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/**CFile****************************************************************
FileName [ioReadAiger.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Command processing package.]
Synopsis [Procedures to read binary AIGER format developed by
Armin Biere, Johannes Kepler University (http://fmv.jku.at/)]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - December 16, 2006.]
Revision [$Id: ioReadAiger.c,v 1.00 2006/12/16 00:00:00 alanmi Exp $]
***********************************************************************/
// The code in this file is developed in collaboration with Mark Jarvin of Toronto.
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "misc/bzlib/bzlib.h"
#include "misc/zlib/zlib.h"
#include "ioAbc.h"
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Extracts one unsigned AIG edge from the input buffer.]
Description [This procedure is a slightly modified version of Armin Biere's
procedure "unsigned decode (FILE * file)". ]
SideEffects [Updates the current reading position.]
SeeAlso []
***********************************************************************/
static inline unsigned Io_ReadAigerDecode( char ** ppPos )
{
unsigned x = 0, i = 0;
unsigned char ch;
// while ((ch = getnoneofch (file)) & 0x80)
while ((ch = *(*ppPos)++) & 0x80)
x |= (ch & 0x7f) << (7 * i++);
return x | (ch << (7 * i));
}
/**Function*************************************************************
Synopsis [Decodes the encoded array of literals.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Vec_Int_t * Io_WriteDecodeLiterals( char ** ppPos, int nEntries )
{
Vec_Int_t * vLits;
int Lit, LitPrev, Diff, i;
vLits = Vec_IntAlloc( nEntries );
LitPrev = Io_ReadAigerDecode( ppPos );
Vec_IntPush( vLits, LitPrev );
for ( i = 1; i < nEntries; i++ )
{
// Diff = Lit - LitPrev;
// Diff = (Lit < LitPrev)? -Diff : Diff;
// Diff = ((2 * Diff) << 1) | (int)(Lit < LitPrev);
Diff = Io_ReadAigerDecode( ppPos );
Diff = (Diff & 1)? -(Diff >> 1) : Diff >> 1;
Lit = Diff + LitPrev;
Vec_IntPush( vLits, Lit );
LitPrev = Lit;
}
return vLits;
}
/**Function*************************************************************
Synopsis [Reads the file into a character buffer.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
typedef struct buflist {
char buf[1<<20];
int nBuf;
struct buflist * next;
} buflist;
static char * Ioa_ReadLoadFileBz2Aig( char * pFileName, int * pFileSize )
{
FILE * pFile;
int nFileSize = 0;
char * pContents;
BZFILE * b;
int bzError;
struct buflist * pNext;
buflist * bufHead = NULL, * buf = NULL;
int RetValue;
pFile = fopen( pFileName, "rb" );
if ( pFile == NULL )
{
printf( "Ioa_ReadLoadFileBz2(): The file is unavailable (absent or open).\n" );
return NULL;
}
b = BZ2_bzReadOpen(&bzError,pFile,0,0,NULL,0);
if (bzError != BZ_OK) {
printf( "Ioa_ReadLoadFileBz2(): BZ2_bzReadOpen() failed with error %d.\n",bzError );
return NULL;
}
do {
if (!bufHead)
buf = bufHead = ABC_ALLOC( buflist, 1 );
else
buf = buf->next = ABC_ALLOC( buflist, 1 );
nFileSize += buf->nBuf = BZ2_bzRead(&bzError,b,buf->buf,1<<20);
buf->next = NULL;
} while (bzError == BZ_OK);
if (bzError == BZ_STREAM_END) {
// we're okay
char * p;
int nBytes = 0;
BZ2_bzReadClose(&bzError,b);
p = pContents = ABC_ALLOC( char, nFileSize + 10 );
buf = bufHead;
do {
memcpy(p+nBytes,buf->buf,(size_t)buf->nBuf);
nBytes += buf->nBuf;
// } while((buf = buf->next));
pNext = buf->next;
ABC_FREE( buf );
} while((buf = pNext));
} else if (bzError == BZ_DATA_ERROR_MAGIC) {
// not a BZIP2 file
BZ2_bzReadClose(&bzError,b);
fseek( pFile, 0, SEEK_END );
nFileSize = ftell( pFile );
if ( nFileSize == 0 )
{
printf( "Ioa_ReadLoadFileBz2(): The file is empty.\n" );
return NULL;
}
pContents = ABC_ALLOC( char, nFileSize + 10 );
rewind( pFile );
RetValue = fread( pContents, nFileSize, 1, pFile );
} else {
// Some other error.
printf( "Ioa_ReadLoadFileBz2(): Unable to read the compressed BLIF.\n" );
return NULL;
}
fclose( pFile );
// finish off the file with the spare .end line
// some benchmarks suddenly break off without this line
// strcpy( pContents + nFileSize, "\n.end\n" );
*pFileSize = nFileSize;
return pContents;
}
/**Function*************************************************************
Synopsis [Reads the file into a character buffer.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static char * Ioa_ReadLoadFileGzAig( char * pFileName, int * pFileSize )
{
const int READ_BLOCK_SIZE = 100000;
gzFile pFile;
char * pContents;
int amtRead, readBlock, nFileSize = READ_BLOCK_SIZE;
pFile = gzopen( pFileName, "rb" ); // if pFileName doesn't end in ".gz" then this acts as a passthrough to fopen
pContents = ABC_ALLOC( char, nFileSize );
readBlock = 0;
while ((amtRead = gzread(pFile, pContents + readBlock * READ_BLOCK_SIZE, READ_BLOCK_SIZE)) == READ_BLOCK_SIZE) {
//printf("%d: read %d bytes\n", readBlock, amtRead);
nFileSize += READ_BLOCK_SIZE;
pContents = ABC_REALLOC(char, pContents, nFileSize);
++readBlock;
}
//printf("%d: read %d bytes\n", readBlock, amtRead);
assert( amtRead != -1 ); // indicates a zlib error
nFileSize -= (READ_BLOCK_SIZE - amtRead);
gzclose(pFile);
*pFileSize = nFileSize;
return pContents;
}
/**Function*************************************************************
Synopsis [Reads the AIG in the binary AIGER format.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Abc_Ntk_t * Io_ReadAiger( char * pFileName, int fCheck )
{
ProgressBar * pProgress;
FILE * pFile;
Vec_Ptr_t * vNodes, * vTerms;
Vec_Int_t * vLits = NULL;
Abc_Obj_t * pObj, * pNode0, * pNode1;
Abc_Ntk_t * pNtkNew;
int nTotal, nInputs, nOutputs, nLatches, nAnds;
int nBad = 0, nConstr = 0, nJust = 0, nFair = 0;
int nFileSize = -1, iTerm, nDigits, i;
char * pContents, * pDrivers = NULL, * pSymbols, * pCur, * pName, * pType;
unsigned uLit0, uLit1, uLit;
int RetValue;
// read the file into the buffer
if ( !strncmp(pFileName+strlen(pFileName)-4,".bz2",4) )
pContents = Ioa_ReadLoadFileBz2Aig( pFileName, &nFileSize );
else if ( !strncmp(pFileName+strlen(pFileName)-3,".gz",3) )
pContents = Ioa_ReadLoadFileGzAig( pFileName, &nFileSize );
else
{
// pContents = Ioa_ReadLoadFile( pFileName );
nFileSize = Extra_FileSize( pFileName );
pFile = fopen( pFileName, "rb" );
pContents = ABC_ALLOC( char, nFileSize );
RetValue = fread( pContents, nFileSize, 1, pFile );
fclose( pFile );
}
// check if the input file format is correct
if ( strncmp(pContents, "aig", 3) != 0 || (pContents[3] != ' ' && pContents[3] != '2') )
{
fprintf( stdout, "Wrong input file format.\n" );
ABC_FREE( pContents );
return NULL;
}
// read the parameters (M I L O A + B C J F)
pCur = pContents; while ( *pCur != ' ' ) pCur++; pCur++;
// read the number of objects
nTotal = atoi( pCur ); while ( *pCur != ' ' ) pCur++; pCur++;
// read the number of inputs
nInputs = atoi( pCur ); while ( *pCur != ' ' ) pCur++; pCur++;
// read the number of latches
nLatches = atoi( pCur ); while ( *pCur != ' ' ) pCur++; pCur++;
// read the number of outputs
nOutputs = atoi( pCur ); while ( *pCur != ' ' ) pCur++; pCur++;
// read the number of nodes
nAnds = atoi( pCur ); while ( *pCur != ' ' && *pCur != '\n' ) pCur++;
if ( *pCur == ' ' )
{
// assert( nOutputs == 0 );
// read the number of properties
pCur++;
nBad = atoi( pCur ); while ( *pCur != ' ' && *pCur != '\n' ) pCur++;
nOutputs += nBad;
}
if ( *pCur == ' ' )
{
// read the number of properties
pCur++;
nConstr = atoi( pCur ); while ( *pCur != ' ' && *pCur != '\n' ) pCur++;
nOutputs += nConstr;
}
if ( *pCur == ' ' )
{
// read the number of properties
pCur++;
nJust = atoi( pCur ); while ( *pCur != ' ' && *pCur != '\n' ) pCur++;
nOutputs += nJust;
}
if ( *pCur == ' ' )
{
// read the number of properties
pCur++;
nFair = atoi( pCur ); while ( *pCur != ' ' && *pCur != '\n' ) pCur++;
nOutputs += nFair;
}
if ( *pCur != '\n' )
{
fprintf( stdout, "The parameter line is in a wrong format.\n" );
ABC_FREE( pContents );
return NULL;
}
pCur++;
// check the parameters
if ( nTotal != nInputs + nLatches + nAnds )
{
fprintf( stdout, "The number of objects does not match.\n" );
ABC_FREE( pContents );
return NULL;
}
if ( nJust || nFair )
{
fprintf( stdout, "Reading AIGER files with liveness properties is currently not supported.\n" );
ABC_FREE( pContents );
return NULL;
}
if ( nConstr )
{
if ( nConstr == 1 )
fprintf( stdout, "Warning: The last output is interpreted as a constraint.\n" );
else
fprintf( stdout, "Warning: The last %d outputs are interpreted as constraints.\n", nConstr );
}
// allocate the empty AIG
pNtkNew = Abc_NtkAlloc( ABC_NTK_STRASH, ABC_FUNC_AIG, 1 );
pName = Extra_FileNameGeneric( pFileName );
pNtkNew->pName = Extra_UtilStrsav( pName );
pNtkNew->pSpec = Extra_UtilStrsav( pFileName );
ABC_FREE( pName );
pNtkNew->nConstrs = nConstr;
// prepare the array of nodes
vNodes = Vec_PtrAlloc( 1 + nInputs + nLatches + nAnds );
Vec_PtrPush( vNodes, Abc_ObjNot( Abc_AigConst1(pNtkNew) ) );
// create the PIs
for ( i = 0; i < nInputs; i++ )
{
pObj = Abc_NtkCreatePi(pNtkNew);
Vec_PtrPush( vNodes, pObj );
}
// create the POs
for ( i = 0; i < nOutputs; i++ )
{
pObj = Abc_NtkCreatePo(pNtkNew);
}
// create the latches
nDigits = Abc_Base10Log( nLatches );
for ( i = 0; i < nLatches; i++ )
{
pObj = Abc_NtkCreateLatch(pNtkNew);
Abc_LatchSetInit0( pObj );
pNode0 = Abc_NtkCreateBi(pNtkNew);
pNode1 = Abc_NtkCreateBo(pNtkNew);
Abc_ObjAddFanin( pObj, pNode0 );
Abc_ObjAddFanin( pNode1, pObj );
Vec_PtrPush( vNodes, pNode1 );
// assign names to latch and its input
// Abc_ObjAssignName( pObj, Abc_ObjNameDummy("_L", i, nDigits), NULL );
// printf( "Creating latch %s with input %d and output %d.\n", Abc_ObjName(pObj), pNode0->Id, pNode1->Id );
}
if ( pContents[3] == ' ' ) // standard AIGER
{
// remember the beginning of latch/PO literals
pDrivers = pCur;
// scroll to the beginning of the binary data
for ( i = 0; i < nLatches + nOutputs; )
if ( *pCur++ == '\n' )
i++;
}
else // modified AIGER
{
vLits = Io_WriteDecodeLiterals( &pCur, nLatches + nOutputs );
}
// create the AND gates
pProgress = Extra_ProgressBarStart( stdout, nAnds );
for ( i = 0; i < nAnds; i++ )
{
Extra_ProgressBarUpdate( pProgress, i, NULL );
uLit = ((i + 1 + nInputs + nLatches) << 1);
uLit1 = uLit - Io_ReadAigerDecode( &pCur );
uLit0 = uLit1 - Io_ReadAigerDecode( &pCur );
// assert( uLit1 > uLit0 );
pNode0 = Abc_ObjNotCond( (Abc_Obj_t *)Vec_PtrEntry(vNodes, uLit0 >> 1), uLit0 & 1 );
pNode1 = Abc_ObjNotCond( (Abc_Obj_t *)Vec_PtrEntry(vNodes, uLit1 >> 1), uLit1 & 1 );
assert( Vec_PtrSize(vNodes) == i + 1 + nInputs + nLatches );
Vec_PtrPush( vNodes, Abc_AigAnd((Abc_Aig_t *)pNtkNew->pManFunc, pNode0, pNode1) );
}
Extra_ProgressBarStop( pProgress );
// remember the place where symbols begin
pSymbols = pCur;
// read the latch driver literals
pCur = pDrivers;
if ( pContents[3] == ' ' ) // standard AIGER
{
Abc_NtkForEachLatchInput( pNtkNew, pObj, i )
{
uLit0 = atoi( pCur ); while ( *pCur != ' ' && *pCur != '\n' ) pCur++;
if ( *pCur == ' ' ) // read initial value
{
int Init;
pCur++;
Init = atoi( pCur );
if ( Init == 0 )
Abc_LatchSetInit0( Abc_NtkBox(pNtkNew, i) );
else if ( Init == 1 )
Abc_LatchSetInit1( Abc_NtkBox(pNtkNew, i) );
else
{
assert( Init == Abc_Var2Lit(1+Abc_NtkPiNum(pNtkNew)+i, 0) );
// unitialized value of the latch is the latch literal according to http://fmv.jku.at/hwmcc11/beyond1.pdf
Abc_LatchSetInitDc( Abc_NtkBox(pNtkNew, i) );
}
while ( *pCur != ' ' && *pCur != '\n' ) pCur++;
}
if ( *pCur != '\n' )
{
fprintf( stdout, "The initial value of latch number %d is not recongnized.\n", i );
return NULL;
}
pCur++;
pNode0 = Abc_ObjNotCond( (Abc_Obj_t *)Vec_PtrEntry(vNodes, uLit0 >> 1), (uLit0 & 1) );//^ (uLit0 < 2) );
Abc_ObjAddFanin( pObj, pNode0 );
}
// read the PO driver literals
Abc_NtkForEachPo( pNtkNew, pObj, i )
{
uLit0 = atoi( pCur ); while ( *pCur++ != '\n' );
pNode0 = Abc_ObjNotCond( (Abc_Obj_t *)Vec_PtrEntry(vNodes, uLit0 >> 1), (uLit0 & 1) );//^ (uLit0 < 2) );
Abc_ObjAddFanin( pObj, pNode0 );
}
}
else
{
// read the latch driver literals
Abc_NtkForEachLatchInput( pNtkNew, pObj, i )
{
uLit0 = Vec_IntEntry( vLits, i );
pNode0 = Abc_ObjNotCond( (Abc_Obj_t *)Vec_PtrEntry(vNodes, uLit0 >> 1), (uLit0 & 1) );
Abc_ObjAddFanin( pObj, pNode0 );
}
// read the PO driver literals
Abc_NtkForEachPo( pNtkNew, pObj, i )
{
uLit0 = Vec_IntEntry( vLits, i+Abc_NtkLatchNum(pNtkNew) );
pNode0 = Abc_ObjNotCond( (Abc_Obj_t *)Vec_PtrEntry(vNodes, uLit0 >> 1), (uLit0 & 1) );
Abc_ObjAddFanin( pObj, pNode0 );
}
Vec_IntFree( vLits );
}
// read the names if present
pCur = pSymbols;
if ( pCur < pContents + nFileSize && *pCur != 'c' )
{
int Counter = 0;
while ( pCur < pContents + nFileSize && *pCur != 'c' )
{
// get the terminal type
pType = pCur;
if ( *pCur == 'i' )
vTerms = pNtkNew->vPis;
else if ( *pCur == 'l' )
vTerms = pNtkNew->vBoxes;
else if ( *pCur == 'o' || *pCur == 'b' || *pCur == 'c' || *pCur == 'j' || *pCur == 'f' )
vTerms = pNtkNew->vPos;
else
{
// fprintf( stdout, "Wrong terminal type.\n" );
return NULL;
}
// get the terminal number
iTerm = atoi( ++pCur ); while ( *pCur++ != ' ' );
// get the node
if ( iTerm >= Vec_PtrSize(vTerms) )
{
fprintf( stdout, "The number of terminal is out of bound.\n" );
return NULL;
}
pObj = (Abc_Obj_t *)Vec_PtrEntry( vTerms, iTerm );
if ( *pType == 'l' )
pObj = Abc_ObjFanout0(pObj);
// assign the name
pName = pCur; while ( *pCur++ != '\n' );
// assign this name
*(pCur-1) = 0;
Abc_ObjAssignName( pObj, pName, NULL );
if ( *pType == 'l' )
{
Abc_ObjAssignName( Abc_ObjFanin0(pObj), Abc_ObjName(pObj), "L" );
Abc_ObjAssignName( Abc_ObjFanin0(Abc_ObjFanin0(pObj)), Abc_ObjName(pObj), "_in" );
}
// mark the node as named
pObj->pCopy = (Abc_Obj_t *)Abc_ObjName(pObj);
}
// assign the remaining names
Abc_NtkForEachPi( pNtkNew, pObj, i )
{
if ( pObj->pCopy ) continue;
Abc_ObjAssignName( pObj, Abc_ObjName(pObj), NULL );
Counter++;
}
Abc_NtkForEachLatchOutput( pNtkNew, pObj, i )
{
if ( pObj->pCopy ) continue;
Abc_ObjAssignName( pObj, Abc_ObjName(pObj), NULL );
Abc_ObjAssignName( Abc_ObjFanin0(pObj), Abc_ObjName(pObj), "L" );
Abc_ObjAssignName( Abc_ObjFanin0(Abc_ObjFanin0(pObj)), Abc_ObjName(pObj), "_in" );
Counter++;
}
Abc_NtkForEachPo( pNtkNew, pObj, i )
{
if ( pObj->pCopy ) continue;
Abc_ObjAssignName( pObj, Abc_ObjName(pObj), NULL );
Counter++;
}
// if ( Counter )
// printf( "Io_ReadAiger(): Added %d default names for nameless I/O/register objects.\n", Counter );
}
else
{
// printf( "Io_ReadAiger(): I/O/register names are not given. Generating short names.\n" );
Abc_NtkShortNames( pNtkNew );
}
// read the name of the model if given
pCur = pSymbols;
if ( pCur + 1 < pContents + nFileSize && *pCur == 'c' )
{
pCur++;
if ( *pCur == 'n' )
{
pCur++;
// read model name
if ( strlen(pCur) > 0 )
{
ABC_FREE( pNtkNew->pName );
pNtkNew->pName = Extra_UtilStrsav( pCur );
}
}
}
// skipping the comments
ABC_FREE( pContents );
Vec_PtrFree( vNodes );
// remove the extra nodes
Abc_AigCleanup( (Abc_Aig_t *)pNtkNew->pManFunc );
// update polarity of the additional outputs
if ( nBad || nConstr || nJust || nFair )
Abc_NtkInvertConstraints( pNtkNew );
// check the result
if ( fCheck && !Abc_NtkCheckRead( pNtkNew ) )
{
printf( "Io_ReadAiger: The network check has failed.\n" );
Abc_NtkDelete( pNtkNew );
return NULL;
}
return pNtkNew;
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
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