Commit 3641a3f1 by Mathias Soeken

Extract delay information into solution.

parent 90a6c383
......@@ -550,25 +550,30 @@ static inline int Ses_ManSolve( Ses_Man_t * pSes )
***********************************************************************/
// char is an array of short integers that stores the synthesized network
// using the following format
// | nvars | nfunc | ngates | gate1 | ... | gaten | func1 | .. | funcm |
// nvars: integer with number of variables
// nfunc: integer with number of functions
// ngates: integer with number of gates
// gate: | op | nfanin | fanin1 | ... | faninl |
// op: integer of gate's truth table (divided by 2, because gate is normal)
// nfanin: integer with number of fanins
// fanin: integer to primary input or other gate
// func: integer as literal to some gate (not primary input), can be complemented
// | nvars | nfunc | ngates | gate[1] | ... | gate[ngates] | func[1] | .. | func[nfunc] |
// nvars: integer with number of variables
// nfunc: integer with number of functions
// ngates: integer with number of gates
// gate[i]: | op | nfanin | fanin[1] | ... | fanin[nfanin] |
// op: integer of gate's truth table (divided by 2, because gate is normal)
// nfanin[i]: integer with number of fanins
// fanin: integer to primary input or other gate
// func[i]: | fanin | delay | pin[1] | ... | pin[nvars] |
// fanin: integer as literal to some gate (not primary input), can be complemented
// delay: maximum delay to output (taking arrival times into account, not normalized) or 0 if not specified
// pin[i]: pin to pin delay to input i or 0 if not specified or if there is no connection to input i
// NOTE: since outputs can only point to gates, delay and pin-to-pin times cannot be 0
#define ABC_EXACT_SOL_NVARS 0
#define ABC_EXACT_SOL_NFUNC 1
#define ABC_EXACT_SOL_NGATES 2
static char * Ses_ManExtractSolution( Ses_Man_t * pSes )
{
int nSol, h, i, j, k, nOp;
int nSol, h, i, j, k, l, aj, ak, d, nOp;
char * pSol, * p;
int * pPerm; /* will be a 2d array [i][l] where is is gate id and l is PI id */
/* compute length of solution, for now all gates have 2 inputs */
nSol = 3 + pSes->nGates * 4 + pSes->nSpecFunc;
nSol = 3 + pSes->nGates * 4 + pSes->nSpecFunc * ( 2 + pSes->nSpecVars );
p = pSol = ABC_CALLOC( char, nSol );
......@@ -608,11 +613,50 @@ static char * Ses_ManExtractSolution( Ses_Man_t * pSes )
/* } */
}
/* pin-to-pin delay */
if ( pSes->nMaxDepth != -1 )
{
pPerm = ABC_CALLOC( int, pSes->nGates * pSes->nSpecVars );
for ( i = 0; i < pSes->nGates; ++i )
{
/* since all gates are binary for now */
j = pSol[3 + i * 4 + 2];
k = pSol[3 + i * 4 + 2];
for ( l = 0; l < pSes->nSpecVars; ++l )
{
/* pin-to-pin delay to input l of child nodes */
aj = j < pSes->nGates ? 0 : pPerm[j * pSes->nSpecVars + l];
ak = k < pSes->nGates ? 0 : pPerm[k * pSes->nSpecVars + l];
if ( aj == 0 && ak == 0 )
pPerm[i * pSes->nSpecVars + l] = 0;
else
pPerm[i * pSes->nSpecVars + l] = ( ( aj > ak ) ? aj : ak ) + 1;
}
}
}
/* outputs */
for ( h = 0; h < pSes->nSpecFunc; ++h )
for ( i = 0; i < pSes->nGates; ++i )
if ( sat_solver_var_value( pSes->pSat, Ses_ManOutputVar( pSes, h, i ) ) )
{
*p++ = Abc_Var2Lit( i, ( pSes->bSpecInv >> h ) & 1 );
d = 0;
if ( pSes->nMaxDepth != -1 )
while ( d < pSes->nArrTimeMax + i && sat_solver_var_value( pSes->pSat, Ses_ManDepthVar( pSes, i, d ) ) )
++d;
*p++ = d + pSes->nArrTimeDelta;
for ( l = 0; l < pSes->nSpecVars; ++l )
*p++ = ( pSes->nMaxDepth != -1 ) ? pPerm[i * pSes->nSpecVars + l] : 0;
if ( pSes->fVeryVerbose )
printf( "output %d points to %d and has normalized delay %d\n", h, i, d );
}
/* pin-to-pin delays */
if ( pSes->nMaxDepth != -1 )
ABC_FREE( pPerm );
/* have we used all the fields? */
assert( ( p - pSol ) == nSol );
......@@ -669,7 +713,7 @@ static Abc_Ntk_t * Ses_ManExtractNtk( char const * pSol )
}
/* outputs */
for ( h = 0; h < pSol[ABC_EXACT_SOL_NFUNC]; ++h, ++p )
for ( h = 0; h < pSol[ABC_EXACT_SOL_NFUNC]; ++h )
{
pObj = Abc_NtkCreatePo( pNtk );
Abc_ObjAssignName( pObj, (char*)Vec_PtrEntry( vNames, pSol[ABC_EXACT_SOL_NVARS] + h ), NULL );
......@@ -677,6 +721,7 @@ static Abc_Ntk_t * Ses_ManExtractNtk( char const * pSol )
Abc_ObjAddFanin( pObj, Abc_NtkCreateNodeInv( pNtk, (Abc_Obj_t *)Vec_PtrEntry( pGates, pSol[ABC_EXACT_SOL_NVARS] + Abc_Lit2Var( *p ) ) ) );
else
Abc_ObjAddFanin( pObj, (Abc_Obj_t *)Vec_PtrEntry( pGates, pSol[ABC_EXACT_SOL_NVARS] + Abc_Lit2Var( *p ) ) );
p += ( 2 + pSol[ABC_EXACT_SOL_NVARS] );
}
Abc_NodeFreeNames( vNames );
......@@ -746,13 +791,14 @@ static Gia_Man_t * Ses_ManExtractGia( char const * pSol )
/* outputs */
pGia->vNamesOut = Vec_PtrStart( pSol[ABC_EXACT_SOL_NFUNC] );
for ( h = 0; h < pSol[ABC_EXACT_SOL_NFUNC]; ++h, ++p )
for ( h = 0; h < pSol[ABC_EXACT_SOL_NFUNC]; ++h )
{
nObj = Vec_IntEntry( pGates, pSol[ABC_EXACT_SOL_NVARS] + Abc_Lit2Var( *p ) );
if ( Abc_LitIsCompl( *p ) )
nObj = Abc_LitNot( nObj );
Gia_ManAppendCo( pGia, nObj );
Vec_PtrSetEntry( pGia->vNamesOut, h, Extra_UtilStrsav( Vec_PtrEntry( vNames, pSol[ABC_EXACT_SOL_NVARS] + h ) ) );
p += ( 2 + pSol[ABC_EXACT_SOL_NVARS] );
}
Abc_NodeFreeNames( vNames );
......
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