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/* xbbcd.cpp
XBase64 Software Library
Copyright (c) 1997,2003,2014,2022 Gary A Kunkel
The xb64 software library is covered under the terms of the GPL Version 3, 2007 license.
Email Contact:
XDB-devel@lists.sourceforge.net
XDB-users@lists.sourceforge.net
BCD class
*/
#include "xbase.h"
#ifdef XB_INDEX_SUPPORT
///@cond DOXYOFF
namespace xb{
xbBool bcdBitSet( unsigned char c, xbInt16 iBitNo ){
return c & 1 << iBitNo;
}
void bcdBitDump( unsigned char c ){
for( int i = 7; i >= 0; i-- )
std::cout << (bcdBitSet( c, i ) ? 1 : 0);
}
void bcdBitDump( char c ){
bcdBitDump( (unsigned char) c );
}
/***********************************************************************/
void xbBcd::ctor(){
memset( &bcd, 0x00, sizeof( xbBcdStruct ));
}
/***********************************************************************/
xbBcd::xbBcd( xbDouble d ) {
Set( d );
}
/***********************************************************************/
xbBcd::xbBcd( const xbString &sNumIn ) {
Set( sNumIn );
}
/***********************************************************************/
xbBcd::xbBcd( const void *vBcdIn ) {
memcpy( &bcd, vBcdIn, sizeof( xbBcdStruct ));
}
/***********************************************************************/
void xbBcd::Set( xbDouble d ) {
ctor();
xbString s( d );
StringToBcd( s );
}
/***********************************************************************/
void xbBcd::Set( const xbString &sNumIn ) {
ctor();
StringToBcd( sNumIn );
}
/***********************************************************************/
void xbBcd::Set( const void *vBcdIn ) {
memcpy( &bcd, vBcdIn, sizeof( xbBcdStruct ));
}
/***********************************************************************/
void xbBcd::StringToBcd( const xbString &sIn )
{
unsigned char cEdc = 0; // encoded digit count
xbUInt32 iPos; // current position in source string
xbBool bDecHit = xbFalse; // decimal position hit?
unsigned char *p = bcd.cData; // pointer to cData
xbInt16 iBytePos = 0; // next load position in xbs structure
xbInt16 iBcdDataPos = 0; // current position in output structure
xbByteSplit xbs; // combiner
ctor();
xbString sNum( sIn );
xbBool bSign = xbFalse;
sNum.Trim();
if( sNum[1] == '-' ){
bSign = 1;
sNum.ZapLeadingChar( '-' );
}
sNum.ZapLeadingChar( '0' );
xbInt16 iDecPos = sNum.Pos( '.' );
if( iDecPos > 0 ){
sNum.ZapTrailingChar( '0' );
cEdc = (unsigned char) (sNum.Len() - 1);
} else {
cEdc = (unsigned char) (sNum.Len());
}
if( cEdc > 31 ) cEdc = 31; // max 5 bit number
if( sNum[1] == '.' ){
iPos = 2;
bDecHit = xbTrue;
while( sNum[iPos] == '0' && iPos <= sNum.Len()){
bcd.cSigDigits--;
iPos++;
}
} else {
iPos = 1;
}
while( iPos <= sNum.Len() ){
if( sNum[iPos] == '.' )
bDecHit = true;
else{
if( !bDecHit ){
bcd.cSigDigits++;
}
if( iBytePos++ == 0 ){
xbs.c2 = (unsigned) sNum[iPos] - 0x30;
} else {
xbs.c1 = (unsigned) sNum[iPos] - 0x30;
iBytePos = 0;
if( iBcdDataPos++ < 10 ){
memcpy( p++, &xbs, 1 );
xbs.c1 = 0x00;
}
}
}
iPos++;
}
if( iBytePos == 1 && iBcdDataPos < 10 ){
memcpy( p, &xbs, 1 );
}
bcd.cSigDigits += 52;
bcd.cEncDigits = cEdc << 2;
bcd.cEncDigits = bcd.cEncDigits | 0x01;
if( bSign )
bcd.cEncDigits = bcd.cEncDigits | 0x80;
/*
std::cout << "num in = " << sIn.Str() << "\n";
unsigned char bW[12];
memcpy( bW, &bcd, 12 );
std::cout << "bx ";
for( int i = 0; i < 12; i++ ){
bcdBitDump( bW[i] );
std::cout << " ";
}
std::cout << "\n";
unsigned char cSign = bcd.cEncDigits >> 7;
std::cout << "bs ";
bcdBitDump( cSign );
std::cout << "\n";
std::cout << "test = ";
bcdBitDump( cEdc );
std::cout << " ";
bcdBitDump( GetEncDigitsNoSign() );
std::cout << "\n";
bcdBitDump( bcd.cEncDigits );
unsigned char c = bcd.cEncDigits;
c = c << 1;
c = c >> 3;
std::cout << " ";
bcdBitDump( c );
std::cout << "\n";
*/
}
/***********************************************************************/
void xbBcd::ToChar( char * cOut ){
memcpy( cOut, &bcd, sizeof( xbBcdStruct ));
}
/***********************************************************************/
void xbBcd::ToDouble( xbDouble &d ){
xbString s;
ToString( s );
d = atof( s.Str());
}
/***********************************************************************/
void xbBcd::ToString( xbString &sStringOut ){
// printf( "\n\n\nToString " );
// printf( "Sig digits [%d] EncodedDigits [%d] sign [%d] sizeof struct [%d]\n",
// bcd.cSigDigits - 52 , bcd.EncDigits, bcd.Sign, sizeof( xbBcdStruct ));
// this routine converts a bcd numeric key value to a base 10 number in a string
xbBool bHasDot = false;
xbInt16 iSig = bcd.cSigDigits - 52;
xbByteSplit xbs;
unsigned char *p = bcd.cData;
unsigned char c;
// xbInt16 iEnc = bcd.cEncDigits;
xbInt16 iEnc = GetEncDigitsNoSign();
// set the sign
// if( bcd.Sign )
if( bcd.cEncDigits >> 7 )
sStringOut = "-";
else
sStringOut = "";
// do add any needed zeroes after the decimal
if( iSig <= 0 ){
if( iEnc > 0 ){
sStringOut.Append( "." );
bHasDot = true;
}
for( xbInt16 i = iSig; i < 0; i++ )
sStringOut.Append( "0" );
}
// do the encoded digits
while( iEnc > 0 ){
if( iSig == 0 && !bHasDot )
sStringOut.Append( "." );
c = *p++;
memcpy( &xbs, &c, 1 );
c = xbs.c2 + 0x30;
sStringOut.Append((char) c );
iSig--;
iEnc--;
if( iEnc > 0 ){
if( iSig == 0 && !bHasDot )
sStringOut.Append( "." );
c = xbs.c1 + 0x30;
sStringOut.Append((char) c );
iSig--;
iEnc--;
}
}
// do the trailing zeroes
while( iSig-- > 0 )
sStringOut.Append( "0" );
if( sStringOut == "" )
sStringOut = "0";
}
/***********************************************************************/
xbInt16 xbBcd::Compare( xbDouble d ){
xbBcd bcdIn( d );
xbString s;
bcdIn.ToString( s );
return Compare( bcdIn );
}
/***********************************************************************/
xbInt16 xbBcd::Compare( const xbBcd &bcdIn ){
// if this == bcdIn return 0
// if this < bcdIn return -1
// if this > bcdIn return 1
xbInt16 iRc = 0;
// if( bcd.Sign != bcdIn.GetSign() ){
// bcd.Sign > 0 ? iRc = -1 : iRc = 1;
if( (bcd.cEncDigits >> 7 ) != bcdIn.GetSign() ){
(bcd.cEncDigits >> 7 ) > 0 ? iRc = -1 : iRc = 1;
return iRc;
}
if( bcd.cSigDigits != bcdIn.GetSigDigits()){
// if( !bcd.Sign ){ // positive numbers
if( !(bcd.cEncDigits >> 7 )){ // positive numbers
if( bcd.cSigDigits > bcdIn.GetSigDigits())
return 1;
else
return -1;
} else { // negative numbers
if( bcd.cSigDigits > bcdIn.GetSigDigits())
return -1;
else
return 1;
}
}
// iRc = xbXBase::xbMemcmp( bcd.cData, bcdIn.GetData(), (size_t)((bcd.cEncDigits + 1) / 2) );
iRc = xbXBase::xbMemcmp( bcd.cData, bcdIn.GetData(), (size_t)((GetEncDigitsNoSign() + 1) / 2) );
if( iRc == 0 )
return 0;
// else if((!bcd.Sign && iRc > 0) || (bcd.Sign && iRc < 0 ))
else if((!(bcd.cEncDigits >> 7) && iRc > 0) || ((bcd.cEncDigits >> 7) && iRc < 0 ))
return 1;
else
return -1;
}
/***********************************************************************/
unsigned char xbBcd::GetEncDigitsNoSign() const {
unsigned char c = bcd.cEncDigits << 1;
return c >> 3;
}
/***********************************************************************/
unsigned xbBcd::GetSign() const {
//return bcd.Sign;
return bcd.cEncDigits >> 7;
}
/***********************************************************************/
unsigned xbBcd::GetSigDigits() const {
return bcd.cSigDigits;
}
/***********************************************************************/
unsigned xbBcd::GetActualSigDigits() const {
return bcd.cSigDigits - (xbUInt32) 52;
}
/***********************************************************************/
const unsigned char * xbBcd::GetData() const {
const unsigned char *p = bcd.cData;
return p;
}
/***********************************************************************/
const void * xbBcd::GetBcd() const {
return &bcd;
}
} /* namespace */
///@endcond DOXYOFF
#endif /* XB_INDEX_SUPPORT */
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