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/**CFile****************************************************************
FileName [mem2.h]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Memory management.]
Synopsis [External declarations.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [$Id: mem2.h,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
***********************************************************************/
#ifndef ABC__aig__mem__mem2_h
#define ABC__aig__mem__mem2_h
#include "misc/vec/vec.h"
ABC_NAMESPACE_HEADER_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
typedef struct Mmr_Flex_t_ Mmr_Flex_t;
typedef struct Mmr_Fixed_t_ Mmr_Fixed_t;
typedef struct Mmr_Step_t_ Mmr_Step_t;
struct Mmr_Flex_t_
{
int nPageBase; // log2 page size in words
int PageMask; // page mask
int nEntries; // entries allocated
int nEntriesMax; // max number of enries used
int iNext; // next word to be used
Vec_Ptr_t vPages; // memory pages
};
struct Mmr_Fixed_t_
{
int nPageBase; // log2 page size in words
int PageMask; // page mask
int nEntryWords; // entry size in words
int nEntries; // entries allocated
int nEntriesMax; // max number of enries used
Vec_Ptr_t vPages; // memory pages
Vec_Int_t vFrees; // free entries
};
struct Mmr_Step_t_
{
int nBits; // the number of bits
int uMask; // the number of managers minus 1
int nEntries; // the number of entries
int nEntriesMax; // the max number of entries
int nEntriesAll; // the total number of entries
Mmr_Fixed_t pMems[0]; // memory managers: 2^0 words, 2^1 words, etc
};
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static inline Mmr_Flex_t * Mmr_FlexStart( int nPageBase )
{
Mmr_Flex_t * p;
p = ABC_CALLOC( Mmr_Flex_t, 1 );
p->nPageBase = nPageBase;
p->PageMask = (1 << nPageBase) - 1;
p->iNext = (1 << nPageBase);
return p;
}
static inline void Mmr_FlexStop( Mmr_Flex_t * p )
{
word * pPage;
int i;
if ( 0 && Vec_PtrSize(&p->vPages) )
printf( "Using %3d pages of %6d words each with %6d entries (max = %6d). Total memory = %5.2f MB.\n",
Vec_PtrSize(&p->vPages), p->nPageBase ? 1 << p->nPageBase : 0, p->nEntries, p->nEntriesMax,
1.0 * Vec_PtrSize(&p->vPages) * (1 << p->nPageBase) * 8 / (1 << 20) );
Vec_PtrForEachEntry( word *, &p->vPages, pPage, i )
ABC_FREE( pPage );
ABC_FREE( p->vPages.pArray );
ABC_FREE( p );
}
static inline word * Mmr_FlexEntry( Mmr_Flex_t * p, int h )
{
assert( h > 0 && h < p->iNext );
return (word *)Vec_PtrEntry(&p->vPages, (h >> p->nPageBase)) + (h & p->PageMask);
}
static inline int Mmr_FlexFetch( Mmr_Flex_t * p, int nWords )
{
int hEntry;
assert( nWords > 0 && nWords < p->PageMask );
if ( p->iNext + nWords >= p->PageMask )
{
Vec_PtrPush( &p->vPages, ABC_FALLOC( word, p->PageMask + 1 ) );
p->iNext = 1;
}
hEntry = ((Vec_PtrSize(&p->vPages) - 1) << p->nPageBase) | p->iNext;
p->iNext += nWords;
p->nEntries++;
p->nEntriesMax = Abc_MaxInt( p->nEntriesMax, p->nEntries );
return hEntry;
}
static inline void Mmr_FlexRelease( Mmr_Flex_t * p, int h )
{
assert( h > 0 && h < p->iNext );
if ( (h >> p->nPageBase) && Vec_PtrEntry(&p->vPages, (h >> p->nPageBase) - 1) )
{
word * pPage = (word *)Vec_PtrEntry(&p->vPages, (h >> p->nPageBase) - 1);
Vec_PtrWriteEntry( &p->vPages, (h >> p->nPageBase) - 1, NULL );
ABC_FREE( pPage );
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static inline void Mmr_FixedCreate( Mmr_Fixed_t * p, int nPageBase, int nEntryWords )
{
assert( nEntryWords > 0 && nEntryWords < (1 << nPageBase) );
p->nPageBase = nPageBase;
p->PageMask = (1 << nPageBase) - 1;
p->nEntryWords = nEntryWords;
}
static inline Mmr_Fixed_t * Mmr_FixedStart( int nPageBase, int nEntryWords )
{
Mmr_Fixed_t * p = ABC_CALLOC( Mmr_Fixed_t, 1 );
Mmr_FixedCreate( p, nPageBase, nEntryWords );
return p;
}
static inline void Mmr_FixedStop( Mmr_Fixed_t * p, int fFreeLast )
{
word * pPage;
int i;
if ( 0 && Vec_PtrSize(&p->vPages) )
printf( "Using %3d pages of %6d words each with %6d entries (max = %6d) of size %d. Total memory = %5.2f MB.\n",
Vec_PtrSize(&p->vPages), p->nPageBase ? 1 << p->nPageBase : 0, p->nEntries, p->nEntriesMax, p->nEntryWords,
1.0 * Vec_PtrSize(&p->vPages) * (1 << p->nPageBase) * 8 / (1 << 20) );
Vec_PtrForEachEntry( word *, &p->vPages, pPage, i )
ABC_FREE( pPage );
ABC_FREE( p->vPages.pArray );
ABC_FREE( p->vFrees.pArray );
if ( fFreeLast )
ABC_FREE( p );
}
static inline word * Mmr_FixedEntry( Mmr_Fixed_t * p, int h )
{
assert( h > 0 && h < (Vec_PtrSize(&p->vPages) << p->nPageBase) );
return (word *)Vec_PtrEntry(&p->vPages, (h >> p->nPageBase)) + (h & p->PageMask);
}
static inline int Mmr_FixedFetch( Mmr_Fixed_t * p )
{
if ( Vec_IntSize(&p->vFrees) == 0 )
{
int i, hEntry = Vec_PtrSize(&p->vPages) << p->nPageBase;
Vec_PtrPush( &p->vPages, ABC_FALLOC( word, p->PageMask + 1 ) );
for ( i = 1; i + p->nEntryWords <= p->PageMask; i += p->nEntryWords )
Vec_IntPush( &p->vFrees, hEntry | i );
Vec_IntReverseOrder( &p->vFrees );
}
p->nEntries++;
p->nEntriesMax = Abc_MaxInt( p->nEntriesMax, p->nEntries );
return Vec_IntPop( &p->vFrees );
}
static inline void Mmr_FixedRecycle( Mmr_Fixed_t * p, int h )
{
p->nEntries--;
memset( Mmr_FixedEntry(p, h), 0xFF, sizeof(word) * p->nEntryWords );
Vec_IntPush( &p->vFrees, h );
}
static inline int Mmr_FixedMemory( Mmr_Fixed_t * p )
{
return Vec_PtrSize(&p->vPages) * (p->PageMask + 1);
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static inline Mmr_Step_t * Mmr_StepStart( int nPageBase, int nWordBase )
{
char * pMemory = ABC_CALLOC( char, sizeof(Mmr_Step_t) + sizeof(Mmr_Fixed_t) * (1 << nWordBase) );
Mmr_Step_t * p = (Mmr_Step_t *)pMemory;
int i;
p->nBits = nWordBase;
p->uMask = (1 << nWordBase) - 1;
for ( i = 1; i <= p->uMask; i++ )
Mmr_FixedCreate( p->pMems + i, nPageBase, i );
return p;
}
static inline void Mmr_StepStop( Mmr_Step_t * p )
{
int i;
for ( i = 0; i <= p->uMask; i++ )
Mmr_FixedStop( p->pMems + i, 0 );
ABC_FREE( p );
}
static inline word * Mmr_StepEntry( Mmr_Step_t * p, int h )
{
assert( (h & p->uMask) > 0 );
return Mmr_FixedEntry( p->pMems + (h & p->uMask), (h >> p->nBits) );
}
static inline int Mmr_StepFetch( Mmr_Step_t * p, int nWords )
{
assert( nWords > 0 && nWords <= p->uMask );
p->nEntries++;
p->nEntriesAll++;
p->nEntriesMax = Abc_MaxInt( p->nEntriesMax, p->nEntries );
return (Mmr_FixedFetch(p->pMems + nWords) << p->nBits) | nWords;
}
static inline void Mmr_StepRecycle( Mmr_Step_t * p, int h )
{
p->nEntries--;
Mmr_FixedRecycle( p->pMems + (h & p->uMask), (h >> p->nBits) );
}
static inline int Mmr_StepMemory( Mmr_Step_t * p )
{
int i, Mem = 0;
for ( i = 1; i <= p->uMask; i++ )
Mem += Mmr_FixedMemory( p->pMems + i );
return Mem;
}
ABC_NAMESPACE_HEADER_END
#endif
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
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