Added BitString, it was used in a few projects. It needs a few functions to

be corrected, they were using standard library features, that shouldn't be hard to fix though.
author: Mike Buland <eichlan@xagasoft.com> 2008-07-23 05:27:30 +0000
committer: Mike Buland <eichlan@xagasoft.com> 2008-07-23 05:27:30 +0000
commit: 0047991313fd7c67b45c59d58e3fde0236bf3872 (patch)
tree: b2b0abbc67f7c276a71583270e57c1da46293f4d /src/bitstring.cpp
parent: 57046f7fcbc6cd50105bd926b8f34732e302988a (diff)
download: libbu++-0047991313fd7c67b45c59d58e3fde0236bf3872.tar.gz
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1 files changed, 440 insertions, 0 deletions
diff --git a/src/bitstring.cpp b/src/bitstring.cpp
new file mode 100644
index 0000000..8d99992
--- /dev/null
+++ b/src/bitstring.cpp
@@ -0,0 +1,440 @@
+#include "bitstring.h"
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#ifdef _WIN32
+#define random() rand()
+#endif
+#define bitsToBytes( nBits ) (((nBits/8)+((nBits%8)?(1):(0))));
+Bu::BitString::BitString()
+{
+        caData = NULL;
+        cTopByteMask = 0;
+        nBits = nBytes = 0;
+}
+Bu::BitString::BitString( const Bu::BitString &xSrc )
+{
+        nBits = xSrc.nBits;
+        nBytes = xSrc.nBytes;
+        cTopByteMask = xSrc.cTopByteMask;
+        caData = new unsigned char[nBytes];
+        memcpy( caData, xSrc.caData, nBytes );
+        fixup();
+}
+Bu::BitString::BitString( long nNewBits, bool bFillRandomly )
+{
+        long j;
+        nBits = nNewBits;
+        nBytes = bitsToBytes( nNewBits );//(nNewBits/8)+((nNewBits%8)?(1):(0));
+        caData = new unsigned char[nBytes];
+        // This can either mean that there are a multiple of eight bits or zero, if there are zero you're an idiot
+        // (zero can't happen, because we would allocate an extra byte and never use it)
+        if( (nBits%8 == 0) )
+        {
+                cTopByteMask = 0xFF;
+        }
+        else
+        {
+                cTopByteMask = 0;
+                for( j = 0; j < (nBits%8); j++ )
+                {
+                        cTopByteMask |= (1<<j);
+                }
+        }
+        if( bFillRandomly )
+        {
+                // rand() only returns a value up to RAND_MAX (0x7FFF on my system) so I'll just use the low order byte)
+                for( j = 0; j < nBytes; j++ )
+                {
+                        caData[j] = (unsigned char)(random() & 0xFF);
+                }
+        }
+        else
+        {
+                clearString();
+        }
+        fixup();
+}
+Bu::BitString::~BitString()
+{
+        if( caData != NULL ) delete[] caData;
+}
+Bu::BitString &Bu::BitString::operator=( const Bu::BitString &xSrc )
+{
+        if( caData != NULL )
+        {
+                delete[] caData;
+        }
+        nBits = xSrc.nBits;
+        nBytes = xSrc.nBytes;
+        cTopByteMask = xSrc.cTopByteMask;
+        caData = new unsigned char[nBytes];
+        memcpy( caData, xSrc.caData, nBytes );
+        fixup();
+        return *this;
+}
+Bu::BitString Bu::BitString::operator~()
+{
+        Bu::BitString xRet( *this );
+        for( int j = 0; j < xRet.nBytes; j++ )
+        {
+                xRet.caData[j] = ~xRet.caData[j];
+        }
+        xRet.fixup();
+        return xRet;
+}
+Bu::BitString Bu::BitString::operator<<( const long nAmt )
+{
+        if( nAmt == 0 )
+        {
+                return (*this);
+        }
+        //int nByteShift = nAmt/8;
+        Bu::BitString xSub( getBitLength() );
+        long shft = (nAmt%8);
+        long base = (nAmt/8);
+        unsigned char lowmask=0;
+        for( long j = 0; j < 8-shft; j++ )
+        {
+                lowmask |= (1<<j);
+        }
+        for( long j = 0; j < xSub.nBytes; j++ )
+        {
+                xSub.caData[base+j] = ((caData[j]>>shft)&(lowmask)) | ((caData[j+1]<<(8-shft))&(~lowmask));
+        }
+        xSub.fixup();
+        return xSub;
+}
+Bu::BitString Bu::BitString::operator>>( const long nAmt )
+{
+        if( nAmt == 0 )
+        {
+                return (*this);
+        }
+        return (*this);
+}
+void Bu::BitString::shiftLeft( long nAmt )
+{
+        if( nAmt == 0 )
+        {
+                return;
+        }
+        else if( nAmt < 0 )
+        {
+                shiftRight( -nAmt );
+                return;
+        }
+        long nByteShift = nAmt/8;
+        long nBitShift = nAmt%8;
+        long j;
+        for( j = nBytes-1; j >= 0; j-- )
+        {
+                caData[j] = (((j-nByteShift)<0)?(0):((caData[j-nByteShift]<<nBitShift))) | (((j-nByteShift-1)<0)?(0):((caData[j-nByteShift-1]>>(8-nBitShift))));
+        }
+        fixup();
+}
+void Bu::BitString::shiftRight( long nAmt )
+{
+        if( nAmt == 0 )
+        {
+                return;
+        }
+        else if( nAmt < 0 )
+        {
+                shiftLeft( -nAmt );
+                return;
+        }
+        long nByteShift = nAmt/8;
+        long nBitShift = nAmt%8;
+        long j;
+        for( j = 0; j < nBytes; j++ )
+        {
+                caData[j] = (((j+nByteShift)>nBytes)?(0):((caData[j+nByteShift]>>nBitShift))) | (((j+nByteShift+1)>nBytes)?(0):((caData[j+nByteShift+1]<<(8-nBitShift))));
+        }
+        fixup();
+}
+/*
+long Bu::BitString::bitsToBytes( long nBits )
+{
+        return (nBits/8)+((nBits%8)?(1):(0));
+}
+*/
+void Bu::BitString::fixup()
+{
+        if( caData != NULL )
+        {
+                caData[nBytes-1] &= cTopByteMask;
+        }
+}
+void Bu::BitString::setBit( long nBit, bool bBitState )
+{
+        if( bBitState )
+        {
+                caData[nBit/8] |= (1<<(nBit%8));
+        }
+        else
+        {
+                caData[nBit/8] &= ~(1<<(nBit%8));
+        }
+}
+void Bu::BitString::flipBit( long nBit )
+{
+        caData[nBit/8] ^= (1<<(nBit%8));
+}
+bool Bu::BitString::getBit( long nBit )
+{
+        if( nBit >= nBits || nBit < 0 ) return false;
+        if( (caData[nBit/8] & (1<<(nBit%8))) == 0 )
+        {
+                return false;
+        }
+        return true;
+}
+long Bu::BitString::getBitLength()
+{
+        return nBits;
+}
+class Bu::BitString Bu::BitString::getSubString( long nLower, long nUpper )
+{
+        if( nUpper == 0 || nUpper < nLower ) nUpper = nBits;
+        Bu::BitString xSub( nUpper-nLower+1 );
+        long shft = (nLower%8);
+        long base = (nLower/8);
+        unsigned char lowmask=0;
+        for( long j = 0; j < 8-shft; j++ )
+        {
+                lowmask |= (1<<j);
+        }
+        for( long j = 0; j < xSub.nBytes; j++ )
+        {
+                xSub.caData[j] = ((caData[base+j]>>shft)&(lowmask)) | ((caData[base+j+1]<<(8-shft))&(~lowmask));
+        }
+        xSub.fixup();
+        return xSub;
+}
+long Bu::BitString::toLong( long nStart, long nSize )
+{
+        if( nSize < 1 ) nSize = 1;
+        if( nSize > 32 ) nSize = 32;
+        if( nStart < 0 ) return 0;
+        if( nStart+nSize > getBitLength() ) return 0;
+        Bu::BitString tmpo;
+        tmpo = getSubString( nStart, nStart+nSize-1 );
+        long x = *((long *)tmpo.caData);
+        return x;
+}
+/*
+std::string Bu::BitString::toString( bool bAddSpacers )
+{
+        long nSz = nBits;
+        if( bAddSpacers )
+        {
+                nSz += (nBits/8);
+                if( nBits%8 == 0 ) nSz--;
+        }
+        std::string xStr;
+        int bw=0;
+        int of=0;
+        for( int j = nBits-1; j >= 0; j-- )
+        {
+                if( getBit( j ) )
+                {
+                        xStr += '1';
+                }
+                else
+                {
+                        xStr += '0';
+                }
+                if( bAddSpacers )
+                {
+                        bw++;
+                        if( bw >= 8 && j < nBits-1 )
+                        {
+                                bw = 0;
+                                of++;
+                                xStr += ' ';
+                        }
+                }
+        }
+        return xStr;
+}
+*/
+void Bu::BitString::clearString()
+{
+        if( caData != NULL )
+        {
+                memset( caData, 0, nBytes );
+        }
+}
+bool Bu::BitString::setBitLength( long nLength, bool bClear )
+{
+        if( nBits != nLength )
+        {
+                if( bClear || caData == NULL )
+                {
+                        //long j;
+                        nBits = nLength;
+                        nBytes = bitsToBytes( nLength );//(nNewBits/8)+((nNewBits%8)?(1):(0));
+                        if( caData != NULL ) delete[] caData;
+                        caData = new unsigned char[nBytes];
+                        memset( caData, 0, nBytes );
+                }
+                else
+                {
+                        //long j;
+                        nBits = nLength;
+                        long nNewBytes = bitsToBytes( nLength );//(nNewBits/8)+((nNewBits%8)?(1):(0));
+                        unsigned char *tmp = caData;
+                        caData = new unsigned char[nBytes];
+                        if( nNewBytes < nBytes )
+                        {
+                                memcpy( caData, tmp, nNewBytes );
+                        }
+                        else
+                        {
+                                memcpy( caData, tmp, nBytes );
+                        }
+                        delete[] tmp;
+                        nBytes = nNewBytes;
+                }
+                // This can either mean that there are a multiple of eight bits or zero, if there are zero you're an idiot
+                // (zero can't happen, because we would allocate an extra byte and never use it)
+                if( (nBits%8 == 0) )
+                {
+                        cTopByteMask = 0xFF;
+                }
+                else
+                {
+                        cTopByteMask = 0;
+                        for( long j = 0; j < (nBits%8); j++ )
+                        {
+                                cTopByteMask |= (1<<j);
+                        }
+                }
+        }
+        else if( bClear )
+        {
+                clearString();
+        }
+        return true;
+}
+void Bu::BitString::randomize()
+{
+        if( caData != NULL )
+        {
+                for( int j = 0; j < nBytes; j++ )
+                {
+                        caData[j] = (unsigned char)(random() & 0xFF);
+                }
+                fixup();
+        }
+}
+void Bu::BitString::invert()
+{
+        if( caData != NULL )
+        {
+                for( long j = 0; j < nBytes; j++ )
+                {
+                        caData[j] = ~caData[j];
+                }
+                fixup();
+        }
+}
+long Bu::BitString::getHighestOrderBitPos()
+{
+        for( long j = nBits-1; j >= 0; j-- )
+        {
+                if( getBit( j ) )
+                {
+                        return j;
+                }
+        }
+        return -1;
+}
+/*
+bool Bu::BitString::writeToFile( FILE *fh )
+{
+        fwrite( &nBits, sizeof(long), 1, fh );
+        fwrite( caData, sizeof(char), nBytes, fh );
+        
+        return true;
+}
+bool Bu::BitString::readFromFile( FILE *fh )
+{
+        fread( &nBits, sizeof(long), 1, fh );
+        
+        nBytes = bitsToBytes( nBits );
+        if( caData ) delete[] caData;
+        caData = new unsigned char[nBytes];
+        fread( caData, sizeof(char), nBytes, fh );
+        if( (nBits%8 == 0) )
+        {
+                cTopByteMask = 0xFF;
+        }
+        else
+        {
+                cTopByteMask = 0;
+                for( int j = 0; j < (nBits%8); j++ )
+                {
+                        cTopByteMask |= (1<<j);
+                }
+        }
+        
+        fixup();
+        return true;
+}*/
author	Mike Buland <eichlan@xagasoft.com>	2008-07-23 05:27:30 +0000
committer	Mike Buland <eichlan@xagasoft.com>	2008-07-23 05:27:30 +0000
commit	0047991313fd7c67b45c59d58e3fde0236bf3872 (patch)
tree	b2b0abbc67f7c276a71583270e57c1da46293f4d /src/bitstring.cpp
parent	57046f7fcbc6cd50105bd926b8f34732e302988a (diff)
download	libbu++-0047991313fd7c67b45c59d58e3fde0236bf3872.tar.gz libbu++-0047991313fd7c67b45c59d58e3fde0236bf3872.tar.bz2 libbu++-0047991313fd7c67b45c59d58e3fde0236bf3872.tar.xz libbu++-0047991313fd7c67b45c59d58e3fde0236bf3872.zip

diff --git a/src/bitstring.cpp b/src/bitstring.cpp new file mode 100644 index 0000000..8d99992 --- /dev/null +++ b/src/bitstring.cpp
@@ -0,0 +1,440 @@
	1	#include "bitstring.h"
	2	#include <stdlib.h>
	3	#include <stdio.h>
	4	#include <string.h>
	5
	6	#ifdef _WIN32
	7	#define random() rand()
	8	#endif
	9
	10	#define bitsToBytes( nBits ) (((nBits/8)+((nBits%8)?(1):(0))));
	11
	12	Bu::BitString::BitString()
	13	{
	14	caData = NULL;
	15	cTopByteMask = 0;
	16	nBits = nBytes = 0;
	17	}
	18
	19	Bu::BitString::BitString( const Bu::BitString &xSrc )
	20	{
	21	nBits = xSrc.nBits;
	22	nBytes = xSrc.nBytes;
	23	cTopByteMask = xSrc.cTopByteMask;
	24	caData = new unsigned char[nBytes];
	25	memcpy( caData, xSrc.caData, nBytes );
	26
	27	fixup();
	28	}
	29
	30	Bu::BitString::BitString( long nNewBits, bool bFillRandomly )
	31	{
	32	long j;
	33	nBits = nNewBits;
	34	nBytes = bitsToBytes( nNewBits );//(nNewBits/8)+((nNewBits%8)?(1):(0));
	35	caData = new unsigned char[nBytes];
	36
	37	// This can either mean that there are a multiple of eight bits or zero, if there are zero you're an idiot
	38	// (zero can't happen, because we would allocate an extra byte and never use it)
	39	if( (nBits%8 == 0) )
	40	{
	41	cTopByteMask = 0xFF;
	42	}
	43	else
	44	{
	45	cTopByteMask = 0;
	46	for( j = 0; j < (nBits%8); j++ )
	47	{
	48	cTopByteMask \|= (1<<j);
	49	}
	50	}
	51
	52	if( bFillRandomly )
	53	{
	54	// rand() only returns a value up to RAND_MAX (0x7FFF on my system) so I'll just use the low order byte)
	55	for( j = 0; j < nBytes; j++ )
	56	{
	57	caData[j] = (unsigned char)(random() & 0xFF);
	58	}
	59	}
	60	else
	61	{
	62	clearString();
	63	}
	64
	65	fixup();
	66	}
	67
	68	Bu::BitString::~BitString()
	69	{
	70	if( caData != NULL ) delete[] caData;
	71	}
	72
	73	Bu::BitString &Bu::BitString::operator=( const Bu::BitString &xSrc )
	74	{
	75	if( caData != NULL )
	76	{
	77	delete[] caData;
	78	}
	79	nBits = xSrc.nBits;
	80	nBytes = xSrc.nBytes;
	81	cTopByteMask = xSrc.cTopByteMask;
	82	caData = new unsigned char[nBytes];
	83	memcpy( caData, xSrc.caData, nBytes );
	84
	85	fixup();
	86
	87	return *this;
	88	}
	89
	90	Bu::BitString Bu::BitString::operator~()
	91	{
	92	Bu::BitString xRet( *this );
	93
	94	for( int j = 0; j < xRet.nBytes; j++ )
	95	{
	96	xRet.caData[j] = ~xRet.caData[j];
	97	}
	98
	99	xRet.fixup();
	100
	101	return xRet;
	102	}
	103
	104	Bu::BitString Bu::BitString::operator<<( const long nAmt )
	105	{
	106	if( nAmt == 0 )
	107	{
	108	return (*this);
	109	}
	110	//int nByteShift = nAmt/8;
	111
	112	Bu::BitString xSub( getBitLength() );
	113
	114	long shft = (nAmt%8);
	115	long base = (nAmt/8);
	116	unsigned char lowmask=0;
	117	for( long j = 0; j < 8-shft; j++ )
	118	{
	119	lowmask \|= (1<<j);
	120	}
	121	for( long j = 0; j < xSub.nBytes; j++ )
	122	{
	123	xSub.caData[base+j] = ((caData[j]>>shft)&(lowmask)) \| ((caData[j+1]<<(8-shft))&(~lowmask));
	124	}
	125	xSub.fixup();
	126
	127	return xSub;
	128	}
	129
	130	Bu::BitString Bu::BitString::operator>>( const long nAmt )
	131	{
	132	if( nAmt == 0 )
	133	{
	134	return (*this);
	135	}
	136	return (*this);
	137	}
	138
	139	void Bu::BitString::shiftLeft( long nAmt )
	140	{
	141	if( nAmt == 0 )
	142	{
	143	return;
	144	}
	145	else if( nAmt < 0 )
	146	{
	147	shiftRight( -nAmt );
	148	return;
	149	}
	150
	151	long nByteShift = nAmt/8;
	152	long nBitShift = nAmt%8;
	153
	154	long j;
	155	for( j = nBytes-1; j >= 0; j-- )
	156	{
	157	caData[j] = (((j-nByteShift)<0)?(0):((caData[j-nByteShift]<<nBitShift))) \| (((j-nByteShift-1)<0)?(0):((caData[j-nByteShift-1]>>(8-nBitShift))));
	158	}
	159
	160	fixup();
	161	}
	162
	163	void Bu::BitString::shiftRight( long nAmt )
	164	{
	165	if( nAmt == 0 )
	166	{
	167	return;
	168	}
	169	else if( nAmt < 0 )
	170	{
	171	shiftLeft( -nAmt );
	172	return;
	173	}
	174
	175	long nByteShift = nAmt/8;
	176	long nBitShift = nAmt%8;
	177
	178	long j;
	179	for( j = 0; j < nBytes; j++ )
	180	{
	181	caData[j] = (((j+nByteShift)>nBytes)?(0):((caData[j+nByteShift]>>nBitShift))) \| (((j+nByteShift+1)>nBytes)?(0):((caData[j+nByteShift+1]<<(8-nBitShift))));
	182	}
	183
	184	fixup();
	185	}
	186	/*
	187	long Bu::BitString::bitsToBytes( long nBits )
	188	{
	189	return (nBits/8)+((nBits%8)?(1):(0));
	190	}
	191	*/
	192	void Bu::BitString::fixup()
	193	{
	194	if( caData != NULL )
	195	{
	196	caData[nBytes-1] &= cTopByteMask;
	197	}
	198	}
	199
	200	void Bu::BitString::setBit( long nBit, bool bBitState )
	201	{
	202	if( bBitState )
	203	{
	204	caData[nBit/8] \|= (1<<(nBit%8));
	205	}
	206	else
	207	{
	208	caData[nBit/8] &= ~(1<<(nBit%8));
	209	}
	210	}
	211
	212	void Bu::BitString::flipBit( long nBit )
	213	{
	214	caData[nBit/8] ^= (1<<(nBit%8));
	215	}
	216
	217	bool Bu::BitString::getBit( long nBit )
	218	{
	219	if( nBit >= nBits \|\| nBit < 0 ) return false;
	220	if( (caData[nBit/8] & (1<<(nBit%8))) == 0 )
	221	{
	222	return false;
	223	}
	224	return true;
	225	}
	226
	227	long Bu::BitString::getBitLength()
	228	{
	229	return nBits;
	230	}
	231
	232	class Bu::BitString Bu::BitString::getSubString( long nLower, long nUpper )
	233	{
	234	if( nUpper == 0 \|\| nUpper < nLower ) nUpper = nBits;
	235
	236	Bu::BitString xSub( nUpper-nLower+1 );
	237
	238	long shft = (nLower%8);
	239	long base = (nLower/8);
	240	unsigned char lowmask=0;
	241	for( long j = 0; j < 8-shft; j++ )
	242	{
	243	lowmask \|= (1<<j);
	244	}
	245	for( long j = 0; j < xSub.nBytes; j++ )
	246	{
	247	xSub.caData[j] = ((caData[base+j]>>shft)&(lowmask)) \| ((caData[base+j+1]<<(8-shft))&(~lowmask));
	248	}
	249	xSub.fixup();
	250
	251	return xSub;
	252	}
	253
	254	long Bu::BitString::toLong( long nStart, long nSize )
	255	{
	256	if( nSize < 1 ) nSize = 1;
	257	if( nSize > 32 ) nSize = 32;
	258	if( nStart < 0 ) return 0;
	259	if( nStart+nSize > getBitLength() ) return 0;
	260
	261	Bu::BitString tmpo;
	262	tmpo = getSubString( nStart, nStart+nSize-1 );
	263	long x = ((long )tmpo.caData);
	264
	265	return x;
	266	}
	267	/*
	268	std::string Bu::BitString::toString( bool bAddSpacers )
	269	{
	270	long nSz = nBits;
	271	if( bAddSpacers )
	272	{
	273	nSz += (nBits/8);
	274	if( nBits%8 == 0 ) nSz--;
	275	}
	276	std::string xStr;
	277
	278	int bw=0;
	279	int of=0;
	280	for( int j = nBits-1; j >= 0; j-- )
	281	{
	282	if( getBit( j ) )
	283	{
	284	xStr += '1';
	285	}
	286	else
	287	{
	288	xStr += '0';
	289	}
	290
	291	if( bAddSpacers )
	292	{
	293	bw++;
	294	if( bw >= 8 && j < nBits-1 )
	295	{
	296	bw = 0;
	297	of++;
	298	xStr += ' ';
	299	}
	300	}
	301	}
	302
	303	return xStr;
	304	}
	305	*/
	306	void Bu::BitString::clearString()
	307	{
	308	if( caData != NULL )
	309	{
	310	memset( caData, 0, nBytes );
	311	}
	312	}
	313
	314	bool Bu::BitString::setBitLength( long nLength, bool bClear )
	315	{
	316	if( nBits != nLength )
	317	{
	318	if( bClear \|\| caData == NULL )
	319	{
	320	//long j;
	321	nBits = nLength;
	322	nBytes = bitsToBytes( nLength );//(nNewBits/8)+((nNewBits%8)?(1):(0));
	323	if( caData != NULL ) delete[] caData;
	324	caData = new unsigned char[nBytes];
	325	memset( caData, 0, nBytes );
	326	}
	327	else
	328	{
	329	//long j;
	330	nBits = nLength;
	331	long nNewBytes = bitsToBytes( nLength );//(nNewBits/8)+((nNewBits%8)?(1):(0));
	332	unsigned char *tmp = caData;
	333	caData = new unsigned char[nBytes];
	334	if( nNewBytes < nBytes )
	335	{
	336	memcpy( caData, tmp, nNewBytes );
	337	}
	338	else
	339	{
	340	memcpy( caData, tmp, nBytes );
	341	}
	342	delete[] tmp;
	343	nBytes = nNewBytes;
	344	}
	345
	346	// This can either mean that there are a multiple of eight bits or zero, if there are zero you're an idiot
	347	// (zero can't happen, because we would allocate an extra byte and never use it)
	348	if( (nBits%8 == 0) )
	349	{
	350	cTopByteMask = 0xFF;
	351	}
	352	else
	353	{
	354	cTopByteMask = 0;
	355	for( long j = 0; j < (nBits%8); j++ )
	356	{
	357	cTopByteMask \|= (1<<j);
	358	}
	359	}
	360	}
	361	else if( bClear )
	362	{
	363	clearString();
	364	}
	365
	366	return true;
	367	}
	368
	369	void Bu::BitString::randomize()
	370	{
	371	if( caData != NULL )
	372	{
	373	for( int j = 0; j < nBytes; j++ )
	374	{
	375	caData[j] = (unsigned char)(random() & 0xFF);
	376	}
	377	fixup();
	378	}
	379	}
	380
	381	void Bu::BitString::invert()
	382	{
	383	if( caData != NULL )
	384	{
	385	for( long j = 0; j < nBytes; j++ )
	386	{
	387	caData[j] = ~caData[j];
	388	}
	389	fixup();
	390	}
	391	}
	392
	393	long Bu::BitString::getHighestOrderBitPos()
	394	{
	395	for( long j = nBits-1; j >= 0; j-- )
	396	{
	397	if( getBit( j ) )
	398	{
	399	return j;
	400	}
	401	}
	402
	403	return -1;
	404	}
	405	/*
	406	bool Bu::BitString::writeToFile( FILE *fh )
	407	{
	408	fwrite( &nBits, sizeof(long), 1, fh );
	409	fwrite( caData, sizeof(char), nBytes, fh );
	410
	411	return true;
	412	}
	413
	414	bool Bu::BitString::readFromFile( FILE *fh )
	415	{
	416	fread( &nBits, sizeof(long), 1, fh );
	417
	418	nBytes = bitsToBytes( nBits );
	419	if( caData ) delete[] caData;
	420	caData = new unsigned char[nBytes];
	421
	422	fread( caData, sizeof(char), nBytes, fh );
	423
	424	if( (nBits%8 == 0) )
	425	{
	426	cTopByteMask = 0xFF;
	427	}
	428	else
	429	{
	430	cTopByteMask = 0;
	431	for( int j = 0; j < (nBits%8); j++ )
	432	{
	433	cTopByteMask \|= (1<<j);
	434	}
	435	}
	436
	437	fixup();
	438
	439	return true;
	440	}*/