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authorAlan Mishchenko <alanmi@berkeley.edu>2005-07-29 08:01:00 -0700
committerAlan Mishchenko <alanmi@berkeley.edu>2005-07-29 08:01:00 -0700
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tree11d48c9e9069f54dc300c3571ae63c744c802c50 /src/sat/fraig/fraigNode.c
parent7f94414388cce67bd3cc1a6d6269f0ed31ed0d06 (diff)
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+/**CFile****************************************************************
+
+ FileName [fraigNode.c]
+
+ PackageName [FRAIG: Functionally reduced AND-INV graphs.]
+
+ Synopsis [Implementation of the FRAIG node.]
+
+ Author [Alan Mishchenko <alanmi@eecs.berkeley.edu>]
+
+ Affiliation [UC Berkeley]
+
+ Date [Ver. 2.0. Started - October 1, 2004]
+
+ Revision [$Id: fraigNode.c,v 1.3 2005/07/08 01:01:32 alanmi Exp $]
+
+***********************************************************************/
+
+#include "fraigInt.h"
+
+////////////////////////////////////////////////////////////////////////
+/// DECLARATIONS ///
+////////////////////////////////////////////////////////////////////////
+
+// returns the complemented attribute of the node
+#define Fraig_NodeIsSimComplement(p) (Fraig_IsComplement(p)? !(Fraig_Regular(p)->fInv) : (p)->fInv)
+
+////////////////////////////////////////////////////////////////////////
+/// FUNCTION DEFITIONS ///
+////////////////////////////////////////////////////////////////////////
+
+/**Function*************************************************************
+
+ Synopsis [Creates the constant 1 node.]
+
+ Description []
+
+ SideEffects []
+
+ SeeAlso []
+
+***********************************************************************/
+Fraig_Node_t * Fraig_NodeCreateConst( Fraig_Man_t * p )
+{
+ Fraig_Node_t * pNode;
+
+ // create the node
+ pNode = (Fraig_Node_t *)Fraig_MemFixedEntryFetch( p->mmNodes );
+ memset( pNode, 0, sizeof(Fraig_Node_t) );
+
+ // assign the number and add to the array of nodes
+ pNode->Num = p->vNodes->nSize;
+ Fraig_NodeVecPush( p->vNodes, pNode );
+ pNode->NumPi = -1; // this is not a PI, so its number is -1
+ pNode->Level = 0; // just like a PI, it has 0 level
+ pNode->nRefs = 1; // it is a persistent node, which comes referenced
+ pNode->fInv = 1; // the simulation info is complemented
+
+ // create the simulation info
+ pNode->puSimR = (unsigned *)Fraig_MemFixedEntryFetch( p->mmSims );
+ pNode->puSimD = pNode->puSimR + p->nWordsRand;
+ memset( pNode->puSimR, 0, sizeof(unsigned) * p->nWordsRand );
+ memset( pNode->puSimD, 0, sizeof(unsigned) * p->nWordsDyna );
+
+ // count the number of ones in the simulation vector
+ pNode->nOnes = p->nWordsRand * sizeof(unsigned) * 8;
+
+ // insert it into the hash table
+ Fraig_HashTableLookupF0( p, pNode );
+ return pNode;
+}
+
+/**Function*************************************************************
+
+ Synopsis [Creates a primary input node.]
+
+ Description []
+
+ SideEffects []
+
+ SeeAlso []
+
+***********************************************************************/
+Fraig_Node_t * Fraig_NodeCreatePi( Fraig_Man_t * p )
+{
+ Fraig_Node_t * pNode, * pNodeRes;
+ int i, clk;
+
+ // create the node
+ pNode = (Fraig_Node_t *)Fraig_MemFixedEntryFetch( p->mmNodes );
+ memset( pNode, 0, sizeof(Fraig_Node_t) );
+ pNode->puSimR = (unsigned *)Fraig_MemFixedEntryFetch( p->mmSims );
+ pNode->puSimD = pNode->puSimR + p->nWordsRand;
+ memset( pNode->puSimD, 0, sizeof(unsigned) * p->nWordsDyna );
+
+ // assign the number and add to the array of nodes
+ pNode->Num = p->vNodes->nSize;
+ Fraig_NodeVecPush( p->vNodes, pNode );
+
+ // assign the PI number and add to the array of primary inputs
+ pNode->NumPi = p->vInputs->nSize;
+ Fraig_NodeVecPush( p->vInputs, pNode );
+
+ pNode->Level = 0; // PI has 0 level
+ pNode->nRefs = 1; // it is a persistent node, which comes referenced
+ pNode->fInv = 0; // the simulation info of the PI is not complemented
+
+ // derive the simulation info for the new node
+clk = clock();
+ // set the random simulation info for the primary input
+ pNode->uHashR = 0;
+ for ( i = 0; i < p->nWordsRand; i++ )
+ {
+ // generate the simulation info
+ pNode->puSimR[i] = FRAIG_RANDOM_UNSIGNED;
+ // compute the hash key
+ pNode->uHashR ^= pNode->puSimR[i] * s_FraigPrimes[i];
+ }
+ // count the number of ones in the simulation vector
+ pNode->nOnes = Fraig_BitStringCountOnes( pNode->puSimR, p->nWordsRand );
+
+ // set the systematic simulation info for the primary input
+ pNode->uHashD = 0;
+ for ( i = 0; i < p->iWordStart; i++ )
+ {
+ // generate the simulation info
+ pNode->puSimD[i] = FRAIG_RANDOM_UNSIGNED;
+ // compute the hash key
+ pNode->uHashD ^= pNode->puSimD[i] * s_FraigPrimes[i];
+ }
+p->timeSims += clock() - clk;
+
+ // insert it into the hash table
+ pNodeRes = Fraig_HashTableLookupF( p, pNode );
+ assert( pNodeRes == NULL );
+ // add to the runtime of simulation
+ return pNode;
+}
+
+/**Function*************************************************************
+
+ Synopsis [Creates a new node.]
+
+ Description [This procedure should be called to create the constant
+ node and the PI nodes first.]
+
+ SideEffects []
+
+ SeeAlso []
+
+***********************************************************************/
+Fraig_Node_t * Fraig_NodeCreate( Fraig_Man_t * p, Fraig_Node_t * p1, Fraig_Node_t * p2 )
+{
+ Fraig_Node_t * pNode;
+ int clk;
+
+ // create the node
+ pNode = (Fraig_Node_t *)Fraig_MemFixedEntryFetch( p->mmNodes );
+ memset( pNode, 0, sizeof(Fraig_Node_t) );
+
+ // assign the children
+ pNode->p1 = p1; Fraig_Ref(p1); Fraig_Regular(p1)->nRefs++;
+ pNode->p2 = p2; Fraig_Ref(p2); Fraig_Regular(p2)->nRefs++;
+
+ // assign the number and add to the array of nodes
+ pNode->Num = p->vNodes->nSize;
+ Fraig_NodeVecPush( p->vNodes, pNode );
+
+ // assign the PI number
+ pNode->NumPi = -1;
+
+ // compute the level of this node
+ pNode->Level = 1 + FRAIG_MAX(Fraig_Regular(p1)->Level, Fraig_Regular(p2)->Level);
+ pNode->fInv = Fraig_NodeIsSimComplement(p1) & Fraig_NodeIsSimComplement(p2);
+
+ // derive the simulation info
+clk = clock();
+ // allocate memory for the simulation info
+ pNode->puSimR = (unsigned *)Fraig_MemFixedEntryFetch( p->mmSims );
+ pNode->puSimD = pNode->puSimR + p->nWordsRand;
+ // derive random simulation info
+ pNode->uHashR = 0;
+ Fraig_NodeSimulate( pNode, 0, p->nWordsRand, 1 );
+ // derive dynamic simulation info
+ pNode->uHashD = 0;
+ Fraig_NodeSimulate( pNode, 0, p->iWordStart, 0 );
+ // count the number of ones in the random simulation info
+ pNode->nOnes = Fraig_BitStringCountOnes( pNode->puSimR, p->nWordsRand );
+ if ( pNode->fInv )
+ pNode->nOnes = p->nWordsRand * 32 - pNode->nOnes;
+ // add to the runtime of simulation
+p->timeSims += clock() - clk;
+
+#ifdef FRAIG_ENABLE_FANOUTS
+ // create the fanout info
+ Fraig_NodeAddFaninFanout( Fraig_Regular(p1), pNode );
+ Fraig_NodeAddFaninFanout( Fraig_Regular(p2), pNode );
+#endif
+ return pNode;
+}
+
+
+/**Function*************************************************************
+
+ Synopsis [Simulates the node.]
+
+ Description [Simulates the random or dynamic simulation info through
+ the node. Uses phases of the children to determine their real simulation
+ info. Uses phase of the node to determine the way its simulation info
+ is stored. The resulting info is guaranteed to be 0 for the first pattern.]
+
+ SideEffects [This procedure modified the hash value of the simulation info.]
+
+ SeeAlso []
+
+***********************************************************************/
+void Fraig_NodeSimulate( Fraig_Node_t * pNode, int iWordStart, int iWordStop, int fUseRand )
+{
+ unsigned * pSims, * pSims1, * pSims2;
+ unsigned uHash;
+ int fCompl, fCompl1, fCompl2, i;
+
+ assert( !Fraig_IsComplement(pNode) );
+
+ // get hold of the simulation information
+ pSims = fUseRand? pNode->puSimR : pNode->puSimD;
+ pSims1 = fUseRand? Fraig_Regular(pNode->p1)->puSimR : Fraig_Regular(pNode->p1)->puSimD;
+ pSims2 = fUseRand? Fraig_Regular(pNode->p2)->puSimR : Fraig_Regular(pNode->p2)->puSimD;
+
+ // get complemented attributes of the children using their random info
+ fCompl = pNode->fInv;
+ fCompl1 = Fraig_NodeIsSimComplement(pNode->p1);
+ fCompl2 = Fraig_NodeIsSimComplement(pNode->p2);
+
+ // simulate
+ uHash = 0;
+ if ( fCompl1 && fCompl2 )
+ {
+ if ( fCompl )
+ for ( i = iWordStart; i < iWordStop; i++ )
+ {
+ pSims[i] = (pSims1[i] | pSims2[i]);
+ uHash ^= pSims[i] * s_FraigPrimes[i];
+ }
+ else
+ for ( i = iWordStart; i < iWordStop; i++ )
+ {
+ pSims[i] = ~(pSims1[i] | pSims2[i]);
+ uHash ^= pSims[i] * s_FraigPrimes[i];
+ }
+ }
+ else if ( fCompl1 && !fCompl2 )
+ {
+ if ( fCompl )
+ for ( i = iWordStart; i < iWordStop; i++ )
+ {
+ pSims[i] = (pSims1[i] | ~pSims2[i]);
+ uHash ^= pSims[i] * s_FraigPrimes[i];
+ }
+ else
+ for ( i = iWordStart; i < iWordStop; i++ )
+ {
+ pSims[i] = (~pSims1[i] & pSims2[i]);
+ uHash ^= pSims[i] * s_FraigPrimes[i];
+ }
+ }
+ else if ( !fCompl1 && fCompl2 )
+ {
+ if ( fCompl )
+ for ( i = iWordStart; i < iWordStop; i++ )
+ {
+ pSims[i] = (~pSims1[i] | pSims2[i]);
+ uHash ^= pSims[i] * s_FraigPrimes[i];
+ }
+ else
+ for ( i = iWordStart; i < iWordStop; i++ )
+ {
+ pSims[i] = (pSims1[i] & ~pSims2[i]);
+ uHash ^= pSims[i] * s_FraigPrimes[i];
+ }
+ }
+ else // if ( !fCompl1 && !fCompl2 )
+ {
+ if ( fCompl )
+ for ( i = iWordStart; i < iWordStop; i++ )
+ {
+ pSims[i] = ~(pSims1[i] & pSims2[i]);
+ uHash ^= pSims[i] * s_FraigPrimes[i];
+ }
+ else
+ for ( i = iWordStart; i < iWordStop; i++ )
+ {
+ pSims[i] = (pSims1[i] & pSims2[i]);
+ uHash ^= pSims[i] * s_FraigPrimes[i];
+ }
+ }
+
+ if ( fUseRand )
+ pNode->uHashR ^= uHash;
+ else
+ pNode->uHashD ^= uHash;
+}
+
+
+////////////////////////////////////////////////////////////////////////
+/// END OF FILE ///
+////////////////////////////////////////////////////////////////////////
+