#include "rwt.h"
#include "deco.h"
Go to the source code of this file.
Functions | |
static Dec_Graph_t * | Rwt_NodePreprocess (Rwt_Man_t *p, Rwt_Node_t *pNode) |
static Dec_Edge_t | Rwt_TravCollect_rec (Rwt_Man_t *p, Rwt_Node_t *pNode, Dec_Graph_t *pGraph) |
void | Rwt_ManPreprocess (Rwt_Man_t *p) |
void Rwt_ManPreprocess | ( | Rwt_Man_t * | p | ) |
FUNCTION DEFINITIONS ///Function*************************************************************
Synopsis [Preprocesses computed library of subgraphs.]
Description []
SideEffects []
SeeAlso []
Definition at line 46 of file rwtDec.c.
00047 { 00048 Dec_Graph_t * pGraph; 00049 Rwt_Node_t * pNode; 00050 int i, k; 00051 // put the nodes into the structure 00052 p->pMapInv = ALLOC( unsigned short, 222 ); 00053 memset( p->pMapInv, 0, sizeof(unsigned short) * 222 ); 00054 p->vClasses = Vec_VecStart( 222 ); 00055 for ( i = 0; i < p->nFuncs; i++ ) 00056 { 00057 if ( p->pTable[i] == NULL ) 00058 continue; 00059 // consider all implementations of this function 00060 for ( pNode = p->pTable[i]; pNode; pNode = pNode->pNext ) 00061 { 00062 assert( pNode->uTruth == p->pTable[i]->uTruth ); 00063 assert( p->pMap[pNode->uTruth] >= 0 && p->pMap[pNode->uTruth] < 222 ); 00064 Vec_VecPush( p->vClasses, p->pMap[pNode->uTruth], pNode ); 00065 p->pMapInv[ p->pMap[pNode->uTruth] ] = p->puCanons[pNode->uTruth]; 00066 } 00067 } 00068 // compute decomposition forms for each node and verify them 00069 Vec_VecForEachEntry( p->vClasses, pNode, i, k ) 00070 { 00071 pGraph = Rwt_NodePreprocess( p, pNode ); 00072 pNode->pNext = (Rwt_Node_t *)pGraph; 00073 // assert( pNode->uTruth == (Dec_GraphDeriveTruth(pGraph) & 0xFFFF) ); 00074 } 00075 }
Dec_Graph_t * Rwt_NodePreprocess | ( | Rwt_Man_t * | p, | |
Rwt_Node_t * | pNode | |||
) | [static] |
CFile****************************************************************
FileName [rwtDec.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [DAG-aware AIG rewriting package.]
Synopsis [Evaluation and decomposition procedures.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [
] DECLARATIONS ///
Function*************************************************************
Synopsis [Preprocesses subgraphs rooted at this node.]
Description []
SideEffects []
SeeAlso []
Definition at line 88 of file rwtDec.c.
00089 { 00090 Dec_Graph_t * pGraph; 00091 Dec_Edge_t eRoot; 00092 assert( !Rwt_IsComplement(pNode) ); 00093 // consider constant 00094 if ( pNode->uTruth == 0 ) 00095 return Dec_GraphCreateConst0(); 00096 // consider the case of elementary var 00097 if ( pNode->uTruth == 0x00FF ) 00098 return Dec_GraphCreateLeaf( 3, 4, 1 ); 00099 // start the subgraphs 00100 pGraph = Dec_GraphCreate( 4 ); 00101 // collect the nodes 00102 Rwt_ManIncTravId( p ); 00103 eRoot = Rwt_TravCollect_rec( p, pNode, pGraph ); 00104 Dec_GraphSetRoot( pGraph, eRoot ); 00105 return pGraph; 00106 }
Dec_Edge_t Rwt_TravCollect_rec | ( | Rwt_Man_t * | p, | |
Rwt_Node_t * | pNode, | |||
Dec_Graph_t * | pGraph | |||
) | [static] |
Function*************************************************************
Synopsis [Adds one node.]
Description []
SideEffects []
SeeAlso []
Definition at line 119 of file rwtDec.c.
00120 { 00121 Dec_Edge_t eNode0, eNode1, eNode; 00122 // elementary variable 00123 if ( pNode->fUsed ) 00124 return Dec_EdgeCreate( pNode->Id - 1, 0 ); 00125 // previously visited node 00126 if ( pNode->TravId == p->nTravIds ) 00127 return Dec_IntToEdge( pNode->Volume ); 00128 pNode->TravId = p->nTravIds; 00129 // solve for children 00130 eNode0 = Rwt_TravCollect_rec( p, Rwt_Regular(pNode->p0), pGraph ); 00131 if ( Rwt_IsComplement(pNode->p0) ) 00132 eNode0.fCompl = !eNode0.fCompl; 00133 eNode1 = Rwt_TravCollect_rec( p, Rwt_Regular(pNode->p1), pGraph ); 00134 if ( Rwt_IsComplement(pNode->p1) ) 00135 eNode1.fCompl = !eNode1.fCompl; 00136 // create the decomposition node(s) 00137 if ( pNode->fExor ) 00138 eNode = Dec_GraphAddNodeXor( pGraph, eNode0, eNode1, 0 ); 00139 else 00140 eNode = Dec_GraphAddNodeAnd( pGraph, eNode0, eNode1 ); 00141 // save the result 00142 pNode->Volume = Dec_EdgeToInt( eNode ); 00143 return eNode; 00144 }