = Abc_Clock();
// clk2 = Abc_Clock();
status
=
sat_solver_solve
(
pSat
,
NULL
,
NULL
,
0
,
0
,
0
,
0
);
status
=
sat_solver_solve
(
pSat
,
NULL
,
NULL
,
nConfls
,
0
,
0
,
0
);
// clkSat += Abc_Clock() - clk2;
// clkSat += Abc_Clock() - clk2;
if
(
fVerbose
)
if
(
fVer
yVer
bose
)
If
t
_SatPrintStatus
(
pSat
,
i
+
1
,
status
,
iMint
,
p
->
Values
[
p
->
nObjs
-
1
],
Abc_Clock
()
-
clk
);
If
n
_SatPrintStatus
(
pSat
,
i
+
1
,
status
,
iMint
,
p
->
Values
[
p
->
nObjs
-
1
],
Abc_Clock
()
-
clk
);
if
(
status
==
l_Fals
e
)
if
(
status
!=
l_Tru
e
)
break
;
break
;
assert
(
status
==
l_True
);
// collect assignment
// collect assignment
for
(
v
=
p
->
nObjs
;
v
<
p
->
nPars
;
v
++
)
for
(
v
=
p
->
nObjs
;
v
<
p
->
nPars
;
v
++
)
p
->
Values
[
v
]
=
sat_solver_var_value
(
pSat
,
v
);
p
->
Values
[
v
]
=
sat_solver_var_value
(
pSat
,
v
);
// find truth table
// find truth table
// clk2 = Abc_Clock();
// clk2 = Abc_Clock();
pTruth1
=
If
t
_NtkDeriveTruth
(
p
,
p
->
Values
);
pTruth1
=
If
n
_NtkDeriveTruth
(
p
,
p
->
Values
);
// clkTru += Abc_Clock() - clk2;
// clkTru += Abc_Clock() - clk2;
Abc_TtXor
(
pTruth1
,
pTruth1
,
p
->
pTruth
,
p
->
nWords
,
0
);
Abc_TtXor
(
pTruth1
,
pTruth1
,
p
->
pTruth
,
p
->
nWords
,
0
);
// find mismatch if present
// find mismatch if present
iMint
=
Abc_TtFindFirstBit
(
pTruth1
,
p
->
nVars
);
iMint
=
Abc_TtFindFirstBit
(
pTruth1
,
p
->
nVars
);
if
(
iMint
==
-
1
)
if
(
iMint
==
-
1
)
{
{
Ift_SatPrintConfig
(
p
,
pSat
);
RetValue
=
1
;
RetValue
=
1
;
break
;
break
;
}
}
}
}
assert
(
i
<
nIterMax
);
assert
(
i
<
nIterMax
);
if
(
fVerbose
)
{
printf
(
"%s Iter =%4d. Confl = %6d. "
,
RetValue
?
"yes"
:
"no "
,
i
,
sat_solver_nconflicts
(
pSat
)
);
if
(
RetValue
)
Ifn_SatPrintConfig
(
p
,
pSat
);
printf
(
"
\n
"
);
}
sat_solver_delete
(
pSat
);
sat_solver_delete
(
pSat
);
printf
(
"Matching = %d Iters = %d. "
,
RetValue
,
i
);
// Abc_PrintTime( 1, "Time", Abc_Clock() - clk );
// Abc_PrintTime( 1, "Time", Abc_Clock() - clk );
// Abc_PrintTime( 1, "Sat", clkSat );
// Abc_PrintTime( 1, "Sat", clkSat );
// Abc_PrintTime( 1, "Tru", clkTru );
// Abc_PrintTime( 1, "Tru", clkTru );
...
@@ -731,15 +795,16 @@ void Ifn_NtkRead()
...
@@ -731,15 +795,16 @@ void Ifn_NtkRead()
// word * pTruth = Dau_DsdToTruth( "(abc)", nVars );
// word * pTruth = Dau_DsdToTruth( "(abc)", nVars );
// char * pStr = "e={abc};f={ed};";
// char * pStr = "e={abc};f={ed};";
// char * pStr = "d={ab};e={cd};";
// char * pStr = "d={ab};e={cd};";
char
*
pStr
=
"j=(ab);k={jcde};l=(kf);m={lghi};"
;
//
char * pStr = "j=(ab);k={jcde};l=(kf);m={lghi};";
// char * pStr = "i={abc};j={ide};k={ifg};l={jkh};";
// char * pStr = "i={abc};j={ide};k={ifg};l={jkh};";
// char * pStr = "h={abcde};i={abcdf};j=<ghi>;";
// char * pStr = "h={abcde};i={abcdf};j=<ghi>;";
// char * pStr = "g=<abc>;h=<ade>;i={fgh};";
// char * pStr = "g=<abc>;h=<ade>;i={fgh};";
Ift_Ntk_t
*
p
=
Ifn_ManStrParse
(
pStr
);
char
*
pStr
=
"i=<abc>;j=(def);k=[gh];l={ijk};"
;
Ifn_Ntk_t
*
p
=
Ifn_NtkParse
(
pStr
);
Ifn_NtkPrint
(
p
);
Ifn_NtkPrint
(
p
);
Dau_DsdPrintFromTruth
(
pTruth
,
nVars
);
Dau_DsdPrintFromTruth
(
pTruth
,
nVars
);
// get the given function
// get the given function
RetValue
=
If
t_NtkMatch
(
p
,
pTruth
,
nVars
,
1
);
RetValue
=
If
n_NtkMatch
(
p
,
pTruth
,
nVars
,
0
,
1
,
1
);
}
}
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
...
...
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