/**CFile**************************************************************** FileName [dsd.h] PackageName [DSD: Disjoint-support decomposition package.] Synopsis [External declarations of the package. This fast BDD-based recursive algorithm for simple (single-output) DSD is based on the following papers: (1) V. Bertacco and M. Damiani, "Disjunctive decomposition of logic functions," Proc. ICCAD '97, pp. 78-82. (2) Y. Matsunaga, "An exact and efficient algorithm for disjunctive decomposition", Proc. SASIMI '98, pp. 44-50. The scope of detected decompositions is the same as in the paper: T. Sasao and M. Matsuura, "DECOMPOS: An integrated system for functional decomposition," Proc. IWLS '98, pp. 471-477.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 8.0. Started - September 22, 2003.] Revision [$Id: dsd.h,v 1.0 2002/22/09 00:00:00 alanmi Exp $] ***********************************************************************/ #ifndef ABC__bdd__dsd__dsd_h #define ABC__bdd__dsd__dsd_h //////////////////////////////////////////////////////////////////////// /// STRUCTURE DEFINITIONS /// //////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////// /// PARAMETERS /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_HEADER_START // types of DSD nodes enum Dsd_Type_t_ { DSD_NODE_NONE = 0, DSD_NODE_CONST1 = 1, DSD_NODE_BUF = 2, DSD_NODE_OR = 3, DSD_NODE_EXOR = 4, DSD_NODE_PRIME = 5, }; //////////////////////////////////////////////////////////////////////// /// TYPEDEF DEFINITIONS /// //////////////////////////////////////////////////////////////////////// typedef struct Dsd_Manager_t_ Dsd_Manager_t; typedef struct Dsd_Node_t_ Dsd_Node_t; typedef enum Dsd_Type_t_ Dsd_Type_t; //////////////////////////////////////////////////////////////////////// /// MACRO DEFINITIONS /// //////////////////////////////////////////////////////////////////////// // complementation and testing for pointers for decomposition entries #define Dsd_IsComplement(p) (((int)((ABC_PTRUINT_T) (p) & 01))) #define Dsd_Regular(p) ((Dsd_Node_t *)((ABC_PTRUINT_T)(p) & ~01)) #define Dsd_Not(p) ((Dsd_Node_t *)((ABC_PTRUINT_T)(p) ^ 01)) #define Dsd_NotCond(p,c) ((Dsd_Node_t *)((ABC_PTRUINT_T)(p) ^ (c))) //////////////////////////////////////////////////////////////////////// /// ITERATORS /// //////////////////////////////////////////////////////////////////////// // iterator through the transitions #define Dsd_NodeForEachChild( Node, Index, Child ) \ for ( Index = 0; \ Index < Dsd_NodeReadDecsNum(Node) && \ ((Child = Dsd_NodeReadDec(Node,Index))>=0); \ Index++ ) //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /*=== dsdApi.c =======================================================*/ extern Dsd_Type_t Dsd_NodeReadType( Dsd_Node_t * p ); extern DdNode * Dsd_NodeReadFunc( Dsd_Node_t * p ); extern DdNode * Dsd_NodeReadSupp( Dsd_Node_t * p ); extern Dsd_Node_t ** Dsd_NodeReadDecs( Dsd_Node_t * p ); extern Dsd_Node_t * Dsd_NodeReadDec ( Dsd_Node_t * p, int i ); extern int Dsd_NodeReadDecsNum( Dsd_Node_t * p ); extern int Dsd_NodeReadMark( Dsd_Node_t * p ); extern void Dsd_NodeSetMark( Dsd_Node_t * p, int Mark ); extern DdManager * Dsd_ManagerReadDd( Dsd_Manager_t * pMan ); extern Dsd_Node_t * Dsd_ManagerReadRoot( Dsd_Manager_t * pMan, int i ); extern Dsd_Node_t * Dsd_ManagerReadInput( Dsd_Manager_t * pMan, int i ); extern Dsd_Node_t * Dsd_ManagerReadConst1( Dsd_Manager_t * pMan ); /*=== dsdMan.c =======================================================*/ extern Dsd_Manager_t * Dsd_ManagerStart( DdManager * dd, int nSuppMax, int fVerbose ); extern void Dsd_ManagerStop( Dsd_Manager_t * dMan ); /*=== dsdProc.c =======================================================*/ extern void Dsd_Decompose( Dsd_Manager_t * dMan, DdNode ** pbFuncs, int nFuncs ); extern Dsd_Node_t * Dsd_DecomposeOne( Dsd_Manager_t * pDsdMan, DdNode * bFunc ); /*=== dsdTree.c =======================================================*/ extern void Dsd_TreeNodeGetInfo( Dsd_Manager_t * dMan, int * DepthMax, int * GateSizeMax ); extern void Dsd_TreeNodeGetInfoOne( Dsd_Node_t * pNode, int * DepthMax, int * GateSizeMax ); extern int Dsd_TreeGetAigCost( Dsd_Node_t * pNode ); extern int Dsd_TreeCountNonTerminalNodes( Dsd_Manager_t * dMan ); extern int Dsd_TreeCountNonTerminalNodesOne( Dsd_Node_t * pRoot ); extern int Dsd_TreeCountPrimeNodes( Dsd_Manager_t * pDsdMan ); extern int Dsd_TreeCountPrimeNodesOne( Dsd_Node_t * pRoot ); extern int Dsd_TreeCollectDecomposableVars( Dsd_Manager_t * dMan, int * pVars ); extern Dsd_Node_t ** Dsd_TreeCollectNodesDfs( Dsd_Manager_t * dMan, int * pnNodes ); extern Dsd_Node_t ** Dsd_TreeCollectNodesDfsOne( Dsd_Manager_t * pDsdMan, Dsd_Node_t * pNode, int * pnNodes ); extern void Dsd_TreePrint( FILE * pFile, Dsd_Manager_t * dMan, char * pInputNames[], char * pOutputNames[], int fShortNames, int Output ); extern void Dsd_TreePrint2( FILE * pFile, Dsd_Manager_t * dMan, char * pInputNames[], char * pOutputNames[], int Output ); extern void Dsd_NodePrint( FILE * pFile, Dsd_Node_t * pNode ); /*=== dsdLocal.c =======================================================*/ extern DdNode * Dsd_TreeGetPrimeFunction( DdManager * dd, Dsd_Node_t * pNode ); ABC_NAMESPACE_HEADER_END #endif //////////////////////////////////////////////////////////////////////// /// END OF FILE /// ////////////////////////////////////////////////////////////////////////