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/**CFile****************************************************************
FileName [extra.h]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [extra]
Synopsis [Various reusable software utilities.]
Description [This library contains a number of operators and
traversal routines developed to extend the functionality of
CUDD v.2.3.x, by Fabio Somenzi (http://vlsi.colorado.edu/~fabio/)
To compile your code with the library, #include "extra.h"
in your source files and link your project to CUDD and this
library. Use the library at your own risk and with caution.
Note that debugging of some operators still continues.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [$Id: extra.h,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
***********************************************************************/
#ifndef __EXTRA_H__
#define __EXTRA_H__
#ifdef __cplusplus
extern "C" {
#endif
#ifdef _WIN32
#define inline __inline // compatible with MS VS 6.0
#endif
/*---------------------------------------------------------------------------*/
/* Nested includes */
/*---------------------------------------------------------------------------*/
// this include should be the first one in the list
// it is used to catch memory leaks on Windows
#include "leaks.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <time.h>
#include "st.h"
#include "cuddInt.h"
/*---------------------------------------------------------------------------*/
/* Constant declarations */
/*---------------------------------------------------------------------------*/
/*---------------------------------------------------------------------------*/
/* Stucture declarations */
/*---------------------------------------------------------------------------*/
/*---------------------------------------------------------------------------*/
/* Type declarations */
/*---------------------------------------------------------------------------*/
/*---------------------------------------------------------------------------*/
/* Variable declarations */
/*---------------------------------------------------------------------------*/
/*---------------------------------------------------------------------------*/
/* Macro declarations */
/*---------------------------------------------------------------------------*/
typedef unsigned char uint8;
typedef unsigned short uint16;
typedef unsigned int uint32;
#ifdef WIN32
typedef unsigned __int64 uint64;
#else
typedef unsigned long long uint64;
#endif
/* constants of the manager */
#define b0 Cudd_Not((dd)->one)
#define b1 (dd)->one
#define z0 (dd)->zero
#define z1 (dd)->one
#define a0 (dd)->zero
#define a1 (dd)->one
// hash key macros
#define hashKey1(a,TSIZE) \
((unsigned)(a) % TSIZE)
#define hashKey2(a,b,TSIZE) \
(((unsigned)(a) + (unsigned)(b) * DD_P1) % TSIZE)
#define hashKey3(a,b,c,TSIZE) \
(((((unsigned)(a) + (unsigned)(b)) * DD_P1 + (unsigned)(c)) * DD_P2 ) % TSIZE)
#define hashKey4(a,b,c,d,TSIZE) \
((((((unsigned)(a) + (unsigned)(b)) * DD_P1 + (unsigned)(c)) * DD_P2 + \
(unsigned)(d)) * DD_P3) % TSIZE)
#define hashKey5(a,b,c,d,e,TSIZE) \
(((((((unsigned)(a) + (unsigned)(b)) * DD_P1 + (unsigned)(c)) * DD_P2 + \
(unsigned)(d)) * DD_P3 + (unsigned)(e)) * DD_P1) % TSIZE)
#ifndef PRT
#define PRT(a,t) printf("%s = ", (a)); printf("%6.2f sec\n", (float)(t)/(float)(CLOCKS_PER_SEC))
#define PRTn(a,t) printf("%s = ", (a)); printf("%6.2f sec ", (float)(t)/(float)(CLOCKS_PER_SEC))
#endif
#ifndef PRTP
#define PRTP(a,t,T) printf("%s = ", (a)); printf("%6.2f sec (%6.2f %%)\n", (float)(t)/(float)(CLOCKS_PER_SEC), (T)? 100.0*(t)/(T) : 0.0)
#endif
/*===========================================================================*/
/* Various Utilities */
/*===========================================================================*/
/*=== extraBddAuto.c ========================================================*/
extern DdNode * Extra_bddSpaceFromFunctionFast( DdManager * dd, DdNode * bFunc );
extern DdNode * Extra_bddSpaceFromFunction( DdManager * dd, DdNode * bF, DdNode * bG );
extern DdNode * extraBddSpaceFromFunction( DdManager * dd, DdNode * bF, DdNode * bG );
extern DdNode * Extra_bddSpaceFromFunctionPos( DdManager * dd, DdNode * bFunc );
extern DdNode * extraBddSpaceFromFunctionPos( DdManager * dd, DdNode * bFunc );
extern DdNode * Extra_bddSpaceFromFunctionNeg( DdManager * dd, DdNode * bFunc );
extern DdNode * extraBddSpaceFromFunctionNeg( DdManager * dd, DdNode * bFunc );
extern DdNode * Extra_bddSpaceCanonVars( DdManager * dd, DdNode * bSpace );
extern DdNode * extraBddSpaceCanonVars( DdManager * dd, DdNode * bSpace );
extern DdNode * Extra_bddSpaceEquations( DdManager * dd, DdNode * bSpace );
extern DdNode * Extra_bddSpaceEquationsNeg( DdManager * dd, DdNode * bSpace );
extern DdNode * extraBddSpaceEquationsNeg( DdManager * dd, DdNode * bSpace );
extern DdNode * Extra_bddSpaceEquationsPos( DdManager * dd, DdNode * bSpace );
extern DdNode * extraBddSpaceEquationsPos( DdManager * dd, DdNode * bSpace );
extern DdNode * Extra_bddSpaceFromMatrixPos( DdManager * dd, DdNode * zA );
extern DdNode * extraBddSpaceFromMatrixPos( DdManager * dd, DdNode * zA );
extern DdNode * Extra_bddSpaceFromMatrixNeg( DdManager * dd, DdNode * zA );
extern DdNode * extraBddSpaceFromMatrixNeg( DdManager * dd, DdNode * zA );
extern DdNode * Extra_bddSpaceReduce( DdManager * dd, DdNode * bFunc, DdNode * bCanonVars );
extern DdNode ** Extra_bddSpaceExorGates( DdManager * dd, DdNode * bFuncRed, DdNode * zEquations );
/*=== extraBddCas.c =============================================================*/
/* performs the binary encoding of the set of function using the given vars */
extern DdNode * Extra_bddEncodingBinary( DdManager * dd, DdNode ** pbFuncs, int nFuncs, DdNode ** pbVars, int nVars );
/* solves the column encoding problem using a sophisticated method */
extern DdNode * Extra_bddEncodingNonStrict( DdManager * dd, DdNode ** pbColumns, int nColumns, DdNode * bVarsCol, DdNode ** pCVars, int nMulti, int * pSimple );
/* collects the nodes under the cut and, for each node, computes the sum of paths leading to it from the root */
extern st_table * Extra_bddNodePathsUnderCut( DdManager * dd, DdNode * bFunc, int CutLevel );
/* collects the nodes under the cut starting from the given set of ADD nodes */
extern int Extra_bddNodePathsUnderCutArray( DdManager * dd, DdNode ** paNodes, DdNode ** pbCubes, int nNodes, DdNode ** paNodesRes, DdNode ** pbCubesRes, int CutLevel );
/* find the profile of a DD (the number of edges crossing each level) */
extern int Extra_ProfileWidth( DdManager * dd, DdNode * F, int * Profile, int CutLevel );
/*=== extraBddMisc.c ========================================================*/
extern DdNode * Extra_TransferPermute( DdManager * ddSource, DdManager * ddDestination, DdNode * f, int * Permute );
extern DdNode * Extra_TransferLevelByLevel( DdManager * ddSource, DdManager * ddDestination, DdNode * f );
extern DdNode * Extra_bddRemapUp( DdManager * dd, DdNode * bF );
extern DdNode * Extra_bddMove( DdManager * dd, DdNode * bF, int fShiftUp );
extern DdNode * extraBddMove( DdManager * dd, DdNode * bF, DdNode * bFlag );
extern void Extra_StopManager( DdManager * dd );
extern void Extra_bddPrint( DdManager * dd, DdNode * F );
extern void extraDecomposeCover( DdManager* dd, DdNode* zC, DdNode** zC0, DdNode** zC1, DdNode** zC2 );
extern int Extra_bddSuppSize( DdManager * dd, DdNode * bSupp );
extern int Extra_bddSuppContainVar( DdManager * dd, DdNode * bS, DdNode * bVar );
extern int Extra_bddSuppOverlapping( DdManager * dd, DdNode * S1, DdNode * S2 );
extern int Extra_bddSuppDifferentVars( DdManager * dd, DdNode * S1, DdNode * S2, int DiffMax );
extern int Extra_bddSuppCheckContainment( DdManager * dd, DdNode * bL, DdNode * bH, DdNode ** bLarge, DdNode ** bSmall );
extern int * Extra_SupportArray( DdManager * dd, DdNode * F, int * support );
extern int * Extra_VectorSupportArray( DdManager * dd, DdNode ** F, int n, int * support );
extern DdNode * Extra_bddFindOneCube( DdManager * dd, DdNode * bF );
extern DdNode * Extra_bddGetOneCube( DdManager * dd, DdNode * bFunc );
extern DdNode * Extra_bddComputeRangeCube( DdManager * dd, int iStart, int iStop );
extern DdNode * Extra_bddBitsToCube( DdManager * dd, int Code, int CodeWidth, DdNode ** pbVars, int fMsbFirst );
extern DdNode * Extra_bddSupportNegativeCube( DdManager * dd, DdNode * f );
extern int Extra_bddIsVar( DdNode * bFunc );
extern DdNode * Extra_bddCreateAnd( DdManager * dd, int nVars );
extern DdNode * Extra_bddCreateOr( DdManager * dd, int nVars );
extern DdNode * Extra_bddCreateExor( DdManager * dd, int nVars );
extern DdNode * Extra_zddPrimes( DdManager * dd, DdNode * F );
extern void Extra_bddPermuteArray( DdManager * dd, DdNode ** bNodesIn, DdNode ** bNodesOut, int nNodes, int *permut );
/*=== extraBddKmap.c ================================================================*/
/* displays the Karnaugh Map of a function */
extern void Extra_PrintKMap( FILE * pFile, DdManager * dd, DdNode * OnSet, DdNode * OffSet, int nVars, DdNode ** XVars, int fSuppType, char ** pVarNames );
/* displays the Karnaugh Map of a relation */
extern void Extra_PrintKMapRelation( FILE * pFile, DdManager * dd, DdNode * OnSet, DdNode * OffSet, int nXVars, int nYVars, DdNode ** XVars, DdNode ** YVars );
/*=== extraBddSymm.c =================================================================*/
typedef struct Extra_SymmInfo_t_ Extra_SymmInfo_t;
struct Extra_SymmInfo_t_ {
int nVars; // the number of variables in the support
int nVarsMax; // the number of variables in the DD manager
int nSymms; // the number of pair-wise symmetries
int nNodes; // the number of nodes in a ZDD (if applicable)
int * pVars; // the list of all variables present in the support
char ** pSymms; // the symmetry information
};
/* computes the classical symmetry information for the function - recursive */
extern Extra_SymmInfo_t * Extra_SymmPairsCompute( DdManager * dd, DdNode * bFunc );
/* computes the classical symmetry information for the function - using naive approach */
extern Extra_SymmInfo_t * Extra_SymmPairsComputeNaive( DdManager * dd, DdNode * bFunc );
extern int Extra_bddCheckVarsSymmetricNaive( DdManager * dd, DdNode * bF, int iVar1, int iVar2 );
/* allocates the data structure */
extern Extra_SymmInfo_t * Extra_SymmPairsAllocate( int nVars );
/* deallocates the data structure */
extern void Extra_SymmPairsDissolve( Extra_SymmInfo_t * );
/* print the contents the data structure */
extern void Extra_SymmPairsPrint( Extra_SymmInfo_t * );
/* converts the ZDD into the Extra_SymmInfo_t structure */
extern Extra_SymmInfo_t * Extra_SymmPairsCreateFromZdd( DdManager * dd, DdNode * zPairs, DdNode * bVars );
/* computes the classical symmetry information as a ZDD */
extern DdNode * Extra_zddSymmPairsCompute( DdManager * dd, DdNode * bF, DdNode * bVars );
extern DdNode * extraZddSymmPairsCompute( DdManager * dd, DdNode * bF, DdNode * bVars );
/* returns a singleton-set ZDD containing all variables that are symmetric with the given one */
extern DdNode * Extra_zddGetSymmetricVars( DdManager * dd, DdNode * bF, DdNode * bG, DdNode * bVars );
extern DdNode * extraZddGetSymmetricVars( DdManager * dd, DdNode * bF, DdNode * bG, DdNode * bVars );
/* converts a set of variables into a set of singleton subsets */
extern DdNode * Extra_zddGetSingletons( DdManager * dd, DdNode * bVars );
extern DdNode * extraZddGetSingletons( DdManager * dd, DdNode * bVars );
/* filters the set of variables using the support of the function */
extern DdNode * Extra_bddReduceVarSet( DdManager * dd, DdNode * bVars, DdNode * bF );
extern DdNode * extraBddReduceVarSet( DdManager * dd, DdNode * bVars, DdNode * bF );
/* checks the possibility that the two vars are symmetric */
extern int Extra_bddCheckVarsSymmetric( DdManager * dd, DdNode * bF, int iVar1, int iVar2 );
extern DdNode * extraBddCheckVarsSymmetric( DdManager * dd, DdNode * bF, DdNode * bVars );
/* build the set of all tuples of K variables out of N from the BDD cube */
extern DdNode * Extra_zddTuplesFromBdd( DdManager * dd, int K, DdNode * bVarsN );
extern DdNode * extraZddTuplesFromBdd( DdManager * dd, DdNode * bVarsK, DdNode * bVarsN );
/* selects one subset from a ZDD representing the set of subsets */
extern DdNode * Extra_zddSelectOneSubset( DdManager * dd, DdNode * zS );
extern DdNode * extraZddSelectOneSubset( DdManager * dd, DdNode * zS );
/*=== extraBddUnate.c =================================================================*/
typedef struct Extra_UnateVar_t_ Extra_UnateVar_t;
struct Extra_UnateVar_t_ {
unsigned iVar : 30; // index of the variable
unsigned Pos : 1; // 1 if positive unate
unsigned Neg : 1; // 1 if negative unate
};
typedef struct Extra_UnateInfo_t_ Extra_UnateInfo_t;
struct Extra_UnateInfo_t_ {
int nVars; // the number of variables in the support
int nVarsMax; // the number of variables in the DD manager
int nUnate; // the number of unate variables
Extra_UnateVar_t * pVars; // the array of variables present in the support
};
/* allocates the data structure */
extern Extra_UnateInfo_t * Extra_UnateInfoAllocate( int nVars );
/* deallocates the data structure */
extern void Extra_UnateInfoDissolve( Extra_UnateInfo_t * );
/* print the contents the data structure */
extern void Extra_UnateInfoPrint( Extra_UnateInfo_t * );
/* converts the ZDD into the Extra_SymmInfo_t structure */
extern Extra_UnateInfo_t * Extra_UnateInfoCreateFromZdd( DdManager * dd, DdNode * zUnate, DdNode * bVars );
/* naive check of unateness of one variable */
extern int Extra_bddCheckUnateNaive( DdManager * dd, DdNode * bF, int iVar );
/* computes the unateness information for the function */
extern Extra_UnateInfo_t * Extra_UnateComputeFast( DdManager * dd, DdNode * bFunc );
extern Extra_UnateInfo_t * Extra_UnateComputeSlow( DdManager * dd, DdNode * bFunc );
/* computes the classical symmetry information as a ZDD */
extern DdNode * Extra_zddUnateInfoCompute( DdManager * dd, DdNode * bF, DdNode * bVars );
extern DdNode * extraZddUnateInfoCompute( DdManager * dd, DdNode * bF, DdNode * bVars );
/* converts a set of variables into a set of singleton subsets */
extern DdNode * Extra_zddGetSingletonsBoth( DdManager * dd, DdNode * bVars );
extern DdNode * extraZddGetSingletonsBoth( DdManager * dd, DdNode * bVars );
/*=== extraUtilBitMatrix.c ================================================================*/
typedef struct Extra_BitMat_t_ Extra_BitMat_t;
extern Extra_BitMat_t * Extra_BitMatrixStart( int nSize );
extern void Extra_BitMatrixClean( Extra_BitMat_t * p );
extern void Extra_BitMatrixStop( Extra_BitMat_t * p );
extern void Extra_BitMatrixPrint( Extra_BitMat_t * p );
extern int Extra_BitMatrixReadSize( Extra_BitMat_t * p );
extern void Extra_BitMatrixInsert1( Extra_BitMat_t * p, int i, int k );
extern int Extra_BitMatrixLookup1( Extra_BitMat_t * p, int i, int k );
extern void Extra_BitMatrixDelete1( Extra_BitMat_t * p, int i, int k );
extern void Extra_BitMatrixInsert2( Extra_BitMat_t * p, int i, int k );
extern int Extra_BitMatrixLookup2( Extra_BitMat_t * p, int i, int k );
extern void Extra_BitMatrixDelete2( Extra_BitMat_t * p, int i, int k );
extern void Extra_BitMatrixOr( Extra_BitMat_t * p, int i, unsigned * pInfo );
extern void Extra_BitMatrixOrTwo( Extra_BitMat_t * p, int i, int j );
extern int Extra_BitMatrixCountOnesUpper( Extra_BitMat_t * p );
extern int Extra_BitMatrixIsDisjoint( Extra_BitMat_t * p1, Extra_BitMat_t * p2 );
extern int Extra_BitMatrixIsClique( Extra_BitMat_t * p );
/*=== extraUtilFile.c ========================================================*/
extern char * Extra_FileGetSimilarName( char * pFileNameWrong, char * pS1, char * pS2, char * pS3, char * pS4, char * pS5 );
extern char * Extra_FileNameExtension( char * FileName );
extern char * Extra_FileNameAppend( char * pBase, char * pSuffix );
extern char * Extra_FileNameGeneric( char * FileName );
extern int Extra_FileSize( char * pFileName );
extern char * Extra_FileRead( FILE * pFile );
extern char * Extra_TimeStamp();
extern char * Extra_StringAppend( char * pStrGiven, char * pStrAdd );
extern unsigned Extra_ReadBinary( char * Buffer );
extern void Extra_PrintBinary( FILE * pFile, unsigned Sign[], int nBits );
extern int Extra_ReadHexadecimal( unsigned Sign[], char * pString, int nVars );
extern void Extra_PrintHexadecimal( FILE * pFile, unsigned Sign[], int nVars );
extern void Extra_PrintHexadecimalString( char * pString, unsigned Sign[], int nVars );
extern void Extra_PrintHex( FILE * pFile, unsigned uTruth, int nVars );
extern void Extra_PrintSymbols( FILE * pFile, char Char, int nTimes, int fPrintNewLine );
/*=== extraUtilReader.c ========================================================*/
typedef struct Extra_FileReader_t_ Extra_FileReader_t;
extern Extra_FileReader_t * Extra_FileReaderAlloc( char * pFileName,
char * pCharsComment, char * pCharsStop, char * pCharsClean );
extern void Extra_FileReaderFree( Extra_FileReader_t * p );
extern char * Extra_FileReaderGetFileName( Extra_FileReader_t * p );
extern int Extra_FileReaderGetFileSize( Extra_FileReader_t * p );
extern int Extra_FileReaderGetCurPosition( Extra_FileReader_t * p );
extern void * Extra_FileReaderGetTokens( Extra_FileReader_t * p );
extern int Extra_FileReaderGetLineNumber( Extra_FileReader_t * p, int iToken );
/*=== extraUtilMemory.c ========================================================*/
typedef struct Extra_MmFixed_t_ Extra_MmFixed_t;
typedef struct Extra_MmFlex_t_ Extra_MmFlex_t;
typedef struct Extra_MmStep_t_ Extra_MmStep_t;
// fixed-size-block memory manager
extern Extra_MmFixed_t * Extra_MmFixedStart( int nEntrySize );
extern void Extra_MmFixedStop( Extra_MmFixed_t * p );
extern char * Extra_MmFixedEntryFetch( Extra_MmFixed_t * p );
extern void Extra_MmFixedEntryRecycle( Extra_MmFixed_t * p, char * pEntry );
extern void Extra_MmFixedRestart( Extra_MmFixed_t * p );
extern int Extra_MmFixedReadMemUsage( Extra_MmFixed_t * p );
extern int Extra_MmFixedReadMaxEntriesUsed( Extra_MmFixed_t * p );
// flexible-size-block memory manager
extern Extra_MmFlex_t * Extra_MmFlexStart();
extern void Extra_MmFlexStop( Extra_MmFlex_t * p );
extern void Extra_MmFlexPrint( Extra_MmFlex_t * p );
extern char * Extra_MmFlexEntryFetch( Extra_MmFlex_t * p, int nBytes );
extern int Extra_MmFlexReadMemUsage( Extra_MmFlex_t * p );
// hierarchical memory manager
extern Extra_MmStep_t * Extra_MmStepStart( int nSteps );
extern void Extra_MmStepStop( Extra_MmStep_t * p );
extern char * Extra_MmStepEntryFetch( Extra_MmStep_t * p, int nBytes );
extern void Extra_MmStepEntryRecycle( Extra_MmStep_t * p, char * pEntry, int nBytes );
extern int Extra_MmStepReadMemUsage( Extra_MmStep_t * p );
/*=== extraUtilMisc.c ========================================================*/
/* finds the smallest integer larger or equal than the logarithm */
extern int Extra_Base2Log( unsigned Num );
extern int Extra_Base2LogDouble( double Num );
extern int Extra_Base10Log( unsigned Num );
/* returns the power of two as a double */
extern double Extra_Power2( int Num );
extern int Extra_Power3( int Num );
/* the number of combinations of k elements out of n */
extern int Extra_NumCombinations( int k, int n );
extern int * Extra_DeriveRadixCode( int Number, int Radix, int nDigits );
/* counts the number of 1s in the bitstring */
extern int Extra_CountOnes( unsigned char * pBytes, int nBytes );
/* the factorial of number */
extern int Extra_Factorial( int n );
/* the permutation of the given number of elements */
extern char ** Extra_Permutations( int n );
/* permutation and complementation of a truth table */
unsigned Extra_TruthPermute( unsigned Truth, char * pPerms, int nVars, int fReverse );
unsigned Extra_TruthPolarize( unsigned uTruth, int Polarity, int nVars );
/* canonical forms of a truth table */
extern unsigned Extra_TruthCanonN( unsigned uTruth, int nVars );
extern unsigned Extra_TruthCanonNN( unsigned uTruth, int nVars );
extern unsigned Extra_TruthCanonP( unsigned uTruth, int nVars );
extern unsigned Extra_TruthCanonNP( unsigned uTruth, int nVars );
extern unsigned Extra_TruthCanonNPN( unsigned uTruth, int nVars );
/* canonical forms of 4-variable functions */
extern void Extra_Truth4VarNPN( unsigned short ** puCanons, char ** puPhases, char ** puPerms, unsigned char ** puMap );
extern void Extra_Truth4VarN( unsigned short ** puCanons, char *** puPhases, char ** ppCounters, int nPhasesMax );
/* permutation mapping */
extern unsigned short Extra_TruthPerm4One( unsigned uTruth, int Phase );
extern unsigned Extra_TruthPerm5One( unsigned uTruth, int Phase );
extern void Extra_TruthPerm6One( unsigned * uTruth, int Phase, unsigned * uTruthRes );
extern void Extra_TruthExpand( int nVars, int nWords, unsigned * puTruth, unsigned uPhase, unsigned * puTruthR );
/* precomputing tables for permutation mapping */
extern void ** Extra_ArrayAlloc( int nCols, int nRows, int Size );
extern unsigned short ** Extra_TruthPerm43();
extern unsigned ** Extra_TruthPerm53();
extern unsigned ** Extra_TruthPerm54();
/* bubble sort for small number of entries */
extern void Extra_BubbleSort( int Order[], int Costs[], int nSize, int fIncreasing );
/* for independence from CUDD */
extern unsigned int Cudd_PrimeCopy( unsigned int p );
/*=== extraUtilCanon.c ========================================================*/
/* fast computation of N-canoninical form up to 6 inputs */
extern int Extra_TruthCanonFastN( int nVarsMax, int nVarsReal, unsigned * pt, unsigned ** pptRes, char ** ppfRes );
/*=== extraUtilProgress.c ================================================================*/
typedef struct ProgressBarStruct ProgressBar;
extern ProgressBar * Extra_ProgressBarStart( FILE * pFile, int nItemsTotal );
extern void Extra_ProgressBarStop( ProgressBar * p );
extern void Extra_ProgressBarUpdate_int( ProgressBar * p, int nItemsCur, char * pString );
static inline void Extra_ProgressBarUpdate( ProgressBar * p, int nItemsCur, char * pString )
{ if ( p && nItemsCur < *((int*)p) ) return; Extra_ProgressBarUpdate_int(p, nItemsCur, pString); }
/*=== extraUtilTruth.c ================================================================*/
static inline int Extra_Float2Int( float Val ) { return *((int *)&Val); }
static inline float Extra_Int2Float( int Num ) { return *((float *)&Num); }
static inline int Extra_BitWordNum( int nBits ) { return nBits/(8*sizeof(unsigned)) + ((nBits%(8*sizeof(unsigned))) > 0); }
static inline int Extra_TruthWordNum( int nVars ) { return nVars <= 5 ? 1 : (1 << (nVars - 5)); }
static inline void Extra_TruthSetBit( unsigned * p, int Bit ) { p[Bit>>5] |= (1<<(Bit & 31)); }
static inline void Extra_TruthXorBit( unsigned * p, int Bit ) { p[Bit>>5] ^= (1<<(Bit & 31)); }
static inline int Extra_TruthHasBit( unsigned * p, int Bit ) { return (p[Bit>>5] & (1<<(Bit & 31))) > 0; }
static inline int Extra_WordCountOnes( unsigned uWord )
{
uWord = (uWord & 0x55555555) + ((uWord>>1) & 0x55555555);
uWord = (uWord & 0x33333333) + ((uWord>>2) & 0x33333333);
uWord = (uWord & 0x0F0F0F0F) + ((uWord>>4) & 0x0F0F0F0F);
uWord = (uWord & 0x00FF00FF) + ((uWord>>8) & 0x00FF00FF);
return (uWord & 0x0000FFFF) + (uWord>>16);
}
static inline int Extra_TruthCountOnes( unsigned * pIn, int nVars )
{
int w, Counter = 0;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
Counter += Extra_WordCountOnes(pIn[w]);
return Counter;
}
static inline int Extra_TruthIsEqual( unsigned * pIn0, unsigned * pIn1, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
if ( pIn0[w] != pIn1[w] )
return 0;
return 1;
}
static inline int Extra_TruthIsConst0( unsigned * pIn, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
if ( pIn[w] )
return 0;
return 1;
}
static inline int Extra_TruthIsConst1( unsigned * pIn, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
if ( pIn[w] != ~(unsigned)0 )
return 0;
return 1;
}
static inline int Extra_TruthIsImply( unsigned * pIn1, unsigned * pIn2, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
if ( pIn1[w] & ~pIn2[w] )
return 0;
return 1;
}
static inline void Extra_TruthCopy( unsigned * pOut, unsigned * pIn, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = pIn[w];
}
static inline void Extra_TruthClear( unsigned * pOut, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = 0;
}
static inline void Extra_TruthFill( unsigned * pOut, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = ~(unsigned)0;
}
static inline void Extra_TruthNot( unsigned * pOut, unsigned * pIn, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = ~pIn[w];
}
static inline void Extra_TruthAnd( unsigned * pOut, unsigned * pIn0, unsigned * pIn1, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = pIn0[w] & pIn1[w];
}
static inline void Extra_TruthOr( unsigned * pOut, unsigned * pIn0, unsigned * pIn1, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = pIn0[w] | pIn1[w];
}
static inline void Extra_TruthSharp( unsigned * pOut, unsigned * pIn0, unsigned * pIn1, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = pIn0[w] & ~pIn1[w];
}
static inline void Extra_TruthNand( unsigned * pOut, unsigned * pIn0, unsigned * pIn1, int nVars )
{
int w;
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = ~(pIn0[w] & pIn1[w]);
}
static inline void Extra_TruthAndPhase( unsigned * pOut, unsigned * pIn0, unsigned * pIn1, int nVars, int fCompl0, int fCompl1 )
{
int w;
if ( fCompl0 && fCompl1 )
{
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = ~(pIn0[w] | pIn1[w]);
}
else if ( fCompl0 && !fCompl1 )
{
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = ~pIn0[w] & pIn1[w];
}
else if ( !fCompl0 && fCompl1 )
{
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = pIn0[w] & ~pIn1[w];
}
else // if ( !fCompl0 && !fCompl1 )
{
for ( w = Extra_TruthWordNum(nVars)-1; w >= 0; w-- )
pOut[w] = pIn0[w] & pIn1[w];
}
}
extern unsigned ** Extra_TruthElementary( int nVars );
extern void Extra_TruthSwapAdjacentVars( unsigned * pOut, unsigned * pIn, int nVars, int Start );
extern void Extra_TruthStretch( unsigned * pOut, unsigned * pIn, int nVars, int nVarsAll, unsigned Phase );
extern void Extra_TruthShrink( unsigned * pOut, unsigned * pIn, int nVars, int nVarsAll, unsigned Phase );
extern int Extra_TruthVarInSupport( unsigned * pTruth, int nVars, int iVar );
extern int Extra_TruthSupportSize( unsigned * pTruth, int nVars );
extern int Extra_TruthSupport( unsigned * pTruth, int nVars );
extern void Extra_TruthCofactor0( unsigned * pTruth, int nVars, int iVar );
extern void Extra_TruthCofactor1( unsigned * pTruth, int nVars, int iVar );
extern void Extra_TruthExist( unsigned * pTruth, int nVars, int iVar );
extern void Extra_TruthForall( unsigned * pTruth, int nVars, int iVar );
extern void Extra_TruthMux( unsigned * pOut, unsigned * pCof0, unsigned * pCof1, int nVars, int iVar );
extern void Extra_TruthChangePhase( unsigned * pTruth, int nVars, int iVar );
extern int Extra_TruthMinCofSuppOverlap( unsigned * pTruth, int nVars, int * pVarMin );
extern void Extra_TruthCountOnesInCofs( unsigned * pTruth, int nVars, short * pStore );
extern unsigned Extra_TruthHash( unsigned * pIn, int nWords );
extern unsigned Extra_TruthSemiCanonicize( unsigned * pInOut, unsigned * pAux, int nVars, char * pCanonPerm, short * pStore );
/*=== extraUtilUtil.c ================================================================*/
#ifndef ABS
#define ABS(a) ((a) < 0 ? -(a) : (a))
#endif
#ifndef MAX
#define MAX(a,b) ((a) > (b) ? (a) : (b))
#endif
#ifndef MIN
#define MIN(a,b) ((a) < (b) ? (a) : (b))
#endif
#ifndef ALLOC
#define ALLOC(type, num) ((type *) malloc(sizeof(type) * (num)))
#endif
#ifndef FREE
#define FREE(obj) ((obj) ? (free((char *) (obj)), (obj) = 0) : 0)
#endif
#ifndef REALLOC
#define REALLOC(type, obj, num) \
((obj) ? ((type *) realloc((char *)(obj), sizeof(type) * (num))) : \
((type *) malloc(sizeof(type) * (num))))
#endif
extern long Extra_CpuTime();
extern int Extra_GetSoftDataLimit();
extern void Extra_UtilGetoptReset();
extern int Extra_UtilGetopt( int argc, char *argv[], char *optstring );
extern char * Extra_UtilPrintTime( long t );
extern char * Extra_UtilStrsav( char *s );
extern char * Extra_UtilTildeExpand( char *fname );
extern char * Extra_UtilFileSearch( char *file, char *path, char *mode );
extern void (*Extra_UtilMMoutOfMemory)();
extern char * globalUtilOptarg;
extern int globalUtilOptind;
/**AutomaticEnd***************************************************************/
#ifdef __cplusplus
}
#endif
#endif /* __EXTRA_H__ */
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