absPth.c 5.67 KB
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/**CFile****************************************************************

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  FileName    [absPth.c]
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  SystemName  [ABC: Logic synthesis and verification system.]

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  PackageName [Abstraction package.]
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  Synopsis    [Interface to pthreads.]

  Author      [Alan Mishchenko]
  
  Affiliation [UC Berkeley]

  Date        [Ver. 1.0. Started - June 20, 2005.]

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  Revision    [$Id: absPth.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
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***********************************************************************/
 
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#include "abs.h"
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#include "proof/pdr/pdr.h"
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// to compile on Linux, add -lpthread to LIBS in Makefile

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// uncomment this line to enable pthreads
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#define ABC_USE_PTHREADS
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#ifdef ABC_USE_PTHREADS

#ifdef WIN32
#include "../lib/pthread.h"
#else
#include <pthread.h>
#include <unistd.h>
#endif

#endif

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ABC_NAMESPACE_IMPL_START 
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////////////////////////////////////////////////////////////////////////
///                        DECLARATIONS                              ///
////////////////////////////////////////////////////////////////////////

#ifndef ABC_USE_PTHREADS

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void Gia_GlaProveAbsracted( Gia_Man_t * p, int fVerbose ) {}
void Gia_GlaProveCancel( int fVerbose )                   {}
int  Gia_GlaProveCheck( int fVerbose )                    { return 0; }
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#else // pthreads are used

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// information given to the thread
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typedef struct Abs_ThData_t_
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{
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    Aig_Man_t * pAig;
    int         fVerbose;
    int         RunId;
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} Abs_ThData_t;
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// mutext to control access to shared variables
pthread_mutex_t g_mutex = PTHREAD_MUTEX_INITIALIZER;
static volatile int g_nRunIds = 0;             // the number of the last prover instance
static volatile int g_fAbstractionProved = 0;  // set to 1 when prover successed to prove
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// call back procedure for PDR
int Abs_CallBackToStop( int RunId ) { assert( RunId <= g_nRunIds ); return RunId < g_nRunIds; }
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// test procedure to replace PDR
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int Pdr_ManSolve_test( Aig_Man_t * pAig, Pdr_Par_t * pPars, Abc_Cex_t ** ppCex )
{
    char * p = ABC_ALLOC( char, 111 );
    while ( 1 )
    {
        if ( pPars->pFuncStop && pPars->pFuncStop(pPars->RunId) )
            break;
    }
    ABC_FREE( p );
    return -1;
}

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////////////////////////////////////////////////////////////////////////
///                     FUNCTION DEFINITIONS                         ///
////////////////////////////////////////////////////////////////////////

/**Function*************************************************************

  Synopsis    [Create one thread]

  Description []
               
  SideEffects []

  SeeAlso     []

***********************************************************************/
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void * Abs_ProverThread( void * pArg )
{
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    Abs_ThData_t * pThData = (Abs_ThData_t *)pArg;
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    Pdr_Par_t Pars, * pPars = &Pars;
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    int RetValue, status;
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    // call PDR
    Pdr_ManSetDefaultParams( pPars );
    pPars->fSilent   = 1;
    pPars->RunId     = pThData->RunId;
    pPars->pFuncStop = Abs_CallBackToStop;
    RetValue = Pdr_ManSolve( pThData->pAig, pPars, NULL );
//    RetValue = Pdr_ManSolve_test( pAig, pPars, NULL );
    // update the result
    if ( RetValue == 1 )
    {
        status = pthread_mutex_lock(&g_mutex);  assert( status == 0 );
        g_fAbstractionProved = 1;
        status = pthread_mutex_unlock(&g_mutex);  assert( status == 0 );
    }
    // quit this thread
    if ( pThData->fVerbose )
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    {
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        if ( RetValue == 1 )
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            Abc_Print( 1, "Proved abstraction %d.\n", pThData->RunId );
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        else if ( RetValue == 0 )
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            Abc_Print( 1, "Disproved abstraction %d.\n", pThData->RunId );
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        else if ( RetValue == -1 )
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            Abc_Print( 1, "Cancelled abstraction %d.\n", pThData->RunId );
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        else assert( 0 );
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    }
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    // free memory
    Aig_ManStop( pThData->pAig );
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    ABC_FREE( pThData );
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    // quit this thread
    pthread_exit( NULL );
    assert(0);
    return NULL;
}
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void Gia_GlaProveAbsracted( Gia_Man_t * pGia, int fVerbose )
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{
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    Abs_ThData_t * pThData;
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    Gia_Man_t * pAbs;
    Aig_Man_t * pAig;
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    pthread_t ProverThread;
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    int status;
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    // disable verbosity
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//    fVerbose = 0;
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    // create abstraction 
    assert( pGia->vGateClasses != NULL );
    pAbs = Gia_ManDupAbsGates( pGia, pGia->vGateClasses );
    Gia_ManCleanValue( pGia );
    pAig = Gia_ManToAigSimple( pAbs );
    Gia_ManStop( pAbs );
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    // reset the proof 
    status = pthread_mutex_lock(&g_mutex);  assert( status == 0 );
    g_fAbstractionProved = 0;
    status = pthread_mutex_unlock(&g_mutex);  assert( status == 0 );
    // collect thread data
    pThData = ABC_CALLOC( Abs_ThData_t, 1 );
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    pThData->pAig = pAig;
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    pThData->fVerbose = fVerbose;
    status = pthread_mutex_lock(&g_mutex);  assert( status == 0 );
    pThData->RunId = ++g_nRunIds;
    status = pthread_mutex_unlock(&g_mutex);  assert( status == 0 );
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    // create thread
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    if ( fVerbose )  Abc_Print( 1, "\nTrying to prove abstraction %d.\n", pThData->RunId );
    status = pthread_create( &ProverThread, NULL, Abs_ProverThread, pThData );
    assert( status == 0 );
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}
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void Gia_GlaProveCancel( int fVerbose )
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{
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    int status;
    status = pthread_mutex_lock(&g_mutex);  assert( status == 0 );
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    g_nRunIds++;
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    status = pthread_mutex_unlock(&g_mutex);  assert( status == 0 );
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}
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int Gia_GlaProveCheck( int fVerbose )
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{
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    int status;
    if ( g_fAbstractionProved == 0 )
        return 0;
    status = pthread_mutex_lock(&g_mutex);  assert( status == 0 );
    g_fAbstractionProved = 0;
    status = pthread_mutex_unlock(&g_mutex);  assert( status == 0 );
    return 1;
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}

#endif

////////////////////////////////////////////////////////////////////////
///                       END OF FILE                                ///
////////////////////////////////////////////////////////////////////////


ABC_NAMESPACE_IMPL_END