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lvzhengyang
abc
Commits
924ec940
Commit
924ec940
authored
Oct 06, 2011
by
Alan Mishchenko
Browse files
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Plain Diff
Changes to the matching procedure.
parent
d66b5863
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2 changed files
with
209 additions
and
51 deletions
+209
-51
src/base/abci/abc.c
+2
-2
src/map/if/ifDec16.c
+207
-49
No files found.
src/base/abci/abc.c
View file @
924ec940
...
...
@@ -13289,9 +13289,9 @@ int Abc_CommandIf( Abc_Frame_t * pAbc, int argc, char ** argv )
}
if
(
pPars
->
pLutStruct
)
{
if
(
pPars
->
nLutSize
<
6
||
pPars
->
nLutSize
>
1
1
)
if
(
pPars
->
nLutSize
<
6
||
pPars
->
nLutSize
>
1
6
)
{
Abc_Print
(
-
1
,
"This feature only works for
{6,7,8,9,10,11}
-LUTs.
\n
"
);
Abc_Print
(
-
1
,
"This feature only works for
[6;16]
-LUTs.
\n
"
);
return
1
;
}
pPars
->
pFuncCell
=
If_CutPerformCheck16
;
...
...
src/map/if/ifDec16.c
View file @
924ec940
...
...
@@ -87,6 +87,31 @@ extern void Extra_PrintBinary( FILE * pFile, unsigned Sign[], int nBits );
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
unsigned
int
If_CluPrimeCudd
(
unsigned
int
p
)
{
int
i
,
pn
;
p
--
;
do
{
p
++
;
if
(
p
&
1
)
{
pn
=
1
;
i
=
3
;
while
((
unsigned
)
(
i
*
i
)
<=
p
)
{
if
(
p
%
i
==
0
)
{
pn
=
0
;
break
;
}
i
+=
2
;
}
}
else
{
pn
=
0
;
}
}
while
(
!
pn
);
return
(
p
);
}
/* end of Cudd_Prime */
// hash table
static
inline
int
If_CluWordNum
(
int
nVars
)
{
...
...
@@ -121,7 +146,7 @@ If_Grp_t * If_CluHashLookup( If_Man_t * p, word * pTruth )
if
(
p
->
pMemEntries
==
NULL
)
{
p
->
pMemEntries
=
Mem_FixedStart
(
sizeof
(
If_Hte_t
)
+
sizeof
(
word
)
*
(
If_CluWordNum
(
p
->
pPars
->
nLutSize
)
-
1
)
);
p
->
nTableSize
=
Vec_PtrSize
(
p
->
vObjs
)
*
p
->
pPars
->
nCutsMax
;
p
->
nTableSize
=
If_CluPrimeCudd
(
Vec_PtrSize
(
p
->
vObjs
)
*
p
->
pPars
->
nCutsMax
*
2
)
;
p
->
pHashTable
=
ABC_CALLOC
(
void
*
,
p
->
nTableSize
);
}
// check if this entry exists
...
...
@@ -504,6 +529,47 @@ void If_CluVerify( word * pF, int nVars, If_Grp_t * g, If_Grp_t * r, word BStrut
// else
// printf( "Verification succeed!\n" );
}
void
If_CluVerify3
(
word
*
pF
,
int
nVars
,
If_Grp_t
*
g
,
If_Grp_t
*
g2
,
If_Grp_t
*
r
,
word
BStruth
,
word
BStruth2
,
word
FStruth
)
{
word
pTTFans
[
6
][
CLU_WRD_MAX
],
pTTWire
[
CLU_WRD_MAX
],
pTTWire2
[
CLU_WRD_MAX
],
pTTRes
[
CLU_WRD_MAX
];
int
i
;
assert
(
g
->
nVars
>=
2
&&
g2
->
nVars
>=
2
&&
r
->
nVars
>=
2
);
assert
(
g
->
nVars
<=
6
&&
g2
->
nVars
<=
6
&&
r
->
nVars
<=
6
);
if
(
TruthAll
[
0
][
0
]
==
0
)
If_CluInitTruthTables
();
for
(
i
=
0
;
i
<
g
->
nVars
;
i
++
)
If_CluCopy
(
pTTFans
[
i
],
TruthAll
[
g
->
pVars
[
i
]],
nVars
);
If_CluComposeLut
(
nVars
,
g
,
&
BStruth
,
pTTFans
,
pTTWire
);
for
(
i
=
0
;
i
<
g
->
nVars
;
i
++
)
If_CluCopy
(
pTTFans
[
i
],
TruthAll
[
g2
->
pVars
[
i
]],
nVars
);
If_CluComposeLut
(
nVars
,
g
,
&
BStruth2
,
pTTFans
,
pTTWire2
);
for
(
i
=
0
;
i
<
r
->
nVars
;
i
++
)
if
(
r
->
pVars
[
i
]
==
nVars
)
If_CluCopy
(
pTTFans
[
i
],
pTTWire
,
nVars
);
else
if
(
r
->
pVars
[
i
]
==
nVars
+
1
)
If_CluCopy
(
pTTFans
[
i
],
pTTWire2
,
nVars
);
else
If_CluCopy
(
pTTFans
[
i
],
TruthAll
[
r
->
pVars
[
i
]],
nVars
);
If_CluComposeLut
(
nVars
,
r
,
&
FStruth
,
pTTFans
,
pTTRes
);
if
(
!
If_CluEqual
(
pTTRes
,
pF
,
nVars
)
)
{
printf
(
"
\n
"
);
// If_CluPrintConfig( nVars, g, r, BStruth, pFStruth );
Kit_DsdPrintFromTruth
(
(
unsigned
*
)
pTTWire
,
nVars
);
printf
(
"
\n
"
);
Kit_DsdPrintFromTruth
(
(
unsigned
*
)
pTTWire2
,
nVars
);
printf
(
"
\n
"
);
Kit_DsdPrintFromTruth
(
(
unsigned
*
)
pTTRes
,
nVars
);
printf
(
"
\n
"
);
Kit_DsdPrintFromTruth
(
(
unsigned
*
)
pF
,
nVars
);
printf
(
"
\n
"
);
// Extra_PrintHex( stdout, (unsigned *)pF, nVars ); printf( "\n" );
printf
(
"Verification FAILED!
\n
"
);
}
// else
// printf( "Verification succeed!\n" );
}
// moves one var (v) to the given position (p)
...
...
@@ -552,11 +618,11 @@ void If_CluMoveGroupToMsb( word * pF, int nVars, int * V2P, int * P2V, If_Grp_t
}
// reverses the variable order
void
If_CluReverseOrder
(
word
*
pF
,
int
nVars
,
int
*
V2P
,
int
*
P2V
)
void
If_CluReverseOrder
(
word
*
pF
,
int
nVars
,
int
*
V2P
,
int
*
P2V
,
int
iVarStart
)
{
int
v
;
for
(
v
=
0
;
v
<
nVars
;
v
++
)
If_CluMoveVar
(
pF
,
nVars
,
V2P
,
P2V
,
P2V
[
0
],
nVars
-
1
-
v
);
for
(
v
=
iVarStart
;
v
<
nVars
;
v
++
)
If_CluMoveVar
(
pF
,
nVars
,
V2P
,
P2V
,
P2V
[
iVarStart
],
nVars
-
1
-
v
);
}
// return the number of cofactors w.r.t. the topmost vars (nBSsize)
...
...
@@ -1118,8 +1184,10 @@ int If_CluMinimumBase( word * t, int * pSupp, int nVarsAll, int * pnVars )
}
// returns the best group found
If_Grp_t
If_CluCheck
(
If_Man_t
*
p
,
word
*
pTruth0
,
int
nVars
,
int
nLutLeaf
,
int
nLutRoot
,
If_Grp_t
*
pR
,
word
*
pFunc0
,
word
*
pFunc1
)
If_Grp_t
If_CluCheck
(
If_Man_t
*
p
,
word
*
pTruth0
,
int
nVars
,
int
iVarStart
,
int
nLutLeaf
,
int
nLutRoot
,
If_Grp_t
*
pR
,
word
*
pFunc0
,
word
*
pFunc1
,
word
*
pLeftOver
)
{
int
fEnableHashing
=
1
;
If_Grp_t
G1
=
{
0
},
R
=
{
0
},
*
pHashed
=
NULL
;
word
Truth
,
pTruth
[
CLU_WRD_MAX
],
pF
[
CLU_WRD_MAX
];
//, pG[CLU_WRD_MAX];
int
V2P
[
CLU_VAR_MAX
+
2
],
P2V
[
CLU_VAR_MAX
+
2
],
pCanonPerm
[
CLU_VAR_MAX
];
...
...
@@ -1147,7 +1215,6 @@ If_Grp_t If_CluCheck( If_Man_t * p, word * pTruth0, int nVars, int nLutLeaf, int
// If_CluSemiCanonicizeVerify( pTruth, pTruth0, nVars, pCanonPerm, uCanonPhase );
// If_CluCopy( pTruth, pTruth0, nLutSize );
/*
{
int pCanonPerm[32];
...
...
@@ -1159,7 +1226,6 @@ If_Grp_t If_CluCheck( If_Man_t * p, word * pTruth0, int nVars, int nLutLeaf, int
return G1;
}
*/
// check minnimum base
If_CluCopy
(
pF
,
pTruth
,
nVars
);
for
(
i
=
0
;
i
<
nVars
;
i
++
)
...
...
@@ -1170,43 +1236,43 @@ If_Grp_t If_CluCheck( If_Man_t * p, word * pTruth0, int nVars, int nLutLeaf, int
if
(
!
nSupp
||
!
If_CluSuppIsMinBase
(
nSupp
)
)
return
G1
;
// check hash table
if
(
p
)
if
(
p
&&
fEnableHashing
)
{
pHashed
=
If_CluHashLookup
(
p
,
pTruth
);
if
(
pHashed
&&
pHashed
->
nVars
!=
CLU_UNUSED
)
return
*
pHashed
;
G1
=
*
pHashed
;
}
if
(
G1
.
nVars
==
0
)
{
// detect easy cofs
G1
=
If_CluDecUsingCofs
(
pTruth
,
nVars
,
nLutLeaf
);
if
(
G1
.
nVars
==
0
)
{
// perform testing
G1
=
If_CluFindGroup
(
pF
,
nVars
,
0
,
V2P
,
P2V
,
nLutLeaf
,
nLutLeaf
+
nLutRoot
==
nVars
+
1
);
// If_CluCheckPerm( pTruth, pF, nVars, V2P, P2V );
G1
=
If_CluFindGroup
(
pF
,
nVars
,
iVarStart
,
V2P
,
P2V
,
nLutLeaf
,
nLutLeaf
+
nLutRoot
==
nVars
+
1
);
// If_CluCheckPerm( pTruth, pF, nVars, V2P, P2V );
if
(
G1
.
nVars
==
0
)
{
// perform testing with a smaller set
if
(
nVars
<
nLutLeaf
+
nLutRoot
-
2
)
{
nLutLeaf
--
;
G1
=
If_CluFindGroup
(
pF
,
nVars
,
0
,
V2P
,
P2V
,
nLutLeaf
,
nLutLeaf
+
nLutRoot
==
nVars
+
1
);
G1
=
If_CluFindGroup
(
pF
,
nVars
,
iVarStart
,
V2P
,
P2V
,
nLutLeaf
,
nLutLeaf
+
nLutRoot
==
nVars
+
1
);
nLutLeaf
++
;
}
if
(
G1
.
nVars
==
0
)
{
// perform testing with a different order
If_CluReverseOrder
(
pF
,
nVars
,
V2P
,
P2V
);
G1
=
If_CluFindGroup
(
pF
,
nVars
,
0
,
V2P
,
P2V
,
nLutLeaf
,
nLutLeaf
+
nLutRoot
==
nVars
+
1
);
If_CluReverseOrder
(
pF
,
nVars
,
V2P
,
P2V
,
iVarStart
);
G1
=
If_CluFindGroup
(
pF
,
nVars
,
iVarStart
,
V2P
,
P2V
,
nLutLeaf
,
nLutLeaf
+
nLutRoot
==
nVars
+
1
);
// check permutation
// If_CluCheckPerm( pTruth, pF, nVars, V2P, P2V );
// If_CluCheckPerm( pTruth, pF, nVars, V2P, P2V );
if
(
G1
.
nVars
==
0
)
{
/*
/*
if ( nVars == 6 )
{
Extra_PrintHex( stdout, (unsigned *)pF, nVars ); printf( " " );
...
...
@@ -1214,12 +1280,13 @@ If_Grp_t If_CluCheck( If_Man_t * p, word * pTruth0, int nVars, int nLutLeaf, int
if ( !If_CutPerformCheck07( (unsigned *)pF, 6, 6, NULL ) )
printf( "no\n" );
}
*/
*/
return
pHashed
?
(
*
pHashed
=
G1
)
:
G1
;
}
}
}
}
}
// derive
if
(
pR
)
...
...
@@ -1230,9 +1297,20 @@ If_Grp_t If_CluCheck( If_Man_t * p, word * pTruth0, int nVars, int nLutLeaf, int
else
Truth
=
If_CluDeriveNonDisjoint
(
pF
,
nVars
,
V2P
,
P2V
,
&
G1
,
&
R
);
if
(
pFunc0
&&
R
.
nVars
<=
6
)
*
pFunc0
=
If_CluAdjust
(
pF
[
0
],
R
.
nVars
);
if
(
pFunc1
)
*
pFunc1
=
If_CluAdjust
(
Truth
,
G1
.
nVars
);
if
(
pLeftOver
)
{
if
(
R
.
nVars
<
6
)
*
pLeftOver
=
If_CluAdjust
(
pF
[
0
],
R
.
nVars
);
else
If_CluCopy
(
pLeftOver
,
pF
,
R
.
nVars
);
If_CluAdjustBig
(
pLeftOver
,
R
.
nVars
,
nLutSize
);
}
// perform checking
if
(
0
)
{
...
...
@@ -1244,18 +1322,89 @@ If_Grp_t If_CluCheck( If_Man_t * p, word * pTruth0, int nVars, int nLutLeaf, int
return
pHashed
?
(
*
pHashed
=
G1
)
:
G1
;
}
// returns the best group found
If_Grp_t
If_CluCheck3
(
If_Man_t
*
p
,
word
*
pTruth0
,
int
nVars
,
int
nLutLeaf
,
int
nLutLeaf2
,
int
nLutRoot
,
If_Grp_t
*
pR
,
If_Grp_t
*
pG2
,
word
*
pFunc0
,
word
*
pFunc1
,
word
*
pFunc2
)
{
static
int
Counter
=
0
;
word
pLeftOver
[
CLU_WRD_MAX
],
Func0
,
Func1
,
Func2
;
If_Grp_t
G1
=
{
0
},
G2
=
{
0
},
R
=
{
0
},
R2
=
{
0
};
int
i
;
Counter
++
;
if
(
Counter
==
37590
)
{
int
ns
=
0
;
}
// check two-node decomposition
G1
=
If_CluCheck
(
p
,
pTruth0
,
nVars
,
0
,
nLutLeaf
,
nLutRoot
+
nLutLeaf2
-
1
,
&
R2
,
&
Func0
,
&
Func1
,
pLeftOver
);
// decomposition does not exist
if
(
G1
.
nVars
==
0
)
return
G1
;
// decomposition exists and sufficient
if
(
R2
.
nVars
<=
nLutRoot
||
R2
.
nVars
<=
nLutLeaf2
)
{
if
(
pG2
)
*
pG2
=
G2
;
if
(
pR
)
*
pR
=
R2
;
if
(
pFunc0
)
*
pFunc0
=
Func0
;
if
(
pFunc1
)
*
pFunc1
=
Func1
;
if
(
pFunc2
)
*
pFunc2
=
0
;
return
G1
;
}
// update iVarStart here!!!
// try second decomposition
G2
=
If_CluCheck
(
p
,
pLeftOver
,
R2
.
nVars
,
0
,
nLutLeaf2
,
nLutRoot
,
&
R
,
&
Func0
,
&
Func2
,
NULL
);
if
(
G2
.
nVars
==
0
)
return
G2
;
// remap variables
for
(
i
=
0
;
i
<
G2
.
nVars
;
i
++
)
{
assert
(
G2
.
pVars
[
i
]
<
R2
.
nVars
);
G2
.
pVars
[
i
]
=
R2
.
pVars
[
G2
.
pVars
[
i
]
];
}
// remap variables
for
(
i
=
0
;
i
<
R
.
nVars
;
i
++
)
{
if
(
R
.
pVars
[
i
]
==
R2
.
nVars
)
R
.
pVars
[
i
]
=
nVars
+
1
;
else
R
.
pVars
[
i
]
=
R2
.
pVars
[
R
.
pVars
[
i
]
];
}
// decomposition exist
if
(
pG2
)
*
pG2
=
G2
;
if
(
pR
)
*
pR
=
R
;
if
(
pFunc0
)
*
pFunc0
=
Func0
;
if
(
pFunc1
)
*
pFunc1
=
Func1
;
if
(
pFunc2
)
*
pFunc2
=
Func2
;
return
G1
;
}
// returns the best group found
int
If_CluCheckExt
(
If_Man_t
*
p
,
word
*
pTruth
,
int
nVars
,
int
nLutLeaf
,
int
nLutRoot
,
char
*
pLut0
,
char
*
pLut1
,
word
*
pFunc0
,
word
*
pFunc1
)
{
If_Grp_t
G
,
R
;
G
=
If_CluCheck
(
p
,
pTruth
,
nVars
,
nLutLeaf
,
nLutRoot
,
&
R
,
pFunc0
,
pFunc1
);
G
=
If_CluCheck
(
p
,
pTruth
,
nVars
,
0
,
nLutLeaf
,
nLutRoot
,
&
R
,
pFunc0
,
pFunc1
,
NULL
);
memcpy
(
pLut0
,
&
R
,
sizeof
(
If_Grp_t
)
);
memcpy
(
pLut1
,
&
G
,
sizeof
(
If_Grp_t
)
);
// memcpy( pLut2, &G2, sizeof(If_Grp_t) );
return
(
G
.
nVars
>
0
);
}
// returns the best group found
int
If_CluCheckExt3
(
If_Man_t
*
p
,
word
*
pTruth
,
int
nVars
,
int
nLutLeaf
,
int
nLutLeaf2
,
int
nLutRoot
,
char
*
pLut0
,
char
*
pLut1
,
char
*
pLut2
,
word
*
pFunc0
,
word
*
pFunc1
,
word
*
pFunc2
)
{
If_Grp_t
G
,
G2
,
R
;
G
=
If_CluCheck3
(
p
,
pTruth
,
nVars
,
nLutLeaf
,
nLutLeaf2
,
nLutRoot
,
&
R
,
&
G2
,
pFunc0
,
pFunc1
,
pFunc2
);
memcpy
(
pLut0
,
&
R
,
sizeof
(
If_Grp_t
)
);
memcpy
(
pLut1
,
&
G
,
sizeof
(
If_Grp_t
)
);
memcpy
(
pLut2
,
&
G2
,
sizeof
(
If_Grp_t
)
);
return
(
G
.
nVars
>
0
);
}
// computes delay of the decomposition
float
If_CluDelayMax
(
If_Grp_t
*
g
,
float
*
pDelays
)
{
...
...
@@ -1319,7 +1468,7 @@ float If_CutDelayLutStruct( If_Man_t * p, If_Cut_t * pCut, char * pStr, float Wi
}
// derive the first group
G1
=
If_CluCheck
(
p
,
(
word
*
)
If_CutTruth
(
pCut
),
nLeaves
,
nLutLeaf
,
nLutRoot
,
NULL
,
NULL
,
NULL
);
G1
=
If_CluCheck
(
p
,
(
word
*
)
If_CutTruth
(
pCut
),
nLeaves
,
0
,
nLutLeaf
,
nLutRoot
,
NULL
,
NULL
,
NULL
,
NULL
);
if
(
G1
.
nVars
==
0
)
return
ABC_INFINITY
;
...
...
@@ -1372,44 +1521,39 @@ float If_CutDelayLutStruct( If_Man_t * p, If_Cut_t * pCut, char * pStr, float Wi
int
If_CutPerformCheck16
(
If_Man_t
*
p
,
unsigned
*
pTruth
,
int
nVars
,
int
nLeaves
,
char
*
pStr
)
{
If_Grp_t
G1
=
{
0
},
G2
=
{
0
},
G3
=
{
0
};
int
nLutLeaf
,
nLutRoot
;
int
i
,
nLutLeaf
,
nLutLeaf2
,
nLutRoot
,
Length
;
// quit if parameters are wrong
if
(
strlen
(
pStr
)
!=
2
)
Length
=
strlen
(
pStr
);
if
(
Length
!=
2
&&
Length
!=
3
)
{
printf
(
"Wrong LUT struct (%s)
\n
"
,
pStr
);
return
0
;
}
nLutLeaf
=
pStr
[
0
]
-
'0'
;
if
(
nLutLeaf
<
3
||
nLutLeaf
>
6
)
{
printf
(
"Leaf size (%d) should belong to {3,4,5,6}.
\n
"
,
nLutLeaf
);
return
0
;
}
nLutRoot
=
pStr
[
1
]
-
'0'
;
if
(
nLutRoot
<
3
||
nLutRoot
>
6
)
for
(
i
=
0
;
i
<
Length
;
i
++
)
if
(
pStr
[
i
]
-
'0'
<
3
||
pStr
[
i
]
-
'0'
>
6
)
{
printf
(
"Root size (%d) should belong to {3,4,5,6}.
\n
"
,
nLutRoot
);
printf
(
"The LUT size (%d) should belong to {3,4,5,6}.
\n
"
,
pStr
[
i
]
-
'0'
);
return
0
;
}
if
(
nLeaves
>
nLutLeaf
+
nLutRoot
-
1
)
nLutLeaf
=
pStr
[
0
]
-
'0'
;
nLutLeaf2
=
(
Length
==
3
)
?
pStr
[
1
]
-
'0'
:
0
;
nLutRoot
=
pStr
[
Length
-
1
]
-
'0'
;
if
(
nLeaves
>
nLutLeaf
-
1
+
(
nLutLeaf2
?
nLutLeaf2
-
1
:
0
)
+
nLutRoot
)
{
printf
(
"The cut size (%d) is too large for the LUT structure %
d%d.
\n
"
,
nLeaves
,
nLutLeaf
,
nLutRoot
);
printf
(
"The cut size (%d) is too large for the LUT structure %
s.
\n
"
,
nLeaves
,
pStr
);
return
0
;
}
// consider easy case
if
(
nLeaves
<=
Abc_MaxInt
(
nLutLeaf
,
nLutRoot
)
)
if
(
nLeaves
<=
Abc_MaxInt
(
nLutLeaf
2
,
Abc_MaxInt
(
nLutLeaf
,
nLutRoot
)
)
)
return
1
;
// derive the first group
G1
=
If_CluCheck
(
p
,
(
word
*
)
pTruth
,
nLeaves
,
nLutLeaf
,
nLutRoot
,
NULL
,
NULL
,
NULL
);
if
(
G1
.
nVars
==
0
)
{
// printf( "-%d ", nLeaves );
return
0
;
}
// printf( "+%d ", nLeaves );
return
1
;
if
(
Length
==
2
)
G1
=
If_CluCheck
(
p
,
(
word
*
)
pTruth
,
nLeaves
,
0
,
nLutLeaf
,
nLutRoot
,
NULL
,
NULL
,
NULL
,
NULL
);
else
G1
=
If_CluCheck3
(
p
,
(
word
*
)
pTruth
,
nLeaves
,
nLutLeaf
,
nLutLeaf2
,
nLutRoot
,
NULL
,
NULL
,
NULL
,
NULL
,
NULL
);
return
(
int
)(
G1
.
nVars
>
0
);
}
...
...
@@ -1426,10 +1570,15 @@ void If_CluTest()
// word t = 0x000F000E000F000F;
// word t = 0xF7FFF7F7F7F7F7F7;
word
s
=
t
;
int
nVars
=
6
;
int
nLutLeaf
=
4
;
int
nLutRoot
=
4
;
If_Grp_t
G
;
word
t2
[
2
]
=
{
0x7f807f807f80807f
,
0x7f807f807f807f80
};
int
nVars
=
7
;
int
nLutLeaf
=
3
;
int
nLutLeaf2
=
3
;
int
nLutRoot
=
3
;
If_Grp_t
G
,
G2
,
R
;
word
Func0
,
Func1
,
Func2
;
return
;
/*
int pCanonPerm[CLU_VAR_MAX];
...
...
@@ -1441,6 +1590,15 @@ void If_CluTest()
If_CluSemiCanonicizeVerify( &s, &t, nVars, pCanonPerm, uCanonPhase );
*/
Kit_DsdPrintFromTruth
(
(
unsigned
*
)
t2
,
nVars
);
printf
(
"
\n
"
);
G
=
If_CluCheck3
(
NULL
,
t2
,
nVars
,
nLutLeaf
,
nLutLeaf2
,
nLutRoot
,
&
R
,
&
G2
,
&
Func0
,
&
Func1
,
&
Func2
);
If_CluPrintGroup
(
&
G
);
If_CluPrintGroup
(
&
G2
);
If_CluPrintGroup
(
&
R
);
If_CluVerify3
(
t2
,
nVars
,
&
G
,
&
G2
,
&
R
,
Func1
,
Func2
,
Func0
);
return
;
If_CutPerformCheck07
(
NULL
,
(
unsigned
*
)
&
t
,
6
,
6
,
NULL
);
...
...
@@ -1448,7 +1606,7 @@ void If_CluTest()
Kit_DsdPrintFromTruth
(
(
unsigned
*
)
&
t
,
nVars
);
printf
(
"
\n
"
);
G
=
If_CluCheck
(
NULL
,
&
t
,
nVars
,
nLutLeaf
,
nLutRoot
,
NULL
,
NULL
,
NULL
);
G
=
If_CluCheck
(
NULL
,
&
t
,
nVars
,
0
,
nLutLeaf
,
nLutRoot
,
NULL
,
NULL
,
NULL
,
NULL
);
If_CluPrintGroup
(
&
G
);
}
...
...
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