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Commit 44550a67 by Alan Mishchenko
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Bug fix in the SMT parser to address multi-argument operators and large constants.

parent 50da7c29
Showing with 295 additions and 2 deletions
src/base/wlc/wlcReadSmt.c
......@@ -136,7 +136,7 @@ static inline int Smt_StrToType( char * pName, int * pfSigned )
else if ( !strcmp(pName, "bvlshr") )
Type = WLC_OBJ_SHIFT_R; // 09: shift right
else if ( !strcmp(pName, "bvashr") )
Type = WLC_OBJ_SHIFT_RA; // 10: shift right (arithmetic)
Type = WLC_OBJ_SHIFT_RA , *pfSigned = 1; // 10: shift right (arithmetic)
else if ( !strcmp(pName, "bvshl") )
Type = WLC_OBJ_SHIFT_L; // 11: shift left
// else if ( !strcmp(pName, "") )
......@@ -266,7 +266,7 @@ static inline int Smt_PrsReadType( Smt_Prs_t * p, int iSig, int * pfSigned, int
SeeAlso []
***********************************************************************/
static inline int Smt_PrsCreateNode( Wlc_Ntk_t * pNtk, int Type, int fSigned, int Range, Vec_Int_t * vFanins, char * pName )
static inline int Smt_PrsCreateNodeOld( Wlc_Ntk_t * pNtk, int Type, int fSigned, int Range, Vec_Int_t * vFanins, char * pName )
{
char Buffer[100];
int NameId, fFound;
......@@ -290,6 +290,286 @@ static inline int Smt_PrsCreateNode( Wlc_Ntk_t * pNtk, int Type, int fSigned, in
assert( iObj == NameId );
return iObj;
}
static inline int Smt_PrsCreateNode( Wlc_Ntk_t * pNtk, int Type, int fSigned, int Range, Vec_Int_t * vFanins, char * pName )
{
char Buffer[100];
char * pNameFanin;
int NameId, fFound, old_size, new_size;
int iObj, iFanin0, iFanin1;
Vec_Int_t * v2Fanins = Vec_IntStartFull(2);
assert( Type > 0 );
assert( Range >= 0 );
assert( fSigned >= 0 );
// allow more than 2 fanins for specific operators
// if (Vec_IntSize(vFanins)<=2 || Type == WLC_OBJ_BIT_CONCAT || Type == WLC_OBJ_MUX )
// explicitely secify allowed multi operators
if (Vec_IntSize(vFanins)<=2 ||
!( Type == WLC_OBJ_BIT_AND || // 16:`` bitwise AND
Type == WLC_OBJ_BIT_OR || // 17: bitwise OR
Type == WLC_OBJ_BIT_XOR || // 18: bitwise XOR
Type == WLC_OBJ_BIT_NAND || // 19: bitwise AND
Type == WLC_OBJ_BIT_NOR || // 20: bitwise OR
Type == WLC_OBJ_BIT_NXOR || // 21: bitwise NXOR
Type == WLC_OBJ_LOGIC_IMPL || // 27: logic implication
Type == WLC_OBJ_LOGIC_AND || // 28: logic AND
Type == WLC_OBJ_LOGIC_OR || // 29: logic OR
Type == WLC_OBJ_LOGIC_XOR || // 30: logic XOR
Type == WLC_OBJ_COMP_EQU || // 31: compare equal
Type == WLC_OBJ_COMP_NOTEQU || // 32: compare not equal
Type == WLC_OBJ_COMP_LESS || // 33: compare less
Type == WLC_OBJ_COMP_MORE || // 34: compare more
Type == WLC_OBJ_COMP_LESSEQU || // 35: compare less or equal
Type == WLC_OBJ_COMP_MOREEQU || // 36: compare more or equal
Type == WLC_OBJ_ARI_ADD || // 43: arithmetic addition
Type == WLC_OBJ_ARI_SUB || // 44: arithmetic subtraction
Type == WLC_OBJ_ARI_MULTI || // 45: arithmetic multiplier
Type == WLC_OBJ_ARI_DIVIDE // 46: arithmetic division
))
goto FINISHED_WITH_FANINS;
// we will be creating nodes backwards. this way we can pop from vFanins easier
while (Vec_IntSize(vFanins)>2)
{
// getting 2 fanins at a time
old_size = Vec_IntSize(vFanins);
iFanin0 = Vec_IntPop(vFanins);
iFanin1 = Vec_IntPop(vFanins);
Vec_IntWriteEntry(v2Fanins,0,iFanin0);
Vec_IntWriteEntry(v2Fanins,1,iFanin1);
iObj = Wlc_ObjAlloc( pNtk, Type, fSigned, Range-1, 0 );
sprintf( Buffer, "_n%d_", iObj );
pNameFanin = Buffer;
NameId = Abc_NamStrFindOrAdd( pNtk->pManName, pNameFanin, &fFound );
assert( !fFound );
assert( iObj == NameId );
Wlc_ObjAddFanins( pNtk, Wlc_NtkObj(pNtk, iObj), v2Fanins );
// pushing the new node
Vec_IntPush(vFanins, iObj);
new_size = Vec_IntSize(vFanins);
assert(new_size<old_size);
}
FINISHED_WITH_FANINS:
Vec_IntFree(v2Fanins);
// to deal with long shifts create extra bit select (ROTATE as well ??)
// this is a temporary hack
// basically we keep only 32 bits.
// bits 0 - 30 are kept same as original
// bit 31 will be the reduction or of all bits from 31 to Range-1
if (Type == WLC_OBJ_SHIFT_R || Type == WLC_OBJ_SHIFT_RA || Type == WLC_OBJ_SHIFT_L)
{
int iFanin1 = Vec_IntEntry(vFanins,1);
int range1 = Wlc_ObjRange( Wlc_NtkObj(pNtk, iFanin1) );
int iObj1, iObj2, iObj3;
assert(Vec_IntSize(vFanins)>=2);
if (range1>32)
{
Vec_Int_t * newFanins = Vec_IntAlloc(10);
Vec_IntPush(newFanins,iFanin1);
Vec_IntPushTwo( newFanins, 30, 0 );
iObj1 = Wlc_ObjAlloc( pNtk, WLC_OBJ_BIT_SELECT, 0, 30, 0 );
sprintf( Buffer, "_n%d_", iObj1 );
pNameFanin = Buffer;
NameId = Abc_NamStrFindOrAdd( pNtk->pManName, pNameFanin, &fFound );
assert( !fFound );
assert( iObj1 == NameId );
Wlc_ObjAddFanins( pNtk, Wlc_NtkObj(pNtk, iObj1), newFanins );
// bit select of larger bits
Vec_IntPop(newFanins);
Vec_IntPop(newFanins);
Vec_IntPushTwo( newFanins, range1-1, 31 );
iObj2 = Wlc_ObjAlloc( pNtk, WLC_OBJ_BIT_SELECT, 0, range1-1, 31 );
sprintf( Buffer, "_n%d_", iObj2 );
pNameFanin = Buffer;
NameId = Abc_NamStrFindOrAdd( pNtk->pManName, pNameFanin, &fFound );
assert( !fFound );
assert( iObj2 == NameId );
Wlc_ObjAddFanins( pNtk, Wlc_NtkObj(pNtk, iObj2), newFanins );
// reduction or
Vec_IntPop( newFanins );
Vec_IntPop( newFanins );
Vec_IntWriteEntry( newFanins, 0, iObj2 );
iObj3 = Wlc_ObjAlloc( pNtk, WLC_OBJ_REDUCT_OR, 0, 0, 0 );
sprintf( Buffer, "_n%d_", iObj3 );
pNameFanin = Buffer;
NameId = Abc_NamStrFindOrAdd( pNtk->pManName, pNameFanin, &fFound );
assert( !fFound );
assert( iObj3 == NameId );
Wlc_ObjAddFanins( pNtk, Wlc_NtkObj(pNtk, iObj3), newFanins );
// concat all together
Vec_IntWriteEntry( newFanins, 0, iObj3 );
Vec_IntPush( newFanins, iObj1 );
iObj = Wlc_ObjAlloc( pNtk, WLC_OBJ_BIT_CONCAT, 0, 31, 0 );
sprintf( Buffer, "_n%d_", iObj );
pNameFanin = Buffer;
NameId = Abc_NamStrFindOrAdd( pNtk->pManName, pNameFanin, &fFound );
assert( !fFound );
assert( iObj == NameId );
Wlc_ObjAddFanins( pNtk, Wlc_NtkObj(pNtk, iObj), newFanins );
// pushing the new node
Vec_IntWriteEntry(vFanins, 1, iObj);
Vec_IntFree(newFanins);
}
}
iObj = Wlc_ObjAlloc( pNtk, Type, fSigned, Range-1, 0 );
// add node's name
if ( pName == NULL )
{
sprintf( Buffer, "_n%d_", iObj );
pName = Buffer;
}
NameId = Abc_NamStrFindOrAdd( pNtk->pManName, pName, &fFound );
assert( !fFound );
assert( iObj == NameId );
Wlc_ObjAddFanins( pNtk, Wlc_NtkObj(pNtk, iObj), vFanins );
if ( fSigned )
{
Wlc_NtkObj(pNtk, iObj)->Signed = fSigned;
// if ( Vec_IntSize(vFanins) > 0 )
// Wlc_NtkObj(pNtk, Vec_IntEntry(vFanins, 0))->Signed = fSigned;
// if ( Vec_IntSize(vFanins) > 1 )
// Wlc_NtkObj(pNtk, Vec_IntEntry(vFanins, 1))->Signed = fSigned;
}
return iObj;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static inline char * Smt_GetHexFromDecimalString(char * pStr)
{
int i,k=0, nDigits = strlen(pStr);
int digit, carry = 0;
int metNonZeroBit;
int nBits;
char * hex;
Vec_Int_t * decimal = Vec_IntAlloc(nDigits);
Vec_Int_t * rev;
for (i=0;i<nDigits;i++)
Vec_IntPush(decimal,pStr[i]-'0');
// firstly fill-in the reversed vector
rev = Vec_IntAlloc(10);
metNonZeroBit = 0;
while(k<nDigits)
{
digit = Vec_IntEntry(decimal,k);
if (!digit && !carry)
{
k++;
if (k>=nDigits)
{
if (!metNonZeroBit)
break;
else
{
Vec_IntPush(rev,carry);
carry = 0;
k = 0;
metNonZeroBit = 0;
}
}
continue;
}
if (!metNonZeroBit)
metNonZeroBit = 1;
digit = carry*10 + digit;
carry = digit%2;
digit = digit / 2;
Vec_IntWriteEntry(decimal,k,digit);
k++;
if (k>=nDigits)
{
Vec_IntPush(rev,carry);
carry = 0;
k = 0;
metNonZeroBit = 0;
}
}
Vec_IntFree(decimal);
if (!Vec_IntSize(rev))
Vec_IntPush(rev,0);
while (Vec_IntSize(rev)%4)
Vec_IntPush(rev,0);
nBits = Vec_IntSize(rev);
hex = (char *)malloc((nBits/4+1)*sizeof(char));
for (k=0;k<nBits/4;k++)
{
int number = Vec_IntEntry(rev,k*4) + 2*Vec_IntEntry(rev,k*4+1) + 4*Vec_IntEntry(rev,k*4+2) + 8*Vec_IntEntry(rev,k*4+3);
char letter;
switch(number) {
case 0: letter = '0'; break;
case 1: letter = '1'; break;
case 2: letter = '2'; break;
case 3: letter = '3'; break;
case 4: letter = '4'; break;
case 5: letter = '5'; break;
case 6: letter = '6'; break;
case 7: letter = '7'; break;
case 8: letter = '8'; break;
case 9: letter = '9'; break;
case 10: letter = 'a'; break;
case 11: letter = 'b'; break;
case 12: letter = 'c'; break;
case 13: letter = 'd'; break;
case 14: letter = 'e'; break;
case 15: letter = 'f'; break;
default: assert(0);
}
hex[nBits/4-1-k] = letter;
}
hex[nBits/4] = '\0';
Vec_IntFree(rev);
return hex;
}
static inline int Smt_PrsBuildConstant( Wlc_Ntk_t * pNtk, char * pStr, int nBits, char * pName )
{
int i, nDigits, iObj;
......@@ -298,6 +578,7 @@ static inline int Smt_PrsBuildConstant( Wlc_Ntk_t * pNtk, char * pStr, int nBits
{
if ( pStr[0] >= '0' && pStr[0] <= '9' )
{
/*
int w, nWords, Number = atoi( pStr );
if ( nBits == -1 )
{
......@@ -307,6 +588,16 @@ static inline int Smt_PrsBuildConstant( Wlc_Ntk_t * pNtk, char * pStr, int nBits
nWords = Abc_BitWordNum( nBits );
for ( w = 0; w < nWords; w++ )
Vec_IntPush( vFanins, w ? 0 : Number );
*/
// convert decimal to hex to parse large constants
char * pHex = Smt_GetHexFromDecimalString(pStr);
if ( nBits == -1 )
nBits = strlen(pHex)*4;
Vec_IntFill( vFanins, Abc_BitWordNum(nBits), 0 );
nDigits = Abc_TtReadHexNumber( (word *)Vec_IntArray(vFanins), pHex );
}
else
{
......@@ -836,6 +1127,7 @@ int Smt_PrsBuild2_rec( Wlc_Ntk_t * pNtk, Smt_Prs_t * p, int iNode, int iObjPrev,
int iObj = Abc_NamStrFind( pNtk->pManName, pStr0 );
if ( iObj )
return iObj;
Type0 = Smt_StrToType( pStr0, &fSigned );
if ( Type0 == 0 )
return 0;
......@@ -853,6 +1145,7 @@ int Smt_PrsBuild2_rec( Wlc_Ntk_t * pNtk, Smt_Prs_t * p, int iNode, int iObjPrev,
}
Vec_IntPush( vFanins, iObj );
}
// find range
Range = 0;
if ( Type0 >= WLC_OBJ_LOGIC_NOT && Type0 <= WLC_OBJ_REDUCT_XOR )
......
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