diff options
Diffstat (limited to 'src/misc/util')
-rw-r--r-- | src/misc/util/module.make | 1 | ||||
-rw-r--r-- | src/misc/util/utilIsop.c | 521 |
2 files changed, 522 insertions, 0 deletions
diff --git a/src/misc/util/module.make b/src/misc/util/module.make index 5faa4c9e..5b3601bb 100644 --- a/src/misc/util/module.make +++ b/src/misc/util/module.make @@ -2,6 +2,7 @@ SRC += src/misc/util/utilBridge.c \ src/misc/util/utilCex.c \ src/misc/util/utilColor.c \ src/misc/util/utilFile.c \ + src/misc/util/utilIsop.c \ src/misc/util/utilNam.c \ src/misc/util/utilSignal.c \ src/misc/util/utilSort.c diff --git a/src/misc/util/utilIsop.c b/src/misc/util/utilIsop.c new file mode 100644 index 00000000..4cd94118 --- /dev/null +++ b/src/misc/util/utilIsop.c @@ -0,0 +1,521 @@ +/**CFile**************************************************************** + + FileName [utilIsop.c] + + SystemName [ABC: Logic synthesis and verification system.] + + PackageName [ISOP computation.] + + Synopsis [ISOP computation.] + + Author [Alan Mishchenko] + + Affiliation [UC Berkeley] + + Date [Ver. 1.0. Started - October 4, 2014.] + + Revision [$Id: utilIsop.c,v 1.00 2014/10/04 00:00:00 alanmi Exp $] + +***********************************************************************/ + +#include <stdio.h> +#include <stdlib.h> +#include <string.h> +#include <assert.h> + +#include "misc/vec/vec.h" +#include "misc/util/utilTruth.h" + +ABC_NAMESPACE_IMPL_START + +//////////////////////////////////////////////////////////////////////// +/// DECLARATIONS /// +//////////////////////////////////////////////////////////////////////// + +typedef int FUNC_ISOP( word *, word *, word *, int *, int ); + +static FUNC_ISOP Abc_Isop7Cover; +static FUNC_ISOP Abc_Isop8Cover; +static FUNC_ISOP Abc_Isop9Cover; +static FUNC_ISOP Abc_Isop10Cover; +static FUNC_ISOP Abc_Isop11Cover; +static FUNC_ISOP Abc_Isop12Cover; +static FUNC_ISOP Abc_Isop13Cover; +static FUNC_ISOP Abc_Isop14Cover; +static FUNC_ISOP Abc_Isop15Cover; +static FUNC_ISOP Abc_Isop16Cover; + +static FUNC_ISOP * s_pFuncIsopCover[17] = +{ + NULL, // 0 + NULL, // 1 + NULL, // 2 + NULL, // 3 + NULL, // 4 + NULL, // 5 + NULL, // 6 + Abc_Isop7Cover, // 7 + Abc_Isop8Cover, // 8 + Abc_Isop9Cover, // 9 + Abc_Isop10Cover, // 10 + Abc_Isop11Cover, // 11 + Abc_Isop12Cover, // 12 + Abc_Isop13Cover, // 13 + Abc_Isop14Cover, // 14 + Abc_Isop15Cover, // 15 + Abc_Isop16Cover // 16 +}; + +extern int Abc_IsopCheck( word * pOn, word * pOnDc, word * pRes, int nVars, int nCostLim, int * pCover ); +extern int Abc_EsopCheck( word * pOn, int nVars, int nCostLim, int * pCover ); + +//////////////////////////////////////////////////////////////////////// +/// FUNCTION DEFINITIONS /// +//////////////////////////////////////////////////////////////////////// + +/**Function************************************************************* + + Synopsis [These procedures assume that function has exact support.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +static inline void Abc_IsopAddLits( int * pCover, int nCost0, int nCost1, int Var ) +{ + int c; + if ( pCover == NULL ) return; + for ( c = 0; c < nCost0; c++ ) + pCover[c] |= (1 << Abc_Var2Lit(Var,0)); + for ( c = 0; c < nCost1; c++ ) + pCover[nCost0+c] |= (1 << Abc_Var2Lit(Var,1)); +} +int Abc_Isop6Cover( word uOn, word uOnDc, word * pRes, int nVars, int nCostLim, int * pCover ) +{ + word uOn0, uOn1, uOnDc0, uOnDc1, uRes0, uRes1, uRes2; + int Var, nCost0, nCost1, nCost2; + assert( nVars <= 6 ); + assert( (uOn & ~uOnDc) == 0 ); + if ( uOn == 0 ) + { + pRes[0] = 0; + return 0; + } + if ( uOnDc == ~(word)0 ) + { + pRes[0] = ~(word)0; + if ( pCover ) pCover[0] = 0; + return (1 << 16); + } + assert( nVars > 0 ); + // find the topmost var + for ( Var = nVars-1; Var >= 0; Var-- ) + if ( Abc_Tt6HasVar( uOn, Var ) || Abc_Tt6HasVar( uOnDc, Var ) ) + break; + assert( Var >= 0 ); + // cofactor + uOn0 = Abc_Tt6Cofactor0( uOn, Var ); + uOn1 = Abc_Tt6Cofactor1( uOn , Var ); + uOnDc0 = Abc_Tt6Cofactor0( uOnDc, Var ); + uOnDc1 = Abc_Tt6Cofactor1( uOnDc, Var ); + // solve for cofactors + nCost0 = Abc_Isop6Cover( uOn0 & ~uOnDc1, uOnDc0, &uRes0, Var, nCostLim, pCover ); + if ( nCost0 >= nCostLim ) return nCostLim; + nCost1 = Abc_Isop6Cover( uOn1 & ~uOnDc0, uOnDc1, &uRes1, Var, nCostLim, pCover ? pCover + (nCost0 >> 16) : NULL ); + if ( nCost0 + nCost1 >= nCostLim ) return nCostLim; + nCost2 = Abc_Isop6Cover( (uOn0 & ~uRes0) | (uOn1 & ~uRes1), uOnDc0 & uOnDc1, &uRes2, Var, nCostLim, pCover ? pCover + (nCost0 >> 16) + (nCost1 >> 16) : NULL ); + if ( nCost0 + nCost1 + nCost2 >= nCostLim ) return nCostLim; + // derive the final truth table + *pRes = uRes2 | (uRes0 & s_Truths6Neg[Var]) | (uRes1 & s_Truths6[Var]); + assert( (uOn & ~*pRes) == 0 && (*pRes & ~uOnDc) == 0 ); + Abc_IsopAddLits( pCover, nCost0, nCost1, Var ); + return nCost0 + nCost1 + nCost2 + (nCost0 >> 16) + (nCost1 >> 16); +} +int Abc_Isop7Cover( word * pOn, word * pOnDc, word * pRes, int * pCover, int nCostLim ) +{ + word uOn0, uOn1, uOn2, uOnDc2, uRes0, uRes1, uRes2; + int nCost0, nCost1, nCost2, nVars = 6; + // cofactor + uOn0 = pOn[0] & ~pOnDc[1]; + uOn1 = pOn[1] & ~pOnDc[0]; + // solve for cofactors + nCost0 = Abc_IsopCheck( &uOn0, pOnDc, &uRes0, nVars, nCostLim, pCover ); + if ( nCost0 >= nCostLim ) return nCostLim; + nCost1 = Abc_IsopCheck( &uOn1, pOnDc+1, &uRes1, nVars, nCostLim, pCover ? pCover + (nCost0 >> 16) : NULL ); + if ( nCost0 + nCost1 >= nCostLim ) return nCostLim; + uOn2 = (pOn[0] & ~uRes0) | (pOn[1] & ~uRes1); + uOnDc2 = pOnDc[0] & pOnDc[1]; + nCost2 = Abc_IsopCheck( &uOn2, &uOnDc2, &uRes2, nVars, nCostLim, pCover ? pCover + (nCost0 >> 16) + (nCost1 >> 16) : NULL ); + if ( nCost0 + nCost1 + nCost2 >= nCostLim ) return nCostLim; + // derive the final truth table + pRes[0] = uRes2 | uRes0; + pRes[1] = uRes2 | uRes1; + assert( (pOn[0] & ~pRes[0]) == 0 && (pRes[0] & ~pOnDc[0]) == 0 ); + assert( (pOn[1] & ~pRes[1]) == 0 && (pRes[1] & ~pOnDc[1]) == 0 ); + Abc_IsopAddLits( pCover, nCost0, nCost1, nVars ); + return nCost0 + nCost1 + nCost2 + (nCost0 >> 16) + (nCost1 >> 16); +} +int Abc_Isop8Cover( word * pOn, word * pOnDc, word * pRes, int * pCover, int nCostLim ) +{ + word uOn0[2], uOn1[2], uOn2[2], uOnDc2[2], uRes0[2], uRes1[2], uRes2[2]; + int nCost0, nCost1, nCost2, nVars = 7; + // cofactor + uOn0[0] = pOn[0] & ~pOnDc[2]; + uOn0[1] = pOn[1] & ~pOnDc[3]; + uOn1[0] = pOn[2] & ~pOnDc[0]; + uOn1[1] = pOn[3] & ~pOnDc[1]; + // solve for cofactors + nCost0 = Abc_IsopCheck( uOn0, pOnDc, uRes0, nVars, nCostLim, pCover ); + if ( nCost0 >= nCostLim ) return nCostLim; + nCost1 = Abc_IsopCheck( uOn1, pOnDc+2, uRes1, nVars, nCostLim, pCover ? pCover + (nCost0 >> 16) : NULL ); + if ( nCost0 + nCost1 >= nCostLim ) return nCostLim; + uOn2[0] = (pOn[0] & ~uRes0[0]) | (pOn[2] & ~uRes1[0]); + uOn2[1] = (pOn[1] & ~uRes0[1]) | (pOn[3] & ~uRes1[1]); + uOnDc2[0] = pOnDc[0] & pOnDc[2]; + uOnDc2[1] = pOnDc[1] & pOnDc[3]; + nCost2 = Abc_IsopCheck( uOn2, uOnDc2, uRes2, nVars, nCostLim, pCover ? pCover + (nCost0 >> 16) + (nCost1 >> 16) : NULL ); + if ( nCost0 + nCost1 + nCost2 >= nCostLim ) return nCostLim; + // derive the final truth table + pRes[0] = uRes2[0] | uRes0[0]; + pRes[1] = uRes2[1] | uRes0[1]; + pRes[2] = uRes2[0] | uRes1[0]; + pRes[3] = uRes2[1] | uRes1[1]; + assert( (pOn[0] & ~pRes[0]) == 0 && (pOn[1] & ~pRes[1]) == 0 && (pOn[2] & ~pRes[2]) == 0 && (pOn[3] & ~pRes[3]) == 0 ); + assert( (pRes[0] & ~pOnDc[0])==0 && (pRes[1] & ~pOnDc[1])==0 && (pRes[2] & ~pOnDc[2])==0 && (pRes[3] & ~pOnDc[3])==0 ); + Abc_IsopAddLits( pCover, nCost0, nCost1, nVars ); + return nCost0 + nCost1 + nCost2 + (nCost0 >> 16) + (nCost1 >> 16); +} +int Abc_Isop9Cover( word * pOn, word * pOnDc, word * pRes, int * pCover, int nCostLim ) +{ + word uOn0[4], uOn1[4], uOn2[4], uOnDc2[4], uRes0[4], uRes1[4], uRes2[4]; + int c, nCost0, nCost1, nCost2, nVars = 8, nWords = 4; + // cofactor + for ( c = 0; c < nWords; c++ ) + uOn0[c] = pOn[c] & ~pOnDc[c+nWords], uOn1[c] = pOn[c+nWords] & ~pOnDc[c]; + // solve for cofactors + nCost0 = Abc_IsopCheck( uOn0, pOnDc, uRes0, nVars, nCostLim, pCover ); + if ( nCost0 >= nCostLim ) return nCostLim; + nCost1 = Abc_IsopCheck( uOn1, pOnDc+nWords, uRes1, nVars, nCostLim, pCover ? pCover + (nCost0 >> 16) : NULL ); + if ( nCost0 + nCost1 >= nCostLim ) return nCostLim; + for ( c = 0; c < nWords; c++ ) + uOn2[c] = (pOn[c] & ~uRes0[c]) | (pOn[c+nWords] & ~uRes1[c]), uOnDc2[c] = pOnDc[c] & pOnDc[c+nWords]; + nCost2 = Abc_IsopCheck( uOn2, uOnDc2, uRes2, nVars, nCostLim, pCover ? pCover + (nCost0 >> 16) + (nCost1 >> 16) : NULL ); + if ( nCost0 + nCost1 + nCost2 >= nCostLim ) return nCostLim; + // derive the final truth table + for ( c = 0; c < nWords; c++ ) + pRes[c] = uRes2[c] | uRes0[c], pRes[c+nWords] = uRes2[c] | uRes1[c]; + // verify + for ( c = 0; c < (nWords<<1); c++ ) + assert( (pOn[c] & ~pRes[c] ) == 0 && (pRes[c] & ~pOnDc[c]) == 0 ); + Abc_IsopAddLits( pCover, nCost0, nCost1, nVars ); + return nCost0 + nCost1 + nCost2 + (nCost0 >> 16) + (nCost1 >> 16); +} +int Abc_Isop10Cover( word * pOn, word * pOnDc, word * pRes, int * pCover, int nCostLim ) +{ + return 0; +} +int Abc_Isop11Cover( word * pOn, word * pOnDc, word * pRes, int * pCover, int nCostLim ) +{ + return 0; +} +int Abc_Isop12Cover( word * pOn, word * pOnDc, word * pRes, int * pCover, int nCostLim ) +{ + return 0; +} +int Abc_Isop13Cover( word * pOn, word * pOnDc, word * pRes, int * pCover, int nCostLim ) +{ + return 0; +} +int Abc_Isop14Cover( word * pOn, word * pOnDc, word * pRes, int * pCover, int nCostLim ) +{ + return 0; +} +int Abc_Isop15Cover( word * pOn, word * pOnDc, word * pRes, int * pCover, int nCostLim ) +{ + return 0; +} +int Abc_Isop16Cover( word * pOn, word * pOnDc, word * pRes, int * pCover, int nCostLim ) +{ + return 0; +} +int Abc_IsopCheck( word * pOn, word * pOnDc, word * pRes, int nVars, int nCostLim, int * pCover ) +{ + int Var; + for ( Var = nVars - 1; Var > 6; Var-- ) + if ( Abc_TtHasVar( pOn, nVars, Var ) || Abc_TtHasVar( pOnDc, nVars, Var ) ) + return s_pFuncIsopCover[Var+1]( pOn, pOnDc, pRes, pCover, nCostLim ); + return Abc_Isop6Cover( *pOn, *pOnDc, pRes, nVars, nCostLim, pCover ); +} + +/**Function************************************************************* + + Synopsis [Compute CNF assuming it does not exceed the limit.] + + Description [Please note that pCover should have at least 32 extra entries!] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Abc_IsopCnf( word * pFunc, int nVars, int nCubeLim, int * pCover ) +{ + word pRes[1024]; + int c, Cost0, Cost1, CostLim = nCubeLim << 16; + assert( Abc_TtHasVar( pFunc, nVars, nVars - 1 ) ); + if ( nVars > 6 ) + Cost0 = s_pFuncIsopCover[nVars]( pFunc, pFunc, pRes, pCover, CostLim ); + else + Cost0 = Abc_Isop6Cover( *pFunc, *pFunc, pRes, nVars, CostLim, pCover ); + if ( Cost0 >= CostLim ) + return CostLim; + Abc_TtNot( pFunc, Abc_TtWordNum(nVars) ); + if ( nVars > 6 ) + Cost1 = s_pFuncIsopCover[nVars]( pFunc, pFunc, pRes, pCover ? pCover + (Cost0 >> 16) : NULL, CostLim ); + else + Cost1 = Abc_Isop6Cover( *pFunc, *pFunc, pRes, nVars, CostLim, pCover ? pCover + (Cost0 >> 16) : NULL ); + Abc_TtNot( pFunc, Abc_TtWordNum(nVars) ); + if ( Cost0 + Cost1 >= CostLim ) + return CostLim; + if ( pCover == NULL ) + return Cost0 + Cost1; + for ( c = 0; c < (Cost0 >> 16); c++ ) + pCover[c] |= (1 << Abc_Var2Lit(nVars, 0)); + for ( c = 0; c < (Cost1 >> 16); c++ ) + pCover[c+(Cost0 >> 16)] |= (1 << Abc_Var2Lit(nVars, 1)); + return Cost0 + Cost1; +} + + +/**Function************************************************************* + + Synopsis [These procedures assume that function has exact support.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +static inline void Abc_EsopAddLits( int * pCover, int Max, int r0, int r1, int r2, int Var ) +{ + int i; + if ( pCover == NULL ) return; + r0 >>= 16; + r1 >>= 16; + r2 >>= 16; + if ( Max == r0 ) + { + for ( i = 0; i < r1; i++ ) + pCover[i] = pCover[r0+i]; + for ( i = 0; i < r2; i++ ) + pCover[r1+i] = pCover[r0+r1+i] | (1 << Abc_Var2Lit(Var,0)); + } + else if ( Max == r1 ) + { + for ( i = 0; i < r2; i++ ) + pCover[r0+i] = pCover[r0+r1+i] | (1 << Abc_Var2Lit(Var,1)); + } + else + { + for ( i = 0; i < r0; i++ ) + pCover[i] |= (1 << Abc_Var2Lit(Var,0)); + for ( i = 0; i < r1; i++ ) + pCover[r0+i] |= (1 << Abc_Var2Lit(Var,1)); + } +} +int Abc_Esop6Cover( word t, int nVars, int nCostLim, int * pCover ) +{ + word c0, c1; + int Var, r0, r1, r2, Max; + assert( nVars <= 6 ); + if ( t == 0 ) + return 0; + if ( t == ~(word)0 ) + { + if ( pCover ) *pCover = 0; + return 1 << 16; + } + assert( nVars > 0 ); + // find the topmost var + for ( Var = nVars-1; Var >= 0; Var-- ) + if ( Abc_Tt6HasVar( t, Var ) ) + break; + assert( Var >= 0 ); + // cofactor + c0 = Abc_Tt6Cofactor0( t, Var ); + c1 = Abc_Tt6Cofactor1( t, Var ); + // call recursively + r0 = Abc_Esop6Cover( c0, Var, nCostLim, pCover ? pCover : NULL ); + if ( r0 >= nCostLim ) return nCostLim; + r1 = Abc_Esop6Cover( c1, Var, nCostLim, pCover ? pCover + (r0 >> 16) : NULL ); + if ( r1 >= nCostLim ) return nCostLim; + r2 = Abc_Esop6Cover( c0 ^ c1, Var, nCostLim, pCover ? pCover + (r0 >> 16) + (r1 >> 16) : NULL ); + if ( r2 >= nCostLim ) return nCostLim; + Max = Abc_MaxInt( r0, Abc_MaxInt(r1, r2) ); + if ( r0 + r1 + r2 - Max >= nCostLim ) return nCostLim; + // add literals + Abc_EsopAddLits( pCover, Max, r0, r1, r2, Var ); + return r0 + r1 + r2 - Max; +} +int Abc_EsopCover( word * pOn, int nVars, int nCostLim, int * pCover ) +{ + int c, r0, r1, r2, Max, nWords = (1 << (nVars - 7)); + assert( nVars > 6 ); + r0 = Abc_EsopCheck( pOn, nVars-1, nCostLim, pCover ); + if ( r0 >= nCostLim ) return nCostLim; + r1 = Abc_EsopCheck( pOn+1, nVars-1, nCostLim, pCover ? pCover + (r0 >> 16) : NULL ); + if ( r1 >= nCostLim ) return nCostLim; + for ( c = 0; c < nWords; c++ ) + pOn[c] ^= pOn[nWords+c]; + r2 = Abc_EsopCheck( pOn, nVars-1, nCostLim, pCover ? pCover + (r0 >> 16) + (r1 >> 16) : NULL ); + for ( c = 0; c < nWords; c++ ) + pOn[c] ^= pOn[nWords+c]; + if ( r2 >= nCostLim ) return nCostLim; + Max = Abc_MaxInt( r0, Abc_MaxInt(r1, r2) ); + if ( r0 + r1 + r2 - Max >= nCostLim ) return nCostLim; + // add literals + Abc_EsopAddLits( pCover, Max, r0, r1, r2, nVars-1 ); + return r0 + r1 + r2 - Max; +} +int Abc_EsopCheck( word * pOn, int nVars, int nCostLim, int * pCover ) +{ + int Var; + for ( Var = nVars - 1; Var > 6; Var-- ) + if ( Abc_TtHasVar( pOn, nVars, Var ) ) + return Abc_EsopCover( pOn, Var + 1, nCostLim, pCover ); + return Abc_Esop6Cover( *pOn, nVars, nCostLim, pCover ); +} + +/**Function************************************************************* + + Synopsis [This procedure assumes that function has exact support.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +#define ABC_ISOP_MAX_VAR 12 +static inline word ** Abc_IsopTtElems() +{ + static word TtElems[ABC_ISOP_MAX_VAR+1][ABC_ISOP_MAX_VAR > 6 ? (1 << (ABC_ISOP_MAX_VAR-6)) : 1], * pTtElems[ABC_ISOP_MAX_VAR+1] = {NULL}; + if ( pTtElems[0] == NULL ) + { + int v; + for ( v = 0; v <= ABC_ISOP_MAX_VAR; v++ ) + pTtElems[v] = TtElems[v]; + Abc_TtElemInit( pTtElems, ABC_ISOP_MAX_VAR ); + } + return pTtElems; +} + +/**Function************************************************************* + + Synopsis [Create truth table for the given cover.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +void Abc_IsopBuildTruth( Vec_Int_t * vCover, int nVars, word * pRes, int fXor, int fCompl ) +{ + word ** pTtElems = Abc_IsopTtElems(); + word pCube[1024]; + int nWords = Abc_TtWordNum( nVars ); + int c, v, Cube; + Abc_TtClear( pRes, nWords ); + Vec_IntForEachEntry( vCover, Cube, c ) + { + Abc_TtFill( pCube, nWords ); + for ( v = 0; v < nVars; v++ ) + if ( ((Cube >> (v << 1)) & 3) == 1 ) + Abc_TtSharp( pCube, pCube, pTtElems[v], nWords ); + else if ( ((Cube >> (v << 1)) & 3) == 2 ) + Abc_TtAnd( pCube, pCube, pTtElems[v], nWords, 0 ); + if ( fXor ) + Abc_TtXor( pRes, pRes, pCube, nWords, 0 ); + else + Abc_TtOr( pRes, pRes, pCube, nWords ); + } + if ( fCompl ) + Abc_TtNot( pRes, nWords ); +} +static inline void Abc_IsopVerify( word * pFunc, int nVars, word * pRes, Vec_Int_t * vCover, int fXor, int fCompl ) +{ + Abc_IsopBuildTruth( vCover, nVars, pRes, fXor, fCompl ); + if ( !Abc_TtEqual( pFunc, pRes, Abc_TtWordNum(nVars) ) ) + printf( "Verification failed.\n" ); +} + +/**Function************************************************************* + + Synopsis [This procedure assumes that function has exact support.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Abc_Isop( word * pFunc, int nVars, int Type, int nCubeLim, Vec_Int_t * vCover ) +{ + word pRes[1024]; + int Limit = nCubeLim ? nCubeLim : 0xFFFF; + int LimitXor = nCubeLim ? 3 * Limit : 3 * (nVars + 1); + int nCost0 = -1, nCost1 = -1, nCost2 = -1; + assert( nVars <= 16 ); + assert( Abc_TtHasVar( pFunc, nVars, nVars - 1 ) ); + assert( !(Type & 4) ); + // xor polarity + if ( Type & 4 ) + nCost2 = Abc_EsopCheck( pFunc, nVars, LimitXor << 16, NULL ); + // direct polarity + if ( Type & 1 ) + nCost0 = Abc_IsopCheck( pFunc, pFunc, pRes, nVars, Abc_MinInt(Limit, 3*nCost2) << 16, NULL ); + // opposite polarity + if ( Type & 2 ) + { + Abc_TtNot( pFunc, Abc_TtWordNum(nVars) ); + nCost1 = Abc_IsopCheck( pFunc, pFunc, pRes, nVars, Abc_MinInt(nCost0, Abc_MinInt(Limit, 3*nCost2)) << 16, NULL ); + Abc_TtNot( pFunc, Abc_TtWordNum(nVars) ); + } + assert( nCost0 >= 0 || nCost1 >= 0 ); + // find minimum cover + if ( nCost0 <= nCost1 || nCost0 != -1 ) + { + Vec_IntFill( vCover, -1, nCost0 >> 16 ); + Abc_IsopCheck( pFunc, pFunc, pRes, nVars, ABC_INFINITY, Vec_IntArray(vCover) ); + Abc_IsopVerify( pFunc, nVars, pRes, vCover, 0, 0 ); + return 0; + } + if ( nCost1 < nCost0 || nCost1 != -1 ) + { + Vec_IntFill( vCover, -1, nCost1 >> 16 ); + Abc_TtNot( pFunc, Abc_TtWordNum(nVars) ); + Abc_IsopCheck( pFunc, pFunc, pRes, nVars, ABC_INFINITY, Vec_IntArray(vCover) ); + Abc_TtNot( pFunc, Abc_TtWordNum(nVars) ); + Abc_IsopVerify( pFunc, nVars, pRes, vCover, 0, 1 ); + return 1; + } + assert( 0 ); + return -1; +} + +//////////////////////////////////////////////////////////////////////// +/// END OF FILE /// +//////////////////////////////////////////////////////////////////////// + + +ABC_NAMESPACE_IMPL_END + |