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|
/**CFile****************************************************************
FileName [superAnd.c]
PackageName [MVSIS 1.3: Multi-valued logic synthesis system.]
Synopsis [Pre-computation of supergates.]
Author [MVSIS Group]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - September 8, 2003.]
Revision [$Id: superAnd.c,v 1.3 2004/06/28 14:20:25 alanmi Exp $]
***********************************************************************/
#include "superInt.h"
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
// the bit masks
#define SUPER_MASK(n) ((~((unsigned)0)) >> (32-n))
#define SUPER_FULL (~((unsigned)0))
// data structure for AND2 subgraph precomputation
typedef struct Super2_ManStruct_t_ Super2_Man_t; // manager
typedef struct Super2_LibStruct_t_ Super2_Lib_t; // library
typedef struct Super2_GateStruct_t_ Super2_Gate_t; // supergate
struct Super2_ManStruct_t_
{
Extra_MmFixed_t * pMem; // memory manager for all supergates
stmm_table * tTable; // mapping of truth tables into gates
int nTried; // the total number of tried
};
struct Super2_LibStruct_t_
{
int i; // used to iterate through the table
int k; // used to iterate through the table
int nInputs; // the number of inputs
int nMints; // the number of minterms
int nLevels; // the number of logic levels
int nGates; // the number of gates in the library
int nGatesAlloc; // the number of allocated places
Super2_Gate_t ** pGates; // the gates themselves
unsigned uMaskBit; // the mask used to determine the compl bit
};
struct Super2_GateStruct_t_
{
unsigned uTruth; // the truth table of this supergate
Super2_Gate_t * pOne; // the left wing
Super2_Gate_t * pTwo; // the right wing
Super2_Gate_t * pNext; // the next gate in the table
};
// manipulation of complemented attributes
#define Super2_IsComplement(p) (((int)((ABC_PTRUINT_T) (p) & 01)))
#define Super2_Regular(p) ((Super2_Gate_t *)((ABC_PTRUINT_T)(p) & ~01))
#define Super2_Not(p) ((Super2_Gate_t *)((ABC_PTRUINT_T)(p) ^ 01))
#define Super2_NotCond(p,c) ((Super2_Gate_t *)((ABC_PTRUINT_T)(p) ^ (c)))
// iterating through the gates in the library
#define Super2_LibForEachGate( Lib, Gate ) \
for ( Lib->i = 0; \
Lib->i < Lib->nGates && (Gate = Lib->pGates[Lib->i]); \
Lib->i++ )
#define Super2_LibForEachGate2( Lib, Gate2 ) \
for ( Lib->k = 0; \
Lib->k < Lib->i && (Gate2 = Lib->pGates[Lib->k]); \
Lib->k++ )
// static functions
static Super2_Man_t * Super2_ManStart();
static void Super2_ManStop( Super2_Man_t * pMan );
static Super2_Lib_t * Super2_LibStart();
static Super2_Lib_t * Super2_LibDup( Super2_Lib_t * pLib );
static void Super2_LibStop( Super2_Lib_t * pLib );
static void Super2_LibAddGate( Super2_Lib_t * pLib, Super2_Gate_t * pGate );
static Super2_Lib_t * Super2_LibFirst( Super2_Man_t * pMan, int nInputs );
static Super2_Lib_t * Super2_LibCompute( Super2_Man_t * pMan, Super2_Lib_t * pLib );
static void Super2_LibWrite( Super2_Lib_t * pLib );
static void Super2_LibWriteGate( FILE * pFile, Super2_Lib_t * pLib, Super2_Gate_t * pGate );
static char * Super2_LibWriteGate_rec( Super2_Gate_t * pGate, int fInv, int Level );
static int Super2_LibWriteCompare( char * pStr1, char * pStr2 );
static int Super2_LibCompareGates( Super2_Gate_t ** ppG1, Super2_Gate_t ** ppG2 );
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Precomputes the library of AND2 gates.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Super2_Precompute( int nInputs, int nLevels, int fVerbose )
{
Super2_Man_t * pMan;
Super2_Lib_t * pLibCur, * pLibNext;
int Level;
abctime clk;
assert( nInputs < 6 );
// start the manager
pMan = Super2_ManStart();
// get the starting supergates
pLibCur = Super2_LibFirst( pMan, nInputs );
// perform the computation of supergates
printf( "Computing supergates for %d inputs and %d levels:\n", nInputs, nLevels );
for ( Level = 1; Level <= nLevels; Level++ )
{
clk = Abc_Clock();
pLibNext = Super2_LibCompute( pMan, pLibCur );
pLibNext->nLevels = Level;
Super2_LibStop( pLibCur );
pLibCur = pLibNext;
printf( "Level %d: Tried = %7d. Computed = %7d. ", Level, pMan->nTried, pLibCur->nGates );
ABC_PRT( "Runtime", Abc_Clock() - clk );
fflush( stdout );
}
printf( "Writing the output file...\n" );
fflush( stdout );
// write them into a file
Super2_LibWrite( pLibCur );
Super2_LibStop( pLibCur );
// stop the manager
Super2_ManStop( pMan );
}
/**Function*************************************************************
Synopsis [Starts the manager.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Super2_Man_t * Super2_ManStart()
{
Super2_Man_t * pMan;
pMan = ABC_ALLOC( Super2_Man_t, 1 );
memset( pMan, 0, sizeof(Super2_Man_t) );
pMan->pMem = Extra_MmFixedStart( sizeof(Super2_Gate_t) );
pMan->tTable = stmm_init_table( st__ptrcmp, st__ptrhash );
return pMan;
}
/**Function*************************************************************
Synopsis [Stops the manager.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Super2_ManStop( Super2_Man_t * pMan )
{
Extra_MmFixedStop( pMan->pMem );
stmm_free_table( pMan->tTable );
ABC_FREE( pMan );
}
/**Function*************************************************************
Synopsis [Starts the library.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Super2_Lib_t * Super2_LibStart()
{
Super2_Lib_t * pLib;
pLib = ABC_ALLOC( Super2_Lib_t, 1 );
memset( pLib, 0, sizeof(Super2_Lib_t) );
return pLib;
}
/**Function*************************************************************
Synopsis [Duplicates the library.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Super2_Lib_t * Super2_LibDup( Super2_Lib_t * pLib )
{
Super2_Lib_t * pLibNew;
pLibNew = Super2_LibStart();
pLibNew->nInputs = pLib->nInputs;
pLibNew->nMints = pLib->nMints;
pLibNew->nLevels = pLib->nLevels;
pLibNew->nGates = pLib->nGates;
pLibNew->uMaskBit = pLib->uMaskBit;
pLibNew->nGatesAlloc = 1000 + pLib->nGatesAlloc;
pLibNew->pGates = ABC_ALLOC( Super2_Gate_t *, pLibNew->nGatesAlloc );
memcpy( pLibNew->pGates, pLib->pGates, pLibNew->nGates * sizeof(Super2_Gate_t *) );
return pLibNew;
}
/**Function*************************************************************
Synopsis [Add gate to the library.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Super2_LibAddGate( Super2_Lib_t * pLib, Super2_Gate_t * pGate )
{
if ( pLib->nGates == pLib->nGatesAlloc )
{
pLib->pGates = ABC_REALLOC( Super2_Gate_t *, pLib->pGates, 3 * pLib->nGatesAlloc );
pLib->nGatesAlloc *= 3;
}
pLib->pGates[ pLib->nGates++ ] = pGate;
}
/**Function*************************************************************
Synopsis [Stops the library.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Super2_LibStop( Super2_Lib_t * pLib )
{
ABC_FREE( pLib->pGates );
ABC_FREE( pLib );
}
/**Function*************************************************************
Synopsis [Derives the starting supergates.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Super2_Lib_t * Super2_LibFirst( Super2_Man_t * pMan, int nInputs )
{
Super2_Lib_t * pLib;
int v, m;
// start the library
pLib = Super2_LibStart();
// create the starting supergates
pLib->nInputs = nInputs;
pLib->nMints = (1 << nInputs);
pLib->nLevels = 0;
pLib->nGates = nInputs + 1;
pLib->nGatesAlloc = nInputs + 1;
pLib->uMaskBit = (1 << (pLib->nMints-1));
pLib->pGates = ABC_ALLOC( Super2_Gate_t *, nInputs + 1 );
// add the constant 0
pLib->pGates[0] = (Super2_Gate_t *)Extra_MmFixedEntryFetch( pMan->pMem );
memset( pLib->pGates[0], 0, sizeof(Super2_Gate_t) );
// add the elementary gates
for ( v = 0; v < nInputs; v++ )
{
pLib->pGates[v+1] = (Super2_Gate_t *)Extra_MmFixedEntryFetch( pMan->pMem );
memset( pLib->pGates[v+1], 0, sizeof(Super2_Gate_t) );
pLib->pGates[v+1]->pTwo = (Super2_Gate_t *)(ABC_PTRUINT_T)v;
}
// set up their truth tables
for ( m = 0; m < pLib->nMints; m++ )
for ( v = 0; v < nInputs; v++ )
if ( m & (1 << v) )
pLib->pGates[v+1]->uTruth |= (1 << m);
return pLib;
}
/**Function*************************************************************
Synopsis [Precomputes one level of supergates.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Super2_Lib_t * Super2_LibCompute( Super2_Man_t * pMan, Super2_Lib_t * pLib )
{
Super2_Lib_t * pLibNew;
Super2_Gate_t * pGate1, * pGate2, * pGateNew;
Super2_Gate_t ** ppGate;
unsigned Mask = SUPER_MASK(pLib->nMints);
unsigned uTruth, uTruthR, uTruth1, uTruth2, uTruth1c, uTruth2c;
// start the new library
pLibNew = Super2_LibDup( pLib );
// reset the hash table
stmm_free_table( pMan->tTable );
pMan->tTable = stmm_init_table( st__ptrcmp, st__ptrhash );
// set the starting things into the hash table
Super2_LibForEachGate( pLibNew, pGate1 )
{
uTruthR = ((pGate1->uTruth & pLibNew->uMaskBit)? Mask & ~pGate1->uTruth : pGate1->uTruth);
if ( stmm_lookup( pMan->tTable, (char *)(ABC_PTRUINT_T)uTruthR, (char **)&pGate2 ) )
{
printf( "New gate:\n" );
Super2_LibWriteGate( stdout, pLibNew, pGate1 );
printf( "Gate in the table:\n" );
Super2_LibWriteGate( stdout, pLibNew, pGate2 );
assert( 0 );
}
stmm_insert( pMan->tTable, (char *)(ABC_PTRUINT_T)uTruthR, (char *)(ABC_PTRUINT_T)pGate1 );
}
// set the number of gates tried
pMan->nTried = pLibNew->nGates;
// go through the gate pairs
Super2_LibForEachGate( pLib, pGate1 )
{
if ( pLib->i && pLib->i % 300 == 0 )
{
printf( "Tried %5d first gates...\n", pLib->i );
fflush( stdout );
}
Super2_LibForEachGate2( pLib, pGate2 )
{
uTruth1 = pGate1->uTruth;
uTruth2 = pGate2->uTruth;
uTruth1c = Mask & ~uTruth1;
uTruth2c = Mask & ~uTruth2;
// none complemented
uTruth = uTruth1 & uTruth2;
uTruthR = ((uTruth & pLibNew->uMaskBit)? Mask & ~uTruth : uTruth);
if ( !stmm_find_or_add( pMan->tTable, (char *)(ABC_PTRUINT_T)uTruthR, (char ***)&ppGate ) )
{
pGateNew = (Super2_Gate_t *)Extra_MmFixedEntryFetch( pMan->pMem );
pGateNew->pOne = pGate1;
pGateNew->pTwo = pGate2;
pGateNew->uTruth = uTruth;
*ppGate = pGateNew;
Super2_LibAddGate( pLibNew, pGateNew );
}
// one complemented
uTruth = uTruth1c & uTruth2;
uTruthR = ((uTruth & pLibNew->uMaskBit)? Mask & ~uTruth : uTruth);
if ( !stmm_find_or_add( pMan->tTable, (char *)(ABC_PTRUINT_T)uTruthR, (char ***)&ppGate ) )
{
pGateNew = (Super2_Gate_t *)Extra_MmFixedEntryFetch( pMan->pMem );
pGateNew->pOne = Super2_Not(pGate1);
pGateNew->pTwo = pGate2;
pGateNew->uTruth = uTruth;
*ppGate = pGateNew;
Super2_LibAddGate( pLibNew, pGateNew );
}
// another complemented
uTruth = uTruth1 & uTruth2c;
uTruthR = ((uTruth & pLibNew->uMaskBit)? Mask & ~uTruth : uTruth);
if ( !stmm_find_or_add( pMan->tTable, (char *)(ABC_PTRUINT_T)uTruthR, (char ***)&ppGate ) )
{
pGateNew = (Super2_Gate_t *)Extra_MmFixedEntryFetch( pMan->pMem );
pGateNew->pOne = pGate1;
pGateNew->pTwo = Super2_Not(pGate2);
pGateNew->uTruth = uTruth;
*ppGate = pGateNew;
Super2_LibAddGate( pLibNew, pGateNew );
}
// both complemented
uTruth = uTruth1c & uTruth2c;
uTruthR = ((uTruth & pLibNew->uMaskBit)? Mask & ~uTruth : uTruth);
if ( !stmm_find_or_add( pMan->tTable, (char *)(ABC_PTRUINT_T)uTruthR, (char ***)&ppGate ) )
{
pGateNew = (Super2_Gate_t *)Extra_MmFixedEntryFetch( pMan->pMem );
pGateNew->pOne = Super2_Not(pGate1);
pGateNew->pTwo = Super2_Not(pGate2);
pGateNew->uTruth = uTruth;
*ppGate = pGateNew;
Super2_LibAddGate( pLibNew, pGateNew );
}
pMan->nTried += 4;
}
}
return pLibNew;
}
static unsigned s_uMaskBit;
static unsigned s_uMaskAll;
/**Function*************************************************************
Synopsis [Writes the library into the file.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Super2_LibWrite( Super2_Lib_t * pLib )
{
Super2_Gate_t * pGate;
FILE * pFile;
char FileName[100];
abctime clk;
if ( pLib->nLevels > 5 )
{
printf( "Cannot write file for %d levels.\n", pLib->nLevels );
return;
}
clk = Abc_Clock();
// sort the supergates by truth table
s_uMaskBit = pLib->uMaskBit;
s_uMaskAll = SUPER_MASK(pLib->nMints);
qsort( (void *)pLib->pGates, pLib->nGates, sizeof(Super2_Gate_t *),
(int (*)(const void *, const void *)) Super2_LibCompareGates );
assert( Super2_LibCompareGates( pLib->pGates, pLib->pGates + pLib->nGates - 1 ) < 0 );
ABC_PRT( "Sorting", Abc_Clock() - clk );
// start the file
sprintf( FileName, "superI%dL%d", pLib->nInputs, pLib->nLevels );
pFile = fopen( FileName, "w" );
fprintf( pFile, "# AND2/INV supergates derived on %s.\n", Extra_TimeStamp() );
fprintf( pFile, "# Command line: \"super2 -i %d -l %d\".\n", pLib->nInputs, pLib->nLevels );
fprintf( pFile, "# The number of inputs = %6d.\n", pLib->nInputs );
fprintf( pFile, "# The number of levels = %6d.\n", pLib->nLevels );
fprintf( pFile, "# The number of supergates = %6d.\n", pLib->nGates );
fprintf( pFile, "# The total functions = %6d.\n", (1<<(pLib->nMints-1)) );
fprintf( pFile, "\n" );
fprintf( pFile, "%6d\n", pLib->nGates );
// print the gates
Super2_LibForEachGate( pLib, pGate )
Super2_LibWriteGate( pFile, pLib, pGate );
fclose( pFile );
printf( "The supergates are written into file \"%s\" ", FileName );
printf( "(%0.2f MB).\n", ((double)Extra_FileSize(FileName))/(1<<20) );
}
/**Function*************************************************************
Synopsis [Writes the gate into the file.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Super2_LibCompareGates( Super2_Gate_t ** ppG1, Super2_Gate_t ** ppG2 )
{
Super2_Gate_t * pG1 = *ppG1;
Super2_Gate_t * pG2 = *ppG2;
unsigned uTruth1, uTruth2;
uTruth1 = (pG1->uTruth & s_uMaskBit)? s_uMaskAll & ~pG1->uTruth : pG1->uTruth;
uTruth2 = (pG2->uTruth & s_uMaskBit)? s_uMaskAll & ~pG2->uTruth : pG2->uTruth;
if ( uTruth1 < uTruth2 )
return -1;
return 1;
}
/**Function*************************************************************
Synopsis [Writes the gate into the file.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Super2_LibWriteGate( FILE * pFile, Super2_Lib_t * pLib, Super2_Gate_t * pGate )
{
// unsigned uTruthR;
unsigned uTruth;
int fInv;
// check whether the gate need complementation
fInv = (int)(pGate->uTruth & pLib->uMaskBit);
uTruth = (fInv? ~pGate->uTruth : pGate->uTruth);
/*
// reverse the truth table
uTruthR = 0;
for ( m = 0; m < pLib->nMints; m++ )
if ( uTruth & (1 << m) )
uTruthR |= (1 << (pLib->nMints-1-m));
*/
// write the truth table
Extra_PrintBinary( pFile, &uTruth, pLib->nMints );
fprintf( pFile, " " );
// write the symbolic expression
fprintf( pFile, "%s", Super2_LibWriteGate_rec( pGate, fInv, pLib->nLevels ) );
fprintf( pFile, "\n" );
}
/**Function*************************************************************
Synopsis [Recursively writes the gate into the file.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
char * Super2_LibWriteGate_rec( Super2_Gate_t * pGate, int fInv, int Level )
{
static char Buff01[ 3], Buff02[ 3]; // Max0 = 1
static char Buff11[ 6], Buff12[ 6]; // Max1 = 2*Max0 + 2 = 4
static char Buff21[ 12], Buff22[ 12]; // Max2 = 2*Max1 + 2 = 10
static char Buff31[ 25], Buff32[ 25]; // Max3 = 2*Max2 + 2 = 22
static char Buff41[ 50], Buff42[ 50]; // Max4 = 2*Max3 + 2 = 46
static char Buff51[100], Buff52[100]; // Max5 = 2*Max4 + 2 = 94
static char * pBuffs1[6] = { Buff01, Buff11, Buff21, Buff31, Buff41, Buff51 };
static char * pBuffs2[6] = { Buff02, Buff12, Buff22, Buff32, Buff42, Buff52 };
char * pBranch;
char * pBuffer1 = pBuffs1[Level];
char * pBuffer2 = pBuffs2[Level];
Super2_Gate_t * pGateNext1, * pGateNext2;
int fInvNext1, fInvNext2;
int RetValue;
// consider the last level
assert( Level >= 0 );
if ( pGate->pOne == NULL )
{
if ( pGate->uTruth == 0 )
{
pBuffer1[0] = (fInv? '1': '0');
pBuffer1[1] = '$';
pBuffer1[2] = 0;
}
else
{
pBuffer1[0] = (fInv? 'A' + ((int)(ABC_PTRUINT_T)pGate->pTwo): 'a' + ((int)(ABC_PTRUINT_T)pGate->pTwo));
pBuffer1[1] = 0;
}
return pBuffer1;
}
assert( Level > 0 );
// get the left branch
pGateNext1 = Super2_Regular(pGate->pOne);
fInvNext1 = Super2_IsComplement(pGate->pOne);
pBranch = Super2_LibWriteGate_rec(pGateNext1, fInvNext1, Level - 1);
// copy into Buffer1
strcpy( pBuffer1, pBranch );
// get the right branch
pGateNext2 = Super2_Regular(pGate->pTwo);
fInvNext2 = Super2_IsComplement(pGate->pTwo);
pBranch = Super2_LibWriteGate_rec(pGateNext2, fInvNext2, Level - 1);
// consider the case when comparison is not necessary
if ( fInvNext1 ^ fInvNext2 )
{
if ( fInvNext1 > fInvNext2 )
sprintf( pBuffer2, "%c%s%s%c", (fInv? '<': '('), pBuffer1, pBranch, (fInv? '>': ')') );
else
sprintf( pBuffer2, "%c%s%s%c", (fInv? '<': '('), pBranch, pBuffer1, (fInv? '>': ')') );
}
else
{
// compare the two branches
RetValue = Super2_LibWriteCompare( pBuffer1, pBranch );
if ( RetValue == 1 )
sprintf( pBuffer2, "%c%s%s%c", (fInv? '<': '('), pBuffer1, pBranch, (fInv? '>': ')') );
else // if ( RetValue == -1 )
{
sprintf( pBuffer2, "%c%s%s%c", (fInv? '<': '('), pBranch, pBuffer1, (fInv? '>': ')') );
if ( RetValue == 0 )
printf( "Strange!\n" );
}
}
return pBuffer2;
}
/**Function*************************************************************
Synopsis [Compares the two branches of the tree.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Super2_LibWriteCompare( char * pStr1, char * pStr2 )
{
while ( 1 )
{
// skip extra symbols
while ( *pStr1 && *pStr1 < 'A' )
pStr1++;
while ( *pStr2 && *pStr2 < 'A' )
pStr2++;
// check if any one is finished
if ( *pStr1 == 0 || *pStr2 == 0 )
{
if ( *pStr2 )
return 1;
return -1;
}
// compare
if ( *pStr1 == *pStr2 )
{
pStr1++;
pStr2++;
}
else
{
if ( *pStr1 < *pStr2 )
return 1;
return -1;
}
}
return 0;
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
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