Looks like FString is ready for general consumption, not too shabby.

author: Mike Buland <eichlan@xagasoft.com> 2007-03-15 05:24:58 +0000
committer: Mike Buland <eichlan@xagasoft.com> 2007-03-15 05:24:58 +0000
commit: cf847cc534a2a7ad06750c446028b7c6d126fe21 (patch)
tree: f4de1b9bcc261fe5dc758f13ee0b6d19b7ba5e27 /src
parent: 46725741fc82866e41652dee7adeddf376fde618 (diff)
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2 files changed, 247 insertions, 37 deletions
diff --git a/src/fstring.h b/src/fstring.h
index 287641f..db54cdd 100644
--- a/src/fstring.h
+++ b/src/fstring.h
@@ -20,6 +20,7 @@ class FBasicString
 {
 private:
        typedef struct FStringChunk<chr> Chunk;
+        typedef struct FBasicString<chr, chralloc, chunkalloc> MyType;
 public:
        FBasicString() :
@@ -48,8 +49,31 @@ public:
                append( pData, nLength );
        }
+        FBasicString( MyType &rSrc ) :
+                nLength( 0 ),
+                pnRefs( NULL ),
+                pFirst( NULL ),
+                pLast( NULL )
+        {
+                joinShare( rSrc );
+        }
+        FBasicString( const FBasicString<chr, chralloc, chunkalloc> &rSrc ) :
+                nLength( 0 ),
+                pnRefs( NULL ),
+                pFirst( NULL ),
+                pLast( NULL )
+        {
+                // Here we have no choice but to copy, since the other guy is a const.
+                // In the case that the source were flat, we could get a reference, it
+                // would make some things faster, but not matter in many other cases.
+                copyFrom( rSrc );
+        }
        virtual ~FBasicString()
        {
+                clear();
        }
        void append( const chr *pData )
@@ -58,7 +82,7 @@ public:
                for( nLen = 0; pData[nLen] != (chr)0; nLen++ );
                
                Chunk *pNew = newChunk( nLen );
-                memcpy( pNew->pData, pData, nLen * sizeof(chr) );
+                cpy( pNew->pData, pData, nLen );
                appendChunk( pNew );
        }
@@ -67,7 +91,7 @@ public:
        {
                Chunk *pNew = newChunk( nLen );
                
-                memcpy( pNew->pData, pData, nLen * sizeof(chr) );
+                cpy( pNew->pData, pData, nLen );
                appendChunk( pNew );
        }
@@ -78,7 +102,7 @@ public:
                for( nLen = 0; pData[nLen] != (chr)0; nLen++ );
                
                Chunk *pNew = newChunk( nLen );
-                memcpy( pNew->pData, pData, nLen * sizeof(chr) );
+                cpy( pNew->pData, pData, nLen );
                prependChunk( pNew );
        }
@@ -87,7 +111,7 @@ public:
        {
                Chunk *pNew = newChunk( nLen );
                
-                memcpy( pNew->pData, pData, nLen * sizeof(chr) );
+                cpy( pNew->pData, pData, nLen );
                prependChunk( pNew );
        }
@@ -97,18 +121,25 @@ public:
                if( pFirst == NULL )
                        return;
-                Chunk *i = pFirst;
+                if( isShared() )
-                for(;;)
                {
-                        Chunk *n = i->pNext;
+                        decRefs();
-                        aChr.deallocate( i->pData, i->nLength+1 );
+                }
-                        aChunk.deallocate( i, 1 );
+                else
-                        if( n == NULL )
+                {
-                                break;
+                        Chunk *i = pFirst;
-                        i = n;
+                        for(;;)
+                        {
+                                Chunk *n = i->pNext;
+                                aChr.deallocate( i->pData, i->nLength+1 );
+                                aChunk.deallocate( i, 1 );
+                                if( n == NULL )
+                                        break;
+                                i = n;
+                        }
+                        pFirst = pLast = NULL;
+                        nLength = 0;
                }
-                pFirst = pLast = NULL;
-                nLength = 0;
        }
        chr *c_str()
@@ -120,14 +151,14 @@ public:
                return pFirst->pData;
        }
-        FBasicString<chr, chralloc, chunkalloc> &operator +=( const chr *pData )
+        MyType &operator +=( const chr *pData )
        {
                append( pData );
                return (*this);
        }
-        FBasicString<chr, chralloc, chunkalloc> &operator =( const chr *pData )
+        MyType &operator =( const chr *pData )
        {
                clear();
                append( pData );
@@ -135,6 +166,27 @@ public:
                return (*this);
        }
+        MyType &operator =( const MyType &rSrc )
+        {
+                if( rSrc.isFlat() )
+                {
+                        joinShare( rSrc );
+                }
+                else
+                {
+                        copyFrom( rSrc );
+                }
+                return (*this);
+        }
+        
+        MyType &operator =( MyType &rSrc )
+        {
+                joinShare( rSrc );
+                return (*this);
+        }
        bool operator ==( const chr *pData )
        {
                if( pFirst == NULL ) {
@@ -160,7 +212,12 @@ public:
                return !(*this == pData);
        }
+        chr &operator[]( long nIndex )
+        {
+                flatten();
+                return pFirst->pData[nIndex];
+        }
 private:
        void flatten()
@@ -171,12 +228,37 @@ private:
                if( pFirst == NULL )
                        return;
+                unShare();
                Chunk *pNew = newChunk( nLength );
                chr *pos = pNew->pData;
                Chunk *i = pFirst;
                for(;;)
                {
-                        memcpy( pos, i->pData, i->nLength*sizeof(chr) );
+                        cpy( pos, i->pData, i->nLength );
+                        pos += i->nLength;
+                        i = i->pNext;
+                        if( i == NULL )
+                                break;
+                }
+                clear();
+                appendChunk( pNew );
+        }
+        
+        void copyFrom( const FBasicString<chr, chralloc, chunkalloc> &rSrc )
+        {
+                if( rSrc.pFirst == NULL )
+                        return;
+                
+                decRefs();
+                Chunk *pNew = newChunk( rSrc.nLength );
+                chr *pos = pNew->pData;
+                Chunk *i = rSrc.pFirst;
+                for(;;)
+                {
+                        cpy( pos, i->pData, i->nLength );
                        pos += i->nLength;
                        i = i->pNext;
                        if( i == NULL )
@@ -187,12 +269,12 @@ private:
                appendChunk( pNew );
        }
        
-        bool isFlat()
+        bool isFlat() const
        {
                return (pFirst == pLast);
        }
-        bool isShared()
+        bool isShared() const
        {
                return (pnRefs != NULL);
        }
@@ -210,11 +292,14 @@ private:
                pNew->pNext = NULL;
                pNew->nLength = nLen;
                pNew->pData = aChr.allocate( nLen+1 );
+                pNew->pData[nLen] = (chr)0;
                return pNew;
        }
        void appendChunk( Chunk *pNewChunk )
        {
+                unShare();
                if( pFirst == NULL )
                        pLast = pFirst = pNewChunk;
                else
@@ -228,6 +313,8 @@ private:
        
        void prependChunk( Chunk *pNewChunk )
        {
+                unShare();
                if( pFirst == NULL )
                        pLast = pFirst = pNewChunk;
                else
@@ -239,9 +326,123 @@ private:
                nLength += pNewChunk->nLength;
        }
+        void joinShare( MyType &rSrc )
+        {
+                clear();
+                if( !rSrc.isFlat() )
+                        rSrc.flatten();
+                rSrc.initCount();
+                pnRefs = rSrc.pnRefs;
+                (*pnRefs)++;
+                nLength = rSrc.nLength;
+                pFirst = rSrc.pFirst;
+                pLast = rSrc.pLast;
+        }
+        
+        void joinShare( const MyType &rSrc )
+        {
+                clear();
+                if( !rSrc.isFlat() )
+                        return;
+                if( !rSrc.isShared() )
+                {
+                        rSrc.pnRefs = new uint32_t;
+                        (*rSrc.pnRefs) = 1;
+                }
+                pnRefs = rSrc.pnRefs;
+                (*pnRefs)++;
+                nLength = rSrc.nLength;
+                pFirst = rSrc.pFirst;
+                pLast = rSrc.pLast;
+        }
+        /**
+         * This takes an object that was shared and makes a copy of the base data
+         * that was being shared so that this copy can be changed.  This should be
+         * added before any call that will change this object;
+         */
+        void unShare()
+        {
+                if( isShared() == false )
+                        return;
+                Chunk *pNew = newChunk( nLength );
+                chr *pos = pNew->pData;
+                Chunk *i = pFirst;
+                for(;;)
+                {
+                        cpy( pos, i->pData, i->nLength );
+                        pos += i->nLength;
+                        i = i->pNext;
+                        if( i == NULL )
+                                break;
+                }
+                decRefs();
+                appendChunk( pNew );
+                decRefs();
+        }
+        /**
+         * This decrements our ref count and pulls us out of the share.  If the ref
+         * count hits zero because of this, it destroys the share.  This is not
+         * safe to call on it's own, it's much better to call unShare.
+         */
+        void decRefs()
+        {
+                if( isShared() )
+                {
+                        (*pnRefs)--;
+                        if( (*pnRefs) == 0 )
+                                destroyShare();
+                        else
+                        {
+                                pnRefs = NULL;
+                                pFirst = NULL;
+                                pLast = NULL;
+                                nLength = 0;
+                        }
+                }
+        }
+        /**
+         * While the unShare function removes an instance from a share, this
+         * function destroys the data that was in the share, removing the share
+         * itself.  This should only be called when the refcount for the share has
+         * or is about to reach zero.
+         */
+        void destroyShare()
+        {
+                delete pnRefs;
+                pnRefs = NULL;
+                clear();
+        }
+        void cpy( chr *dest, const chr *src, long count )
+        {
+                for( int j = 0; j < count; j++ )
+                {
+                        *dest = *src;
+                        dest++;
+                        src++;
+                }
+        }
+        void initCount() const
+        {
+                if( !isShared() )
+                {
+                        pnRefs = new uint32_t;
+                        (*pnRefs) = 1;
+                }
+        }
 private:
        long nLength;
-        uint32_t *pnRefs;
+        mutable uint32_t *pnRefs;
        Chunk *pFirst;
        Chunk *pLast;
diff --git a/src/tests/fstring.cpp b/src/tests/fstring.cpp
index 26905ac..cb85282 100644
--- a/src/tests/fstring.cpp
+++ b/src/tests/fstring.cpp
@@ -1,28 +1,37 @@
 #include "fstring.h"
-int main( int argc, char *argv )
+FString genThing()
 {
-        FString str("[] this won't be in there", 3);
+        FString bob;
+        bob.append("ab ");
-        str.append("Hello");
+        bob += "cd ";
-        str.append(" th");
+        bob += "efg";
-        str.append("ere.");
-        if( str == "[] Hello there." )
+    printf("---bob------\n%08X: %s\n", (unsigned int)bob.c_str(), bob.c_str() );
-                printf("1) check\n");
+        return bob;
+}
-        if( str != "[] Hello there. " )
+#define pem printf("---------\n%08X: %s\n%08X: %s\n", (unsigned int)str.c_str(), str.c_str(), (unsigned int)str2.c_str(), str2.c_str() );
-                printf("2) check\n");
+int main( int argc, char *argv )
+{
+        FString str("th");
-        if( str != "[] Hello there." )
+        str.prepend("Hello ");
-                printf("3) failed\n");
+        str.append("ere.");
-        else
-                printf("3) check\n");
-        str += "  How are you?";
+        FString str2( str );
+        pem;
+        str += "  What's up?";
+        pem;
+        str2 += "  How are you?";
+        pem;
+        str = str2;
+        pem;
-        str.prepend("Bob says:  ");
+        str2 = genThing();
+        pem;
-        printf("%s\n", str.c_str() );
+        str = str2;
+        pem;
 }
author	Mike Buland <eichlan@xagasoft.com>	2007-03-15 05:24:58 +0000
committer	Mike Buland <eichlan@xagasoft.com>	2007-03-15 05:24:58 +0000
commit	cf847cc534a2a7ad06750c446028b7c6d126fe21 (patch)
tree	f4de1b9bcc261fe5dc758f13ee0b6d19b7ba5e27 /src
parent	46725741fc82866e41652dee7adeddf376fde618 (diff)
download	libbu++-cf847cc534a2a7ad06750c446028b7c6d126fe21.tar.gz libbu++-cf847cc534a2a7ad06750c446028b7c6d126fe21.tar.bz2 libbu++-cf847cc534a2a7ad06750c446028b7c6d126fe21.tar.xz libbu++-cf847cc534a2a7ad06750c446028b7c6d126fe21.zip

diff --git a/src/fstring.h b/src/fstring.h index 287641f..db54cdd 100644 --- a/src/fstring.h +++ b/src/fstring.h
@@ -20,6 +20,7 @@ class FBasicString
20	{	20	{
21	private:	21	private:
22	typedef struct FStringChunk<chr> Chunk;	22	typedef struct FStringChunk<chr> Chunk;
		23	typedef struct FBasicString<chr, chralloc, chunkalloc> MyType;
23		24
24	public:	25	public:
25	FBasicString() :	26	FBasicString() :
@@ -48,8 +49,31 @@ public:
48	append( pData, nLength );	49	append( pData, nLength );
49	}	50	}
50		51
		52	FBasicString( MyType &rSrc ) :
		53	nLength( 0 ),
		54	pnRefs( NULL ),
		55	pFirst( NULL ),
		56	pLast( NULL )
		57	{
		58	joinShare( rSrc );
		59	}
		60
		61	FBasicString( const FBasicString<chr, chralloc, chunkalloc> &rSrc ) :
		62	nLength( 0 ),
		63	pnRefs( NULL ),
		64	pFirst( NULL ),
		65	pLast( NULL )
		66	{
		67	// Here we have no choice but to copy, since the other guy is a const.
		68	// In the case that the source were flat, we could get a reference, it
		69	// would make some things faster, but not matter in many other cases.
		70
		71	copyFrom( rSrc );
		72	}
		73
51	virtual ~FBasicString()	74	virtual ~FBasicString()
52	{	75	{
		76	clear();
53	}	77	}
54		78
55	void append( const chr *pData )	79	void append( const chr *pData )
@@ -58,7 +82,7 @@ public:
58	for( nLen = 0; pData[nLen] != (chr)0; nLen++ );	82	for( nLen = 0; pData[nLen] != (chr)0; nLen++ );
59		83
60	Chunk *pNew = newChunk( nLen );	84	Chunk *pNew = newChunk( nLen );
61	memcpy( pNew->pData, pData, nLen * sizeof(chr) );	85	cpy( pNew->pData, pData, nLen );
62		86
63	appendChunk( pNew );	87	appendChunk( pNew );
64	}	88	}
@@ -67,7 +91,7 @@ public:
67	{	91	{
68	Chunk *pNew = newChunk( nLen );	92	Chunk *pNew = newChunk( nLen );
69		93
70	memcpy( pNew->pData, pData, nLen * sizeof(chr) );	94	cpy( pNew->pData, pData, nLen );
71		95
72	appendChunk( pNew );	96	appendChunk( pNew );
73	}	97	}
@@ -78,7 +102,7 @@ public:
78	for( nLen = 0; pData[nLen] != (chr)0; nLen++ );	102	for( nLen = 0; pData[nLen] != (chr)0; nLen++ );
79		103
80	Chunk *pNew = newChunk( nLen );	104	Chunk *pNew = newChunk( nLen );
81	memcpy( pNew->pData, pData, nLen * sizeof(chr) );	105	cpy( pNew->pData, pData, nLen );
82		106
83	prependChunk( pNew );	107	prependChunk( pNew );
84	}	108	}
@@ -87,7 +111,7 @@ public:
87	{	111	{
88	Chunk *pNew = newChunk( nLen );	112	Chunk *pNew = newChunk( nLen );
89		113
90	memcpy( pNew->pData, pData, nLen * sizeof(chr) );	114	cpy( pNew->pData, pData, nLen );
91		115
92	prependChunk( pNew );	116	prependChunk( pNew );
93	}	117	}
@@ -97,18 +121,25 @@ public:
97	if( pFirst == NULL )	121	if( pFirst == NULL )
98	return;	122	return;
99		123
100	Chunk *i = pFirst;	124	if( isShared() )
101	for(;;)
102	{	125	{
103	Chunk *n = i->pNext;	126	decRefs();
104	aChr.deallocate( i->pData, i->nLength+1 );	127	}
105	aChunk.deallocate( i, 1 );	128	else
106	if( n == NULL )	129	{
107	break;	130	Chunk *i = pFirst;
108	i = n;	131	for(;;)
		132	{
		133	Chunk *n = i->pNext;
		134	aChr.deallocate( i->pData, i->nLength+1 );
		135	aChunk.deallocate( i, 1 );
		136	if( n == NULL )
		137	break;
		138	i = n;
		139	}
		140	pFirst = pLast = NULL;
		141	nLength = 0;
109	}	142	}
110	pFirst = pLast = NULL;
111	nLength = 0;
112	}	143	}
113		144
114	chr *c_str()	145	chr *c_str()
@@ -120,14 +151,14 @@ public:
120	return pFirst->pData;	151	return pFirst->pData;
121	}	152	}
122		153
123	FBasicString<chr, chralloc, chunkalloc> &operator +=( const chr *pData )	154	MyType &operator +=( const chr *pData )
124	{	155	{
125	append( pData );	156	append( pData );
126		157
127	return (*this);	158	return (*this);
128	}	159	}
129		160
130	FBasicString<chr, chralloc, chunkalloc> &operator =( const chr *pData )	161	MyType &operator =( const chr *pData )
131	{	162	{
132	clear();	163	clear();
133	append( pData );	164	append( pData );
@@ -135,6 +166,27 @@ public:
135	return (*this);	166	return (*this);
136	}	167	}
137		168
		169	MyType &operator =( const MyType &rSrc )
		170	{
		171	if( rSrc.isFlat() )
		172	{
		173	joinShare( rSrc );
		174	}
		175	else
		176	{
		177	copyFrom( rSrc );
		178	}
		179
		180	return (*this);
		181	}
		182
		183	MyType &operator =( MyType &rSrc )
		184	{
		185	joinShare( rSrc );
		186
		187	return (*this);
		188	}
		189
138	bool operator ==( const chr *pData )	190	bool operator ==( const chr *pData )
139	{	191	{
140	if( pFirst == NULL ) {	192	if( pFirst == NULL ) {
@@ -160,7 +212,12 @@ public:
160	return !(*this == pData);	212	return !(*this == pData);
161	}	213	}
162		214
		215	chr &operator[]( long nIndex )
		216	{
		217	flatten();
163		218
		219	return pFirst->pData[nIndex];
		220	}
164		221
165	private:	222	private:
166	void flatten()	223	void flatten()
@@ -171,12 +228,37 @@ private:
171	if( pFirst == NULL )	228	if( pFirst == NULL )
172	return;	229	return;
173		230
		231	unShare();
		232
174	Chunk *pNew = newChunk( nLength );	233	Chunk *pNew = newChunk( nLength );
175	chr *pos = pNew->pData;	234	chr *pos = pNew->pData;
176	Chunk *i = pFirst;	235	Chunk *i = pFirst;
177	for(;;)	236	for(;;)
178	{	237	{
179	memcpy( pos, i->pData, i->nLength*sizeof(chr) );	238	cpy( pos, i->pData, i->nLength );
		239	pos += i->nLength;
		240	i = i->pNext;
		241	if( i == NULL )
		242	break;
		243	}
		244	clear();
		245
		246	appendChunk( pNew );
		247	}
		248
		249	void copyFrom( const FBasicString<chr, chralloc, chunkalloc> &rSrc )
		250	{
		251	if( rSrc.pFirst == NULL )
		252	return;
		253
		254	decRefs();
		255
		256	Chunk *pNew = newChunk( rSrc.nLength );
		257	chr *pos = pNew->pData;
		258	Chunk *i = rSrc.pFirst;
		259	for(;;)
		260	{
		261	cpy( pos, i->pData, i->nLength );
180	pos += i->nLength;	262	pos += i->nLength;
181	i = i->pNext;	263	i = i->pNext;
182	if( i == NULL )	264	if( i == NULL )
@@ -187,12 +269,12 @@ private:
187	appendChunk( pNew );	269	appendChunk( pNew );
188	}	270	}
189		271
190	bool isFlat()	272	bool isFlat() const
191	{	273	{
192	return (pFirst == pLast);	274	return (pFirst == pLast);
193	}	275	}
194		276
195	bool isShared()	277	bool isShared() const
196	{	278	{
197	return (pnRefs != NULL);	279	return (pnRefs != NULL);
198	}	280	}
@@ -210,11 +292,14 @@ private:
210	pNew->pNext = NULL;	292	pNew->pNext = NULL;
211	pNew->nLength = nLen;	293	pNew->nLength = nLen;
212	pNew->pData = aChr.allocate( nLen+1 );	294	pNew->pData = aChr.allocate( nLen+1 );
		295	pNew->pData[nLen] = (chr)0;
213	return pNew;	296	return pNew;
214	}	297	}
215		298
216	void appendChunk( Chunk *pNewChunk )	299	void appendChunk( Chunk *pNewChunk )
217	{	300	{
		301	unShare();
		302
218	if( pFirst == NULL )	303	if( pFirst == NULL )
219	pLast = pFirst = pNewChunk;	304	pLast = pFirst = pNewChunk;
220	else	305	else
@@ -228,6 +313,8 @@ private:
228		313
229	void prependChunk( Chunk *pNewChunk )	314	void prependChunk( Chunk *pNewChunk )
230	{	315	{
		316	unShare();
		317
231	if( pFirst == NULL )	318	if( pFirst == NULL )
232	pLast = pFirst = pNewChunk;	319	pLast = pFirst = pNewChunk;
233	else	320	else
@@ -239,9 +326,123 @@ private:
239	nLength += pNewChunk->nLength;	326	nLength += pNewChunk->nLength;
240	}	327	}
241		328
		329	void joinShare( MyType &rSrc )
		330	{
		331	clear();
		332
		333	if( !rSrc.isFlat() )
		334	rSrc.flatten();
		335
		336	rSrc.initCount();
		337	pnRefs = rSrc.pnRefs;
		338	(*pnRefs)++;
		339	nLength = rSrc.nLength;
		340	pFirst = rSrc.pFirst;
		341	pLast = rSrc.pLast;
		342	}
		343
		344	void joinShare( const MyType &rSrc )
		345	{
		346	clear();
		347
		348	if( !rSrc.isFlat() )
		349	return;
		350
		351	if( !rSrc.isShared() )
		352	{
		353	rSrc.pnRefs = new uint32_t;
		354	(*rSrc.pnRefs) = 1;
		355	}
		356	pnRefs = rSrc.pnRefs;
		357	(*pnRefs)++;
		358	nLength = rSrc.nLength;
		359	pFirst = rSrc.pFirst;
		360	pLast = rSrc.pLast;
		361	}
		362
		363	/**
		364	* This takes an object that was shared and makes a copy of the base data
		365	* that was being shared so that this copy can be changed. This should be
		366	* added before any call that will change this object;
		367	*/
		368	void unShare()
		369	{
		370	if( isShared() == false )
		371	return;
		372
		373	Chunk *pNew = newChunk( nLength );
		374	chr *pos = pNew->pData;
		375	Chunk *i = pFirst;
		376	for(;;)
		377	{
		378	cpy( pos, i->pData, i->nLength );
		379	pos += i->nLength;
		380	i = i->pNext;
		381	if( i == NULL )
		382	break;
		383	}
		384	decRefs();
		385	appendChunk( pNew );
		386	decRefs();
		387	}
		388
		389	/**
		390	* This decrements our ref count and pulls us out of the share. If the ref
		391	* count hits zero because of this, it destroys the share. This is not
		392	* safe to call on it's own, it's much better to call unShare.
		393	*/
		394	void decRefs()
		395	{
		396	if( isShared() )
		397	{
		398	(*pnRefs)--;
		399	if( (*pnRefs) == 0 )
		400	destroyShare();
		401	else
		402	{
		403	pnRefs = NULL;
		404	pFirst = NULL;
		405	pLast = NULL;
		406	nLength = 0;
		407	}
		408	}
		409	}
		410
		411	/**
		412	* While the unShare function removes an instance from a share, this
		413	* function destroys the data that was in the share, removing the share
		414	* itself. This should only be called when the refcount for the share has
		415	* or is about to reach zero.
		416	*/
		417	void destroyShare()
		418	{
		419	delete pnRefs;
		420	pnRefs = NULL;
		421	clear();
		422	}
		423
		424	void cpy( chr dest, const chr src, long count )
		425	{
		426	for( int j = 0; j < count; j++ )
		427	{
		428	dest = src;
		429	dest++;
		430	src++;
		431	}
		432	}
		433
		434	void initCount() const
		435	{
		436	if( !isShared() )
		437	{
		438	pnRefs = new uint32_t;
		439	(*pnRefs) = 1;
		440	}
		441	}
		442
242	private:	443	private:
243	long nLength;	444	long nLength;
244	uint32_t *pnRefs;	445	mutable uint32_t *pnRefs;
245	Chunk *pFirst;	446	Chunk *pFirst;
246	Chunk *pLast;	447	Chunk *pLast;
247		448


diff --git a/src/tests/fstring.cpp b/src/tests/fstring.cpp index 26905ac..cb85282 100644 --- a/src/tests/fstring.cpp +++ b/src/tests/fstring.cpp
@@ -1,28 +1,37 @@
1	#include "fstring.h"	1	#include "fstring.h"
2		2
3	int main( int argc, char *argv )	3	FString genThing()
4	{	4	{
5	FString str("[] this won't be in there", 3);	5	FString bob;
6		6	bob.append("ab ");
7	str.append("Hello");	7	bob += "cd ";
8	str.append(" th");	8	bob += "efg";
9	str.append("ere.");
10		9
11	if( str == "[] Hello there." )	10	printf("---bob------\n%08X: %s\n", (unsigned int)bob.c_str(), bob.c_str() );
12	printf("1) check\n");	11	return bob;
		12	}
13		13
14	if( str != "[] Hello there. " )	14	#define pem printf("---------\n%08X: %s\n%08X: %s\n", (unsigned int)str.c_str(), str.c_str(), (unsigned int)str2.c_str(), str2.c_str() );
15	printf("2) check\n");	15	int main( int argc, char *argv )
		16	{
		17	FString str("th");
16		18
17	if( str != "[] Hello there." )	19	str.prepend("Hello ");
18	printf("3) failed\n");	20	str.append("ere.");
19	else
20	printf("3) check\n");
21		21
22	str += " How are you?";	22	FString str2( str );
		23	pem;
		24	str += " What's up?";
		25	pem;
		26	str2 += " How are you?";
		27	pem;
		28	str = str2;
		29	pem;
23		30
24	str.prepend("Bob says: ");	31	str2 = genThing();
		32	pem;
25		33
26	printf("%s\n", str.c_str() );	34	str = str2;
		35	pem;
27	}	36	}
28		37