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lvzhengyang
abc
Commits
0fafe786
Commit
0fafe786
authored
Oct 30, 2012
by
Alan Mishchenko
Browse files
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Plain Diff
Improvements to the truth table computations.
parent
77fde55b
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Inline
Side-by-side
Showing
7 changed files
with
997 additions
and
242 deletions
+997
-242
abclib.dsp
+4
-0
src/base/abci/abcNpn.c
+2
-0
src/misc/extra/extra.h
+1
-0
src/misc/extra/extraUtilFile.c
+18
-0
src/misc/util/abc_global.h
+1
-0
src/misc/util/utilTruth.h
+886
-80
src/opt/dau/dauDsd.c
+85
-162
No files found.
abclib.dsp
View file @
0fafe786
...
@@ -1975,6 +1975,10 @@ SOURCE=.\src\opt\dau\dau.c
...
@@ -1975,6 +1975,10 @@ SOURCE=.\src\opt\dau\dau.c
# End Source File
# End Source File
# Begin Source File
# Begin Source File
SOURCE=.\src\opt\dau\dauCanon.c
# End Source File
# Begin Source File
SOURCE=.\src\opt\dau\dauCore.c
SOURCE=.\src\opt\dau\dauCore.c
# End Source File
# End Source File
# Begin Source File
# Begin Source File
...
...
src/base/abci/abcNpn.c
View file @
0fafe786
...
@@ -202,8 +202,10 @@ void Abc_TruthNpnPerform( Abc_TtStore_t * p, int NpnType, int fVerbose )
...
@@ -202,8 +202,10 @@ void Abc_TruthNpnPerform( Abc_TtStore_t * p, int NpnType, int fVerbose )
{
{
for
(
i
=
0
;
i
<
p
->
nFuncs
;
i
++
)
for
(
i
=
0
;
i
<
p
->
nFuncs
;
i
++
)
{
{
extern
void
Abc_TtConfactorTest
(
word
*
pTruth
,
int
nVars
,
int
i
);
if
(
fVerbose
)
if
(
fVerbose
)
printf
(
"%7d : "
,
i
);
printf
(
"%7d : "
,
i
);
Abc_TtConfactorTest
(
p
->
pFuncs
[
i
],
p
->
nVars
,
i
);
if
(
fVerbose
)
if
(
fVerbose
)
Extra_PrintHex
(
stdout
,
(
unsigned
*
)
p
->
pFuncs
[
i
],
p
->
nVars
),
printf
(
"
\n
"
);
Extra_PrintHex
(
stdout
,
(
unsigned
*
)
p
->
pFuncs
[
i
],
p
->
nVars
),
printf
(
"
\n
"
);
}
}
...
...
src/misc/extra/extra.h
View file @
0fafe786
...
@@ -119,6 +119,7 @@ extern int Extra_ReadHexadecimal( unsigned Sign[], char * pString, int
...
@@ -119,6 +119,7 @@ extern int Extra_ReadHexadecimal( unsigned Sign[], char * pString, int
extern
void
Extra_PrintHexadecimal
(
FILE
*
pFile
,
unsigned
Sign
[],
int
nVars
);
extern
void
Extra_PrintHexadecimal
(
FILE
*
pFile
,
unsigned
Sign
[],
int
nVars
);
extern
void
Extra_PrintHexadecimalString
(
char
*
pString
,
unsigned
Sign
[],
int
nVars
);
extern
void
Extra_PrintHexadecimalString
(
char
*
pString
,
unsigned
Sign
[],
int
nVars
);
extern
void
Extra_PrintHex
(
FILE
*
pFile
,
unsigned
*
pTruth
,
int
nVars
);
extern
void
Extra_PrintHex
(
FILE
*
pFile
,
unsigned
*
pTruth
,
int
nVars
);
extern
void
Extra_PrintHexReverse
(
FILE
*
pFile
,
unsigned
*
pTruth
,
int
nVars
);
extern
void
Extra_PrintSymbols
(
FILE
*
pFile
,
char
Char
,
int
nTimes
,
int
fPrintNewLine
);
extern
void
Extra_PrintSymbols
(
FILE
*
pFile
,
char
Char
,
int
nTimes
,
int
fPrintNewLine
);
/*=== extraUtilReader.c ========================================================*/
/*=== extraUtilReader.c ========================================================*/
...
...
src/misc/extra/extraUtilFile.c
View file @
0fafe786
...
@@ -561,6 +561,24 @@ void Extra_PrintHex( FILE * pFile, unsigned * pTruth, int nVars )
...
@@ -561,6 +561,24 @@ void Extra_PrintHex( FILE * pFile, unsigned * pTruth, int nVars )
}
}
// fprintf( pFile, "\n" );
// fprintf( pFile, "\n" );
}
}
void
Extra_PrintHexReverse
(
FILE
*
pFile
,
unsigned
*
pTruth
,
int
nVars
)
{
int
nMints
,
nDigits
,
Digit
,
k
;
// write the number into the file
fprintf
(
pFile
,
"0x"
);
nMints
=
(
1
<<
nVars
);
nDigits
=
nMints
/
4
;
for
(
k
=
0
;
k
<
nDigits
;
k
++
)
{
Digit
=
((
pTruth
[
k
/
8
]
>>
(
k
*
4
))
&
15
);
if
(
Digit
<
10
)
fprintf
(
pFile
,
"%d"
,
Digit
);
else
fprintf
(
pFile
,
"%c"
,
'A'
+
Digit
-
10
);
}
// fprintf( pFile, "\n" );
}
/**Function*************************************************************
/**Function*************************************************************
...
...
src/misc/util/abc_global.h
View file @
0fafe786
...
@@ -198,6 +198,7 @@ typedef unsigned __int64 ABC_UINT64_T;
...
@@ -198,6 +198,7 @@ typedef unsigned __int64 ABC_UINT64_T;
#endif
/* defined(PLATFORM) */
#endif
/* defined(PLATFORM) */
typedef
ABC_UINT64_T
word
;
typedef
ABC_UINT64_T
word
;
typedef
ABC_INT64_T
iword
;
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// MACRO DEFINITIONS ///
/// MACRO DEFINITIONS ///
...
...
src/misc/util/utilTruth.h
View file @
0fafe786
...
@@ -44,6 +44,23 @@ static word s_Truths6[6] = {
...
@@ -44,6 +44,23 @@ static word s_Truths6[6] = {
0xFFFFFFFF00000000
0xFFFFFFFF00000000
};
};
static
word
s_Truths6Neg
[
6
]
=
{
0x5555555555555555
,
0x3333333333333333
,
0x0F0F0F0F0F0F0F0F
,
0x00FF00FF00FF00FF
,
0x0000FFFF0000FFFF
,
0x00000000FFFFFFFF
};
static
word
s_CMasks6
[
5
]
=
{
0x1111111111111111
,
0x0303030303030303
,
0x000F000F000F000F
,
0x000000FF000000FF
,
0x000000000000FFFF
};
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// MACRO DEFINITIONS ///
/// MACRO DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
...
@@ -76,6 +93,12 @@ static inline int Abc_TtWordNum( int nVars ) { return nVars <= 6 ? 1 : 1 << (nV
...
@@ -76,6 +93,12 @@ static inline int Abc_TtWordNum( int nVars ) { return nVars <= 6 ? 1 : 1 << (nV
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
static
inline
void
Abc_TtNot
(
word
*
pOut
,
int
nWords
)
{
int
w
;
for
(
w
=
0
;
w
<
nWords
;
w
++
)
pOut
[
w
]
=
~
pOut
[
w
];
}
static
inline
void
Abc_TtCopy
(
word
*
pOut
,
word
*
pIn
,
int
nWords
,
int
fCompl
)
static
inline
void
Abc_TtCopy
(
word
*
pOut
,
word
*
pIn
,
int
nWords
,
int
fCompl
)
{
{
int
w
;
int
w
;
...
@@ -96,6 +119,368 @@ static inline void Abc_TtAnd( word * pOut, word * pIn1, word * pIn2, int nWords,
...
@@ -96,6 +119,368 @@ static inline void Abc_TtAnd( word * pOut, word * pIn1, word * pIn2, int nWords,
for
(
w
=
0
;
w
<
nWords
;
w
++
)
for
(
w
=
0
;
w
<
nWords
;
w
++
)
pOut
[
w
]
=
pIn1
[
w
]
&
pIn2
[
w
];
pOut
[
w
]
=
pIn1
[
w
]
&
pIn2
[
w
];
}
}
static
inline
int
Abc_TtEqual
(
word
*
pIn1
,
word
*
pIn2
,
int
nWords
)
{
int
w
;
for
(
w
=
0
;
w
<
nWords
;
w
++
)
if
(
pIn1
[
w
]
!=
pIn2
[
w
]
)
return
0
;
return
1
;
}
static
inline
int
Abc_TtCompare
(
word
*
pIn1
,
word
*
pIn2
,
int
nWords
)
{
int
w
;
for
(
w
=
0
;
w
<
nWords
;
w
++
)
if
(
pIn1
[
w
]
!=
pIn2
[
w
]
)
return
(
pIn1
[
w
]
<
pIn2
[
w
])
?
-
1
:
1
;
return
0
;
}
static
inline
int
Abc_TtCompareRev
(
word
*
pIn1
,
word
*
pIn2
,
int
nWords
)
{
int
w
;
for
(
w
=
nWords
-
1
;
w
>=
0
;
w
--
)
if
(
pIn1
[
w
]
!=
pIn2
[
w
]
)
return
(
pIn1
[
w
]
<
pIn2
[
w
])
?
-
1
:
1
;
return
0
;
}
/**Function*************************************************************
Synopsis [Compares Cof0 and Cof1.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
Abc_TtCompare1VarCofs
(
word
*
pTruth
,
int
nWords
,
int
iVar
)
{
if
(
nWords
==
1
)
{
word
Cof0
=
pTruth
[
0
]
&
s_Truths6Neg
[
iVar
];
word
Cof1
=
(
pTruth
[
0
]
>>
(
1
<<
iVar
))
&
s_Truths6Neg
[
iVar
];
if
(
Cof0
!=
Cof1
)
return
Cof0
<
Cof1
?
-
1
:
1
;
return
0
;
}
if
(
iVar
<=
5
)
{
word
Cof0
,
Cof1
;
int
w
,
shift
=
(
1
<<
iVar
);
for
(
w
=
0
;
w
<
nWords
;
w
++
)
{
Cof0
=
pTruth
[
w
]
&
s_Truths6Neg
[
iVar
];
Cof1
=
(
pTruth
[
w
]
>>
shift
)
&
s_Truths6Neg
[
iVar
];
if
(
Cof0
!=
Cof1
)
return
Cof0
<
Cof1
?
-
1
:
1
;
}
return
0
;
}
// if ( iVar > 5 )
{
word
*
pLimit
=
pTruth
+
nWords
;
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
assert
(
nWords
>=
2
);
for
(
;
pTruth
<
pLimit
;
pTruth
+=
2
*
iStep
)
for
(
i
=
0
;
i
<
iStep
;
i
++
)
if
(
pTruth
[
i
]
!=
pTruth
[
i
+
iStep
]
)
return
pTruth
[
i
]
<
pTruth
[
i
+
iStep
]
?
-
1
:
1
;
return
0
;
}
}
static
inline
int
Abc_TtCompare1VarCofsRev
(
word
*
pTruth
,
int
nWords
,
int
iVar
)
{
if
(
nWords
==
1
)
{
word
Cof0
=
pTruth
[
0
]
&
s_Truths6Neg
[
iVar
];
word
Cof1
=
(
pTruth
[
0
]
>>
(
1
<<
iVar
))
&
s_Truths6Neg
[
iVar
];
if
(
Cof0
!=
Cof1
)
return
Cof0
<
Cof1
?
-
1
:
1
;
return
0
;
}
if
(
iVar
<=
5
)
{
word
Cof0
,
Cof1
;
int
w
,
shift
=
(
1
<<
iVar
);
for
(
w
=
nWords
-
1
;
w
>=
0
;
w
--
)
{
Cof0
=
pTruth
[
w
]
&
s_Truths6Neg
[
iVar
];
Cof1
=
(
pTruth
[
w
]
>>
shift
)
&
s_Truths6Neg
[
iVar
];
if
(
Cof0
!=
Cof1
)
return
Cof0
<
Cof1
?
-
1
:
1
;
}
return
0
;
}
// if ( iVar > 5 )
{
word
*
pLimit
=
pTruth
+
nWords
;
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
assert
(
nWords
>=
2
);
for
(
pLimit
-=
2
*
iStep
;
pLimit
>=
pTruth
;
pLimit
-=
2
*
iStep
)
for
(
i
=
iStep
-
1
;
i
>=
0
;
i
--
)
if
(
pLimit
[
i
]
!=
pLimit
[
i
+
iStep
]
)
return
pLimit
[
i
]
<
pLimit
[
i
+
iStep
]
?
-
1
:
1
;
return
0
;
}
}
/**Function*************************************************************
Synopsis [Checks pairs of cofactors w.r.t. adjacent variables.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
Abc_TtCheckEqual2VarCofs
(
word
*
pTruth
,
int
nWords
,
int
iVar
,
int
Num1
,
int
Num2
)
{
assert
(
Num1
<
Num2
&&
Num2
<
4
);
if
(
nWords
==
1
)
return
((
pTruth
[
0
]
>>
(
Num2
*
(
1
<<
iVar
)))
&
s_CMasks6
[
iVar
])
==
((
pTruth
[
0
]
>>
(
Num1
*
(
1
<<
iVar
)))
&
s_CMasks6
[
iVar
]);
if
(
iVar
<=
4
)
{
int
w
,
shift
=
(
1
<<
iVar
);
for
(
w
=
0
;
w
<
nWords
;
w
++
)
if
(
((
pTruth
[
w
]
>>
Num2
*
shift
)
&
s_CMasks6
[
iVar
])
!=
((
pTruth
[
w
]
>>
Num1
*
shift
)
&
s_CMasks6
[
iVar
])
)
return
0
;
return
1
;
}
if
(
iVar
==
5
)
{
unsigned
*
pTruthU
=
(
unsigned
*
)
pTruth
;
unsigned
*
pLimitU
=
(
unsigned
*
)(
pTruth
+
nWords
);
assert
(
nWords
>=
2
);
for
(
;
pTruthU
<
pLimitU
;
pTruthU
+=
4
)
if
(
pTruthU
[
Num2
]
!=
pTruthU
[
Num1
]
)
return
0
;
return
1
;
}
// if ( iVar > 5 )
{
word
*
pLimit
=
pTruth
+
nWords
;
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
assert
(
nWords
>=
4
);
for
(
;
pTruth
<
pLimit
;
pTruth
+=
4
*
iStep
)
for
(
i
=
0
;
i
<
iStep
;
i
++
)
if
(
pTruth
[
i
+
Num2
*
iStep
]
!=
pTruth
[
i
+
Num1
*
iStep
]
)
return
0
;
return
1
;
}
}
static
inline
int
Abc_TtCompare2VarCofs
(
word
*
pTruth
,
int
nWords
,
int
iVar
,
int
Num1
,
int
Num2
)
{
assert
(
Num1
<
Num2
&&
Num2
<
4
);
if
(
nWords
==
1
)
{
word
Cof1
=
(
pTruth
[
0
]
>>
(
Num1
*
(
1
<<
iVar
)))
&
s_CMasks6
[
iVar
];
word
Cof2
=
(
pTruth
[
0
]
>>
(
Num2
*
(
1
<<
iVar
)))
&
s_CMasks6
[
iVar
];
if
(
Cof1
!=
Cof2
)
return
Cof1
<
Cof2
?
-
1
:
1
;
return
0
;
}
if
(
iVar
<=
4
)
{
word
Cof1
,
Cof2
;
int
w
,
shift
=
(
1
<<
iVar
);
for
(
w
=
0
;
w
<
nWords
;
w
++
)
{
Cof1
=
(
pTruth
[
w
]
>>
Num1
*
shift
)
&
s_CMasks6
[
iVar
];
Cof2
=
(
pTruth
[
w
]
>>
Num2
*
shift
)
&
s_CMasks6
[
iVar
];
if
(
Cof1
!=
Cof2
)
return
Cof1
<
Cof2
?
-
1
:
1
;
}
return
0
;
}
if
(
iVar
==
5
)
{
unsigned
*
pTruthU
=
(
unsigned
*
)
pTruth
;
unsigned
*
pLimitU
=
(
unsigned
*
)(
pTruth
+
nWords
);
assert
(
nWords
>=
2
);
for
(
;
pTruthU
<
pLimitU
;
pTruthU
+=
4
)
if
(
pTruthU
[
Num1
]
!=
pTruthU
[
Num2
]
)
return
pTruthU
[
Num1
]
<
pTruthU
[
Num2
]
?
-
1
:
1
;
return
0
;
}
// if ( iVar > 5 )
{
word
*
pLimit
=
pTruth
+
nWords
;
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
int
Offset1
=
Num1
*
iStep
;
int
Offset2
=
Num2
*
iStep
;
assert
(
nWords
>=
4
);
for
(
;
pTruth
<
pLimit
;
pTruth
+=
4
*
iStep
)
for
(
i
=
0
;
i
<
iStep
;
i
++
)
if
(
pTruth
[
i
+
Offset1
]
!=
pTruth
[
i
+
Offset2
]
)
return
pTruth
[
i
+
Offset1
]
<
pTruth
[
i
+
Offset2
]
?
-
1
:
1
;
return
0
;
}
}
static
inline
int
Abc_TtCompare2VarCofsRev
(
word
*
pTruth
,
int
nWords
,
int
iVar
,
int
Num1
,
int
Num2
)
{
assert
(
Num1
<
Num2
&&
Num2
<
4
);
if
(
nWords
==
1
)
{
word
Cof1
=
(
pTruth
[
0
]
>>
(
Num1
*
(
1
<<
iVar
)))
&
s_CMasks6
[
iVar
];
word
Cof2
=
(
pTruth
[
0
]
>>
(
Num2
*
(
1
<<
iVar
)))
&
s_CMasks6
[
iVar
];
if
(
Cof1
!=
Cof2
)
return
Cof1
<
Cof2
?
-
1
:
1
;
return
0
;
}
if
(
iVar
<=
4
)
{
word
Cof1
,
Cof2
;
int
w
,
shift
=
(
1
<<
iVar
);
for
(
w
=
nWords
-
1
;
w
>=
0
;
w
--
)
{
Cof1
=
(
pTruth
[
w
]
>>
Num1
*
shift
)
&
s_CMasks6
[
iVar
];
Cof2
=
(
pTruth
[
w
]
>>
Num2
*
shift
)
&
s_CMasks6
[
iVar
];
if
(
Cof1
!=
Cof2
)
return
Cof1
<
Cof2
?
-
1
:
1
;
}
return
0
;
}
if
(
iVar
==
5
)
{
unsigned
*
pTruthU
=
(
unsigned
*
)
pTruth
;
unsigned
*
pLimitU
=
(
unsigned
*
)(
pTruth
+
nWords
);
assert
(
nWords
>=
2
);
for
(
pLimitU
-=
4
;
pLimitU
>=
pTruthU
;
pLimitU
-=
4
)
if
(
pLimitU
[
Num1
]
!=
pLimitU
[
Num2
]
)
return
pLimitU
[
Num1
]
<
pLimitU
[
Num2
]
?
-
1
:
1
;
return
0
;
}
// if ( iVar > 5 )
{
word
*
pLimit
=
pTruth
+
nWords
;
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
int
Offset1
=
Num1
*
iStep
;
int
Offset2
=
Num2
*
iStep
;
assert
(
nWords
>=
4
);
for
(
pLimit
-=
4
*
iStep
;
pLimit
>=
pTruth
;
pLimit
-=
4
*
iStep
)
for
(
i
=
iStep
-
1
;
i
>=
0
;
i
--
)
if
(
pLimit
[
i
+
Offset1
]
!=
pLimit
[
i
+
Offset2
]
)
return
pLimit
[
i
+
Offset1
]
<
pLimit
[
i
+
Offset2
]
?
-
1
:
1
;
return
0
;
}
}
/**Function*************************************************************
Synopsis [Checks pairs of cofactors w.r.t. two variables.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
Abc_TtCheckEqualCofs
(
word
*
pTruth
,
int
nWords
,
int
iVar
,
int
jVar
,
int
Num1
,
int
Num2
)
{
assert
(
Num1
<
Num2
&&
Num2
<
4
);
assert
(
iVar
<
jVar
);
if
(
nWords
==
1
)
{
word
Mask
=
s_Truths6Neg
[
jVar
]
&
s_Truths6Neg
[
iVar
];
int
shift1
=
(
Num1
>>
1
)
*
(
1
<<
jVar
)
+
(
Num1
&
1
)
*
(
1
<<
iVar
);
int
shift2
=
(
Num2
>>
1
)
*
(
1
<<
jVar
)
+
(
Num2
&
1
)
*
(
1
<<
iVar
);
return
((
pTruth
[
0
]
>>
shift1
)
&
Mask
)
==
((
pTruth
[
0
]
>>
shift2
)
&
Mask
);
}
if
(
jVar
<=
5
)
{
word
Mask
=
s_Truths6Neg
[
jVar
]
&
s_Truths6Neg
[
iVar
];
int
shift1
=
(
Num1
>>
1
)
*
(
1
<<
jVar
)
+
(
Num1
&
1
)
*
(
1
<<
iVar
);
int
shift2
=
(
Num2
>>
1
)
*
(
1
<<
jVar
)
+
(
Num2
&
1
)
*
(
1
<<
iVar
);
int
w
;
for
(
w
=
0
;
w
<
nWords
;
w
++
)
if
(
((
pTruth
[
w
]
>>
shift1
)
&
Mask
)
!=
((
pTruth
[
w
]
>>
shift2
)
&
Mask
)
)
return
0
;
return
1
;
}
if
(
iVar
<=
5
&&
jVar
>
5
)
{
word
*
pLimit
=
pTruth
+
nWords
;
int
j
,
jStep
=
Abc_TtWordNum
(
jVar
);
int
shift1
=
(
Num1
&
1
)
*
(
1
<<
iVar
);
int
shift2
=
(
Num2
&
1
)
*
(
1
<<
iVar
);
int
Offset1
=
(
Num1
>>
1
)
*
jStep
;
int
Offset2
=
(
Num2
>>
1
)
*
jStep
;
for
(
;
pTruth
<
pLimit
;
pTruth
+=
2
*
jStep
)
for
(
j
=
0
;
j
<
jStep
;
j
++
)
if
(
((
pTruth
[
j
+
Offset1
]
>>
shift1
)
&
s_Truths6Neg
[
iVar
])
!=
((
pTruth
[
j
+
Offset2
]
>>
shift2
)
&
s_Truths6Neg
[
iVar
])
)
return
0
;
return
1
;
}
{
word
*
pLimit
=
pTruth
+
nWords
;
int
j
,
jStep
=
Abc_TtWordNum
(
jVar
);
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
int
Offset1
=
(
Num1
>>
1
)
*
jStep
+
(
Num1
&
1
)
*
iStep
;
int
Offset2
=
(
Num2
>>
1
)
*
jStep
+
(
Num2
&
1
)
*
iStep
;
for
(
;
pTruth
<
pLimit
;
pTruth
+=
2
*
jStep
)
for
(
i
=
0
;
i
<
jStep
;
i
+=
2
*
iStep
)
for
(
j
=
0
;
j
<
iStep
;
j
++
)
if
(
pTruth
[
Offset1
+
i
+
j
]
!=
pTruth
[
Offset2
+
i
+
j
]
)
return
0
;
return
1
;
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
void
Abc_TtCofactor0
(
word
*
pTruth
,
int
nWords
,
int
iVar
)
{
if
(
nWords
==
1
)
pTruth
[
0
]
=
((
pTruth
[
0
]
&
s_Truths6Neg
[
iVar
])
<<
(
1
<<
iVar
))
|
(
pTruth
[
0
]
&
s_Truths6Neg
[
iVar
]);
else
if
(
iVar
<=
5
)
{
int
w
,
shift
=
(
1
<<
iVar
);
for
(
w
=
0
;
w
<
nWords
;
w
++
)
pTruth
[
w
]
=
((
pTruth
[
w
]
&
s_Truths6Neg
[
iVar
])
<<
shift
)
|
(
pTruth
[
w
]
&
s_Truths6Neg
[
iVar
]);
}
else
// if ( iVar > 5 )
{
word
*
pLimit
=
pTruth
+
nWords
;
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
for
(
;
pTruth
<
pLimit
;
pTruth
+=
2
*
iStep
)
for
(
i
=
0
;
i
<
iStep
;
i
++
)
pTruth
[
i
+
iStep
]
=
pTruth
[
i
];
}
}
static
inline
void
Abc_TtCofactor1
(
word
*
pTruth
,
int
nWords
,
int
iVar
)
{
if
(
nWords
==
1
)
pTruth
[
0
]
=
(
pTruth
[
0
]
&
s_Truths6
[
iVar
])
|
((
pTruth
[
0
]
&
s_Truths6
[
iVar
])
>>
(
1
<<
iVar
));
else
if
(
iVar
<=
5
)
{
int
w
,
shift
=
(
1
<<
iVar
);
for
(
w
=
0
;
w
<
nWords
;
w
++
)
pTruth
[
w
]
=
(
pTruth
[
w
]
&
s_Truths6
[
iVar
])
|
((
pTruth
[
w
]
&
s_Truths6
[
iVar
])
>>
shift
);
}
else
// if ( iVar > 5 )
{
word
*
pLimit
=
pTruth
+
nWords
;
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
for
(
;
pTruth
<
pLimit
;
pTruth
+=
2
*
iStep
)
for
(
i
=
0
;
i
<
iStep
;
i
++
)
pTruth
[
i
]
=
pTruth
[
i
+
iStep
];
}
}
/**Function*************************************************************
/**Function*************************************************************
...
@@ -109,13 +494,238 @@ static inline void Abc_TtAnd( word * pOut, word * pIn1, word * pIn2, int nWords,
...
@@ -109,13 +494,238 @@ static inline void Abc_TtAnd( word * pOut, word * pIn1, word * pIn2, int nWords,
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
static
inline
int
Abc_Tt6Cof0IsConst0
(
word
t
,
int
iVar
)
{
return
(
t
&
s_Truths6Neg
[
iVar
])
==
0
;
}
static
inline
int
Abc_Tt6Cof0IsConst1
(
word
t
,
int
iVar
)
{
return
(
t
&
s_Truths6Neg
[
iVar
])
==
s_Truths6Neg
[
iVar
];
}
static
inline
int
Abc_Tt6Cof1IsConst0
(
word
t
,
int
iVar
)
{
return
(
t
&
s_Truths6
[
iVar
])
==
0
;
}
static
inline
int
Abc_Tt6Cof1IsConst1
(
word
t
,
int
iVar
)
{
return
(
t
&
s_Truths6
[
iVar
])
==
s_Truths6
[
iVar
];
}
static
inline
int
Abc_Tt6CofsOpposite
(
word
t
,
int
iVar
)
{
return
((
t
>>
(
1
<<
iVar
))
&
s_Truths6Neg
[
iVar
])
==
(
~
t
&
s_Truths6Neg
[
iVar
]);
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
Abc_TtTruthIsConst0
(
word
*
p
,
int
nWords
)
{
int
w
;
for
(
w
=
0
;
w
<
nWords
;
w
++
)
if
(
p
[
w
]
!=
0
)
return
0
;
return
1
;
}
static
inline
int
Abc_TtTruthIsConst1
(
word
*
p
,
int
nWords
)
{
int
w
;
for
(
w
=
0
;
w
<
nWords
;
w
++
)
if
(
p
[
w
]
!=
~
(
word
)
0
)
return
0
;
return
1
;
}
static
inline
int
Abc_TtCof0IsConst0
(
word
*
t
,
int
nWords
,
int
iVar
)
{
if
(
iVar
<
6
)
{
int
i
;
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
t
[
i
]
&
s_Truths6Neg
[
iVar
]
)
return
0
;
return
1
;
}
else
{
int
i
,
Step
=
(
1
<<
(
iVar
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
t
[
i
]
)
return
0
;
return
1
;
}
}
static
inline
int
Abc_TtCof0IsConst1
(
word
*
t
,
int
nWords
,
int
iVar
)
{
if
(
iVar
<
6
)
{
int
i
;
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
(
t
[
i
]
&
s_Truths6Neg
[
iVar
])
!=
s_Truths6Neg
[
iVar
]
)
return
0
;
return
1
;
}
else
{
int
i
,
Step
=
(
1
<<
(
iVar
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
~
t
[
i
]
)
return
0
;
return
1
;
}
}
static
inline
int
Abc_TtCof1IsConst0
(
word
*
t
,
int
nWords
,
int
iVar
)
{
if
(
iVar
<
6
)
{
int
i
;
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
t
[
i
]
&
s_Truths6
[
iVar
]
)
return
0
;
return
1
;
}
else
{
int
i
,
Step
=
(
1
<<
(
iVar
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
t
[
i
+
Step
]
)
return
0
;
return
1
;
}
}
static
inline
int
Abc_TtCof1IsConst1
(
word
*
t
,
int
nWords
,
int
iVar
)
{
if
(
iVar
<
6
)
{
int
i
;
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
(
t
[
i
]
&
s_Truths6
[
iVar
])
!=
s_Truths6
[
iVar
]
)
return
0
;
return
1
;
}
else
{
int
i
,
Step
=
(
1
<<
(
iVar
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
~
t
[
i
+
Step
]
)
return
0
;
return
1
;
}
}
static
inline
int
Abc_TtCofsOpposite
(
word
*
t
,
int
nWords
,
int
iVar
)
{
if
(
iVar
<
6
)
{
int
i
,
Shift
=
(
1
<<
iVar
);
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
((
t
[
i
]
<<
Shift
)
&
s_Truths6
[
iVar
])
!=
(
~
t
[
i
]
&
s_Truths6
[
iVar
])
)
return
0
;
return
1
;
}
else
{
int
i
,
Step
=
(
1
<<
(
iVar
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
t
[
i
]
!=
~
t
[
i
+
Step
]
)
return
0
;
return
1
;
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
void
Abc_TtPrintDigit
(
int
Digit
)
{
assert
(
Digit
>=
0
&&
Digit
<
16
);
if
(
Digit
<
10
)
printf
(
"%d"
,
Digit
);
else
printf
(
"%c"
,
'A'
+
Digit
-
10
);
}
static
inline
void
Abc_TtPrintHex
(
word
*
pTruth
,
int
nVars
)
{
word
*
pThis
,
*
pLimit
=
pTruth
+
Abc_TtWordNum
(
nVars
);
int
k
,
nDigits
=
1
<<
(
nVars
-
2
);
assert
(
nVars
>=
2
);
for
(
pThis
=
pTruth
;
pThis
<
pLimit
;
pThis
++
)
for
(
k
=
0
;
k
<
16
;
k
++
)
Abc_TtPrintDigit
(
(
int
)(
pThis
[
0
]
>>
(
k
<<
2
))
&
15
);
printf
(
"
\n
"
);
}
static
inline
void
Abc_TtPrintHexRev
(
word
*
pTruth
,
int
nVars
)
{
word
*
pThis
;
int
k
,
nDigits
=
1
<<
(
nVars
-
2
);
assert
(
nVars
>=
2
);
for
(
pThis
=
pTruth
+
Abc_TtWordNum
(
nVars
)
-
1
;
pThis
>=
pTruth
;
pThis
--
)
for
(
k
=
15
;
k
>=
0
;
k
--
)
Abc_TtPrintDigit
(
(
int
)(
pThis
[
0
]
>>
(
k
<<
2
))
&
15
);
printf
(
"
\n
"
);
}
static
inline
void
Abc_TtPrintHexSpecial
(
word
*
pTruth
,
int
nVars
)
{
word
*
pThis
;
int
k
,
nDigits
=
1
<<
(
nVars
-
2
);
assert
(
nVars
>=
2
);
for
(
pThis
=
pTruth
+
Abc_TtWordNum
(
nVars
)
-
1
;
pThis
>=
pTruth
;
pThis
--
)
for
(
k
=
0
;
k
<
16
;
k
++
)
Abc_TtPrintDigit
(
(
int
)(
pThis
[
0
]
>>
(
k
<<
2
))
&
15
);
printf
(
"
\n
"
);
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
void
Abc_TtPrintBinary
(
word
*
pTruth
,
int
nVars
)
{
word
*
pThis
,
*
pLimit
=
pTruth
+
Abc_TtWordNum
(
nVars
);
int
k
,
nDigits
=
1
<<
(
nVars
-
2
);
assert
(
nVars
>=
2
);
for
(
pThis
=
pTruth
;
pThis
<
pLimit
;
pThis
++
)
for
(
k
=
0
;
k
<
64
;
k
++
)
printf
(
"%d"
,
Abc_InfoHasBit
(
(
unsigned
*
)
pThis
,
k
)
);
printf
(
"
\n
"
);
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
Abc_TtSuppFindFirst
(
int
Supp
)
{
int
i
;
assert
(
Supp
>
0
);
for
(
i
=
0
;
i
<
32
;
i
++
)
if
(
Supp
&
(
1
<<
i
)
)
return
i
;
return
-
1
;
}
static
inline
int
Abc_TtSuppOnlyOne
(
int
Supp
)
{
assert
(
Supp
>
0
);
return
(
Supp
&
(
Supp
-
1
))
==
0
;
}
static
inline
int
Abc_TtSuppIsMinBase
(
int
Supp
)
static
inline
int
Abc_TtSuppIsMinBase
(
int
Supp
)
{
{
assert
(
Supp
>
0
);
return
(
Supp
&
(
Supp
+
1
))
==
0
;
return
(
Supp
&
(
Supp
+
1
))
==
0
;
}
}
static
inline
int
Abc_Tt6HasVar
(
word
t
,
int
iVar
)
static
inline
int
Abc_Tt6HasVar
(
word
t
,
int
iVar
)
{
{
return
((
t
<<
(
1
<<
iVar
))
&
s_Truths6
[
iVar
])
!=
(
t
&
s_Truths6
[
iVar
]);
return
((
t
>>
(
1
<<
iVar
))
&
s_Truths6Neg
[
iVar
])
!=
(
t
&
s_Truths6Neg
[
iVar
]);
}
}
static
inline
int
Abc_TtHasVar
(
word
*
t
,
int
nVars
,
int
iVar
)
static
inline
int
Abc_TtHasVar
(
word
*
t
,
int
nVars
,
int
iVar
)
{
{
...
@@ -125,7 +735,7 @@ static inline int Abc_TtHasVar( word * t, int nVars, int iVar )
...
@@ -125,7 +735,7 @@ static inline int Abc_TtHasVar( word * t, int nVars, int iVar )
{
{
int
i
,
Shift
=
(
1
<<
iVar
);
int
i
,
Shift
=
(
1
<<
iVar
);
for
(
i
=
0
;
i
<
nWords
;
i
++
)
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
((
t
[
i
]
<<
Shift
)
&
s_Truths6
[
iVar
])
!=
(
t
[
i
]
&
s_Truths6
[
iVar
])
)
if
(
((
t
[
i
]
>>
Shift
)
&
s_Truths6Neg
[
iVar
])
!=
(
t
[
i
]
&
s_Truths6Neg
[
iVar
])
)
return
1
;
return
1
;
return
0
;
return
0
;
}
}
...
@@ -188,6 +798,69 @@ static inline int Abc_Tt6SupportAndSize( word t, int nVars, int * pSuppSize )
...
@@ -188,6 +798,69 @@ static inline int Abc_Tt6SupportAndSize( word t, int nVars, int * pSuppSize )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
static
inline
void
Abc_TtFlip
(
word
*
pTruth
,
int
nWords
,
int
iVar
)
{
if
(
nWords
==
1
)
pTruth
[
0
]
=
((
pTruth
[
0
]
<<
(
1
<<
iVar
))
&
s_Truths6
[
iVar
])
|
((
pTruth
[
0
]
&
s_Truths6
[
iVar
])
>>
(
1
<<
iVar
));
else
if
(
iVar
<=
5
)
{
int
w
,
shift
=
(
1
<<
iVar
);
for
(
w
=
0
;
w
<
nWords
;
w
++
)
pTruth
[
w
]
=
((
pTruth
[
w
]
<<
shift
)
&
s_Truths6
[
iVar
])
|
((
pTruth
[
w
]
&
s_Truths6
[
iVar
])
>>
shift
);
}
else
// if ( iVar > 5 )
{
word
*
pLimit
=
pTruth
+
nWords
;
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
for
(
;
pTruth
<
pLimit
;
pTruth
+=
2
*
iStep
)
for
(
i
=
0
;
i
<
iStep
;
i
++
)
ABC_SWAP
(
word
,
pTruth
[
i
],
pTruth
[
i
+
iStep
]
);
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
void
Abc_TtSwapAdjacent
(
word
*
pTruth
,
int
nWords
,
int
iVar
)
{
static
word
PMasks
[
5
][
3
]
=
{
{
0x9999999999999999
,
0x2222222222222222
,
0x4444444444444444
},
{
0xC3C3C3C3C3C3C3C3
,
0x0C0C0C0C0C0C0C0C
,
0x3030303030303030
},
{
0xF00FF00FF00FF00F
,
0x00F000F000F000F0
,
0x0F000F000F000F00
},
{
0xFF0000FFFF0000FF
,
0x0000FF000000FF00
,
0x00FF000000FF0000
},
{
0xFFFF00000000FFFF
,
0x00000000FFFF0000
,
0x0000FFFF00000000
}
};
if
(
iVar
<
5
)
{
int
i
,
Shift
=
(
1
<<
iVar
);
for
(
i
=
0
;
i
<
nWords
;
i
++
)
pTruth
[
i
]
=
(
pTruth
[
i
]
&
PMasks
[
iVar
][
0
])
|
((
pTruth
[
i
]
&
PMasks
[
iVar
][
1
])
<<
Shift
)
|
((
pTruth
[
i
]
&
PMasks
[
iVar
][
2
])
>>
Shift
);
}
else
if
(
iVar
==
5
)
{
unsigned
*
pTruthU
=
(
unsigned
*
)
pTruth
;
unsigned
*
pLimitU
=
(
unsigned
*
)(
pTruth
+
nWords
);
for
(
;
pTruthU
<
pLimitU
;
pTruthU
+=
4
)
ABC_SWAP
(
unsigned
,
pTruthU
[
1
],
pTruthU
[
2
]
);
}
else
// if ( iVar > 5 )
{
word
*
pLimit
=
pTruth
+
nWords
;
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
for
(
;
pTruth
<
pLimit
;
pTruth
+=
4
*
iStep
)
for
(
i
=
0
;
i
<
iStep
;
i
++
)
ABC_SWAP
(
word
,
pTruth
[
i
+
iStep
],
pTruth
[
i
+
2
*
iStep
]
);
}
}
static
inline
void
Abc_TtSwapVars
(
word
*
pTruth
,
int
nVars
,
int
iVar
,
int
jVar
)
static
inline
void
Abc_TtSwapVars
(
word
*
pTruth
,
int
nVars
,
int
iVar
,
int
jVar
)
{
{
static
word
PPMasks
[
5
][
6
][
3
]
=
{
static
word
PPMasks
[
5
][
6
][
3
]
=
{
...
@@ -270,106 +943,239 @@ static inline void Abc_TtSwapVars( word * pTruth, int nVars, int iVar, int jVar
...
@@ -270,106 +943,239 @@ static inline void Abc_TtSwapVars( word * pTruth, int nVars, int iVar, int jVar
}
}
else
else
{
{
word
temp
,
*
pLimit
=
pTruth
+
Abc_TtWordNum
(
nVars
);
word
*
pLimit
=
pTruth
+
Abc_TtWordNum
(
nVars
);
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
int
i
,
iStep
=
Abc_TtWordNum
(
iVar
);
int
j
,
jStep
=
Abc_TtWordNum
(
jVar
);
int
j
,
jStep
=
Abc_TtWordNum
(
jVar
);
for
(
;
pTruth
<
pLimit
;
pTruth
+=
2
*
jStep
)
for
(
;
pTruth
<
pLimit
;
pTruth
+=
2
*
jStep
)
for
(
i
=
0
;
i
<
jStep
;
i
+=
2
*
iStep
)
for
(
i
=
0
;
i
<
jStep
;
i
+=
2
*
iStep
)
for
(
j
=
0
;
j
<
iStep
;
j
++
)
for
(
j
=
0
;
j
<
iStep
;
j
++
)
{
ABC_SWAP
(
word
,
pTruth
[
iStep
+
i
+
j
],
pTruth
[
jStep
+
i
+
j
]
);
temp
=
pTruth
[
iStep
+
i
+
j
];
pTruth
[
iStep
+
i
+
j
]
=
pTruth
[
jStep
+
i
+
j
];
pTruth
[
jStep
+
i
+
j
]
=
temp
;
}
}
}
}
}
}
}
static
inline
void
Abc_TtSwapVars_
(
word
*
pTruth
,
int
nVars
,
int
iVar
,
int
jVar
)
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
Abc_TtCountOnesSlow
(
word
t
)
{
{
static
word
PPMasks
[
6
][
6
]
=
{
t
=
(
t
&
0x5555555555555555
)
+
((
t
>>
1
)
&
0x5555555555555555
);
{
0x2222222222222222
,
0x0A0A0A0A0A0A0A0A
,
0x00AA00AA00AA00AA
,
0x0000AAAA0000AAAA
,
0x00000000AAAAAAAA
,
0xAAAAAAAAAAAAAAAA
},
t
=
(
t
&
0x3333333333333333
)
+
((
t
>>
2
)
&
0x3333333333333333
);
{
0x0000000000000000
,
0x0C0C0C0C0C0C0C0C
,
0x00CC00CC00CC00CC
,
0x0000CCCC0000CCCC
,
0x00000000CCCCCCCC
,
0xCCCCCCCCCCCCCCCC
},
t
=
(
t
&
0x0F0F0F0F0F0F0F0F
)
+
((
t
>>
4
)
&
0x0F0F0F0F0F0F0F0F
);
{
0x0000000000000000
,
0x0000000000000000
,
0x00F000F000F000F0
,
0x0000F0F00000F0F0
,
0x00000000F0F0F0F0
,
0xF0F0F0F0F0F0F0F0
},
t
=
(
t
&
0x00FF00FF00FF00FF
)
+
((
t
>>
8
)
&
0x00FF00FF00FF00FF
);
{
0x0000000000000000
,
0x0000000000000000
,
0x0000000000000000
,
0x0000FF000000FF00
,
0x00000000FF00FF00
,
0xFF00FF00FF00FF00
},
t
=
(
t
&
0x0000FFFF0000FFFF
)
+
((
t
>>
16
)
&
0x0000FFFF0000FFFF
);
{
0x0000000000000000
,
0x0000000000000000
,
0x0000000000000000
,
0x0000000000000000
,
0x00000000FFFF0000
,
0xFFFF0000FFFF0000
},
return
(
t
&
0x00000000FFFFFFFF
)
+
(
t
>>
32
);
{
0x0000000000000000
,
0x0000000000000000
,
0x0000000000000000
,
0x0000000000000000
,
0x0000000000000000
,
0xFFFFFFFF00000000
}
}
};
static
inline
int
Abc_TtCountOnes
(
word
x
)
{
x
=
x
-
((
x
>>
1
)
&
0x5555555555555555
);
x
=
(
x
&
0x3333333333333333
)
+
((
x
>>
2
)
&
0x3333333333333333
);
x
=
(
x
+
(
x
>>
4
))
&
0x0F0F0F0F0F0F0F0F
;
x
=
x
+
(
x
>>
8
);
x
=
x
+
(
x
>>
16
);
x
=
x
+
(
x
>>
32
);
return
(
int
)(
x
&
0xFF
);
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
Abc_TtCountOnesInTruth
(
word
*
pTruth
,
int
nVars
)
{
int
nWords
=
Abc_TtWordNum
(
nVars
);
int
k
,
Counter
=
0
;
for
(
k
=
0
;
k
<
nWords
;
k
++
)
Counter
+=
Abc_TtCountOnes
(
pTruth
[
k
]
);
return
Counter
;
}
static
inline
void
Abc_TtCountOnesInCofs
(
word
*
pTruth
,
int
nVars
,
int
*
pStore
)
{
int
i
,
k
,
Counter
,
nWords
;
memset
(
pStore
,
0
,
sizeof
(
int
)
*
nVars
);
if
(
nVars
<=
6
)
if
(
nVars
<=
6
)
{
{
int
shift
;
for
(
i
=
0
;
i
<
nVars
;
i
++
)
word
low2High
,
high2Low
;
pStore
[
i
]
=
Abc_TtCountOnes
(
pTruth
[
0
]
&
s_Truths6Neg
[
i
]
);
assert
(
iVar
<=
5
&&
jVar
<=
5
&&
iVar
<
jVar
);
return
;
shift
=
(
1
<<
jVar
)
-
(
1
<<
iVar
);
low2High
=
(
pTruth
[
0
]
&
PPMasks
[
iVar
][
jVar
-
1
]
)
<<
shift
;
pTruth
[
0
]
&=
~
PPMasks
[
iVar
][
jVar
-
1
];
high2Low
=
(
pTruth
[
0
]
&
(
PPMasks
[
iVar
][
jVar
-
1
]
<<
shift
))
>>
shift
;
pTruth
[
0
]
&=
~
(
PPMasks
[
iVar
][
jVar
-
1
]
<<
shift
);
pTruth
[
0
]
|=
low2High
|
high2Low
;
}
}
else
assert
(
nVars
>
6
);
nWords
=
Abc_TtWordNum
(
nVars
);
for
(
k
=
0
;
k
<
nWords
;
k
++
)
{
{
word
low2High
,
high2Low
,
temp
;
// count 1's for the first six variables
int
nWords
=
Abc_TtWordNum
(
nVars
);
for
(
i
=
0
;
i
<
6
;
i
++
)
int
shift
,
step
,
iStep
,
jStep
;
pStore
[
i
]
+=
Abc_TtCountOnes
(
(
pTruth
[
k
]
&
s_Truths6Neg
[
i
])
|
((
pTruth
[
k
+
1
]
&
s_Truths6Neg
[
i
])
<<
(
1
<<
i
))
);
int
w
=
0
,
i
=
0
,
j
=
0
;
// count 1's for all other variables
if
(
iVar
==
jVar
)
Counter
=
Abc_TtCountOnes
(
pTruth
[
k
]
);
return
;
for
(
i
=
6
;
i
<
nVars
;
i
++
)
if
(
jVar
<
iVar
)
if
(
(
k
&
(
1
<<
(
i
-
6
)))
==
0
)
ABC_SWAP
(
int
,
iVar
,
jVar
);
pStore
[
i
]
+=
Counter
;
if
(
iVar
<=
5
&&
jVar
<=
5
)
// count 1's for all other variables
{
Counter
=
Abc_TtCountOnes
(
pTruth
[
++
k
]
);
shift
=
(
1
<<
jVar
)
-
(
1
<<
iVar
);
for
(
i
=
6
;
i
<
nVars
;
i
++
)
for
(
w
=
0
;
w
<
nWords
;
w
++
)
if
(
(
k
&
(
1
<<
(
i
-
6
)))
==
0
)
{
pStore
[
i
]
+=
Counter
;
low2High
=
(
pTruth
[
w
]
&
PPMasks
[
iVar
][
jVar
-
1
]
)
<<
shift
;
}
pTruth
[
w
]
&=
~
PPMasks
[
iVar
][
jVar
-
1
];
}
high2Low
=
(
pTruth
[
w
]
&
(
PPMasks
[
iVar
][
jVar
-
1
]
<<
shift
))
>>
shift
;
static
inline
void
Abc_TtCountOnesInCofsSlow
(
word
*
pTruth
,
int
nVars
,
int
*
pStore
)
pTruth
[
w
]
&=
~
(
PPMasks
[
iVar
][
jVar
-
1
]
<<
shift
);
{
pTruth
[
w
]
|=
low2High
|
high2Low
;
static
int
bit_count
[
256
]
=
{
}
0
,
1
,
1
,
2
,
1
,
2
,
2
,
3
,
1
,
2
,
2
,
3
,
2
,
3
,
3
,
4
,
1
,
2
,
2
,
3
,
2
,
3
,
3
,
4
,
2
,
3
,
3
,
4
,
3
,
4
,
4
,
5
,
}
1
,
2
,
2
,
3
,
2
,
3
,
3
,
4
,
2
,
3
,
3
,
4
,
3
,
4
,
4
,
5
,
2
,
3
,
3
,
4
,
3
,
4
,
4
,
5
,
3
,
4
,
4
,
5
,
4
,
5
,
5
,
6
,
else
if
(
iVar
<=
5
&&
jVar
>
5
)
1
,
2
,
2
,
3
,
2
,
3
,
3
,
4
,
2
,
3
,
3
,
4
,
3
,
4
,
4
,
5
,
2
,
3
,
3
,
4
,
3
,
4
,
4
,
5
,
3
,
4
,
4
,
5
,
4
,
5
,
5
,
6
,
2
,
3
,
3
,
4
,
3
,
4
,
4
,
5
,
3
,
4
,
4
,
5
,
4
,
5
,
5
,
6
,
3
,
4
,
4
,
5
,
4
,
5
,
5
,
6
,
4
,
5
,
5
,
6
,
5
,
6
,
6
,
7
,
1
,
2
,
2
,
3
,
2
,
3
,
3
,
4
,
2
,
3
,
3
,
4
,
3
,
4
,
4
,
5
,
2
,
3
,
3
,
4
,
3
,
4
,
4
,
5
,
3
,
4
,
4
,
5
,
4
,
5
,
5
,
6
,
2
,
3
,
3
,
4
,
3
,
4
,
4
,
5
,
3
,
4
,
4
,
5
,
4
,
5
,
5
,
6
,
3
,
4
,
4
,
5
,
4
,
5
,
5
,
6
,
4
,
5
,
5
,
6
,
5
,
6
,
6
,
7
,
2
,
3
,
3
,
4
,
3
,
4
,
4
,
5
,
3
,
4
,
4
,
5
,
4
,
5
,
5
,
6
,
3
,
4
,
4
,
5
,
4
,
5
,
5
,
6
,
4
,
5
,
5
,
6
,
5
,
6
,
6
,
7
,
3
,
4
,
4
,
5
,
4
,
5
,
5
,
6
,
4
,
5
,
5
,
6
,
5
,
6
,
6
,
7
,
4
,
5
,
5
,
6
,
5
,
6
,
6
,
7
,
5
,
6
,
6
,
7
,
6
,
7
,
7
,
8
};
int
i
,
k
,
nBytes
;
unsigned
char
*
pTruthC
=
(
unsigned
char
*
)
pTruth
;
nBytes
=
8
*
Abc_TtWordNum
(
nVars
);
memset
(
pStore
,
0
,
sizeof
(
int
)
*
nVars
);
for
(
k
=
0
;
k
<
nBytes
;
k
++
)
{
pStore
[
0
]
+=
bit_count
[
pTruthC
[
k
]
&
0x55
];
pStore
[
1
]
+=
bit_count
[
pTruthC
[
k
]
&
0x33
];
pStore
[
2
]
+=
bit_count
[
pTruthC
[
k
]
&
0x0F
];
for
(
i
=
3
;
i
<
nVars
;
i
++
)
if
(
(
k
&
(
1
<<
(
i
-
3
)))
==
0
)
pStore
[
i
]
+=
bit_count
[
pTruthC
[
k
]];
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
unsigned
Abc_TtSemiCanonicize
(
word
*
pTruth
,
int
nVars
,
char
*
pCanonPerm
)
{
int
pStore
[
16
];
int
nWords
=
Abc_TtWordNum
(
nVars
);
int
i
,
Temp
,
fChange
,
nOnes
;
unsigned
uCanonPhase
=
0
;
assert
(
nVars
<=
16
);
// normalize polarity
nOnes
=
Abc_TtCountOnesInTruth
(
pTruth
,
nVars
);
if
(
nOnes
>
nWords
*
32
)
{
Abc_TtNot
(
pTruth
,
nWords
);
nOnes
=
nWords
*
64
-
nOnes
;
uCanonPhase
|=
(
1
<<
nVars
);
}
// normalize phase
Abc_TtCountOnesInCofs
(
pTruth
,
nVars
,
pStore
);
for
(
i
=
0
;
i
<
nVars
;
i
++
)
{
if
(
pStore
[
i
]
>=
nOnes
-
pStore
[
i
]
)
continue
;
Abc_TtFlip
(
pTruth
,
nWords
,
i
);
uCanonPhase
|=
(
1
<<
i
);
pStore
[
i
]
=
nOnes
-
pStore
[
i
];
}
do
{
fChange
=
0
;
for
(
i
=
0
;
i
<
nVars
-
1
;
i
++
)
{
{
step
=
Abc_TtWordNum
(
jVar
+
1
)
/
2
;
if
(
pStore
[
i
]
<=
pStore
[
i
+
1
]
)
shift
=
1
<<
iVar
;
continue
;
for
(
w
=
0
;
w
<
nWords
;
w
+=
2
*
step
)
Temp
=
pCanonPerm
[
i
];
pCanonPerm
[
i
]
=
pCanonPerm
[
i
+
1
];
pCanonPerm
[
i
+
1
]
=
Temp
;
Temp
=
pStore
[
i
];
pStore
[
i
]
=
pStore
[
i
+
1
];
pStore
[
i
+
1
]
=
Temp
;
if
(
((
uCanonPhase
>>
i
)
&
1
)
!=
((
uCanonPhase
>>
(
i
+
1
))
&
1
)
)
{
{
for
(
j
=
0
;
j
<
step
;
j
++
)
uCanonPhase
^=
(
1
<<
i
);
{
uCanonPhase
^=
(
1
<<
(
i
+
1
));
low2High
=
(
pTruth
[
w
+
j
]
&
PPMasks
[
iVar
][
5
])
>>
shift
;
pTruth
[
w
+
j
]
&=
~
PPMasks
[
iVar
][
5
];
high2Low
=
(
pTruth
[
w
+
step
+
j
]
&
(
PPMasks
[
iVar
][
5
]
>>
shift
))
<<
shift
;
pTruth
[
w
+
step
+
j
]
&=
~
(
PPMasks
[
iVar
][
5
]
>>
shift
);
pTruth
[
w
+
j
]
|=
high2Low
;
pTruth
[
w
+
step
+
j
]
|=
low2High
;
}
}
}
Abc_TtSwapAdjacent
(
pTruth
,
nWords
,
i
);
fChange
=
1
;
}
}
else
}
while
(
fChange
);
{
return
uCanonPhase
;
iStep
=
Abc_TtWordNum
(
iVar
+
1
)
/
2
;
jStep
=
Abc_TtWordNum
(
jVar
+
1
)
/
2
;
for
(
w
=
0
;
w
<
nWords
;
w
+=
2
*
jStep
)
{
for
(
i
=
0
;
i
<
jStep
;
i
+=
2
*
iStep
)
{
for
(
j
=
0
;
j
<
iStep
;
j
++
)
{
temp
=
pTruth
[
w
+
iStep
+
i
+
j
];
pTruth
[
w
+
iStep
+
i
+
j
]
=
pTruth
[
w
+
jStep
+
i
+
j
];
pTruth
[
w
+
jStep
+
i
+
j
]
=
temp
;
}
}
}
}
}
}
}
/**Function*************************************************************
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
void
Abc_TtReverseVars
(
word
*
pTruth
,
int
nVars
)
{
int
k
;
for
(
k
=
0
;
k
<
nVars
/
2
;
k
++
)
Abc_TtSwapVars
(
pTruth
,
nVars
,
k
,
nVars
-
1
-
k
);
}
static
inline
void
Abc_TtReverseBits
(
word
*
pTruth
,
int
nVars
)
{
static
unsigned
char
pMirror
[
256
]
=
{
0
,
128
,
64
,
192
,
32
,
160
,
96
,
224
,
16
,
144
,
80
,
208
,
48
,
176
,
112
,
240
,
8
,
136
,
72
,
200
,
40
,
168
,
104
,
232
,
24
,
152
,
88
,
216
,
56
,
184
,
120
,
248
,
4
,
132
,
68
,
196
,
36
,
164
,
100
,
228
,
20
,
148
,
84
,
212
,
52
,
180
,
116
,
244
,
12
,
140
,
76
,
204
,
44
,
172
,
108
,
236
,
28
,
156
,
92
,
220
,
60
,
188
,
124
,
252
,
2
,
130
,
66
,
194
,
34
,
162
,
98
,
226
,
18
,
146
,
82
,
210
,
50
,
178
,
114
,
242
,
10
,
138
,
74
,
202
,
42
,
170
,
106
,
234
,
26
,
154
,
90
,
218
,
58
,
186
,
122
,
250
,
6
,
134
,
70
,
198
,
38
,
166
,
102
,
230
,
22
,
150
,
86
,
214
,
54
,
182
,
118
,
246
,
14
,
142
,
78
,
206
,
46
,
174
,
110
,
238
,
30
,
158
,
94
,
222
,
62
,
190
,
126
,
254
,
1
,
129
,
65
,
193
,
33
,
161
,
97
,
225
,
17
,
145
,
81
,
209
,
49
,
177
,
113
,
241
,
9
,
137
,
73
,
201
,
41
,
169
,
105
,
233
,
25
,
153
,
89
,
217
,
57
,
185
,
121
,
249
,
5
,
133
,
69
,
197
,
37
,
165
,
101
,
229
,
21
,
149
,
85
,
213
,
53
,
181
,
117
,
245
,
13
,
141
,
77
,
205
,
45
,
173
,
109
,
237
,
29
,
157
,
93
,
221
,
61
,
189
,
125
,
253
,
3
,
131
,
67
,
195
,
35
,
163
,
99
,
227
,
19
,
147
,
83
,
211
,
51
,
179
,
115
,
243
,
11
,
139
,
75
,
203
,
43
,
171
,
107
,
235
,
27
,
155
,
91
,
219
,
59
,
187
,
123
,
251
,
7
,
135
,
71
,
199
,
39
,
167
,
103
,
231
,
23
,
151
,
87
,
215
,
55
,
183
,
119
,
247
,
15
,
143
,
79
,
207
,
47
,
175
,
111
,
239
,
31
,
159
,
95
,
223
,
63
,
191
,
127
,
255
};
unsigned
char
Temp
,
*
pTruthC
=
(
unsigned
char
*
)
pTruth
;
int
i
,
nBytes
=
(
nVars
>
6
)
?
(
1
<<
(
nVars
-
3
))
:
8
;
for
(
i
=
0
;
i
<
nBytes
/
2
;
i
++
)
{
Temp
=
pMirror
[
pTruthC
[
i
]];
pTruthC
[
i
]
=
pMirror
[
pTruthC
[
nBytes
-
1
-
i
]];
pTruthC
[
nBytes
-
1
-
i
]
=
Temp
;
}
}
/**Function*************************************************************
Synopsis [Stretch truthtable to have more input variables.]
Synopsis [Stretch truthtable to have more input variables.]
Description []
Description []
...
@@ -379,7 +1185,7 @@ static inline void Abc_TtSwapVars_( word * pTruth, int nVars, int iVar, int jVar
...
@@ -379,7 +1185,7 @@ static inline void Abc_TtSwapVars_( word * pTruth, int nVars, int iVar, int jVar
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
static
void
Abc_TtStretch5
(
unsigned
*
pInOut
,
int
nVarS
,
int
nVarB
)
static
inline
void
Abc_TtStretch5
(
unsigned
*
pInOut
,
int
nVarS
,
int
nVarB
)
{
{
int
w
,
i
,
step
,
nWords
;
int
w
,
i
,
step
,
nWords
;
if
(
nVarS
==
nVarB
)
if
(
nVarS
==
nVarB
)
...
@@ -394,7 +1200,7 @@ static void Abc_TtStretch5( unsigned * pInOut, int nVarS, int nVarB )
...
@@ -394,7 +1200,7 @@ static void Abc_TtStretch5( unsigned * pInOut, int nVarS, int nVarB )
for
(
i
=
0
;
i
<
step
;
i
++
)
for
(
i
=
0
;
i
<
step
;
i
++
)
pInOut
[
w
+
i
]
=
pInOut
[
i
];
pInOut
[
w
+
i
]
=
pInOut
[
i
];
}
}
static
void
Abc_TtStretch6
(
word
*
pInOut
,
int
nVarS
,
int
nVarB
)
static
inline
void
Abc_TtStretch6
(
word
*
pInOut
,
int
nVarS
,
int
nVarB
)
{
{
int
w
,
i
,
step
,
nWords
;
int
w
,
i
,
step
,
nWords
;
if
(
nVarS
==
nVarB
)
if
(
nVarS
==
nVarB
)
...
...
src/opt/dau/dauDsd.c
View file @
0fafe786
...
@@ -478,163 +478,6 @@ void Dau_DsdTestOne( word t, int i )
...
@@ -478,163 +478,6 @@ void Dau_DsdTestOne( word t, int i )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
static
inline
int
Abc_TtTruthIsConst0
(
word
*
p
,
int
nWords
)
{
int
w
;
for
(
w
=
0
;
w
<
nWords
;
w
++
)
if
(
p
[
w
]
!=
0
)
return
0
;
return
1
;
}
static
inline
int
Abc_TtTruthIsConst1
(
word
*
p
,
int
nWords
)
{
int
w
;
for
(
w
=
0
;
w
<
nWords
;
w
++
)
if
(
p
[
w
]
!=
~
(
word
)
0
)
return
0
;
return
1
;
}
static
inline
int
Abc_TtCof0IsConst0
(
word
*
t
,
int
nWords
,
int
iVar
)
{
if
(
iVar
<
6
)
{
int
i
;
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
t
[
i
]
&
~
s_Truths6
[
iVar
]
)
return
0
;
return
1
;
}
else
{
int
i
,
Step
=
(
1
<<
(
iVar
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
t
[
i
]
)
return
0
;
return
1
;
}
}
static
inline
int
Abc_TtCof0IsConst1
(
word
*
t
,
int
nWords
,
int
iVar
)
{
if
(
iVar
<
6
)
{
int
i
;
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
(
t
[
i
]
&
~
s_Truths6
[
iVar
])
!=
~
s_Truths6
[
iVar
]
)
return
0
;
return
1
;
}
else
{
int
i
,
Step
=
(
1
<<
(
iVar
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
t
[
i
]
!=
~
(
word
)
0
)
return
0
;
return
1
;
}
}
static
inline
int
Abc_TtCof1IsConst0
(
word
*
t
,
int
nWords
,
int
iVar
)
{
if
(
iVar
<
6
)
{
int
i
;
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
t
[
i
]
&
s_Truths6
[
iVar
]
)
return
0
;
return
1
;
}
else
{
int
i
,
Step
=
(
1
<<
(
iVar
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
t
[
i
+
Step
]
)
return
0
;
return
1
;
}
}
static
inline
int
Abc_TtCof1IsConst1
(
word
*
t
,
int
nWords
,
int
iVar
)
{
if
(
iVar
<
6
)
{
int
i
;
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
(
t
[
i
]
&
s_Truths6
[
iVar
])
!=
s_Truths6
[
iVar
]
)
return
0
;
return
1
;
}
else
{
int
i
,
Step
=
(
1
<<
(
iVar
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
t
[
i
+
Step
]
!=
~
(
word
)
0
)
return
0
;
return
1
;
}
}
static
inline
int
Abc_TtCofsOpposite
(
word
*
t
,
int
nWords
,
int
iVar
)
{
if
(
iVar
<
6
)
{
int
i
,
Shift
=
(
1
<<
iVar
);
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
((
t
[
i
]
<<
Shift
)
&
s_Truths6
[
iVar
])
!=
(
~
t
[
i
]
&
s_Truths6
[
iVar
])
)
return
0
;
return
1
;
}
else
{
int
i
,
Step
=
(
1
<<
(
iVar
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
t
[
i
]
!=
~
t
[
i
+
Step
]
)
return
0
;
return
1
;
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
Abc_TtCof0HasVar
(
word
*
t
,
int
nWords
,
int
iVarI
,
int
iVarJ
)
{
assert
(
iVarI
>
iVarJ
);
if
(
iVarI
<
6
)
{
int
i
,
Shift
=
(
1
<<
iVarJ
);
for
(
i
=
0
;
i
<
nWords
;
i
++
)
if
(
(((
t
[
i
]
&
~
s_Truths6
[
iVarI
])
<<
Shift
)
&
s_Truths6
[
iVarJ
])
!=
((
t
[
i
]
&
~
s_Truths6
[
iVarI
])
&
s_Truths6
[
iVarJ
])
)
return
0
;
return
1
;
}
else
if
(
iVarI
==
6
)
{
}
else
{
int
i
,
Step
=
(
1
<<
(
iVarJ
-
6
));
word
*
tLimit
=
t
+
nWords
;
for
(
;
t
<
tLimit
;
t
+=
2
*
Step
)
for
(
i
=
0
;
i
<
Step
;
i
++
)
if
(
t
[
i
]
!=
t
[
i
+
Step
]
)
return
0
;
return
1
;
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int
Dau_DsdMinimize
(
word
*
p
,
int
*
pVars
,
int
nVars
)
int
Dau_DsdMinimize
(
word
*
p
,
int
*
pVars
,
int
nVars
)
{
{
int
i
,
k
;
int
i
,
k
;
...
@@ -683,16 +526,18 @@ int Dau_DsdRun6_rec( word * p, int * pVars, int nVars, char * pBuffer, int Pos,
...
@@ -683,16 +526,18 @@ int Dau_DsdRun6_rec( word * p, int * pVars, int nVars, char * pBuffer, int Pos,
***********************************************************************/
***********************************************************************/
int
Dau_DsdRun_rec
(
word
*
p
,
int
*
pVars
,
int
nVars
,
char
*
pBuffer
,
int
Pos
,
char
pStore
[
16
][
16
],
int
Func
)
int
Dau_DsdRun_rec
(
word
*
p
,
int
*
pVars
,
int
nVars
,
char
*
pBuffer
,
int
Pos
,
char
pStore
[
16
][
16
],
int
Func
)
{
{
int
v
,
nWords
=
Abc_TtWordNum
(
nVars
);
int
v
,
u
,
nWords
=
Abc_TtWordNum
(
nVars
);
nVars
=
Dau_DsdMinimize
(
p
,
pVars
,
nVars
);
nVars
=
Dau_DsdMinimize
(
p
,
pVars
,
nVars
);
if
(
nVars
<=
6
)
if
(
nVars
<=
6
)
return
Dau_DsdRun6_rec
(
p
,
pVars
,
nVars
,
pBuffer
,
Pos
,
pStore
,
Func
);
return
Dau_DsdRun6_rec
(
p
,
pVars
,
nVars
,
pBuffer
,
Pos
,
pStore
,
Func
);
// consider negative cofactors
if
(
p
[
0
]
&
1
)
if
(
p
[
0
]
&
1
)
{
{
// check for !(ax)
// check for !(ax)
for
(
v
=
0
;
v
<
nVars
;
v
++
)
for
(
v
=
0
;
v
<
nVars
;
v
++
)
if
(
Abc_TtCof0IsConst
0
(
p
,
nWords
,
v
)
)
if
(
Abc_TtCof0IsConst
1
(
p
,
nWords
,
v
)
)
{
{
pBuffer
[
Pos
++
]
=
'!'
;
pBuffer
[
Pos
++
]
=
'('
;
pBuffer
[
Pos
++
]
=
'('
;
pBuffer
[
Pos
++
]
=
'a'
+
pVars
[
v
];
pBuffer
[
Pos
++
]
=
'a'
+
pVars
[
v
];
Abc_TtSwapVars
(
p
,
nVars
,
v
,
nVars
-
1
);
Abc_TtSwapVars
(
p
,
nVars
,
v
,
nVars
-
1
);
...
@@ -706,9 +551,8 @@ int Dau_DsdRun_rec( word * p, int * pVars, int nVars, char * pBuffer, int Pos, c
...
@@ -706,9 +551,8 @@ int Dau_DsdRun_rec( word * p, int * pVars, int nVars, char * pBuffer, int Pos, c
{
{
// check for ax
// check for ax
for
(
v
=
0
;
v
<
nVars
;
v
++
)
for
(
v
=
0
;
v
<
nVars
;
v
++
)
if
(
Abc_TtCof0IsConst
1
(
p
,
nWords
,
v
)
)
if
(
Abc_TtCof0IsConst
0
(
p
,
nWords
,
v
)
)
{
{
pBuffer
[
Pos
++
]
=
'!'
;
pBuffer
[
Pos
++
]
=
'('
;
pBuffer
[
Pos
++
]
=
'('
;
pBuffer
[
Pos
++
]
=
'a'
+
pVars
[
v
];
pBuffer
[
Pos
++
]
=
'a'
+
pVars
[
v
];
Abc_TtSwapVars
(
p
,
nVars
,
v
,
nVars
-
1
);
Abc_TtSwapVars
(
p
,
nVars
,
v
,
nVars
-
1
);
...
@@ -718,6 +562,7 @@ int Dau_DsdRun_rec( word * p, int * pVars, int nVars, char * pBuffer, int Pos, c
...
@@ -718,6 +562,7 @@ int Dau_DsdRun_rec( word * p, int * pVars, int nVars, char * pBuffer, int Pos, c
return
Pos
;
return
Pos
;
}
}
}
}
// consider positive cofactors
if
(
(
p
[
nWords
-
1
]
>>
63
)
&
1
)
if
(
(
p
[
nWords
-
1
]
>>
63
)
&
1
)
{
{
// check for !(!ax)
// check for !(!ax)
...
@@ -764,7 +609,85 @@ int Dau_DsdRun_rec( word * p, int * pVars, int nVars, char * pBuffer, int Pos, c
...
@@ -764,7 +609,85 @@ int Dau_DsdRun_rec( word * p, int * pVars, int nVars, char * pBuffer, int Pos, c
return
Pos
;
return
Pos
;
}
}
return
0
;
// consider two-variable cofactors
for
(
v
=
nVars
-
1
;
v
>
0
;
v
--
)
{
unsigned
uSupp0
=
0
,
uSupp1
=
0
;
for
(
u
=
v
-
1
;
u
>=
0
;
u
--
)
{
if
(
Abc_TtCheckEqualCofs
(
p
,
nWords
,
u
,
v
,
0
,
1
)
)
{
uSupp0
|=
(
1
<<
u
);
if
(
Abc_TtCheckEqualCofs
(
p
,
nWords
,
u
,
v
,
2
,
3
)
)
{
uSupp1
|=
(
1
<<
u
);
// check XOR decomposition
if
(
Abc_TtCheckEqualCofs
(
p
,
nWords
,
u
,
v
,
0
,
3
)
&&
Abc_TtCheckEqualCofs
(
p
,
nWords
,
u
,
v
,
1
,
2
)
)
{
// perform XOR (u, v)
return
Pos
;
}
}
else
{
// F(v=0) does not depend on u; F(v=1) depends on u
if
(
Abc_TtCheckEqualCofs
(
p
,
nWords
,
u
,
v
,
0
,
2
)
)
{
// perform AND (u, v)
return
Pos
;
}
if
(
Abc_TtCheckEqualCofs
(
p
,
nWords
,
u
,
v
,
0
,
3
)
)
{
// perform AND (u, v)
return
Pos
;
}
}
}
else
if
(
Abc_TtCheckEqualCofs
(
p
,
nWords
,
u
,
v
,
2
,
3
)
)
{
uSupp1
|=
(
1
<<
u
);
// F(v=0) depends on u; F(v=1) does not depend on u
if
(
Abc_TtCheckEqualCofs
(
p
,
nWords
,
u
,
v
,
0
,
2
)
)
{
// perform AND (u, v)
return
Pos
;
}
if
(
Abc_TtCheckEqualCofs
(
p
,
nWords
,
u
,
v
,
1
,
2
)
)
{
// perform AND (u, v)
return
Pos
;
}
}
else
assert
(
0
);
}
// check MUX decomposition w.r.t. u
if
(
(
uSupp0
&
uSupp1
)
==
0
)
{
// perform MUX( v, F(v=1), F(v=0) )
}
// check MUX decomposition w.r.t. u
if
(
Abc_TtSuppOnlyOne
(
uSupp0
&
~
uSupp1
)
&&
Abc_TtSuppOnlyOne
(
~
uSupp0
&
uSupp1
)
)
{
// check MUX
int
iVar0
=
Abc_TtSuppFindFirst
(
uSupp0
);
int
iVar1
=
Abc_TtSuppFindFirst
(
uSupp1
);
int
fEqual0
,
fEqual1
;
if
(
iVar0
>
iVar1
)
ABC_SWAP
(
int
,
iVar0
,
iVar1
);
// check existence conditions
assert
(
iVar0
<
iVar1
);
fEqual0
=
Abc_TtCheckEqualCofs
(
p
,
nWords
,
iVar0
,
iVar1
,
0
,
2
)
&&
Abc_TtCheckEqualCofs
(
p
,
nWords
,
iVar0
,
iVar1
,
1
,
3
);
fEqual1
=
Abc_TtCheckEqualCofs
(
p
,
nWords
,
iVar0
,
iVar1
,
0
,
3
)
&&
Abc_TtCheckEqualCofs
(
p
,
nWords
,
iVar0
,
iVar1
,
1
,
2
);
if
(
fEqual0
||
fEqual1
)
{
// perform MUX( v, F(v=1), F(v=0) )
return
Pos
;
}
}
}
return
Pos
;
}
}
...
...
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