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/**CFile****************************************************************
FileName [abcRpo.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Rpo package.]
Synopsis [Procedures for executing RPO.]
Author [Mayler G. A. Martins / Vinicius Callegaro]
Affiliation [UFRGS]
Date [Ver. 1.0. Started - May 08, 2013.]
Revision [$Id: abcRpo.c,v 1.00 2013/05/08 00:00:00 mgamartins Exp $]
***********************************************************************/
#include "misc/extra/extra.h"
#include "bool/rpo/rpo.h"
#include "bool/rpo/literal.h"
ABC_NAMESPACE_IMPL_START
// data-structure to store a bunch of truth tables
typedef struct Rpo_TtStore_t_ Rpo_TtStore_t;
struct Rpo_TtStore_t_ {
int nVars;
int nWords;
int nFuncs;
word ** pFuncs;
};
// read/write/flip i-th bit of a bit string table:
static inline int Abc_TruthGetBit(word * p, int i) {
return (int) (p[i >> 6] >> (i & 63)) & 1;
}
static inline void Abc_TruthSetBit(word * p, int i) {
p[i >> 6] |= (((word) 1) << (i & 63));
}
static inline void Abc_TruthXorBit(word * p, int i) {
p[i >> 6] ^= (((word) 1) << (i & 63));
}
// read/write k-th digit d of a hexadecimal number:
static inline int Abc_TruthGetHex(word * p, int k) {
return (int) (p[k >> 4] >> ((k << 2) & 63)) & 15;
}
static inline void Abc_TruthSetHex(word * p, int k, int d) {
p[k >> 4] |= (((word) d) << ((k << 2) & 63));
}
static inline void Abc_TruthXorHex(word * p, int k, int d) {
p[k >> 4] ^= (((word) d) << ((k << 2) & 63));
}
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
// read one hex character
static inline int Abc_TruthReadHexDigit(char HexChar) {
if (HexChar >= '0' && HexChar <= '9')
return HexChar - '0';
if (HexChar >= 'A' && HexChar <= 'F')
return HexChar - 'A' + 10;
if (HexChar >= 'a' && HexChar <= 'f')
return HexChar - 'a' + 10;
assert(0); // not a hexadecimal symbol
return -1; // return value which makes no sense
}
// write one hex character
static inline void Abc_TruthWriteHexDigit(FILE * pFile, int HexDigit) {
assert(HexDigit >= 0 && HexDigit < 16);
if (HexDigit < 10)
fprintf(pFile, "%d", HexDigit);
else
fprintf(pFile, "%c", 'A' + HexDigit - 10);
}
// read one truth table in hexadecimal
static void Abc_TruthReadHex(word * pTruth, char * pString, int nVars) {
int nWords = (nVars < 7) ? 1 : (1 << (nVars - 6));
int k, Digit, nDigits = (nWords << 4);
char EndSymbol;
// skip the first 2 symbols if they are "0x"
if (pString[0] == '0' && pString[1] == 'x')
pString += 2;
// get the last symbol
EndSymbol = pString[nDigits];
// the end symbol of the TT (the one immediately following hex digits)
// should be one of the following: space, a new-line, or a zero-terminator
// (note that on Windows symbols '\r' can be inserted before each '\n')
assert(EndSymbol == ' ' || EndSymbol == '\n' || EndSymbol == '\r' || EndSymbol == '\0');
// read hexadecimal digits in the reverse order
// (the last symbol in the string is the least significant digit)
for (k = 0; k < nDigits; k++) {
Digit = Abc_TruthReadHexDigit(pString[nDigits - 1 - k]);
assert(Digit >= 0 && Digit < 16);
Abc_TruthSetHex(pTruth, k, Digit);
}
}
// write one truth table in hexadecimal (do not add end-of-line!)
static void Abc_TruthWriteHex(FILE * pFile, word * pTruth, int nVars) {
int nDigits, Digit, k;
nDigits = (1 << (nVars - 2));
for (k = 0; k < nDigits; k++) {
Digit = Abc_TruthGetHex(pTruth, k);
assert(Digit >= 0 && Digit < 16);
Abc_TruthWriteHexDigit(pFile, Digit);
}
}
/**Function*************************************************************
Synopsis [Allocate/Deallocate storage for truth tables..]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static Rpo_TtStore_t * Abc_TruthStoreAlloc(int nVars, int nFuncs) {
Rpo_TtStore_t * p;
int i;
p = (Rpo_TtStore_t *) malloc(sizeof (Rpo_TtStore_t));
p->nVars = nVars;
p->nWords = (nVars < 7) ? 1 : (1 << (nVars - 6));
p->nFuncs = nFuncs;
// alloc storage for 'nFuncs' truth tables as one chunk of memory
p->pFuncs = (word **) malloc((sizeof (word *) + sizeof (word) * p->nWords) * p->nFuncs);
// assign and clean the truth table storage
p->pFuncs[0] = (word *) (p->pFuncs + p->nFuncs);
memset(p->pFuncs[0], 0, sizeof (word) * p->nWords * p->nFuncs);
// split it up into individual truth tables
for (i = 1; i < p->nFuncs; i++)
p->pFuncs[i] = p->pFuncs[i - 1] + p->nWords;
return p;
}
static Rpo_TtStore_t * Abc_TruthStoreAlloc2(int nVars, int nFuncs, word * pBuffer) {
Rpo_TtStore_t * p;
int i;
p = (Rpo_TtStore_t *) malloc(sizeof (Rpo_TtStore_t));
p->nVars = nVars;
p->nWords = (nVars < 7) ? 1 : (1 << (nVars - 6));
p->nFuncs = nFuncs;
// alloc storage for 'nFuncs' truth tables as one chunk of memory
p->pFuncs = (word **) malloc(sizeof (word *) * p->nFuncs);
// assign and clean the truth table storage
p->pFuncs[0] = pBuffer;
// split it up into individual truth tables
for (i = 1; i < p->nFuncs; i++)
p->pFuncs[i] = p->pFuncs[i - 1] + p->nWords;
return p;
}
static void Abc_TtStoreFree(Rpo_TtStore_t * p, int nVarNum) {
if (nVarNum >= 0)
ABC_FREE(p->pFuncs[0]);
ABC_FREE(p->pFuncs);
ABC_FREE(p);
}
/**Function*************************************************************
Synopsis [Read file contents.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
extern int Abc_FileSize(char * pFileName);
/**Function*************************************************************
Synopsis [Read file contents.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
extern char * Abc_FileRead(char * pFileName);
/**Function*************************************************************
Synopsis [Determine the number of variables by reading the first line.]
Description [Determine the number of functions by counting the lines.]
SideEffects []
SeeAlso []
***********************************************************************/
extern void Abc_TruthGetParams(char * pFileName, int * pnVars, int * pnTruths);
/**Function*************************************************************
Synopsis [Read truth tables from file.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static void Abc_TruthStoreRead(char * pFileName, Rpo_TtStore_t * p) {
char * pContents;
int i, nLines;
pContents = Abc_FileRead(pFileName);
if (pContents == NULL)
return;
// here it is assumed (without checking!) that each line of the file
// begins with a string of hexadecimal chars followed by space
// the file will be read till the first empty line (pContents[i] == '\n')
// (note that Abc_FileRead() added several empty lines at the end of the file contents)
for (nLines = i = 0; pContents[i] != '\n';) {
// read one line
Abc_TruthReadHex(p->pFuncs[nLines++], &pContents[i], p->nVars);
// skip till after the end-of-line symbol
// (note that end-of-line symbol is also skipped)
while (pContents[i++] != '\n');
}
// adjust the number of functions read
// (we may have allocated more storage because some lines in the file were empty)
assert(p->nFuncs >= nLines);
p->nFuncs = nLines;
ABC_FREE(pContents);
}
/**Function*************************************************************
Synopsis [Write truth tables into file.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static void Abc_TtStoreWrite(char * pFileName, Rpo_TtStore_t * p, int fBinary) {
FILE * pFile;
int i, nBytes = 8 * Abc_Truth6WordNum(p->nVars);
pFile = fopen(pFileName, "wb");
if (pFile == NULL) {
printf("Cannot open file \"%s\" for writing.\n", pFileName);
return;
}
for (i = 0; i < p->nFuncs; i++) {
if (fBinary)
fwrite(p->pFuncs[i], nBytes, 1, pFile);
else
Abc_TruthWriteHex(pFile, p->pFuncs[i], p->nVars), fprintf(pFile, "\n");
}
fclose(pFile);
}
/**Function*************************************************************
Synopsis [Read truth tables from input file and write them into output file.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static Rpo_TtStore_t * Abc_TtStoreLoad(char * pFileName, int nVarNum) {
Rpo_TtStore_t * p;
if (nVarNum < 0) {
int nVars, nTruths;
// figure out how many truth table and how many variables
Abc_TruthGetParams(pFileName, &nVars, &nTruths);
if (nVars < 2 || nVars > 16 || nTruths == 0)
return NULL;
// allocate data-structure
p = Abc_TruthStoreAlloc(nVars, nTruths);
// read info from file
Abc_TruthStoreRead(pFileName, p);
} else {
char * pBuffer;
int nFileSize = Abc_FileSize(pFileName);
int nBytes = (1 << (nVarNum - 3)); // why mishchencko put -3? ###
int nTruths = nFileSize / nBytes;
//Abc_Print(-2,"nFileSize=%d,nTruths=%d\n",nFileSize, nTruths);
if (nFileSize == -1)
return NULL;
assert(nVarNum >= 6);
if (nFileSize % nBytes != 0)
Abc_Print(0, "The file size (%d) is divided by the truth table size (%d) with remainder (%d).\n",
nFileSize, nBytes, nFileSize % nBytes);
// read file contents
pBuffer = Abc_FileRead(pFileName);
// allocate data-structure
p = Abc_TruthStoreAlloc2(nVarNum, nTruths, (word *) pBuffer);
}
return p;
}
/**Function*************************************************************
Synopsis [Apply decomposition to the truth table.]
Description [Returns the number of AIG nodes.]
SideEffects []
SeeAlso []
***********************************************************************/
void Abc_TruthRpoPerform(Rpo_TtStore_t * p, int nThreshold, int fVerbose) {
clock_t clk = clock();
int i;
int rpoCount = 0;
Literal_t* lit;
float percent;
for (i = 0; i < p->nFuncs; i++) {
// if(i>1000) {
// continue;
// }
////
// if(i!= 2196 ) { //5886
// continue;
// }
if(fVerbose) {
Abc_Print(-2,"%d: ", i+1);
}
lit = Rpo_Factorize((unsigned *) p->pFuncs[i], p->nVars, nThreshold, fVerbose);
if (lit != NULL) {
if(fVerbose) {
Abc_Print(-2, "Solution : %s\n", lit->expression->pArray);
Abc_Print(-2, "\n\n");
}
Lit_Free(lit);
rpoCount++;
} else {
if(fVerbose) {
Abc_Print(-2, "null\n");
Abc_Print(-2, "\n\n");
}
}
}
percent = (rpoCount * 100.0) / p->nFuncs;
Abc_Print(-2,"%d of %d (%.2f %%) functions are RPO.\n", rpoCount,p->nFuncs,percent);
Abc_PrintTime(1, "Time", clock() - clk);
}
/**Function*************************************************************
Synopsis [Apply decomposition to truth tables.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void Abc_TruthRpoTest(char * pFileName, int nVarNum, int nThreshold, int fVerbose) {
Rpo_TtStore_t * p;
// allocate data-structure
// if (fVerbose) {
// Abc_Print(-2, "Number of variables = %d\n", nVarNum);
// }
p = Abc_TtStoreLoad(pFileName, nVarNum);
if (fVerbose) {
Abc_Print(-2, "Number of variables = %d\n", p->nVars);
}
// consider functions from the file
Abc_TruthRpoPerform(p, nThreshold, fVerbose);
// delete data-structure
Abc_TtStoreFree(p, nVarNum);
// printf( "Finished decomposing truth tables from file \"%s\".\n", pFileName );
}
/**Function*************************************************************
Synopsis [Testbench for decomposition algorithms.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Abc_RpoTest(char * pFileName, int nVarNum,int nThreshold, int fVerbose) {
if (fVerbose) {
printf("Using truth tables from file \"%s\"...\n", pFileName);
}
Abc_TruthRpoTest(pFileName, nVarNum, nThreshold, fVerbose);
fflush(stdout);
return 0;
}
/////////////////////ert truth table to ///////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
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