Commit a2ff2cb9 by Alan Mishchenko

Changes to LUT mappers.

parent 5f9ca14a
......@@ -1528,8 +1528,7 @@ Gia_Man_t * Gia_ManPerformMapping( Gia_Man_t * p, void * pp, int fNormalized )
If_Man_t * pIfMan;
If_Par_t * pPars = (If_Par_t *)pp;
// disable cut minimization when GIA strucure is needed
// if ( !pPars->fDelayOpt && !pPars->fUserRecLib && !pPars->fDeriveLuts )
if ( !pPars->fDelayOpt && !pPars->fUserRecLib && !pPars->pLutStruct )
if ( !pPars->fDelayOpt && !pPars->fUserRecLib && ((!pPars->fDeriveLuts && !pPars->fUseDsd) || !pPars->pLutStruct) )
pPars->fCutMin = 0;
// reconstruct GIA according to the hierarchy manager
......
......@@ -574,7 +574,10 @@ extern int If_ManPerformMappingRound( If_Man_t * p, int nCutsUsed, i
extern void If_ManImproveMapping( If_Man_t * p );
/*=== ifSat.c ==========================================================*/
extern void * If_ManSatBuildXY( int nLutSize );
extern void * If_ManSatBuildXYZ( int nLutSize );
extern void If_ManSatUnbuild( void * p );
extern int If_ManSatCheckXY( void * pSat, int nLutSize, word * pTruth, int nVars, unsigned uSet, word * pTBound, word * pTFree, Vec_Int_t * vLits );
extern unsigned If_ManSatCheckXYall( void * pSat, int nLutSize, word * pTruth, int nVars, Vec_Int_t * vLits );
/*=== ifSeq.c =============================================================*/
extern int If_ManPerformMappingSeq( If_Man_t * p );
/*=== ifTime.c ============================================================*/
......
......@@ -67,6 +67,7 @@ struct If_DsdMan_t_
word ** pTtElems; // elementary TTs
Vec_Mem_t * vTtMem; // truth table memory and hash table
Vec_Ptr_t * vTtDecs; // truth table decompositions
void * pSat; // SAT solver
int * pSched[16]; // grey code schedules
int nUniqueHits; // statistics
int nUniqueMisses; // statistics
......@@ -207,6 +208,8 @@ If_DsdMan_t * If_DsdManAlloc( int nVars, int LutSize )
Vec_MemHashAlloc( p->vTtMem, 10000 );
for ( v = 2; v < nVars; v++ )
p->pSched[v] = Extra_GreyCodeSchedule( v );
if ( LutSize )
p->pSat = If_ManSatBuildXY( LutSize );
return p;
}
void If_DsdManFree( If_DsdMan_t * p, int fVerbose )
......@@ -234,6 +237,7 @@ void If_DsdManFree( If_DsdMan_t * p, int fVerbose )
Vec_IntFreeP( &p->vNexts );
Vec_PtrFreeP( &p->vObjs );
Mem_FlexStop( p->pMem, 0 );
If_ManSatUnbuild( p->pSat );
ABC_FREE( p->pStore );
ABC_FREE( p->pBins );
ABC_FREE( p );
......@@ -618,6 +622,7 @@ If_DsdMan_t * If_DsdManLoad( char * pFileName )
p->pStore = Abc_UtilStrsav( pFileName );
RetValue = fread( &Num, 4, 1, pFile );
p->LutSize = Num;
p->pSat = If_ManSatBuildXY( p->LutSize );
RetValue = fread( &Num, 4, 1, pFile );
assert( Num >= 2 );
Vec_PtrFillExtra( p->vObjs, Num, NULL );
......@@ -770,7 +775,7 @@ word * If_DsdManComputeTruth( If_DsdMan_t * p, int iDsd, unsigned char * pPermLi
}
else
If_DsdManComputeTruth_rec( p, iDsd, pRes, pPermLits, &nSupp );
assert( nSupp == If_DsdVecObjSuppSize(p->vObjs, Abc_Lit2Var(iDsd)) );
assert( nSupp == If_DsdVecLitSuppSize(p->vObjs, iDsd) );
return pRes;
}
......@@ -785,74 +790,6 @@ word * If_DsdManComputeTruth( If_DsdMan_t * p, int iDsd, unsigned char * pPermLi
SeeAlso []
***********************************************************************/
int If_DsdManOperation2( If_DsdMan_t * p, int Type, int * pLits, int nLits )
{
If_DsdObj_t * pObj;
int nChildren = 0, pChildren[DAU_MAX_VAR];
int i, k, Id, iFanin, fCompl = 0;
if ( Type == IF_DSD_AND )
{
for ( k = 0; k < nLits; k++ )
{
pObj = If_DsdVecObj( p->vObjs, Abc_Lit2Var(pLits[k]) );
if ( Abc_LitIsCompl(pLits[k]) || If_DsdObjType(pObj) != IF_DSD_AND )
pChildren[nChildren++] = pLits[k];
else
If_DsdObjForEachFaninLit( p->vObjs, pObj, iFanin, i )
pChildren[nChildren++] = iFanin;
}
If_DsdObjSort( p->vObjs, pChildren, nChildren, NULL );
}
else if ( Type == IF_DSD_XOR )
{
for ( k = 0; k < nLits; k++ )
{
fCompl ^= Abc_LitIsCompl(pLits[k]);
pObj = If_DsdVecObj( p->vObjs, Abc_LitRegular(pLits[k]) );
if ( If_DsdObjType(pObj) != IF_DSD_XOR )
pChildren[nChildren++] = pLits[k];
else
If_DsdObjForEachFaninLit( p->vObjs, pObj, iFanin, i )
{
assert( !Abc_LitIsCompl(iFanin) );
pChildren[nChildren++] = iFanin;
}
}
If_DsdObjSort( p->vObjs, pChildren, nChildren, NULL );
}
else if ( Type == IF_DSD_MUX )
{
if ( Abc_LitIsCompl(pLits[0]) )
{
pLits[0] = Abc_LitNot(pLits[0]);
ABC_SWAP( int, pLits[1], pLits[2] );
}
if ( Abc_LitIsCompl(pLits[1]) )
{
pLits[1] = Abc_LitNot(pLits[1]);
pLits[2] = Abc_LitNot(pLits[2]);
fCompl ^= 1;
}
for ( k = 0; k < nLits; k++ )
pChildren[nChildren++] = pLits[k];
}
else assert( 0 );
// create new graph
Id = If_DsdObjFindOrAdd( p, Type, pChildren, nChildren, NULL );
return Abc_Var2Lit( Id, fCompl );
}
/**Function*************************************************************
Synopsis [Performs DSD operation.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int If_DsdManComputeFirstArray( If_DsdMan_t * p, int * pLits, int nLits, int * pFirsts )
{
int i, nSSize = 0;
......@@ -1290,15 +1227,17 @@ Dau_DecPrintSets( vSets, nFans );
}
return 0;
}
unsigned If_DsdManCheckXY( If_DsdMan_t * p, int iDsd, int LutSize, int fDerive, int fVerbose )
unsigned If_DsdManCheckXY_int( If_DsdMan_t * p, int iDsd, int LutSize, int fDerive, int fVerbose )
{
If_DsdObj_t * pObj, * pTemp;
int i, Mask, iFirst;
/*
if ( 193 == iDsd )
{
int s = 0;
If_DsdManPrintOne( stdout, p, Abc_Lit2Var(iDsd), NULL, 1 );
}
*/
pObj = If_DsdVecObj( p->vObjs, Abc_Lit2Var(iDsd) );
if ( fVerbose )
If_DsdManPrintOne( stdout, p, Abc_Lit2Var(iDsd), NULL, 0 );
......@@ -1366,6 +1305,26 @@ unsigned If_DsdManCheckXY( If_DsdMan_t * p, int iDsd, int LutSize, int fDerive,
// If_DsdManPrintOne( stdout, p, Abc_Lit2Var(iDsd), NULL, 1 );
return 0;
}
unsigned If_DsdManCheckXY( If_DsdMan_t * p, int iDsd, int LutSize, int fDerive, int fVerbose )
{
unsigned uSet = If_DsdManCheckXY_int( p, iDsd, LutSize, fDerive, fVerbose );
/*
if ( uSet == 0 )
{
// abctime clk = Abc_Clock();
int nVars = If_DsdVecLitSuppSize( p->vObjs, iDsd );
word * pRes = If_DsdManComputeTruth( p, iDsd, NULL );
uSet = If_ManSatCheckXYall( p->pSat, LutSize, pRes, nVars, p->vTemp1 );
if ( uSet )
{
// If_DsdManPrintOne( stdout, p, Abc_Lit2Var(iDsd), NULL, 1 );
// Dau_DecPrintSet( uSet, nVars, 1 );
}
// Abc_PrintTime( 1, "Time", Abc_Clock() - clk );
}
*/
return uSet;
}
/**Function*************************************************************
......
......@@ -223,7 +223,6 @@ void If_ObjPerformMappingAnd( If_Man_t * p, If_Obj_t * pObj, int Mode, int fPrep
if ( Vec_IntSize(p->vTtDsds) <= truthId || Vec_IntEntry(p->vTtDsds, truthId) == -1 )
{
pCut->iCutDsd = If_DsdManCompute( p->pIfDsdMan, If_CutTruthW(p, pCut), pCut->nLeaves, (unsigned char *)pCut->pPerm, p->pPars->pLutStruct );
// printf( "%d(%d) ", pCut->iCutDsd, If_DsdManCheckDec( p->pIfDsdMan, pCut->iCutDsd ) );
while ( Vec_IntSize(p->vTtDsds) <= truthId )
{
Vec_IntPush( p->vTtDsds, -1 );
......
......@@ -53,9 +53,61 @@ void * If_ManSatBuildXY( int nLutSize )
sat_solver * p = sat_solver_new();
sat_solver_setnvars( p, nVars );
for ( m = 0; m < nMintsF; m++ )
sat_solver_add_mux( p, iVarP0 + m % nMintsL, iVarP1 + 2 * (m / nMintsL) + 1, iVarP1 + 2 * (m / nMintsL), iVarM + m );
sat_solver_add_mux( p,
iVarP0 + m % nMintsL,
iVarP1 + 2 * (m / nMintsL) + 1,
iVarP1 + 2 * (m / nMintsL),
iVarM + m );
return p;
}
void * If_ManSatBuildXYZ( int nLutSize )
{
int nMintsL = (1 << nLutSize);
int nMintsF = (1 << (3 * nLutSize - 2));
int nVars = 3 * nMintsL + nMintsF;
int iVarP0 = 0; // LUT0 parameters (total nMintsL)
int iVarP1 = nMintsL; // LUT1 parameters (total nMintsL)
int iVarP2 = 2 * nMintsL; // LUT2 parameters (total nMintsL)
int m,iVarM = 3 * nMintsL; // MUX vars (total nMintsF)
sat_solver * p = sat_solver_new();
sat_solver_setnvars( p, nVars );
for ( m = 0; m < nMintsF; m++ )
sat_solver_add_mux41( p,
iVarP0 + m % nMintsL,
iVarP1 + (m >> nLutSize) % nMintsL,
iVarP2 + 4 * (m >> (2 * nLutSize)) + 0,
iVarP2 + 4 * (m >> (2 * nLutSize)) + 1,
iVarP2 + 4 * (m >> (2 * nLutSize)) + 2,
iVarP2 + 4 * (m >> (2 * nLutSize)) + 3,
iVarM + m );
return p;
}
void * If_ManSatBuild55()
{
int nMintsL = 16;
int nMintsF = 512;
int nVars = 2 * nMintsL + nMintsF;
int iVarP0 = 0; // LUT0 parameters (total nMintsL)
int iVarP1 = nMintsL; // LUT1 parameters (total nMintsL)
int m,iVarM = 2 * nMintsL; // MUX vars (total nMintsF)
sat_solver * p = sat_solver_new();
sat_solver_setnvars( p, nVars );
for ( m = 0; m < nMintsF; m++ )
{
int iVar0 = (((m >> 2) & 7) << 1) | ((m & 3) == 3);
int iVar1 = ((m >> 6) & 7);
if ( (m >> 5) & 1 )
sat_solver_add_mux( p, iVarP0 + iVar0, iVarP1 + 2 * iVar1 + 1, iVarP1 + 2 * iVar1, iVarM + m );
else
sat_solver_add_buffer( p, iVarP1 + 2 * iVar1, iVarM + m, 0 );
}
return p;
}
void If_ManSatUnbuild( void * p )
{
if ( p )
sat_solver_delete( (sat_solver *)p );
}
/**Function*************************************************************
......@@ -183,48 +235,269 @@ int If_ManSatCheckXY( void * pSat, int nLutSize, word * pTruth, int nVars, unsig
Value = sat_solver_solve( p, Vec_IntArray(vLits), Vec_IntArray(vLits) + Vec_IntSize(vLits), 0, 0, 0, 0 );
if ( Value != l_True )
return 0;
// collect config
assert( nSSet + nBSet <= nLutSize );
*pTBound = 0;
nMintsLNew = (1 << (nSSet + nBSet));
for ( m = 0; m < nMintsLNew; m++ )
if ( sat_solver_var_value(p, m) )
Abc_TtSetBit( pTBound, m );
*pTBound = Abc_Tt6Stretch( *pTBound, nSSet + nBSet );
// collect configs
assert( nSSet + nFSet + 1 <= nLutSize );
*pTFree = 0;
nMintsLNew = (1 << (1 + nSSet + nFSet));
for ( m = 0; m < nMintsLNew; m++ )
if ( sat_solver_var_value(p, nMintsL+m) )
Abc_TtSetBit( pTFree, m );
*pTFree = Abc_Tt6Stretch( *pTFree, 1 + nSSet + nFSet );
if ( nVars != 6 )
return 1;
// verify the result
Res = If_ManSat6Truth( *pTBound, *pTFree, pBSet, nBSet, pSSet, nSSet, pFSet, nFSet );
if ( pTruth[0] != Res )
if ( pTBound && pTFree )
{
Dau_DsdPrintFromTruth( pTruth, nVars );
Dau_DsdPrintFromTruth( &Res, nVars );
Dau_DsdPrintFromTruth( pTBound, nSSet+nBSet );
Dau_DsdPrintFromTruth( pTFree, nSSet+nFSet+1 );
printf( "Verification failed!\n" );
// collect config
assert( nSSet + nBSet <= nLutSize );
*pTBound = 0;
nMintsLNew = (1 << (nSSet + nBSet));
for ( m = 0; m < nMintsLNew; m++ )
if ( sat_solver_var_value(p, m) )
Abc_TtSetBit( pTBound, m );
*pTBound = Abc_Tt6Stretch( *pTBound, nSSet + nBSet );
// collect configs
assert( nSSet + nFSet + 1 <= nLutSize );
*pTFree = 0;
nMintsLNew = (1 << (1 + nSSet + nFSet));
for ( m = 0; m < nMintsLNew; m++ )
if ( sat_solver_var_value(p, nMintsL+m) )
Abc_TtSetBit( pTFree, m );
*pTFree = Abc_Tt6Stretch( *pTFree, 1 + nSSet + nFSet );
if ( nVars != 6 || nLutSize != 4 )
return 1;
// verify the result
Res = If_ManSat6Truth( *pTBound, *pTFree, pBSet, nBSet, pSSet, nSSet, pFSet, nFSet );
if ( pTruth[0] != Res )
{
Dau_DsdPrintFromTruth( pTruth, nVars );
Dau_DsdPrintFromTruth( &Res, nVars );
Dau_DsdPrintFromTruth( pTBound, nSSet+nBSet );
Dau_DsdPrintFromTruth( pTFree, nSSet+nFSet+1 );
printf( "Verification failed!\n" );
}
}
/*
else
return 1;
}
/**Function*************************************************************
Synopsis [Returns config string for the given truth table.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
unsigned If_ManSatCheckXYall_int( void * pSat, int nLutSize, word * pTruth, int nVars, Vec_Int_t * vLits )
{
unsigned uSet = 0;
int nTotal = 2 * nLutSize - 1;
int nShared = nTotal - nVars;
int i[6], s[4];
assert( nLutSize >= 2 && nLutSize <= 6 );
assert( nLutSize < nVars && nVars <= nTotal );
assert( nShared >= 0 && nShared < nLutSize - 1 );
if ( nLutSize == 2 )
{
// Kit_DsdPrintFromTruth( (unsigned*)pTBound, nSSet+nBSet ); printf( "\n" );
// Kit_DsdPrintFromTruth( (unsigned*)pTFree, nSSet+nFSet+1 ); printf( "\n" );
Dau_DsdPrintFromTruth( pTruth, nVars );
Dau_DsdPrintFromTruth( &Res, nVars );
Dau_DsdPrintFromTruth( pTBound, nSSet+nBSet );
Dau_DsdPrintFromTruth( pTFree, nSSet+nFSet+1 );
printf( "Verification OK!\n" );
assert( nShared == 0 );
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1]));
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet, NULL, NULL, vLits) )
return uSet;
}
}
*/
return 1;
else if ( nLutSize == 3 )
{
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2]));
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet, NULL, NULL, vLits) )
return uSet;
}
if ( nShared < 1 )
return 0;
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2]));
for ( s[0] = 0; s[0] < nLutSize; s[0]++ )
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet | (3 << (2*i[s[0]])), NULL, NULL, vLits) )
return uSet | (3 << (2*i[s[0]]));
}
}
else if ( nLutSize == 4 )
{
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3]));
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet, NULL, NULL, vLits) )
return uSet;
}
if ( nShared < 1 )
return 0;
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3]));
for ( s[0] = 0; s[0] < nLutSize; s[0]++ )
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet | (3 << (2*i[s[0]])), NULL, NULL, vLits) )
return uSet | (3 << (2*i[s[0]]));
}
if ( nShared < 2 )
return 0;
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3]));
{
for ( s[0] = 0; s[0] < nLutSize; s[0]++ )
for ( s[1] = s[0]+1; s[1] < nLutSize; s[1]++ )
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]])), NULL, NULL, vLits) )
return uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]]));
}
}
}
else if ( nLutSize == 5 )
{
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
for ( i[4] = i[3]+1; i[4] < nVars; i[4]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3])) | (1 << (2*i[4]));
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet, NULL, NULL, vLits) )
return uSet;
}
if ( nShared < 1 )
return 0;
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
for ( i[4] = i[3]+1; i[4] < nVars; i[4]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3])) | (1 << (2*i[4]));
for ( s[0] = 0; s[0] < nLutSize; s[0]++ )
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet | (3 << (2*i[s[0]])), NULL, NULL, vLits) )
return uSet | (3 << (2*i[s[0]]));
}
if ( nShared < 2 )
return 0;
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
for ( i[4] = i[3]+1; i[4] < nVars; i[4]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3])) | (1 << (2*i[4]));
for ( s[0] = 0; s[0] < nLutSize; s[0]++ )
for ( s[1] = s[0]+1; s[1] < nLutSize; s[1]++ )
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]])), NULL, NULL, vLits) )
return uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]]));
}
if ( nShared < 3 )
return 0;
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
for ( i[4] = i[3]+1; i[4] < nVars; i[4]++ )
{
for ( s[0] = 0; s[0] < nLutSize; s[0]++ )
for ( s[1] = s[0]+1; s[1] < nLutSize; s[1]++ )
for ( s[2] = s[1]+1; s[2] < nLutSize; s[2]++ )
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]])) | (3 << (2*i[s[2]])), NULL, NULL, vLits) )
return uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]])) | (3 << (2*i[s[2]]));
}
}
else if ( nLutSize == 6 )
{
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
for ( i[4] = i[3]+1; i[4] < nVars; i[4]++ )
for ( i[5] = i[4]+1; i[5] < nVars; i[5]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3])) | (1 << (2*i[4])) | (1 << (2*i[5]));
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet, NULL, NULL, vLits) )
return uSet;
}
if ( nShared < 1 )
return 0;
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
for ( i[4] = i[3]+1; i[4] < nVars; i[4]++ )
for ( i[5] = i[4]+1; i[5] < nVars; i[5]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3])) | (1 << (2*i[4])) | (1 << (2*i[5]));
for ( s[0] = 0; s[0] < nLutSize; s[0]++ )
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet | (3 << (2*i[s[0]])), NULL, NULL, vLits) )
return uSet | (3 << (2*i[s[0]]));
}
if ( nShared < 2 )
return 0;
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
for ( i[4] = i[3]+1; i[4] < nVars; i[4]++ )
for ( i[5] = i[4]+1; i[5] < nVars; i[5]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3])) | (1 << (2*i[4])) | (1 << (2*i[5]));
for ( s[0] = 0; s[0] < nLutSize; s[0]++ )
for ( s[1] = s[0]+1; s[1] < nLutSize; s[1]++ )
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]])), NULL, NULL, vLits) )
return uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]]));
}
if ( nShared < 3 )
return 0;
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
for ( i[4] = i[3]+1; i[4] < nVars; i[4]++ )
for ( i[5] = i[4]+1; i[5] < nVars; i[5]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3])) | (1 << (2*i[4])) | (1 << (2*i[5]));
for ( s[0] = 0; s[0] < nLutSize; s[0]++ )
for ( s[1] = s[0]+1; s[1] < nLutSize; s[1]++ )
for ( s[2] = s[1]+1; s[2] < nLutSize; s[2]++ )
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]])) | (3 << (2*i[s[2]])), NULL, NULL, vLits) )
return uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]])) | (3 << (2*i[s[2]]));
}
if ( nShared < 4 )
return 0;
for ( i[0] = 0; i[0] < nVars; i[0]++ )
for ( i[1] = i[0]+1; i[1] < nVars; i[1]++ )
for ( i[2] = i[1]+1; i[2] < nVars; i[2]++ )
for ( i[3] = i[2]+1; i[3] < nVars; i[3]++ )
for ( i[4] = i[3]+1; i[4] < nVars; i[4]++ )
for ( i[5] = i[4]+1; i[5] < nVars; i[5]++ )
{
uSet = (1 << (2*i[0])) | (1 << (2*i[1])) | (1 << (2*i[2])) | (1 << (2*i[3])) | (1 << (2*i[4])) | (1 << (2*i[5]));
for ( s[0] = 0; s[0] < nLutSize; s[0]++ )
for ( s[1] = s[0]+1; s[1] < nLutSize; s[1]++ )
for ( s[2] = s[1]+1; s[2] < nLutSize; s[2]++ )
for ( s[3] = s[1]+1; s[3] < nLutSize; s[3]++ )
if ( If_ManSatCheckXY(pSat, nLutSize, pTruth, nVars, uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]])) | (3 << (2*i[s[2]])) | (3 << (2*i[s[3]])), NULL, NULL, vLits) )
return uSet | (3 << (2*i[s[0]])) | (3 << (2*i[s[1]])) | (3 << (2*i[s[2]])) | (3 << (2*i[s[3]]));
}
}
return 0;
}
unsigned If_ManSatCheckXYall( void * pSat, int nLutSize, word * pTruth, int nVars, Vec_Int_t * vLits )
{
unsigned uSet = If_ManSatCheckXYall_int( pSat, nLutSize, pTruth, nVars, vLits );
// Dau_DecPrintSet( uSet, nVars, 1 );
return uSet;
}
/**Function*************************************************************
......@@ -268,60 +541,19 @@ void If_ManSatTest2()
void If_ManSatTest()
{
int nVars = 4;
int nLutSize = 3;
int nVars = 6;
int nLutSize = 4;
sat_solver * p = (sat_solver *)If_ManSatBuildXY( nLutSize );
word t = 0x183C, * pTruth = &t;
word uBound, uFree;
unsigned uSet;
int RetValue;
// char * pDsd = "(abcdefg)";
// char * pDsd = "([a!bc]d!e)";
char * pDsd = "0123456789ABCDEF{abcdef}";
word * pTruth = Dau_DsdToTruth( pDsd, nVars );
Vec_Int_t * vLits = Vec_IntAlloc( 100 );
uSet = (3 << 0) | (1 << 2) | (1 << 4);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (1 << 0) | (3 << 2) | (1 << 4);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (1 << 0) | (1 << 2) | (3 << 4);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (3 << 0) | (1 << 2) | (1 << 6);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (1 << 0) | (3 << 2) | (1 << 6);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (1 << 0) | (1 << 2) | (3 << 6);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (3 << 0) | (1 << 4) | (1 << 6);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (1 << 0) | (3 << 4) | (1 << 6);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (1 << 0) | (1 << 4) | (3 << 6);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (3 << 2) | (1 << 4) | (1 << 6);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (1 << 2) | (3 << 4) | (1 << 6);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
uSet = (1 << 2) | (1 << 4) | (3 << 6);
RetValue = If_ManSatCheckXY( p, nLutSize, pTruth, nVars, uSet, &uBound, &uFree, vLits );
printf( "%d (%d)", RetValue, sat_solver_nconflicts(p) );
printf( "\n" );
// unsigned uSet = (1 << 0) | (1 << 2) | (1 << 4) | (1 << 6);
// unsigned uSet = (3 << 0) | (1 << 2) | (1 << 8) | (1 << 4);
unsigned uSet = (1 << 0) | (3 << 2) | (1 << 4) | (1 << 6);
uSet = If_ManSatCheckXYall( p, nLutSize, pTruth, nVars, vLits );
Dau_DecPrintSet( uSet, nVars, 1 );
sat_solver_delete(p);
Vec_IntFree( vLits );
......
......@@ -414,6 +414,70 @@ static inline int sat_solver_add_mux( sat_solver * pSat, int iVarC, int iVarT, i
assert( Cid );
return 6;
}
static inline int sat_solver_add_mux41( sat_solver * pSat, int iVarC0, int iVarC1, int iVarD0, int iVarD1, int iVarD2, int iVarD3, int iVarZ )
{
lit Lits[4];
int Cid;
assert( iVarC0 >= 0 && iVarC1 >= 0 && iVarD0 >= 0 && iVarD1 >= 0 && iVarD2 >= 0 && iVarD3 >= 0 && iVarZ >= 0 );
Lits[0] = toLitCond( iVarD0, 1 );
Lits[1] = toLitCond( iVarC0, 0 );
Lits[2] = toLitCond( iVarC1, 0 );
Lits[3] = toLitCond( iVarZ, 0 );
Cid = sat_solver_addclause( pSat, Lits, Lits + 4 );
assert( Cid );
Lits[0] = toLitCond( iVarD1, 1 );
Lits[1] = toLitCond( iVarC0, 1 );
Lits[2] = toLitCond( iVarC1, 0 );
Lits[3] = toLitCond( iVarZ, 0 );
Cid = sat_solver_addclause( pSat, Lits, Lits + 4 );
assert( Cid );
Lits[0] = toLitCond( iVarD2, 1 );
Lits[1] = toLitCond( iVarC0, 0 );
Lits[2] = toLitCond( iVarC1, 1 );
Lits[3] = toLitCond( iVarZ, 0 );
Cid = sat_solver_addclause( pSat, Lits, Lits + 4 );
assert( Cid );
Lits[0] = toLitCond( iVarD3, 1 );
Lits[1] = toLitCond( iVarC0, 1 );
Lits[2] = toLitCond( iVarC1, 1 );
Lits[3] = toLitCond( iVarZ, 0 );
Cid = sat_solver_addclause( pSat, Lits, Lits + 4 );
assert( Cid );
Lits[0] = toLitCond( iVarD0, 0 );
Lits[1] = toLitCond( iVarC0, 0 );
Lits[2] = toLitCond( iVarC1, 0 );
Lits[3] = toLitCond( iVarZ, 1 );
Cid = sat_solver_addclause( pSat, Lits, Lits + 4 );
assert( Cid );
Lits[0] = toLitCond( iVarD1, 0 );
Lits[1] = toLitCond( iVarC0, 1 );
Lits[2] = toLitCond( iVarC1, 0 );
Lits[3] = toLitCond( iVarZ, 1 );
Cid = sat_solver_addclause( pSat, Lits, Lits + 4 );
assert( Cid );
Lits[0] = toLitCond( iVarD2, 0 );
Lits[1] = toLitCond( iVarC0, 0 );
Lits[2] = toLitCond( iVarC1, 1 );
Lits[3] = toLitCond( iVarZ, 1 );
Cid = sat_solver_addclause( pSat, Lits, Lits + 4 );
assert( Cid );
Lits[0] = toLitCond( iVarD3, 0 );
Lits[1] = toLitCond( iVarC0, 1 );
Lits[2] = toLitCond( iVarC1, 1 );
Lits[3] = toLitCond( iVarZ, 1 );
Cid = sat_solver_addclause( pSat, Lits, Lits + 4 );
assert( Cid );
return 8;
}
static inline int sat_solver_add_xor_and( sat_solver * pSat, int iVarF, int iVarA, int iVarB, int iVarC )
{
// F = (a (+) b) * c
......
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