abc/src/base/bac/bacPrs.h - third_party/vtr-verilog-to-routing - Git at Google

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

   FileName    [bacPrs.h]

   SystemName  [ABC: Logic synthesis and verification system.]

   PackageName [Hierarchical word-level netlist.]

   Synopsis    [Parser declarations.]

   Author      [Alan Mishchenko]

   Affiliation [UC Berkeley]

   Date        [Ver. 1.0. Started - November 29, 2014.]

   Revision    [$Id: bacPrs.h,v 1.00 2014/11/29 00:00:00 alanmi Exp $]

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

 #ifndef ABC__base__prs__prs_h
 #define ABC__base__prs__prs_h


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

 #include "aig/gia/gia.h"
 #include "misc/util/utilNam.h"

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

 ABC_NAMESPACE_HEADER_START

 // parser name types
 typedef enum {
     BAC_PRS_NAME = 0,        // 0:  name/variable
     BAC_PRS_SLICE,           // 1:  slice
     BAC_PRS_CONST,           // 2:  constant
     BAC_PRS_CONCAT,          // 3:  concatentation
 } Psr_ManType_t;

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

 // network
 typedef struct Psr_Ntk_t_ Psr_Ntk_t;
 struct Psr_Ntk_t_
 {
     // general info
     int          iModuleName;
     unsigned     fMapped : 1;
     unsigned     fSlices : 1;
     unsigned     fHasC0s : 1;
     unsigned     fHasC1s : 1;
     unsigned     fHasCXs : 1;
     unsigned     fHasCZs : 1;
     Abc_Nam_t *  pStrs;
     // interface
     Vec_Int_t    vOrder;     // order of signals
     // signal names
     Vec_Int_t    vInouts;    // inouts
     Vec_Int_t    vInputs;    // inputs
     Vec_Int_t    vOutputs;   // outputs
     Vec_Int_t    vWires;     // wires
     // signal ranges
     Vec_Int_t    vInoutsR;   // inouts
     Vec_Int_t    vInputsR;   // inputs
     Vec_Int_t    vOutputsR;  // outputs
     Vec_Int_t    vWiresR;    // wires
     // slices/concatenations/objects
     Vec_Int_t    vSlices;    // NameId + RangeId
     Vec_Int_t    vConcats;   // array of NameId/SliceId/ConstId
     Vec_Int_t    vBoxes;     // ModuleId + InstId + array of pairs {FormNameId, ActSignalId(NameId/SliceId/ConstId/ConcatId)}
     Vec_Int_t    vObjs;      // box handles
 };

 // parser
 typedef struct Psr_Man_t_ Psr_Man_t;
 struct Psr_Man_t_
 {
     // input data
     char *       pName;       // file name
     char *       pBuffer;     // file contents
     char *       pLimit;      // end of file
     char *       pCur;        // current position
     Abc_Nam_t *  pStrs;       // string manager
     Psr_Ntk_t *  pNtk;        // current network
     Vec_Ptr_t *  vNtks;       // input networks
     // temporary data
     Vec_Str_t    vCover;      // one SOP cover
     Vec_Int_t    vTemp;       // array of tokens
     Vec_Int_t    vTemp2;      // array of tokens
     // statistics
     Vec_Int_t    vKnown;
     Vec_Int_t    vFailed;
     Vec_Int_t    vSucceeded;
     // error handling
     int          fUsingTemp2; // vTemp2 is in use
     char ErrorStr[1000];      // error
 };

 static inline Psr_Ntk_t * Psr_ManNtk( Vec_Ptr_t * vPrs, int i )        { return i >= 0 && i < Vec_PtrSize(vPrs) ? (Psr_Ntk_t *)Vec_PtrEntry(vPrs, i) : NULL; }
 static inline Psr_Ntk_t * Psr_ManRoot( Vec_Ptr_t * vPrs )              { return Psr_ManNtk(vPrs, 0);                             }
 static inline Abc_Nam_t * Psr_ManNameMan( Vec_Ptr_t * vPrs )           { return Psr_ManRoot(vPrs)->pStrs;                        }

 static inline int         Psr_NtkId( Psr_Ntk_t * p )                   { return p->iModuleName;                                  }
 static inline int         Psr_NtkPioNum( Psr_Ntk_t * p )               { return Vec_IntSize(&p->vInouts);                        }
 static inline int         Psr_NtkPiNum( Psr_Ntk_t * p )                { return Vec_IntSize(&p->vInputs);                        }
 static inline int         Psr_NtkPoNum( Psr_Ntk_t * p )                { return Vec_IntSize(&p->vOutputs);                       }
 static inline int         Psr_NtkBoxNum( Psr_Ntk_t * p )               { return Vec_IntSize(&p->vObjs);                          }
 static inline int         Psr_NtkObjNum( Psr_Ntk_t * p )               { return Psr_NtkPioNum(p) + Psr_NtkPiNum(p) + Psr_NtkPoNum(p) + Psr_NtkBoxNum(p); }
 static inline char *      Psr_NtkStr( Psr_Ntk_t * p, int h )           { return Abc_NamStr(p->pStrs, h);                         }
 static inline char *      Psr_NtkName( Psr_Ntk_t * p )                 { return Psr_NtkStr(p, Psr_NtkId(p));                     }
 static inline int         Psr_NtkSigName( Psr_Ntk_t * p, int i )       { if (!p->fSlices) return i; assert(Abc_Lit2Att2(i) == BAC_PRS_NAME); return Abc_Lit2Var2(i); }

 static inline int         Psr_SliceName( Psr_Ntk_t * p, int h )        { return Vec_IntEntry(&p->vSlices, h);                    }
 static inline int         Psr_SliceRange( Psr_Ntk_t * p, int h )       { return Vec_IntEntry(&p->vSlices, h+1);                  }

 static inline int         Psr_CatSize( Psr_Ntk_t * p, int h )          { return Vec_IntEntry(&p->vConcats, h);                   }
 static inline int *       Psr_CatArray( Psr_Ntk_t * p, int h )         { return Vec_IntEntryP(&p->vConcats, h+1);                }
 static inline Vec_Int_t * Psr_CatSignals( Psr_Ntk_t * p, int h )       { static Vec_Int_t V; V.nSize = V.nCap = Psr_CatSize(p, h); V.pArray = Psr_CatArray(p, h); return &V; }

 static inline int         Psr_BoxHand( Psr_Ntk_t * p, int i )          { return Vec_IntEntry(&p->vObjs, i);                      }
 static inline int         Psr_BoxSize( Psr_Ntk_t * p, int i )          { return Vec_IntEntry(&p->vBoxes, Psr_BoxHand(p, i))-2;   }
 static inline int         Psr_BoxIONum( Psr_Ntk_t * p, int i )         { return Psr_BoxSize(p, i) / 2;                           }
 static inline int         Psr_BoxNtk( Psr_Ntk_t * p, int i )           { return Vec_IntEntry(&p->vBoxes, Psr_BoxHand(p, i)+1);   }
 static inline void        Psr_BoxSetNtk( Psr_Ntk_t * p, int i, int m ) { Vec_IntWriteEntry(&p->vBoxes, Psr_BoxHand(p, i)+1, m);  }
 static inline int         Psr_BoxName( Psr_Ntk_t * p, int i )          { return Vec_IntEntry(&p->vBoxes, Psr_BoxHand(p, i)+2);   }
 static inline int         Psr_BoxIsNode( Psr_Ntk_t * p, int i )        { return!Vec_IntEntry(&p->vBoxes, Psr_BoxHand(p, i)+3);   } // no formal names
 static inline int *       Psr_BoxArray( Psr_Ntk_t * p, int i )         { return Vec_IntEntryP(&p->vBoxes, Psr_BoxHand(p, i)+3);  }
 static inline Vec_Int_t * Psr_BoxSignals( Psr_Ntk_t * p, int i )       { static Vec_Int_t V; V.nSize = V.nCap = Psr_BoxSize(p, i); V.pArray = Psr_BoxArray(p, i); return &V; }

 #define Psr_ManForEachNameVec( vVec, p, pName, i )   \
     for ( i = 0; (i < Vec_IntSize(vVec)) && ((pName) = Abc_NamStr(p->pStrs, Vec_IntEntry(vVec,i))); i++ )

 #define Psr_NtkForEachPio( p, NameId, i )            \
     for ( i = 0; i < Psr_NtkPioNum(p) && ((NameId) = Vec_IntEntry(&p->vInouts, i)); i++ )
 #define Psr_NtkForEachPi( p, NameId, i )             \
     for ( i = 0; i < Psr_NtkPiNum(p) && ((NameId) = Vec_IntEntry(&p->vInputs, i)); i++ )
 #define Psr_NtkForEachPo( p, NameId, i )             \
     for ( i = 0; i < Psr_NtkPoNum(p) && ((NameId) = Vec_IntEntry(&p->vOutputs, i)); i++ )
 #define Psr_NtkForEachBox( p, vVec, i )              \
     for ( i = 0; i < Psr_NtkBoxNum(p) && ((vVec) = Psr_BoxSignals(p, i)); i++ )

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

 // create error message
 static inline int Psr_ManErrorSet( Psr_Man_t * p, char * pError, int Value )
 {
     assert( !p->ErrorStr[0] );
     sprintf( p->ErrorStr, "%s", pError );
     return Value;
 }
 // clear error message
 static inline void Psr_ManErrorClear( Psr_Man_t * p )
 {
     p->ErrorStr[0] = '\0';
 }
 // print error message
 static inline int Psr_ManErrorPrint( Psr_Man_t * p )
 {
     char * pThis; int iLine = 0;
     if ( !p->ErrorStr[0] ) return 1;
     for ( pThis = p->pBuffer; pThis < p->pCur; pThis++ )
         iLine += (int)(*pThis == '\n');
     printf( "Line %d: %s\n", iLine, p->ErrorStr );
     return 0;
 }

 // parsing network
 static inline void Psr_ManInitializeNtk( Psr_Man_t * p, int iName, int fSlices )
 {
     assert( p->pNtk == NULL );
     p->pNtk = ABC_CALLOC( Psr_Ntk_t, 1 );
     p->pNtk->iModuleName = iName;
     p->pNtk->fSlices = fSlices;
     p->pNtk->pStrs = Abc_NamRef( p->pStrs );
     Vec_PtrPush( p->vNtks, p->pNtk );
 }
 static inline void Psr_ManFinalizeNtk( Psr_Man_t * p )
 {
     assert( p->pNtk != NULL );
     p->pNtk = NULL;
 }

 // parsing slice/concatentation/box
 static inline int Psr_NtkAddSlice( Psr_Ntk_t * p, int Name, int Range )
 {
     int Value = Vec_IntSize(&p->vSlices);
     Vec_IntPushTwo( &p->vSlices, Name, Range );
     return Value;
 }
 static inline int Psr_NtkAddConcat( Psr_Ntk_t * p, Vec_Int_t * vTemp )
 {
     int Value;
     if ( !(Vec_IntSize(&p->vConcats) & 1) )
         Vec_IntPush(&p->vConcats, -1);
     Value = Vec_IntSize(&p->vConcats);
     assert( Value & 1 );
     Vec_IntPush( &p->vConcats, Vec_IntSize(vTemp) );
     Vec_IntAppend( &p->vConcats, vTemp );
     return Value;
 }
 static inline void Psr_NtkAddBox( Psr_Ntk_t * p, int ModName, int InstName, Vec_Int_t * vTemp )
 {
     int Value;
     assert( Vec_IntSize(vTemp) % 2 == 0 );
     if ( !(Vec_IntSize(&p->vBoxes) & 1) )
         Vec_IntPush(&p->vBoxes, -1);
     Value = Vec_IntSize(&p->vBoxes);
     assert( Value & 1 );
     Vec_IntPush( &p->vObjs, Value );
     // create entry
     Vec_IntPush( &p->vBoxes, Vec_IntSize(vTemp)+2 );
     Vec_IntPush( &p->vBoxes, ModName );
     Vec_IntPush( &p->vBoxes, InstName );
     Vec_IntAppend( &p->vBoxes, vTemp );
 }


 static inline char * Psr_ManLoadFile( char * pFileName, char ** ppLimit )
 {
     char * pBuffer;
     int nFileSize, RetValue;
     FILE * pFile = fopen( pFileName, "rb" );
     if ( pFile == NULL )
     {
         printf( "Cannot open input file.\n" );
         return NULL;
     }
     // get the file size, in bytes
     fseek( pFile, 0, SEEK_END );
     nFileSize = ftell( pFile );
     // move the file current reading position to the beginning
     rewind( pFile );
     // load the contents of the file into memory
     pBuffer = ABC_ALLOC( char, nFileSize + 16 );
     pBuffer[0] = '\n';
     RetValue = fread( pBuffer+1, nFileSize, 1, pFile );
     fclose( pFile );
     // terminate the string with '\0'
     pBuffer[nFileSize + 1] = '\n';
     pBuffer[nFileSize + 2] = '\0';
     *ppLimit = pBuffer + nFileSize + 3;
     return pBuffer;
 }
 static inline Psr_Man_t * Psr_ManAlloc( char * pFileName )
 {
     Psr_Man_t * p;
     char * pBuffer, * pLimit;
     pBuffer = Psr_ManLoadFile( pFileName, &pLimit );
     if ( pBuffer == NULL )
         return NULL;
     p = ABC_CALLOC( Psr_Man_t, 1 );
     p->pName   = pFileName;
     p->pBuffer = pBuffer;
     p->pLimit  = pLimit;
     p->pCur    = pBuffer;
     p->pStrs   = Abc_NamStart( 1000, 24 );
     p->vNtks   = Vec_PtrAlloc( 100 );
     return p;
 }

 static inline void Psr_NtkFree( Psr_Ntk_t * p )
 {
     if ( p->pStrs )
         Abc_NamDeref( p->pStrs );
     Vec_IntErase( &p->vOrder );
     Vec_IntErase( &p->vInouts );
     Vec_IntErase( &p->vInputs );
     Vec_IntErase( &p->vOutputs );
     Vec_IntErase( &p->vWires );
     Vec_IntErase( &p->vInoutsR );
     Vec_IntErase( &p->vInputsR );
     Vec_IntErase( &p->vOutputsR );
     Vec_IntErase( &p->vWiresR );
     Vec_IntErase( &p->vSlices );
     Vec_IntErase( &p->vConcats );
     Vec_IntErase( &p->vBoxes );
     Vec_IntErase( &p->vObjs );
     ABC_FREE( p );
 }

 static inline void Psr_ManVecFree( Vec_Ptr_t * vPrs )
 {
     Psr_Ntk_t * pNtk; int i;
     Vec_PtrForEachEntry( Psr_Ntk_t *, vPrs, pNtk, i )
         Psr_NtkFree( pNtk );
     Vec_PtrFree( vPrs );
 }

 static inline void Psr_ManFree( Psr_Man_t * p )
 {
     if ( p->pStrs )
         Abc_NamDeref( p->pStrs );
     if ( p->vNtks )
         Psr_ManVecFree( p->vNtks );
     // temporary
     Vec_StrErase( &p->vCover );
     Vec_IntErase( &p->vTemp );
     Vec_IntErase( &p->vTemp2 );
     Vec_IntErase( &p->vKnown );
     Vec_IntErase( &p->vFailed );
     Vec_IntErase( &p->vSucceeded );
     ABC_FREE( p->pBuffer );
     ABC_FREE( p );
 }

 static inline int Psr_NtkMemory( Psr_Ntk_t * p )
 {
     int nMem = sizeof(Psr_Ntk_t);
     nMem += Vec_IntMemory( &p->vOrder );
     nMem += Vec_IntMemory( &p->vInouts );
     nMem += Vec_IntMemory( &p->vInputs );
     nMem += Vec_IntMemory( &p->vOutputs );
     nMem += Vec_IntMemory( &p->vWires );
     nMem += Vec_IntMemory( &p->vInoutsR );
     nMem += Vec_IntMemory( &p->vInputsR );
     nMem += Vec_IntMemory( &p->vOutputsR );
     nMem += Vec_IntMemory( &p->vWiresR );
     nMem += Vec_IntMemory( &p->vSlices );
     nMem += Vec_IntMemory( &p->vBoxes );
     nMem += Vec_IntMemory( &p->vConcats );
     return nMem;
 }
 static inline int Psr_ManMemory( Vec_Ptr_t * vPrs )
 {
     Psr_Ntk_t * pNtk; int i;
     int nMem = Vec_PtrMemory(vPrs);
     Vec_PtrForEachEntry( Psr_Ntk_t *, vPrs, pNtk, i )
         nMem += Psr_NtkMemory( pNtk );
     nMem += Abc_NamMemUsed(Psr_ManNameMan(vPrs));
     return nMem;
 }


 ////////////////////////////////////////////////////////////////////////
 ///                             ITERATORS                            ///
 ////////////////////////////////////////////////////////////////////////

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

 /*=== bac.c ========================================================*/


 ABC_NAMESPACE_HEADER_END

 #endif

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

	FileName [bacPrs.h]

	SystemName [ABC: Logic synthesis and verification system.]

	PackageName [Hierarchical word-level netlist.]

	Synopsis [Parser declarations.]

	Author [Alan Mishchenko]

	Affiliation [UC Berkeley]

	Date [Ver. 1.0. Started - November 29, 2014.]

	Revision [$Id: bacPrs.h,v 1.00 2014/11/29 00:00:00 alanmi Exp $]

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

	#ifndef ABC__base__prs__prs_h
	#define ABC__base__prs__prs_h


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

	#include "aig/gia/gia.h"
	#include "misc/util/utilNam.h"

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

	ABC_NAMESPACE_HEADER_START

	// parser name types
	typedef enum {
	BAC_PRS_NAME = 0, // 0: name/variable
	BAC_PRS_SLICE, // 1: slice
	BAC_PRS_CONST, // 2: constant
	BAC_PRS_CONCAT, // 3: concatentation
	} Psr_ManType_t;

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

	// network
	typedef struct Psr_Ntk_t_ Psr_Ntk_t;
	struct Psr_Ntk_t_
	{
	// general info
	int iModuleName;
	unsigned fMapped : 1;
	unsigned fSlices : 1;
	unsigned fHasC0s : 1;
	unsigned fHasC1s : 1;
	unsigned fHasCXs : 1;
	unsigned fHasCZs : 1;
	Abc_Nam_t * pStrs;
	// interface
	Vec_Int_t vOrder; // order of signals
	// signal names
	Vec_Int_t vInouts; // inouts
	Vec_Int_t vInputs; // inputs
	Vec_Int_t vOutputs; // outputs
	Vec_Int_t vWires; // wires
	// signal ranges
	Vec_Int_t vInoutsR; // inouts
	Vec_Int_t vInputsR; // inputs
	Vec_Int_t vOutputsR; // outputs
	Vec_Int_t vWiresR; // wires
	// slices/concatenations/objects
	Vec_Int_t vSlices; // NameId + RangeId
	Vec_Int_t vConcats; // array of NameId/SliceId/ConstId
	Vec_Int_t vBoxes; // ModuleId + InstId + array of pairs {FormNameId, ActSignalId(NameId/SliceId/ConstId/ConcatId)}
	Vec_Int_t vObjs; // box handles
	};

	// parser
	typedef struct Psr_Man_t_ Psr_Man_t;
	struct Psr_Man_t_
	{
	// input data
	char * pName; // file name
	char * pBuffer; // file contents
	char * pLimit; // end of file
	char * pCur; // current position
	Abc_Nam_t * pStrs; // string manager
	Psr_Ntk_t * pNtk; // current network
	Vec_Ptr_t * vNtks; // input networks
	// temporary data
	Vec_Str_t vCover; // one SOP cover
	Vec_Int_t vTemp; // array of tokens
	Vec_Int_t vTemp2; // array of tokens
	// statistics
	Vec_Int_t vKnown;
	Vec_Int_t vFailed;
	Vec_Int_t vSucceeded;
	// error handling
	int fUsingTemp2; // vTemp2 is in use
	char ErrorStr[1000]; // error
	};

	static inline Psr_Ntk_t * Psr_ManNtk( Vec_Ptr_t * vPrs, int i ) { return i >= 0 && i < Vec_PtrSize(vPrs) ? (Psr_Ntk_t *)Vec_PtrEntry(vPrs, i) : NULL; }
	static inline Psr_Ntk_t * Psr_ManRoot( Vec_Ptr_t * vPrs ) { return Psr_ManNtk(vPrs, 0); }
	static inline Abc_Nam_t * Psr_ManNameMan( Vec_Ptr_t * vPrs ) { return Psr_ManRoot(vPrs)->pStrs; }

	static inline int Psr_NtkId( Psr_Ntk_t * p ) { return p->iModuleName; }
	static inline int Psr_NtkPioNum( Psr_Ntk_t * p ) { return Vec_IntSize(&p->vInouts); }
	static inline int Psr_NtkPiNum( Psr_Ntk_t * p ) { return Vec_IntSize(&p->vInputs); }
	static inline int Psr_NtkPoNum( Psr_Ntk_t * p ) { return Vec_IntSize(&p->vOutputs); }
	static inline int Psr_NtkBoxNum( Psr_Ntk_t * p ) { return Vec_IntSize(&p->vObjs); }
	static inline int Psr_NtkObjNum( Psr_Ntk_t * p ) { return Psr_NtkPioNum(p) + Psr_NtkPiNum(p) + Psr_NtkPoNum(p) + Psr_NtkBoxNum(p); }
	static inline char * Psr_NtkStr( Psr_Ntk_t * p, int h ) { return Abc_NamStr(p->pStrs, h); }
	static inline char * Psr_NtkName( Psr_Ntk_t * p ) { return Psr_NtkStr(p, Psr_NtkId(p)); }
	static inline int Psr_NtkSigName( Psr_Ntk_t * p, int i ) { if (!p->fSlices) return i; assert(Abc_Lit2Att2(i) == BAC_PRS_NAME); return Abc_Lit2Var2(i); }

	static inline int Psr_SliceName( Psr_Ntk_t * p, int h ) { return Vec_IntEntry(&p->vSlices, h); }
	static inline int Psr_SliceRange( Psr_Ntk_t * p, int h ) { return Vec_IntEntry(&p->vSlices, h+1); }

	static inline int Psr_CatSize( Psr_Ntk_t * p, int h ) { return Vec_IntEntry(&p->vConcats, h); }
	static inline int * Psr_CatArray( Psr_Ntk_t * p, int h ) { return Vec_IntEntryP(&p->vConcats, h+1); }
	static inline Vec_Int_t * Psr_CatSignals( Psr_Ntk_t * p, int h ) { static Vec_Int_t V; V.nSize = V.nCap = Psr_CatSize(p, h); V.pArray = Psr_CatArray(p, h); return &V; }

	static inline int Psr_BoxHand( Psr_Ntk_t * p, int i ) { return Vec_IntEntry(&p->vObjs, i); }
	static inline int Psr_BoxSize( Psr_Ntk_t * p, int i ) { return Vec_IntEntry(&p->vBoxes, Psr_BoxHand(p, i))-2; }
	static inline int Psr_BoxIONum( Psr_Ntk_t * p, int i ) { return Psr_BoxSize(p, i) / 2; }
	static inline int Psr_BoxNtk( Psr_Ntk_t * p, int i ) { return Vec_IntEntry(&p->vBoxes, Psr_BoxHand(p, i)+1); }
	static inline void Psr_BoxSetNtk( Psr_Ntk_t * p, int i, int m ) { Vec_IntWriteEntry(&p->vBoxes, Psr_BoxHand(p, i)+1, m); }
	static inline int Psr_BoxName( Psr_Ntk_t * p, int i ) { return Vec_IntEntry(&p->vBoxes, Psr_BoxHand(p, i)+2); }
	static inline int Psr_BoxIsNode( Psr_Ntk_t * p, int i ) { return!Vec_IntEntry(&p->vBoxes, Psr_BoxHand(p, i)+3); } // no formal names
	static inline int * Psr_BoxArray( Psr_Ntk_t * p, int i ) { return Vec_IntEntryP(&p->vBoxes, Psr_BoxHand(p, i)+3); }
	static inline Vec_Int_t * Psr_BoxSignals( Psr_Ntk_t * p, int i ) { static Vec_Int_t V; V.nSize = V.nCap = Psr_BoxSize(p, i); V.pArray = Psr_BoxArray(p, i); return &V; }

	#define Psr_ManForEachNameVec( vVec, p, pName, i ) \
	for ( i = 0; (i < Vec_IntSize(vVec)) && ((pName) = Abc_NamStr(p->pStrs, Vec_IntEntry(vVec,i))); i++ )

	#define Psr_NtkForEachPio( p, NameId, i ) \
	for ( i = 0; i < Psr_NtkPioNum(p) && ((NameId) = Vec_IntEntry(&p->vInouts, i)); i++ )
	#define Psr_NtkForEachPi( p, NameId, i ) \
	for ( i = 0; i < Psr_NtkPiNum(p) && ((NameId) = Vec_IntEntry(&p->vInputs, i)); i++ )
	#define Psr_NtkForEachPo( p, NameId, i ) \
	for ( i = 0; i < Psr_NtkPoNum(p) && ((NameId) = Vec_IntEntry(&p->vOutputs, i)); i++ )
	#define Psr_NtkForEachBox( p, vVec, i ) \
	for ( i = 0; i < Psr_NtkBoxNum(p) && ((vVec) = Psr_BoxSignals(p, i)); i++ )

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

	// create error message
	static inline int Psr_ManErrorSet( Psr_Man_t * p, char * pError, int Value )
	{
	assert( !p->ErrorStr[0] );
	sprintf( p->ErrorStr, "%s", pError );
	return Value;
	}
	// clear error message
	static inline void Psr_ManErrorClear( Psr_Man_t * p )
	{
	p->ErrorStr[0] = '\0';
	}
	// print error message
	static inline int Psr_ManErrorPrint( Psr_Man_t * p )
	{
	char * pThis; int iLine = 0;
	if ( !p->ErrorStr[0] ) return 1;
	for ( pThis = p->pBuffer; pThis < p->pCur; pThis++ )
	iLine += (int)(*pThis == '\n');
	printf( "Line %d: %s\n", iLine, p->ErrorStr );
	return 0;
	}

	// parsing network
	static inline void Psr_ManInitializeNtk( Psr_Man_t * p, int iName, int fSlices )
	{
	assert( p->pNtk == NULL );
	p->pNtk = ABC_CALLOC( Psr_Ntk_t, 1 );
	p->pNtk->iModuleName = iName;
	p->pNtk->fSlices = fSlices;
	p->pNtk->pStrs = Abc_NamRef( p->pStrs );
	Vec_PtrPush( p->vNtks, p->pNtk );
	}
	static inline void Psr_ManFinalizeNtk( Psr_Man_t * p )
	{
	assert( p->pNtk != NULL );
	p->pNtk = NULL;
	}

	// parsing slice/concatentation/box
	static inline int Psr_NtkAddSlice( Psr_Ntk_t * p, int Name, int Range )
	{
	int Value = Vec_IntSize(&p->vSlices);
	Vec_IntPushTwo( &p->vSlices, Name, Range );
	return Value;
	}
	static inline int Psr_NtkAddConcat( Psr_Ntk_t * p, Vec_Int_t * vTemp )
	{
	int Value;
	if ( !(Vec_IntSize(&p->vConcats) & 1) )
	Vec_IntPush(&p->vConcats, -1);
	Value = Vec_IntSize(&p->vConcats);
	assert( Value & 1 );
	Vec_IntPush( &p->vConcats, Vec_IntSize(vTemp) );
	Vec_IntAppend( &p->vConcats, vTemp );
	return Value;
	}
	static inline void Psr_NtkAddBox( Psr_Ntk_t * p, int ModName, int InstName, Vec_Int_t * vTemp )
	{
	int Value;
	assert( Vec_IntSize(vTemp) % 2 == 0 );
	if ( !(Vec_IntSize(&p->vBoxes) & 1) )
	Vec_IntPush(&p->vBoxes, -1);
	Value = Vec_IntSize(&p->vBoxes);
	assert( Value & 1 );
	Vec_IntPush( &p->vObjs, Value );
	// create entry
	Vec_IntPush( &p->vBoxes, Vec_IntSize(vTemp)+2 );
	Vec_IntPush( &p->vBoxes, ModName );
	Vec_IntPush( &p->vBoxes, InstName );
	Vec_IntAppend( &p->vBoxes, vTemp );
	}


	static inline char * Psr_ManLoadFile( char * pFileName, char ** ppLimit )
	{
	char * pBuffer;
	int nFileSize, RetValue;
	FILE * pFile = fopen( pFileName, "rb" );
	if ( pFile == NULL )
	{
	printf( "Cannot open input file.\n" );
	return NULL;
	}
	// get the file size, in bytes
	fseek( pFile, 0, SEEK_END );
	nFileSize = ftell( pFile );
	// move the file current reading position to the beginning
	rewind( pFile );
	// load the contents of the file into memory
	pBuffer = ABC_ALLOC( char, nFileSize + 16 );
	pBuffer[0] = '\n';
	RetValue = fread( pBuffer+1, nFileSize, 1, pFile );
	fclose( pFile );
	// terminate the string with '\0'
	pBuffer[nFileSize + 1] = '\n';
	pBuffer[nFileSize + 2] = '\0';
	*ppLimit = pBuffer + nFileSize + 3;
	return pBuffer;
	}
	static inline Psr_Man_t * Psr_ManAlloc( char * pFileName )
	{
	Psr_Man_t * p;
	char * pBuffer, * pLimit;
	pBuffer = Psr_ManLoadFile( pFileName, &pLimit );
	if ( pBuffer == NULL )
	return NULL;
	p = ABC_CALLOC( Psr_Man_t, 1 );
	p->pName = pFileName;
	p->pBuffer = pBuffer;
	p->pLimit = pLimit;
	p->pCur = pBuffer;
	p->pStrs = Abc_NamStart( 1000, 24 );
	p->vNtks = Vec_PtrAlloc( 100 );
	return p;
	}

	static inline void Psr_NtkFree( Psr_Ntk_t * p )
	{
	if ( p->pStrs )
	Abc_NamDeref( p->pStrs );
	Vec_IntErase( &p->vOrder );
	Vec_IntErase( &p->vInouts );
	Vec_IntErase( &p->vInputs );
	Vec_IntErase( &p->vOutputs );
	Vec_IntErase( &p->vWires );
	Vec_IntErase( &p->vInoutsR );
	Vec_IntErase( &p->vInputsR );
	Vec_IntErase( &p->vOutputsR );
	Vec_IntErase( &p->vWiresR );
	Vec_IntErase( &p->vSlices );
	Vec_IntErase( &p->vConcats );
	Vec_IntErase( &p->vBoxes );
	Vec_IntErase( &p->vObjs );
	ABC_FREE( p );
	}

	static inline void Psr_ManVecFree( Vec_Ptr_t * vPrs )
	{
	Psr_Ntk_t * pNtk; int i;
	Vec_PtrForEachEntry( Psr_Ntk_t *, vPrs, pNtk, i )
	Psr_NtkFree( pNtk );
	Vec_PtrFree( vPrs );
	}

	static inline void Psr_ManFree( Psr_Man_t * p )
	{
	if ( p->pStrs )
	Abc_NamDeref( p->pStrs );
	if ( p->vNtks )
	Psr_ManVecFree( p->vNtks );
	// temporary
	Vec_StrErase( &p->vCover );
	Vec_IntErase( &p->vTemp );
	Vec_IntErase( &p->vTemp2 );
	Vec_IntErase( &p->vKnown );
	Vec_IntErase( &p->vFailed );
	Vec_IntErase( &p->vSucceeded );
	ABC_FREE( p->pBuffer );
	ABC_FREE( p );
	}

	static inline int Psr_NtkMemory( Psr_Ntk_t * p )
	{
	int nMem = sizeof(Psr_Ntk_t);
	nMem += Vec_IntMemory( &p->vOrder );
	nMem += Vec_IntMemory( &p->vInouts );
	nMem += Vec_IntMemory( &p->vInputs );
	nMem += Vec_IntMemory( &p->vOutputs );
	nMem += Vec_IntMemory( &p->vWires );
	nMem += Vec_IntMemory( &p->vInoutsR );
	nMem += Vec_IntMemory( &p->vInputsR );
	nMem += Vec_IntMemory( &p->vOutputsR );
	nMem += Vec_IntMemory( &p->vWiresR );
	nMem += Vec_IntMemory( &p->vSlices );
	nMem += Vec_IntMemory( &p->vBoxes );
	nMem += Vec_IntMemory( &p->vConcats );
	return nMem;
	}
	static inline int Psr_ManMemory( Vec_Ptr_t * vPrs )
	{
	Psr_Ntk_t * pNtk; int i;
	int nMem = Vec_PtrMemory(vPrs);
	Vec_PtrForEachEntry( Psr_Ntk_t *, vPrs, pNtk, i )
	nMem += Psr_NtkMemory( pNtk );
	nMem += Abc_NamMemUsed(Psr_ManNameMan(vPrs));
	return nMem;
	}



	////////////////////////////////////////////////////////////////////////
	/// ITERATORS ///
	////////////////////////////////////////////////////////////////////////

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

	/=== bac.c ========================================================/


	ABC_NAMESPACE_HEADER_END

	#endif

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