abc/src/bool/bdc/bdcInt.h - third_party/vtr-verilog-to-routing - Git at Google

 /**CFile****************************************************************

   FileName    [bdcInt.h]

   SystemName  [ABC: Logic synthesis and verification system.]

   PackageName [Truth-table-based bi-decomposition engine.]

   Synopsis    [Internal declarations.]

   Author      [Alan Mishchenko]

   Affiliation [UC Berkeley]

   Date        [Ver. 1.0. Started - January 15, 2007.]

   Revision    [$Id: resInt.h,v 1.00 2007/01/15 00:00:00 alanmi Exp $]

 ***********************************************************************/

 #ifndef ABC__aig__bdc__bdcInt_h
 #define ABC__aig__bdc__bdcInt_h


 ////////////////////////////////////////////////////////////////////////
 ///                          INCLUDES                                ///
 ////////////////////////////////////////////////////////////////////////

 #include "bool/kit/kit.h"
 #include "bdc.h"

 ////////////////////////////////////////////////////////////////////////
 ///                         PARAMETERS                               ///
 ////////////////////////////////////////////////////////////////////////


 ABC_NAMESPACE_HEADER_START


 #define BDC_SCALE 1000  // value used to compute the cost

 ////////////////////////////////////////////////////////////////////////
 ///                         BASIC TYPES                              ///
 ////////////////////////////////////////////////////////////////////////

 // network types
 typedef enum {
     BDC_TYPE_NONE = 0,  // 0:  unknown
     BDC_TYPE_CONST1,    // 1:  constant 1
     BDC_TYPE_PI,        // 2:  primary input
     BDC_TYPE_AND,       // 3:  AND-gate
     BDC_TYPE_OR,        // 4:  OR-gate (temporary)
     BDC_TYPE_XOR,       // 5:  XOR-gate
     BDC_TYPE_MUX,       // 6:  MUX-gate
     BDC_TYPE_OTHER      // 7:  unused
 } Bdc_Type_t;

 struct Bdc_Fun_t_
 {
     int              Type;         // Const1, PI, AND, XOR, MUX
     Bdc_Fun_t *      pFan0;        // fanin of the given node
     Bdc_Fun_t *      pFan1;        // fanin of the given node
     unsigned         uSupp;        // bit mask of current support
     unsigned *       puFunc;       // the function of the node
     Bdc_Fun_t *      pNext;        // next function with same support
     union { int      iCopy;        // the literal of the node (AIG)
     void *           pCopy; };     // the function of the node (BDD or AIG)

 };

 typedef struct Bdc_Isf_t_ Bdc_Isf_t;
 struct Bdc_Isf_t_
 {
     unsigned         uSupp;        // the complete support of this component
     unsigned         uUniq;        // the unique variables of this component
     unsigned *       puOn;         // on-set
     unsigned *       puOff;        // off-set
 };

 struct Bdc_Man_t_
 {
     // external parameters
     Bdc_Par_t *      pPars;        // parameter set
     int              nVars;        // the number of variables
     int              nWords;       // the number of words
     int              nNodesMax;    // the limit on the number of new nodes
     int              nDivsLimit;   // the limit on the number of divisors
     // internal nodes
     Bdc_Fun_t *      pNodes;       // storage for decomposition nodes
     int              nNodesAlloc;  // the number of nodes allocated
     int              nNodes;       // the number of all nodes created so far
     int              nNodesNew;    // the number of new AND nodes created so far
     Bdc_Fun_t *      pRoot;        // the root node
     // resub candidates
     Bdc_Fun_t **     pTable;       // hash table of candidates
     int              nTableSize;   // hash table size (1 << nVarsMax)
     Vec_Int_t *      vSpots;       // the occupied spots in the table
     // elementary truth tables
     Vec_Ptr_t *      vTruths;      // for const 1 and elementary variables
     unsigned *       puTemp1;      // temporary truth table
     unsigned *       puTemp2;      // temporary truth table
     unsigned *       puTemp3;      // temporary truth table
     unsigned *       puTemp4;      // temporary truth table
     // temporary ISFs
     Bdc_Isf_t * pIsfOL, IsfOL;
     Bdc_Isf_t * pIsfOR, IsfOR;
     Bdc_Isf_t * pIsfAL, IsfAL;
     Bdc_Isf_t * pIsfAR, IsfAR;
     // internal memory manager
     Vec_Int_t *      vMemory;      // memory for internal truth tables
     // statistics
     int              numCalls;
     int              numNodes;
     int              numMuxes;
     int              numAnds;
     int              numOrs;
     int              numWeaks;
     int              numReuse;
     // runtime
     abctime          timeCache;
     abctime          timeCheck;
     abctime          timeMuxes;
     abctime          timeSupps;
     abctime          timeTotal;
 };

 static inline Bdc_Fun_t * Bdc_FunNew( Bdc_Man_t * p )                   { Bdc_Fun_t * pRes; if ( p->nNodes >= p->nNodesAlloc || p->nNodesNew >= p->nNodesMax ) return NULL; pRes = p->pNodes + p->nNodes++; p->nNodesNew++; memset( pRes, 0, sizeof(Bdc_Fun_t) ); return pRes; }
 static inline Bdc_Fun_t * Bdc_FunWithId( Bdc_Man_t * p, int Id )        { assert( Id < p->nNodes ); return p->pNodes + Id; }
 static inline int         Bdc_FunId( Bdc_Man_t * p, Bdc_Fun_t * pFun )  { return pFun - p->pNodes; }
 static inline void        Bdc_IsfStart( Bdc_Man_t * p, Bdc_Isf_t * pF ) { pF->uSupp = 0; pF->uUniq = 0; pF->puOn = Vec_IntFetch( p->vMemory, p->nWords ); pF->puOff = Vec_IntFetch( p->vMemory, p->nWords ); assert( pF->puOff && pF->puOn ); }
 static inline void        Bdc_IsfClean( Bdc_Isf_t * p )                 { p->uSupp = 0; p->uUniq = 0;                                      }
 static inline void        Bdc_IsfCopy( Bdc_Isf_t * p, Bdc_Isf_t * q )   { Bdc_Isf_t T = *p; *p = *q; *q = T;                               }
 static inline void        Bdc_IsfNot( Bdc_Isf_t * p )                   { unsigned * puT = p->puOn; p->puOn = p->puOff; p->puOff = puT;    }

 ////////////////////////////////////////////////////////////////////////
 ///                      MACRO DEFINITIONS                           ///
 ////////////////////////////////////////////////////////////////////////

 ////////////////////////////////////////////////////////////////////////
 ///                    FUNCTION DECLARATIONS                         ///
 ////////////////////////////////////////////////////////////////////////

 /*=== bdcDec.c ==========================================================*/
 extern Bdc_Fun_t *      Bdc_ManDecompose_rec( Bdc_Man_t * p, Bdc_Isf_t * pIsf );
 extern void             Bdc_SuppMinimize( Bdc_Man_t * p, Bdc_Isf_t * pIsf );
 extern int              Bdc_ManNodeVerify( Bdc_Man_t * p, Bdc_Isf_t * pIsf, Bdc_Fun_t * pFunc );
 /*=== bdcTable.c ==========================================================*/
 extern Bdc_Fun_t *      Bdc_TableLookup( Bdc_Man_t * p, Bdc_Isf_t * pIsf );
 extern void             Bdc_TableAdd( Bdc_Man_t * p, Bdc_Fun_t * pFunc );
 extern void             Bdc_TableClear( Bdc_Man_t * p );
 extern int              Bdc_TableCheckContainment( Bdc_Man_t * p, Bdc_Isf_t * pIsf, unsigned * puTruth );


 ABC_NAMESPACE_HEADER_END


 #endif

 ////////////////////////////////////////////////////////////////////////
 ///                       END OF FILE                                ///
 ////////////////////////////////////////////////////////////////////////
	/CFile**************************************************************

	FileName [bdcInt.h]

	SystemName [ABC: Logic synthesis and verification system.]

	PackageName [Truth-table-based bi-decomposition engine.]

	Synopsis [Internal declarations.]

	Author [Alan Mishchenko]

	Affiliation [UC Berkeley]

	Date [Ver. 1.0. Started - January 15, 2007.]

	Revision [$Id: resInt.h,v 1.00 2007/01/15 00:00:00 alanmi Exp $]

	***********************************************************************/

	#ifndef ABC__aig__bdc__bdcInt_h
	#define ABC__aig__bdc__bdcInt_h


	////////////////////////////////////////////////////////////////////////
	/// INCLUDES ///
	////////////////////////////////////////////////////////////////////////

	#include "bool/kit/kit.h"
	#include "bdc.h"

	////////////////////////////////////////////////////////////////////////
	/// PARAMETERS ///
	////////////////////////////////////////////////////////////////////////



	ABC_NAMESPACE_HEADER_START


	#define BDC_SCALE 1000 // value used to compute the cost

	////////////////////////////////////////////////////////////////////////
	/// BASIC TYPES ///
	////////////////////////////////////////////////////////////////////////

	// network types
	typedef enum {
	BDC_TYPE_NONE = 0, // 0: unknown
	BDC_TYPE_CONST1, // 1: constant 1
	BDC_TYPE_PI, // 2: primary input
	BDC_TYPE_AND, // 3: AND-gate
	BDC_TYPE_OR, // 4: OR-gate (temporary)
	BDC_TYPE_XOR, // 5: XOR-gate
	BDC_TYPE_MUX, // 6: MUX-gate
	BDC_TYPE_OTHER // 7: unused
	} Bdc_Type_t;

	struct Bdc_Fun_t_
	{
	int Type; // Const1, PI, AND, XOR, MUX
	Bdc_Fun_t * pFan0; // fanin of the given node
	Bdc_Fun_t * pFan1; // fanin of the given node
	unsigned uSupp; // bit mask of current support
	unsigned * puFunc; // the function of the node
	Bdc_Fun_t * pNext; // next function with same support
	union { int iCopy; // the literal of the node (AIG)
	void * pCopy; }; // the function of the node (BDD or AIG)

	};

	typedef struct Bdc_Isf_t_ Bdc_Isf_t;
	struct Bdc_Isf_t_
	{
	unsigned uSupp; // the complete support of this component
	unsigned uUniq; // the unique variables of this component
	unsigned * puOn; // on-set
	unsigned * puOff; // off-set
	};

	struct Bdc_Man_t_
	{
	// external parameters
	Bdc_Par_t * pPars; // parameter set
	int nVars; // the number of variables
	int nWords; // the number of words
	int nNodesMax; // the limit on the number of new nodes
	int nDivsLimit; // the limit on the number of divisors
	// internal nodes
	Bdc_Fun_t * pNodes; // storage for decomposition nodes
	int nNodesAlloc; // the number of nodes allocated
	int nNodes; // the number of all nodes created so far
	int nNodesNew; // the number of new AND nodes created so far
	Bdc_Fun_t * pRoot; // the root node
	// resub candidates
	Bdc_Fun_t ** pTable; // hash table of candidates
	int nTableSize; // hash table size (1 << nVarsMax)
	Vec_Int_t * vSpots; // the occupied spots in the table
	// elementary truth tables
	Vec_Ptr_t * vTruths; // for const 1 and elementary variables
	unsigned * puTemp1; // temporary truth table
	unsigned * puTemp2; // temporary truth table
	unsigned * puTemp3; // temporary truth table
	unsigned * puTemp4; // temporary truth table
	// temporary ISFs
	Bdc_Isf_t * pIsfOL, IsfOL;
	Bdc_Isf_t * pIsfOR, IsfOR;
	Bdc_Isf_t * pIsfAL, IsfAL;
	Bdc_Isf_t * pIsfAR, IsfAR;
	// internal memory manager
	Vec_Int_t * vMemory; // memory for internal truth tables
	// statistics
	int numCalls;
	int numNodes;
	int numMuxes;
	int numAnds;
	int numOrs;
	int numWeaks;
	int numReuse;
	// runtime
	abctime timeCache;
	abctime timeCheck;
	abctime timeMuxes;
	abctime timeSupps;
	abctime timeTotal;
	};

	static inline Bdc_Fun_t * Bdc_FunNew( Bdc_Man_t * p ) { Bdc_Fun_t * pRes; if ( p->nNodes >= p->nNodesAlloc \|\| p->nNodesNew >= p->nNodesMax ) return NULL; pRes = p->pNodes + p->nNodes++; p->nNodesNew++; memset( pRes, 0, sizeof(Bdc_Fun_t) ); return pRes; }
	static inline Bdc_Fun_t * Bdc_FunWithId( Bdc_Man_t * p, int Id ) { assert( Id < p->nNodes ); return p->pNodes + Id; }
	static inline int Bdc_FunId( Bdc_Man_t * p, Bdc_Fun_t * pFun ) { return pFun - p->pNodes; }
	static inline void Bdc_IsfStart( Bdc_Man_t * p, Bdc_Isf_t * pF ) { pF->uSupp = 0; pF->uUniq = 0; pF->puOn = Vec_IntFetch( p->vMemory, p->nWords ); pF->puOff = Vec_IntFetch( p->vMemory, p->nWords ); assert( pF->puOff && pF->puOn ); }
	static inline void Bdc_IsfClean( Bdc_Isf_t * p ) { p->uSupp = 0; p->uUniq = 0; }
	static inline void Bdc_IsfCopy( Bdc_Isf_t * p, Bdc_Isf_t * q ) { Bdc_Isf_t T = p; p = q; q = T; }
	static inline void Bdc_IsfNot( Bdc_Isf_t * p ) { unsigned * puT = p->puOn; p->puOn = p->puOff; p->puOff = puT; }

	////////////////////////////////////////////////////////////////////////
	/// MACRO DEFINITIONS ///
	////////////////////////////////////////////////////////////////////////

	////////////////////////////////////////////////////////////////////////
	/// FUNCTION DECLARATIONS ///
	////////////////////////////////////////////////////////////////////////

	/=== bdcDec.c ==========================================================/
	extern Bdc_Fun_t * Bdc_ManDecompose_rec( Bdc_Man_t * p, Bdc_Isf_t * pIsf );
	extern void Bdc_SuppMinimize( Bdc_Man_t * p, Bdc_Isf_t * pIsf );
	extern int Bdc_ManNodeVerify( Bdc_Man_t * p, Bdc_Isf_t * pIsf, Bdc_Fun_t * pFunc );
	/=== bdcTable.c ==========================================================/
	extern Bdc_Fun_t * Bdc_TableLookup( Bdc_Man_t * p, Bdc_Isf_t * pIsf );
	extern void Bdc_TableAdd( Bdc_Man_t * p, Bdc_Fun_t * pFunc );
	extern void Bdc_TableClear( Bdc_Man_t * p );
	extern int Bdc_TableCheckContainment( Bdc_Man_t * p, Bdc_Isf_t * pIsf, unsigned * puTruth );



	ABC_NAMESPACE_HEADER_END



	#endif

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