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Commit 9df63f52 by Alan Mishchenko
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Experiments with precomputation and matching.

parent 20c46b5a
Showing with 222 additions and 50 deletions
src/opt/sfm/sfmDec.c
......@@ -52,6 +52,7 @@ struct Sfm_Dec_t_
// objects
int nDivs; // the number of divisors
int nMffc; // the number of divisors
int AreaMffc; // the area of gates in MFFC
int iTarget; // target node
int fUseLast; // internal switch
Vec_Int_t vObjRoots; // roots of the window
......@@ -150,6 +151,7 @@ Sfm_Dec_t * Sfm_DecStart( Sfm_Par_t * pPars )
Abc_TtElemInit( p->pTtElems, SFM_SUPP_MAX );
p->pLib = Sfm_LibPrepare( pPars->nMffcMax + 1, 1, pPars->fVerbose );
if ( pPars->fVeryVerbose )
// if ( pPars->fVerbose )
Sfm_LibPrint( p->pLib );
return p;
}
......@@ -444,7 +446,6 @@ int Sfm_DecPeformDec( Sfm_Dec_t * p )
printf( "Area-reducing decomposition is not found.\n" );
return -1;
}
p->nNodesChanged++;
// check constant
if ( Vec_IntSize(&p->vObjDec) == 0 )
{
......@@ -452,10 +453,6 @@ int Sfm_DecPeformDec( Sfm_Dec_t * p )
// add gate
Vec_IntPush( &p->vObjGates, fConst ? p->GateConst1 : p->GateConst0 );
vLevel = Vec_WecPushLevel( &p->vObjFanins );
if ( fConst )
p->nNodesConst1++;
else
p->nNodesConst0++;
// report
if ( p->pPars->fVeryVerbose )
printf( "Create constant %d.\n", fConst );
......@@ -471,10 +468,6 @@ int Sfm_DecPeformDec( Sfm_Dec_t * p )
Vec_IntPush( &p->vObjGates, Abc_LitIsCompl(Last) ? p->GateInvert : p->GateBuffer );
vLevel = Vec_WecPushLevel( &p->vObjFanins );
Vec_IntPush( vLevel, Abc_Lit2Var(Last) );
if ( Abc_LitIsCompl(Last) )
p->nNodesInv++;
else
p->nNodesBuf++;
// report
if ( p->pPars->fVeryVerbose )
printf( "Create buf/inv %d = %s%d.\n", nNodes, Abc_LitIsCompl(Last) ? "!":"", Abc_Lit2Var(Last) );
......@@ -504,7 +497,6 @@ int Sfm_DecPeformDec( Sfm_Dec_t * p )
nNodes++;
}
//printf( "\n" );
p->nNodesResyn++;
return Vec_IntSize(&p->vObjDec);
}
......@@ -525,7 +517,6 @@ int Sfm_DecCombineDec( Sfm_Dec_t * p, word * pTruth0, word * pTruth1, int * pSup
Vec_Int_t vVec1 = { 2*SFM_SUPP_MAX, nSupp1, pSupp1 };
Vec_Int_t vVec = { 2*SFM_SUPP_MAX, 0, pSupp };
int nWords0 = Abc_TtWordNum(nSupp0);
int nWords1 = Abc_TtWordNum(nSupp1);
int nSupp, iSuppVar;
// check the case of equal cofactors
if ( nSupp0 == nSupp1 && !memcmp(pSupp0, pSupp1, sizeof(int)*nSupp0) && !memcmp(pTruth0, pTruth1, sizeof(word)*nWords0) )
......@@ -553,9 +544,9 @@ int Sfm_DecCombineDec( Sfm_Dec_t * p, word * pTruth0, word * pTruth1, int * pSup
int Sfm_DecPeformDec_rec( Sfm_Dec_t * p, word * pTruth, int * pSupp, int * pAssump, int nAssump, word Masks[2], int fCofactor )
{
int nBTLimit = 0;
int fVerbose = p->pPars->fVeryVerbose;
// int fVerbose = p->pPars->fVeryVerbose;
int c, i, d, Var, WeightBest, status;
Vec_Int_t vAss = { SFM_SUPP_MAX, nAssump, pAssump };
// Vec_Int_t vAss = { SFM_SUPP_MAX, nAssump, pAssump };
// if ( nAssump > SFM_SUPP_MAX )
if ( nAssump > p->nMffc )
return -2;
......@@ -659,8 +650,6 @@ int Sfm_DecPeformDec_rec( Sfm_Dec_t * p, word * pTruth, int * pSupp, int * pAssu
{
word uTruth[2][SFM_WORD_MAX], MasksNext[2];
int Supp[2][2*SFM_SUPP_MAX], nSupp[2], nSuppAll;
//if ( Abc_TtCountOnes(
for ( i = 0; i < 2; i++ )
{
for ( c = 0; c < 2; c++ )
......@@ -708,14 +697,34 @@ int Sfm_DecPeformDec2Int( Sfm_Dec_t * p )
}
int Sfm_DecPeformDec2( Sfm_Dec_t * p )
{
word uTruth[SFM_WORD_MAX];
word Masks[2] = { ~((word)0), ~((word)0) };
int pAssump[2*SFM_SUPP_MAX];
int pSupp[2*SFM_SUPP_MAX], nSupp, RetValue;
p->nPats[0] = p->nPats[1] = 0;
p->uMask[0] = p->uMask[1] = 0;
Vec_WrdFill( &p->vSets[0], p->iTarget+1, 0 );
Vec_WrdFill( &p->vSets[1], p->iTarget+1, 0 );
p->fUseLast = 1;
Sfm_DecPeformDec2Int( p );
// p->fUseLast = 0;
// Sfm_DecPeformDec2Int( p );
// printf( "\n" );
//Sfm_LibImplement( p->pLib, uTruth, pSupp, nSupp, &p->vObjGates, &p->vObjFanins );
return -1;
nSupp = Sfm_DecPeformDec_rec( p, uTruth, pSupp, pAssump, 0, Masks, 1 );
if ( p->pPars->fVeryVerbose )
printf( "Node %4d : ", p->iTarget );
if ( p->pPars->fVeryVerbose )
printf( "MFFC %2d ", p->nMffc );
if ( nSupp == -2 )
{
if ( p->pPars->fVeryVerbose )
printf( "NO DEC.\n" );
p->nNoDecs++;
return -2;
}
// transform truth table
if ( p->pPars->fVeryVerbose )
Dau_DsdPrintFromTruth( uTruth, nSupp );
RetValue = Sfm_LibImplement( p->pLib, uTruth[0], pSupp, nSupp, p->AreaMffc, &p->vObjGates, &p->vObjFanins );
if ( p->pPars->fVeryVerbose )
printf( "Implementation %sfound.\n", RetValue < 0 ? "NOT " : "" );
return RetValue;
}
/**Function*************************************************************
......@@ -805,10 +814,11 @@ void Sfm_DecAddNode( Abc_Obj_t * pObj, Vec_Int_t * vMap, Vec_Int_t * vGates, int
Vec_IntPush( vMap, Abc_ObjId(pObj) );
Vec_IntPush( vGates, fSkip ? -1 : Mio_GateReadValue((Mio_Gate_t *)pObj->pData) );
}
int Sfm_DecMarkMffc( Abc_Obj_t * pPivot, int nLevelMin, int nMffcMax, int fVeryVerbose )
int Sfm_DecMarkMffc( Abc_Obj_t * pPivot, int nLevelMin, int nMffcMax, int fVeryVerbose, int * pAreaMffc )
{
Abc_Obj_t * pFanin, * pFanin2;
int i, k, nMffc = 1;
*pAreaMffc = (int)(MIO_NUM * Mio_GateReadArea((Mio_Gate_t *)pPivot->pData));
pPivot->iTemp |= SFM_MASK_MFFC;
if ( fVeryVerbose )
printf( "Mffc = %d.\n", pPivot->Id );
......@@ -817,6 +827,7 @@ printf( "Mffc = %d.\n", pPivot->Id );
{
if ( nMffc == nMffcMax )
return nMffc;
*pAreaMffc += (int)(MIO_NUM * Mio_GateReadArea((Mio_Gate_t *)pFanin->pData));
pFanin->iTemp |= SFM_MASK_MFFC;
nMffc++;
if ( fVeryVerbose )
......@@ -832,6 +843,7 @@ printf( "Mffc = %d.\n", pFanin->Id );
{
if ( nMffc == nMffcMax )
return nMffc;
*pAreaMffc += (int)(MIO_NUM * Mio_GateReadArea((Mio_Gate_t *)pFanin2->pData));
pFanin2->iTemp |= SFM_MASK_MFFC;
nMffc++;
if ( fVeryVerbose )
......@@ -856,8 +868,7 @@ int Abc_NtkDfsCheck_rec( Abc_Obj_t * pObj, Abc_Obj_t * pPivot )
return 0;
return 1;
}
int Sfm_DecExtract( Abc_Ntk_t * pNtk, Sfm_Par_t * pPars, Abc_Obj_t * pPivot, Vec_Int_t * vRoots, Vec_Int_t * vGates, Vec_Wec_t * vFanins, Vec_Int_t * vMap, Vec_Int_t * vTfi, Vec_Int_t * vTfo, int * pnMffc )
int Sfm_DecExtract( Abc_Ntk_t * pNtk, Sfm_Par_t * pPars, Abc_Obj_t * pPivot, Vec_Int_t * vRoots, Vec_Int_t * vGates, Vec_Wec_t * vFanins, Vec_Int_t * vMap, Vec_Int_t * vTfi, Vec_Int_t * vTfo, int * pnMffc, int * pnAreaMffc )
{
Vec_Int_t * vLevel;
Abc_Obj_t * pObj, * pFanin;
......@@ -887,10 +898,10 @@ printf( "\n\nTarget %d\n", Abc_ObjId(pPivot) );
Abc_NtkDfsOne_rec( pPivot, vTfi, nLevelMin, SFM_MASK_PI );
nTfiSize = Vec_IntSize(vTfi);
// additinally mark MFFC
*pnMffc = Sfm_DecMarkMffc( pPivot, nLevelMin, pPars->nMffcMax, pPars->fVeryVerbose );
*pnMffc = Sfm_DecMarkMffc( pPivot, nLevelMin, pPars->nMffcMax, pPars->fVeryVerbose, pnAreaMffc );
assert( *pnMffc <= pPars->nMffcMax );
if ( pPars->fVeryVerbose )
printf( "Mffc size = %d.\n", *pnMffc );
printf( "Mffc size = %d. Mffc area = %.2f\n", *pnMffc, *pnAreaMffc*MIO_NUMINV );
// collect TFI(TFO)
Abc_NtkForEachObjVec( vTfo, pNtk, pObj, i )
Abc_NtkDfsOne_rec( pObj, vTfi, nLevelMin, SFM_MASK_INPUT );
......@@ -949,27 +960,73 @@ printf( "\n" );
*/
return nDivs;
}
void Sfm_DecInsert( Abc_Ntk_t * pNtk, Abc_Obj_t * pPivot, int Limit, Vec_Int_t * vGates, Vec_Wec_t * vFanins, Vec_Int_t * vMap, Vec_Ptr_t * vGateHandles )
void Sfm_DecInsert( Abc_Ntk_t * pNtk, Abc_Obj_t * pPivot, int Limit, Vec_Int_t * vGates, Vec_Wec_t * vFanins, Vec_Int_t * vMap, Vec_Ptr_t * vGateHandles, int GateBuf, int GateInv, Vec_Wrd_t * vFuncs )
{
Abc_Obj_t * pObjNew = NULL;
Vec_Int_t * vLevel;
int i, k, iObj, Gate;
// assuming that new gates are appended at the end
assert( Limit < Vec_IntSize(vGates) );
assert( Limit == Vec_IntSize(vMap) );
if ( Limit + 1 == Vec_IntSize(vGates) )
{
Gate = Vec_IntEntryLast(vGates);
if ( Gate == GateBuf )
{
iObj = Vec_WecEntryEntry( vFanins, Limit, 0 );
pObjNew = Abc_NtkObj( pNtk, Vec_IntEntry(vMap, iObj) );
Abc_ObjReplace( pPivot, pObjNew );
// update level
pObjNew->Level = 0;
Abc_NtkUpdateIncLevel_rec( pObjNew );
return;
}
else if ( Gate == GateInv )
{
// check if fanouts can be updated
Abc_Obj_t * pFanout;
Abc_ObjForEachFanout( pPivot, pFanout, i )
if ( !Abc_ObjIsNode(pFanout) || Sfm_LibFindComplInputGate(vFuncs, Mio_GateReadValue((Mio_Gate_t*)pFanout->pData), Abc_ObjFaninNum(pFanout), Abc_NodeFindFanin(pFanout, pPivot), NULL) == -1 )
break;
// update fanouts
if ( i == Abc_ObjFanoutNum(pPivot) )
{
Abc_ObjForEachFanout( pPivot, pFanout, i )
{
int iFanin = Abc_NodeFindFanin(pFanout, pPivot), iFaninNew = -1;
int iGate = Mio_GateReadValue((Mio_Gate_t*)pFanout->pData);
int iGateNew = Sfm_LibFindComplInputGate( vFuncs, iGate, Abc_ObjFaninNum(pFanout), iFanin, &iFaninNew );
assert( iGateNew >= 0 && iGateNew != iGate && iFaninNew >= 0 );
pFanout->pData = Vec_PtrEntry( vGateHandles, iGateNew );
//assert( iFanin == iFaninNew );
// swap fanins
if ( iFanin != iFaninNew )
{
int * pArray = Vec_IntArray( &pFanout->vFanouts );
ABC_SWAP( int, pArray[iFanin], pArray[iFaninNew] );
}
}
iObj = Vec_WecEntryEntry( vFanins, Limit, 0 );
pObjNew = Abc_NtkObj( pNtk, Vec_IntEntry(vMap, iObj) );
Abc_ObjReplace( pPivot, pObjNew );
// update level
pObjNew->Level = 0;
Abc_NtkUpdateIncLevel_rec( pObjNew );
return;
}
}
}
// introduce new gates
Vec_IntForEachEntryStart( vGates, Gate, i, Limit )
{
Vec_Int_t * vLevel = Vec_WecEntry( vFanins, i );
vLevel = Vec_WecEntry( vFanins, i );
pObjNew = Abc_NtkCreateNode( pNtk );
Vec_IntForEachEntry( vLevel, iObj, k )
Abc_ObjAddFanin( pObjNew, Abc_NtkObj(pNtk, Vec_IntEntry(vMap, iObj)) );
pObjNew->pData = Vec_PtrEntry( vGateHandles, Gate );
Vec_IntPush( vMap, Abc_ObjId(pObjNew) );
}
// transfer the fanout
Abc_ObjTransferFanout( pPivot, pObjNew );
assert( Abc_ObjFanoutNum(pPivot) == 0 );
Abc_NtkDeleteObj_rec( pPivot, 1 );
Abc_ObjReplace( pPivot, pObjNew );
// update level
Abc_NtkForEachObjVecStart( vMap, pNtk, pObjNew, i, Limit )
Abc_NtkUpdateIncLevel_rec( pObjNew );
......@@ -996,6 +1053,25 @@ void Sfm_DecPrintStats( Sfm_Dec_t * p )
printf( "Edges %6d out of %6d (%6.2f %%) ", p->nTotalEdgesBeg-p->nTotalEdgesEnd, p->nTotalEdgesBeg, 100.0*(p->nTotalEdgesBeg-p->nTotalEdgesEnd)/Abc_MaxInt(1, p->nTotalEdgesBeg) );
printf( "\n" );
}
void Abc_NtkCountStats( Sfm_Dec_t * p, int Limit )
{
int Gate, nGates = Vec_IntSize(&p->vObjGates);
if ( nGates == Limit )
return;
Gate = Vec_IntEntryLast(&p->vObjGates);
if ( nGates > Limit + 1 )
p->nNodesResyn++;
else if ( Gate == p->GateConst0 )
p->nNodesConst0++;
else if ( Gate == p->GateConst1 )
p->nNodesConst1++;
else if ( Gate == p->GateBuffer )
p->nNodesBuf++;
else if ( Gate == p->GateInvert )
p->nNodesInv++;
else
p->nNodesResyn++;
}
void Abc_NtkPerformMfs3( Abc_Ntk_t * pNtk, Sfm_Par_t * pPars )
{
extern void Sfm_LibPreprocess( Mio_Library_t * pLib, Vec_Int_t * vGateSizes, Vec_Wrd_t * vGateFuncs, Vec_Wec_t * vGateCnfs, Vec_Ptr_t * vGateHands );
......@@ -1004,7 +1080,7 @@ void Abc_NtkPerformMfs3( Abc_Ntk_t * pNtk, Sfm_Par_t * pPars )
Abc_Obj_t * pObj;
abctime clk;
int i = 0, Limit, RetValue, Count = 0, nStop = Abc_NtkObjNumMax(pNtk);
int iNode = 70; //2341;//8;//70;
//int iNode = 8;//70; //2341;//8;//70;
printf( "Running remapping with parameters: " );
printf( "TFO = %d. ", pPars->nTfoLevMax );
printf( "TFI = %d. ", pPars->nTfiLevMax );
......@@ -1039,11 +1115,9 @@ void Abc_NtkPerformMfs3( Abc_Ntk_t * pNtk, Sfm_Par_t * pPars )
break;
//if ( i == pPars->nNodesMax )
// pPars->fVeryVerbose = 1;
//if ( Abc_ObjFaninNum(pObj) == 0 || (Abc_ObjFaninNum(pObj) == 1 && Abc_ObjFanoutNum(Abc_ObjFanin0(pObj)) > 1) )
// continue;
p->nNodesTried++;
clk = Abc_Clock();
p->nDivs = Sfm_DecExtract( pNtk, pPars, pObj, &p->vObjRoots, &p->vObjGates, &p->vObjFanins, &p->vObjMap, &p->vTemp, &p->vTemp2, &p->nMffc );
p->nDivs = Sfm_DecExtract( pNtk, pPars, pObj, &p->vObjRoots, &p->vObjGates, &p->vObjFanins, &p->vObjMap, &p->vTemp, &p->vTemp2, &p->nMffc, &p->AreaMffc );
p->timeWin += Abc_Clock() - clk;
p->nMaxDivs = Abc_MaxInt( p->nMaxDivs, p->nDivs );
p->nAllDivs += p->nDivs;
......@@ -1057,18 +1131,16 @@ p->timeCnf += Abc_Clock() - clk;
if ( !RetValue )
continue;
clk = Abc_Clock();
if ( pPars->fRrOnly )
RetValue = Sfm_DecPeformDec( p );
else
RetValue = Sfm_DecPeformDec2( p );
p->timeSat += Abc_Clock() - clk;
//break;
if ( RetValue < 0 )
continue;
if ( pPars->fRrOnly )
Sfm_DecInsert( pNtk, pObj, Limit, &p->vObjGates, &p->vObjFanins, &p->vObjMap, &p->vGateHands );
p->nNodesChanged++;
Abc_NtkCountStats( p, Limit );
Sfm_DecInsert( pNtk, pObj, Limit, &p->vObjGates, &p->vObjFanins, &p->vObjMap, &p->vGateHands, p->GateBuffer, p->GateInvert, &p->vGateFuncs );
if ( pPars->fVeryVerbose )
printf( "This was modification %d\n", Count );
//if ( Count == 2 )
......
src/opt/sfm/sfmInt.h
......@@ -189,10 +189,11 @@ extern Vec_Wec_t * Sfm_CreateCnf( Sfm_Ntk_t * p );
extern void Sfm_TranslateCnf( Vec_Wec_t * vRes, Vec_Str_t * vCnf, Vec_Int_t * vFaninMap, int iPivotVar );
/*=== sfmCore.c ==========================================================*/
/*=== sfmLib.c ==========================================================*/
extern int Sfm_LibFindComplInputGate( Vec_Wrd_t * vFuncs, int iGate, int nFanins, int iFanin, int * piFaninNew );
extern Sfm_Lib_t * Sfm_LibPrepare( int nVars, int fTwo, int fVerbose );
extern void Sfm_LibPrint( Sfm_Lib_t * p );
extern void Sfm_LibStop( Sfm_Lib_t * p );
extern int Sfm_LibImplement( Sfm_Lib_t * p, word uTruth, int * pFanins, int nFanins, Vec_Int_t * vGates, Vec_Wec_t * vFanins );
extern int Sfm_LibImplement( Sfm_Lib_t * p, word uTruth, int * pFanins, int nFanins, int AreaMffc, Vec_Int_t * vGates, Vec_Wec_t * vFanins );
/*=== sfmNtk.c ==========================================================*/
extern Sfm_Ntk_t * Sfm_ConstructNetwork( Vec_Wec_t * vFanins, int nPis, int nPos );
extern void Sfm_NtkPrepare( Sfm_Ntk_t * p );
......
src/opt/sfm/sfmLib.c
......@@ -26,6 +26,7 @@
#include "misc/extra/extra.h"
#include "map/mio/exp.h"
#include "opt/dau/dau.h"
#include "base/main/main.h"
ABC_NAMESPACE_IMPL_START
......@@ -124,6 +125,47 @@ void Sfm_LibPreprocess( Mio_Library_t * pLib, Vec_Int_t * vGateSizes, Vec_Wrd_t
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Sfm_LibFindComplInputGate( Vec_Wrd_t * vFuncs, int iGate, int nFanins, int iFanin, int * piFaninNew )
{
word uTruthGate = Vec_WrdEntry(vFuncs, iGate);
word uTruth, uTruthNew = Abc_Tt6Flip( uTruthGate, iFanin );
int i;
assert( iFanin >= 0 && iFanin < nFanins );
if ( piFaninNew ) *piFaninNew = iFanin;
Vec_WrdForEachEntry( vFuncs, uTruth, i )
if ( uTruth == uTruthNew )
return i;
if ( iFanin-1 >= 0 && Abc_Tt6SwapAdjacent(uTruthGate, iFanin-1) == uTruthGate ) // symmetric with prev
{
if ( piFaninNew ) *piFaninNew = iFanin-1;
uTruthNew = Abc_Tt6Flip( uTruthGate, iFanin-1 );
Vec_WrdForEachEntry( vFuncs, uTruth, i )
if ( uTruth == uTruthNew )
return i;
}
if ( iFanin+1 < nFanins && Abc_Tt6SwapAdjacent(uTruthGate, iFanin) == uTruthGate ) // symmetric with next
{
if ( piFaninNew ) *piFaninNew = iFanin+1;
uTruthNew = Abc_Tt6Flip( uTruthGate, iFanin+1 );
Vec_WrdForEachEntry( vFuncs, uTruth, i )
if ( uTruth == uTruthNew )
return i;
}
if ( piFaninNew ) *piFaninNew = -1;
return -1;
}
/**Function*************************************************************
......@@ -176,7 +218,10 @@ word Sfm_LibTruthTwo( Mio_Cell2_t * pCellBot, Mio_Cell2_t * pCellTop, int InTop
word uFanins[6]; int i, k;
assert( InTop >= 0 && InTop < (int)pCellTop->nFanins );
for ( i = 0, k = pCellBot->nFanins; i < (int)pCellTop->nFanins; i++ )
uFanins[i] = (i == InTop) ? uTruthBot : s_Truths6[k++];
if ( i == InTop )
uFanins[i] = uTruthBot;
else
uFanins[i] = s_Truths6[k++];
assert( (int)pCellBot->nFanins + (int)pCellTop->nFanins == k + 1 );
uTruthBot = Exp_Truth6( pCellTop->nFanins, pCellTop->vExpr, uFanins );
return uTruthBot;
......@@ -196,7 +241,7 @@ word Sfm_LibTruthTwo( Mio_Cell2_t * pCellBot, Mio_Cell2_t * pCellTop, int InTop
void Sfm_LibPrepareAdd( Sfm_Lib_t * p, word uTruth, int * Perm, int nFanins, Mio_Cell2_t * pCellBot, Mio_Cell2_t * pCellTop, int InTop )
{
Sfm_Fun_t * pObj;
int Area = (int)(pCellBot->Area / 1000) + (pCellTop ? (int)(pCellTop->Area / 1000) : 0);
int InvPerm[6], Area = (int)pCellBot->Area + (pCellTop ? (int)pCellTop->Area : 0);
int i, k, iFunc = Vec_MemHashInsert( p->vTtMem, &uTruth );
if ( iFunc == Vec_IntSize(&p->vLists) )
{
......@@ -210,6 +255,8 @@ void Sfm_LibPrepareAdd( Sfm_Lib_t * p, word uTruth, int * Perm, int nFanins, Mio
if ( Area >= pObj->Area )
return;
}
for ( k = 0; k < nFanins; k++ )
InvPerm[Perm[k]] = k;
// create new object
if ( p->nObjs == p->nObjsAlloc )
{
......@@ -227,13 +274,13 @@ void Sfm_LibPrepareAdd( Sfm_Lib_t * p, word uTruth, int * Perm, int nFanins, Mio
assert( pCellBot->Id < 128 );
pObj->pFansB[0] = (char)pCellBot->Id;
for ( k = 0; k < (int)pCellBot->nFanins; k++ )
pObj->pFansB[k+1] = Perm[k];
pObj->pFansB[k+1] = InvPerm[k];
if ( pCellTop == NULL )
return;
assert( pCellTop->Id < 128 );
pObj->pFansT[0] = (char)pCellTop->Id;
for ( i = 0; i < (int)pCellTop->nFanins; i++ )
pObj->pFansT[i+1] = (char)(i == InTop ? 16 : Perm[k++]);
pObj->pFansT[i+1] = (char)(i == InTop ? 16 : InvPerm[k++]);
assert( k == nFanins );
}
Sfm_Lib_t * Sfm_LibPrepare( int nVars, int fTwo, int fVerbose )
......@@ -340,7 +387,7 @@ void Sfm_LibPrintObj( Sfm_Lib_t * p, Sfm_Fun_t * pObj )
Mio_Cell2_t * pCellB = p->pCells + (int)pObj->pFansB[0];
Mio_Cell2_t * pCellT = p->pCells + (int)pObj->pFansT[0];
int nFanins = pCellB->nFanins + (pCellT == p->pCells ? 0 : pCellT->nFanins);
printf( " Area = %6.2f Fanins = %d ", 0.001*pObj->Area, nFanins );
printf( " Area = %6.2f Fanins = %d ", MIO_NUMINV*pObj->Area, nFanins );
if ( pCellT == p->pCells )
Sfm_LibPrintGate( pCellB, pObj->pFansB + 1, NULL, NULL );
else
......@@ -381,9 +428,61 @@ void Sfm_LibTest( int nVars, int fTwo, int fVerbose )
SeeAlso []
***********************************************************************/
int Sfm_LibImplement( Sfm_Lib_t * p, word uTruth, int * pFanins, int nFanins, Vec_Int_t * vGates, Vec_Wec_t * vFanins )
int Sfm_LibImplement( Sfm_Lib_t * p, word uTruth, int * pFanins, int nFanins, int AreaMffc, Vec_Int_t * vGates, Vec_Wec_t * vFanins )
{
return 0;
Mio_Library_t * pLib = (Mio_Library_t *)Abc_FrameReadLibGen();
Mio_Gate_t * pGate;
Mio_Cell2_t * pCellB, * pCellT;
Vec_Int_t * vLevel;
Sfm_Fun_t * pObj, * pObjMin = NULL;
int i, iFunc;
if ( uTruth == 0 || uTruth == ~(word)0 )
{
assert( nFanins == 0 );
pGate = uTruth ? Mio_LibraryReadConst1(pLib) : Mio_LibraryReadConst0(pLib);
Vec_IntPush( vGates, Mio_GateReadValue(pGate) );
vLevel = Vec_WecPushLevel( vFanins );
return 1;
}
if ( uTruth == s_Truths6[0] || uTruth == ~s_Truths6[0] )
{
assert( nFanins == 1 );
pGate = uTruth == s_Truths6[0] ? Mio_LibraryReadBuf(pLib) : Mio_LibraryReadInv(pLib);
Vec_IntPush( vGates, Mio_GateReadValue(pGate) );
vLevel = Vec_WecPushLevel( vFanins );
Vec_IntPush( vLevel, pFanins[0] );
return 1;
}
// look for gate
iFunc = *Vec_MemHashLookup( p->vTtMem, &uTruth );
if ( iFunc == -1 )
return -1;
Sfm_LibForEachSuper( p, pObj, iFunc )
if ( !pObjMin || pObjMin->Area > pObj->Area )
pObjMin = pObj;
if ( pObjMin == NULL || pObjMin->Area >= AreaMffc )
return -1;
// get the gates
pCellB = p->pCells + (int)pObjMin->pFansB[0];
pCellT = p->pCells + (int)pObjMin->pFansT[0];
// create bottom gate
pGate = Mio_LibraryReadGateByName( pLib, pCellB->pName, NULL );
Vec_IntPush( vGates, Mio_GateReadValue(pGate) );
vLevel = Vec_WecPushLevel( vFanins );
for ( i = 0; i < (int)pCellB->nFanins; i++ )
Vec_IntPush( vLevel, pFanins[(int)pObjMin->pFansB[i+1]] );
if ( pCellT == p->pCells )
return 1;
// create top gate
pGate = Mio_LibraryReadGateByName( pLib, pCellT->pName, NULL );
Vec_IntPush( vGates, Mio_GateReadValue(pGate) );
vLevel = Vec_WecPushLevel( vFanins );
for ( i = 0; i < (int)pCellT->nFanins; i++ )
if ( pObjMin->pFansT[i+1] == (char)16 )
Vec_IntPush( vLevel, Vec_WecSize(vFanins)-2 );
else
Vec_IntPush( vLevel, pFanins[(int)pObjMin->pFansT[i+1]] );
return 2;
}
////////////////////////////////////////////////////////////////////////
......
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