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bstrlib.c
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bstrlib.c
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/*
* This source file is part of the bstring string library. This code was
* written by Paul Hsieh in 2002-2010, and is covered by either the 3-clause
* BSD open source license or GPL v2.0. Refer to the accompanying documentation
* for details on usage and license.
*/
/*
* bstrlib.c
*
* This file is the core module for implementing the bstring functions.
*/
#if defined (_MSC_VER)
/* These warnings from MSVC++ are totally pointless. */
# define _CRT_SECURE_NO_WARNINGS
#endif
#include <stdio.h>
#include <stddef.h>
#include <stdarg.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include "bstrlib.h"
/* Optionally include a mechanism for debugging memory */
#if defined(MEMORY_DEBUG) || defined(BSTRLIB_MEMORY_DEBUG)
#include "memdbg.h"
#endif
#ifndef bstr__alloc
#define bstr__alloc(x) malloc (x)
#endif
#ifndef bstr__free
#define bstr__free(p) free (p)
#endif
#ifndef bstr__realloc
#define bstr__realloc(p,x) realloc ((p), (x))
#endif
#ifndef bstr__memcpy
#define bstr__memcpy(d,s,l) memcpy ((d), (s), (l))
#endif
#ifndef bstr__memmove
#define bstr__memmove(d,s,l) memmove ((d), (s), (l))
#endif
#ifndef bstr__memset
#define bstr__memset(d,c,l) memset ((d), (c), (l))
#endif
#ifndef bstr__memcmp
#define bstr__memcmp(d,c,l) memcmp ((d), (c), (l))
#endif
#ifndef bstr__memchr
#define bstr__memchr(s,c,l) memchr ((s), (c), (l))
#endif
/* Just a length safe wrapper for memmove. */
#define bBlockCopy(D,S,L) { if ((L) > 0) bstr__memmove ((D),(S),(L)); }
/* Compute the snapped size for a given requested size. By snapping to powers
of 2 like this, repeated reallocations are avoided. */
static int snapUpSize (int i) {
if (i < 8) {
i = 8;
} else {
unsigned int j;
j = (unsigned int) i;
j |= (j >> 1);
j |= (j >> 2);
j |= (j >> 4);
j |= (j >> 8); /* Ok, since int >= 16 bits */
#if (UINT_MAX != 0xffff)
j |= (j >> 16); /* For 32 bit int systems */
#if (UINT_MAX > 0xffffffffUL)
j |= (j >> 32); /* For 64 bit int systems */
#endif
#endif
/* Least power of two greater than i */
j++;
if ((int) j >= i) i = (int) j;
}
return i;
}
/* int balloc (bstring b, int len)
*
* Increase the size of the memory backing the bstring b to at least len.
*/
int balloc (bstring b, int olen) {
int len;
if (b == NULL || b->data == NULL || b->slen < 0 || b->mlen <= 0 ||
b->mlen < b->slen || olen <= 0) {
return BSTR_ERR;
}
if (olen >= b->mlen) {
unsigned char * x;
if ((len = snapUpSize (olen)) <= b->mlen) return BSTR_OK;
/* Assume probability of a non-moving realloc is 0.125 */
if (7 * b->mlen < 8 * b->slen) {
/* If slen is close to mlen in size then use realloc to reduce
the memory defragmentation */
reallocStrategy:;
x = (unsigned char *) bstr__realloc (b->data, (size_t) len);
if (x == NULL) {
/* Since we failed, try allocating the tighest possible
allocation */
if (NULL == (x = (unsigned char *) bstr__realloc (b->data, (size_t) (len = olen)))) {
return BSTR_ERR;
}
}
} else {
/* If slen is not close to mlen then avoid the penalty of copying
the extra bytes that are allocated, but not considered part of
the string */
if (NULL == (x = (unsigned char *) bstr__alloc ((size_t) len))) {
/* Perhaps there is no available memory for the two
allocations to be in memory at once */
goto reallocStrategy;
} else {
if (b->slen) bstr__memcpy ((char *) x, (char *) b->data, (size_t) b->slen);
bstr__free (b->data);
}
}
b->data = x;
b->mlen = len;
b->data[b->slen] = (unsigned char) '\0';
}
return BSTR_OK;
}
/* int ballocmin (bstring b, int len)
*
* Set the size of the memory backing the bstring b to len or b->slen+1,
* whichever is larger. Note that repeated use of this function can degrade
* performance.
*/
int ballocmin (bstring b, int len) {
unsigned char * s;
if (b == NULL || b->data == NULL || (b->slen+1) < 0 || b->mlen <= 0 ||
b->mlen < b->slen || len <= 0) {
return BSTR_ERR;
}
if (len < b->slen + 1) len = b->slen + 1;
if (len != b->mlen) {
s = (unsigned char *) bstr__realloc (b->data, (size_t) len);
if (NULL == s) return BSTR_ERR;
s[b->slen] = (unsigned char) '\0';
b->data = s;
b->mlen = len;
}
return BSTR_OK;
}
/* bstring bfromcstr (const char * str)
*
* Create a bstring which contains the contents of the '\0' terminated char *
* buffer str.
*/
bstring bfromcstr (const char * str) {
bstring b;
int i;
size_t j;
if (str == NULL) return NULL;
j = (strlen) (str);
i = snapUpSize ((int) (j + (2 - (j != 0))));
if (i <= (int) j) return NULL;
b = (bstring) bstr__alloc (sizeof (struct tagbstring));
if (NULL == b) return NULL;
b->slen = (int) j;
if (NULL == (b->data = (unsigned char *) bstr__alloc (b->mlen = i))) {
bstr__free (b);
return NULL;
}
bstr__memcpy (b->data, str, j+1);
return b;
}
/* bstring bfromcstralloc (int mlen, const char * str)
*
* Create a bstring which contains the contents of the '\0' terminated char *
* buffer str. The memory buffer backing the string is at least len
* characters in length.
*/
bstring bfromcstralloc (int mlen, const char * str) {
bstring b;
int i;
size_t j;
if (str == NULL) return NULL;
j = (strlen) (str);
i = snapUpSize ((int) (j + (2 - (j != 0))));
if (i <= (int) j) return NULL;
b = (bstring) bstr__alloc (sizeof (struct tagbstring));
if (b == NULL) return NULL;
b->slen = (int) j;
if (i < mlen) i = mlen;
if (NULL == (b->data = (unsigned char *) bstr__alloc (b->mlen = i))) {
bstr__free (b);
return NULL;
}
bstr__memcpy (b->data, str, j+1);
return b;
}
/* bstring blk2bstr (const void * blk, int len)
*
* Create a bstring which contains the content of the block blk of length
* len.
*/
bstring blk2bstr (const void * blk, int len) {
bstring b;
int i;
if (blk == NULL || len < 0) return NULL;
b = (bstring) bstr__alloc (sizeof (struct tagbstring));
if (b == NULL) return NULL;
b->slen = len;
i = len + (2 - (len != 0));
i = snapUpSize (i);
b->mlen = i;
b->data = (unsigned char *) bstr__alloc ((size_t) b->mlen);
if (b->data == NULL) {
bstr__free (b);
return NULL;
}
if (len > 0) bstr__memcpy (b->data, blk, (size_t) len);
b->data[len] = (unsigned char) '\0';
return b;
}
/* char * bstr2cstr (const_bstring s, char z)
*
* Create a '\0' terminated char * buffer which is equal to the contents of
* the bstring s, except that any contained '\0' characters are converted
* to the character in z. This returned value should be freed with a
* bcstrfree () call, by the calling application.
*/
char * bstr2cstr (const_bstring b, char z) {
int i, l;
char * r;
if (b == NULL || b->slen < 0 || b->data == NULL) return NULL;
l = b->slen;
r = (char *) bstr__alloc ((size_t) (l + 1));
if (r == NULL) return r;
for (i=0; i < l; i ++) {
r[i] = (char) ((b->data[i] == '\0') ? z : (char) (b->data[i]));
}
r[l] = (unsigned char) '\0';
return r;
}
/* int bcstrfree (char * s)
*
* Frees a C-string generated by bstr2cstr (). This is normally unnecessary
* since it just wraps a call to bstr__free (), however, if bstr__alloc ()
* and bstr__free () have been redefined as a macros within the bstrlib
* module (via defining them in memdbg.h after defining
* BSTRLIB_MEMORY_DEBUG) with some difference in behaviour from the std
* library functions, then this allows a correct way of freeing the memory
* that allows higher level code to be independent from these macro
* redefinitions.
*/
int bcstrfree (char * s) {
if (s) {
bstr__free (s);
return BSTR_OK;
}
return BSTR_ERR;
}
/* int bconcat (bstring b0, const_bstring b1)
*
* Concatenate the bstring b1 to the bstring b0.
*/
int bconcat (bstring b0, const_bstring b1) {
int len, d;
bstring aux = (bstring) b1;
if (b0 == NULL || b1 == NULL || b0->data == NULL || b1->data == NULL) return BSTR_ERR;
d = b0->slen;
len = b1->slen;
if ((d | (b0->mlen - d) | len | (d + len)) < 0) return BSTR_ERR;
if (b0->mlen <= d + len + 1) {
ptrdiff_t pd = b1->data - b0->data;
if (0 <= pd && pd < b0->mlen) {
if (NULL == (aux = bstrcpy (b1))) return BSTR_ERR;
}
if (balloc (b0, d + len + 1) != BSTR_OK) {
if (aux != b1) bdestroy (aux);
return BSTR_ERR;
}
}
bBlockCopy (&b0->data[d], &aux->data[0], (size_t) len);
b0->data[d + len] = (unsigned char) '\0';
b0->slen = d + len;
if (aux != b1) bdestroy (aux);
return BSTR_OK;
}
/* int bconchar (bstring b, char c)
/ *
* Concatenate the single character c to the bstring b.
*/
int bconchar (bstring b, char c) {
int d;
if (b == NULL) return BSTR_ERR;
d = b->slen;
if ((d | (b->mlen - d)) < 0 || balloc (b, d + 2) != BSTR_OK) return BSTR_ERR;
b->data[d] = (unsigned char) c;
b->data[d + 1] = (unsigned char) '\0';
b->slen++;
return BSTR_OK;
}
/* int bcatcstr (bstring b, const char * s)
*
* Concatenate a char * string to a bstring.
*/
int bcatcstr (bstring b, const char * s) {
char * d;
int i, l;
if (b == NULL || b->data == NULL || b->slen < 0 || b->mlen < b->slen
|| b->mlen <= 0 || s == NULL) return BSTR_ERR;
/* Optimistically concatenate directly */
l = b->mlen - b->slen;
d = (char *) &b->data[b->slen];
for (i=0; i < l; i++) {
if ((*d++ = *s++) == '\0') {
b->slen += i;
return BSTR_OK;
}
}
b->slen += i;
/* Need to explicitely resize and concatenate tail */
return bcatblk (b, (const void *) s, (int) strlen (s));
}
/* int bcatblk (bstring b, const void * s, int len)
*
* Concatenate a fixed length buffer to a bstring.
*/
int bcatblk (bstring b, const void * s, int len) {
int nl;
if (b == NULL || b->data == NULL || b->slen < 0 || b->mlen < b->slen
|| b->mlen <= 0 || s == NULL || len < 0) return BSTR_ERR;
if (0 > (nl = b->slen + len)) return BSTR_ERR; /* Overflow? */
if (b->mlen <= nl && 0 > balloc (b, nl + 1)) return BSTR_ERR;
bBlockCopy (&b->data[b->slen], s, (size_t) len);
b->slen = nl;
b->data[nl] = (unsigned char) '\0';
return BSTR_OK;
}
/* bstring bstrcpy (const_bstring b)
*
* Create a copy of the bstring b.
*/
bstring bstrcpy (const_bstring b) {
bstring b0;
int i,j;
/* Attempted to copy an invalid string? */
if (b == NULL || b->slen < 0 || b->data == NULL) return NULL;
b0 = (bstring) bstr__alloc (sizeof (struct tagbstring));
if (b0 == NULL) {
/* Unable to allocate memory for string header */
return NULL;
}
i = b->slen;
j = snapUpSize (i + 1);
b0->data = (unsigned char *) bstr__alloc (j);
if (b0->data == NULL) {
j = i + 1;
b0->data = (unsigned char *) bstr__alloc (j);
if (b0->data == NULL) {
/* Unable to allocate memory for string data */
bstr__free (b0);
return NULL;
}
}
b0->mlen = j;
b0->slen = i;
if (i) bstr__memcpy ((char *) b0->data, (char *) b->data, i);
b0->data[b0->slen] = (unsigned char) '\0';
return b0;
}
/* int bassign (bstring a, const_bstring b)
*
* Overwrite the string a with the contents of string b.
*/
int bassign (bstring a, const_bstring b) {
if (b == NULL || b->data == NULL || b->slen < 0)
return BSTR_ERR;
if (b->slen != 0) {
if (balloc (a, b->slen) != BSTR_OK) return BSTR_ERR;
bstr__memmove (a->data, b->data, b->slen);
} else {
if (a == NULL || a->data == NULL || a->mlen < a->slen ||
a->slen < 0 || a->mlen == 0)
return BSTR_ERR;
}
a->data[b->slen] = (unsigned char) '\0';
a->slen = b->slen;
return BSTR_OK;
}
/* int bassignmidstr (bstring a, const_bstring b, int left, int len)
*
* Overwrite the string a with the middle of contents of string b
* starting from position left and running for a length len. left and
* len are clamped to the ends of b as with the function bmidstr.
*/
int bassignmidstr (bstring a, const_bstring b, int left, int len) {
if (b == NULL || b->data == NULL || b->slen < 0)
return BSTR_ERR;
if (left < 0) {
len += left;
left = 0;
}
if (len > b->slen - left) len = b->slen - left;
if (a == NULL || a->data == NULL || a->mlen < a->slen ||
a->slen < 0 || a->mlen == 0)
return BSTR_ERR;
if (len > 0) {
if (balloc (a, len) != BSTR_OK) return BSTR_ERR;
bstr__memmove (a->data, b->data + left, len);
a->slen = len;
} else {
a->slen = 0;
}
a->data[a->slen] = (unsigned char) '\0';
return BSTR_OK;
}
/* int bassigncstr (bstring a, const char * str)
*
* Overwrite the string a with the contents of char * string str. Note that
* the bstring a must be a well defined and writable bstring. If an error
* occurs BSTR_ERR is returned however a may be partially overwritten.
*/
int bassigncstr (bstring a, const char * str) {
int i;
size_t len;
if (a == NULL || a->data == NULL || a->mlen < a->slen ||
a->slen < 0 || a->mlen == 0 || NULL == str)
return BSTR_ERR;
for (i=0; i < a->mlen; i++) {
if ('\0' == (a->data[i] = str[i])) {
a->slen = i;
return BSTR_OK;
}
}
a->slen = i;
len = strlen (str + i);
if (len > INT_MAX || i + len + 1 > INT_MAX ||
0 > balloc (a, (int) (i + len + 1))) return BSTR_ERR;
bBlockCopy (a->data + i, str + i, (size_t) len + 1);
a->slen += (int) len;
return BSTR_OK;
}
/* int bassignblk (bstring a, const void * s, int len)
*
* Overwrite the string a with the contents of the block (s, len). Note that
* the bstring a must be a well defined and writable bstring. If an error
* occurs BSTR_ERR is returned and a is not overwritten.
*/
int bassignblk (bstring a, const void * s, int len) {
if (a == NULL || a->data == NULL || a->mlen < a->slen ||
a->slen < 0 || a->mlen == 0 || NULL == s || len + 1 < 1)
return BSTR_ERR;
if (len + 1 > a->mlen && 0 > balloc (a, len + 1)) return BSTR_ERR;
bBlockCopy (a->data, s, (size_t) len);
a->data[len] = (unsigned char) '\0';
a->slen = len;
return BSTR_OK;
}
/* int btrunc (bstring b, int n)
*
* Truncate the bstring to at most n characters.
*/
int btrunc (bstring b, int n) {
if (n < 0 || b == NULL || b->data == NULL || b->mlen < b->slen ||
b->slen < 0 || b->mlen <= 0) return BSTR_ERR;
if (b->slen > n) {
b->slen = n;
b->data[n] = (unsigned char) '\0';
}
return BSTR_OK;
}
#define upcase(c) (toupper ((unsigned char) c))
#define downcase(c) (tolower ((unsigned char) c))
#define wspace(c) (isspace ((unsigned char) c))
/* int btoupper (bstring b)
*
* Convert contents of bstring to upper case.
*/
int btoupper (bstring b) {
int i, len;
if (b == NULL || b->data == NULL || b->mlen < b->slen ||
b->slen < 0 || b->mlen <= 0) return BSTR_ERR;
for (i=0, len = b->slen; i < len; i++) {
b->data[i] = (unsigned char) upcase (b->data[i]);
}
return BSTR_OK;
}
/* int btolower (bstring b)
*
* Convert contents of bstring to lower case.
*/
int btolower (bstring b) {
int i, len;
if (b == NULL || b->data == NULL || b->mlen < b->slen ||
b->slen < 0 || b->mlen <= 0) return BSTR_ERR;
for (i=0, len = b->slen; i < len; i++) {
b->data[i] = (unsigned char) downcase (b->data[i]);
}
return BSTR_OK;
}
/* int bstricmp (const_bstring b0, const_bstring b1)
*
* Compare two strings without differentiating between case. The return
* value is the difference of the values of the characters where the two
* strings first differ after lower case transformation, otherwise 0 is
* returned indicating that the strings are equal. If the lengths are
* different, then a difference from 0 is given, but if the first extra
* character is '\0', then it is taken to be the value UCHAR_MAX+1.
*/
int bstricmp (const_bstring b0, const_bstring b1) {
int i, v, n;
if (bdata (b0) == NULL || b0->slen < 0 ||
bdata (b1) == NULL || b1->slen < 0) return SHRT_MIN;
if ((n = b0->slen) > b1->slen) n = b1->slen;
else if (b0->slen == b1->slen && b0->data == b1->data) return BSTR_OK;
for (i = 0; i < n; i ++) {
v = (char) downcase (b0->data[i])
- (char) downcase (b1->data[i]);
if (0 != v) return v;
}
if (b0->slen > n) {
v = (char) downcase (b0->data[n]);
if (v) return v;
return UCHAR_MAX + 1;
}
if (b1->slen > n) {
v = - (char) downcase (b1->data[n]);
if (v) return v;
return - (int) (UCHAR_MAX + 1);
}
return BSTR_OK;
}
/* int bstrnicmp (const_bstring b0, const_bstring b1, int n)
*
* Compare two strings without differentiating between case for at most n
* characters. If the position where the two strings first differ is
* before the nth position, the return value is the difference of the values
* of the characters, otherwise 0 is returned. If the lengths are different
* and less than n characters, then a difference from 0 is given, but if the
* first extra character is '\0', then it is taken to be the value
* UCHAR_MAX+1.
*/
int bstrnicmp (const_bstring b0, const_bstring b1, int n) {
int i, v, m;
if (bdata (b0) == NULL || b0->slen < 0 ||
bdata (b1) == NULL || b1->slen < 0 || n < 0) return SHRT_MIN;
m = n;
if (m > b0->slen) m = b0->slen;
if (m > b1->slen) m = b1->slen;
if (b0->data != b1->data) {
for (i = 0; i < m; i ++) {
v = (char) downcase (b0->data[i]);
v -= (char) downcase (b1->data[i]);
if (v != 0) return b0->data[i] - b1->data[i];
}
}
if (n == m || b0->slen == b1->slen) return BSTR_OK;
if (b0->slen > m) {
v = (char) downcase (b0->data[m]);
if (v) return v;
return UCHAR_MAX + 1;
}
v = - (char) downcase (b1->data[m]);
if (v) return v;
return - (int) (UCHAR_MAX + 1);
}
/* int biseqcaseless (const_bstring b0, const_bstring b1)
*
* Compare two strings for equality without differentiating between case.
* If the strings differ other than in case, 0 is returned, if the strings
* are the same, 1 is returned, if there is an error, -1 is returned. If
* the length of the strings are different, this function is O(1). '\0'
* termination characters are not treated in any special way.
*/
int biseqcaseless (const_bstring b0, const_bstring b1) {
int i, n;
if (bdata (b0) == NULL || b0->slen < 0 ||
bdata (b1) == NULL || b1->slen < 0) return BSTR_ERR;
if (b0->slen != b1->slen) return BSTR_OK;
if (b0->data == b1->data || b0->slen == 0) return 1;
for (i=0, n=b0->slen; i < n; i++) {
if (b0->data[i] != b1->data[i]) {
unsigned char c = (unsigned char) downcase (b0->data[i]);
if (c != (unsigned char) downcase (b1->data[i])) return 0;
}
}
return 1;
}
/* int bisstemeqcaselessblk (const_bstring b0, const void * blk, int len)
*
* Compare beginning of string b0 with a block of memory of length len
* without differentiating between case for equality. If the beginning of b0
* differs from the memory block other than in case (or if b0 is too short),
* 0 is returned, if the strings are the same, 1 is returned, if there is an
* error, -1 is returned. '\0' characters are not treated in any special
* way.
*/
int bisstemeqcaselessblk (const_bstring b0, const void * blk, int len) {
int i;
if (bdata (b0) == NULL || b0->slen < 0 || NULL == blk || len < 0)
return BSTR_ERR;
if (b0->slen < len) return BSTR_OK;
if (b0->data == (const unsigned char *) blk || len == 0) return 1;
for (i = 0; i < len; i ++) {
if (b0->data[i] != ((const unsigned char *) blk)[i]) {
if (downcase (b0->data[i]) !=
downcase (((const unsigned char *) blk)[i])) return 0;
}
}
return 1;
}
/*
* int bltrimws (bstring b)
*
* Delete whitespace contiguous from the left end of the string.
*/
int bltrimws (bstring b) {
int i, len;
if (b == NULL || b->data == NULL || b->mlen < b->slen ||
b->slen < 0 || b->mlen <= 0) return BSTR_ERR;
for (len = b->slen, i = 0; i < len; i++) {
if (!wspace (b->data[i])) {
return bdelete (b, 0, i);
}
}
b->data[0] = (unsigned char) '\0';
b->slen = 0;
return BSTR_OK;
}
/*
* int brtrimws (bstring b)
*
* Delete whitespace contiguous from the right end of the string.
*/
int brtrimws (bstring b) {
int i;
if (b == NULL || b->data == NULL || b->mlen < b->slen ||
b->slen < 0 || b->mlen <= 0) return BSTR_ERR;
for (i = b->slen - 1; i >= 0; i--) {
if (!wspace (b->data[i])) {
if (b->mlen > i) b->data[i+1] = (unsigned char) '\0';
b->slen = i + 1;
return BSTR_OK;
}
}
b->data[0] = (unsigned char) '\0';
b->slen = 0;
return BSTR_OK;
}
/*
* int btrimws (bstring b)
*
* Delete whitespace contiguous from both ends of the string.
*/
int btrimws (bstring b) {
int i, j;
if (b == NULL || b->data == NULL || b->mlen < b->slen ||
b->slen < 0 || b->mlen <= 0) return BSTR_ERR;
for (i = b->slen - 1; i >= 0; i--) {
if (!wspace (b->data[i])) {
if (b->mlen > i) b->data[i+1] = (unsigned char) '\0';
b->slen = i + 1;
for (j = 0; wspace (b->data[j]); j++) {}
return bdelete (b, 0, j);
}
}
b->data[0] = (unsigned char) '\0';
b->slen = 0;
return BSTR_OK;
}
/* int biseq (const_bstring b0, const_bstring b1)
*
* Compare the string b0 and b1. If the strings differ, 0 is returned, if
* the strings are the same, 1 is returned, if there is an error, -1 is
* returned. If the length of the strings are different, this function is
* O(1). '\0' termination characters are not treated in any special way.
*/
int biseq (const_bstring b0, const_bstring b1) {
if (b0 == NULL || b1 == NULL || b0->data == NULL || b1->data == NULL ||
b0->slen < 0 || b1->slen < 0) return BSTR_ERR;
if (b0->slen != b1->slen) return BSTR_OK;
if (b0->data == b1->data || b0->slen == 0) return 1;
return !bstr__memcmp (b0->data, b1->data, b0->slen);
}
/* int bisstemeqblk (const_bstring b0, const void * blk, int len)
*
* Compare beginning of string b0 with a block of memory of length len for
* equality. If the beginning of b0 differs from the memory block (or if b0
* is too short), 0 is returned, if the strings are the same, 1 is returned,
* if there is an error, -1 is returned. '\0' characters are not treated in
* any special way.
*/
int bisstemeqblk (const_bstring b0, const void * blk, int len) {
int i;
if (bdata (b0) == NULL || b0->slen < 0 || NULL == blk || len < 0)
return BSTR_ERR;
if (b0->slen < len) return BSTR_OK;
if (b0->data == (const unsigned char *) blk || len == 0) return 1;
for (i = 0; i < len; i ++) {
if (b0->data[i] != ((const unsigned char *) blk)[i]) return BSTR_OK;
}
return 1;
}
/* int biseqcstr (const_bstring b, const char *s)
*
* Compare the bstring b and char * string s. The C string s must be '\0'
* terminated at exactly the length of the bstring b, and the contents
* between the two must be identical with the bstring b with no '\0'
* characters for the two contents to be considered equal. This is
* equivalent to the condition that their current contents will be always be
* equal when comparing them in the same format after converting one or the
* other. If the strings are equal 1 is returned, if they are unequal 0 is
* returned and if there is a detectable error BSTR_ERR is returned.
*/
int biseqcstr (const_bstring b, const char * s) {
int i;
if (b == NULL || s == NULL || b->data == NULL || b->slen < 0) return BSTR_ERR;
for (i=0; i < b->slen; i++) {
if (s[i] == '\0' || b->data[i] != (unsigned char) s[i]) return BSTR_OK;
}
return s[i] == '\0';
}
/* int biseqcstrcaseless (const_bstring b, const char *s)
*
* Compare the bstring b and char * string s. The C string s must be '\0'
* terminated at exactly the length of the bstring b, and the contents
* between the two must be identical except for case with the bstring b with
* no '\0' characters for the two contents to be considered equal. This is
* equivalent to the condition that their current contents will be always be
* equal ignoring case when comparing them in the same format after
* converting one or the other. If the strings are equal, except for case,
* 1 is returned, if they are unequal regardless of case 0 is returned and
* if there is a detectable error BSTR_ERR is returned.
*/
int biseqcstrcaseless (const_bstring b, const char * s) {
int i;
if (b == NULL || s == NULL || b->data == NULL || b->slen < 0) return BSTR_ERR;
for (i=0; i < b->slen; i++) {
if (s[i] == '\0' ||
(b->data[i] != (unsigned char) s[i] &&
downcase (b->data[i]) != (unsigned char) downcase (s[i])))
return BSTR_OK;
}
return s[i] == '\0';
}
/* int bstrcmp (const_bstring b0, const_bstring b1)
*
* Compare the string b0 and b1. If there is an error, SHRT_MIN is returned,
* otherwise a value less than or greater than zero, indicating that the
* string pointed to by b0 is lexicographically less than or greater than
* the string pointed to by b1 is returned. If the the string lengths are
* unequal but the characters up until the length of the shorter are equal
* then a value less than, or greater than zero, indicating that the string
* pointed to by b0 is shorter or longer than the string pointed to by b1 is
* returned. 0 is returned if and only if the two strings are the same. If
* the length of the strings are different, this function is O(n). Like its
* standard C library counter part strcmp, the comparison does not proceed
* past any '\0' termination characters encountered.
*/
int bstrcmp (const_bstring b0, const_bstring b1) {
int i, v, n;
if (b0 == NULL || b1 == NULL || b0->data == NULL || b1->data == NULL ||
b0->slen < 0 || b1->slen < 0) return SHRT_MIN;
n = b0->slen; if (n > b1->slen) n = b1->slen;
if (b0->slen == b1->slen && (b0->data == b1->data || b0->slen == 0))
return BSTR_OK;
for (i = 0; i < n; i ++) {
v = ((char) b0->data[i]) - ((char) b1->data[i]);
if (v != 0) return v;
if (b0->data[i] == (unsigned char) '\0') return BSTR_OK;
}
if (b0->slen > n) return 1;
if (b1->slen > n) return -1;
return BSTR_OK;
}
/* int bstrncmp (const_bstring b0, const_bstring b1, int n)
*
* Compare the string b0 and b1 for at most n characters. If there is an
* error, SHRT_MIN is returned, otherwise a value is returned as if b0 and
* b1 were first truncated to at most n characters then bstrcmp was called
* with these new strings are paremeters. If the length of the strings are
* different, this function is O(n). Like its standard C library counter
* part strcmp, the comparison does not proceed past any '\0' termination
* characters encountered.
*/
int bstrncmp (const_bstring b0, const_bstring b1, int n) {
int i, v, m;
if (b0 == NULL || b1 == NULL || b0->data == NULL || b1->data == NULL ||
b0->slen < 0 || b1->slen < 0) return SHRT_MIN;
m = n;
if (m > b0->slen) m = b0->slen;
if (m > b1->slen) m = b1->slen;
if (b0->data != b1->data) {
for (i = 0; i < m; i ++) {
v = ((char) b0->data[i]) - ((char) b1->data[i]);
if (v != 0) return v;
if (b0->data[i] == (unsigned char) '\0') return BSTR_OK;
}
}
if (n == m || b0->slen == b1->slen) return BSTR_OK;
if (b0->slen > m) return 1;
return -1;
}
/* bstring bmidstr (const_bstring b, int left, int len)
*
* Create a bstring which is the substring of b starting from position left
* and running for a length len (clamped by the end of the bstring b.) If
* b is detectably invalid, then NULL is returned. The section described
* by (left, len) is clamped to the boundaries of b.
*/
bstring bmidstr (const_bstring b, int left, int len) {
if (b == NULL || b->slen < 0 || b->data == NULL) return NULL;
if (left < 0) {
len += left;
left = 0;
}
if (len > b->slen - left) len = b->slen - left;
if (len <= 0) return bfromcstr ("");
return blk2bstr (b->data + left, len);
}
/* int bdelete (bstring b, int pos, int len)
*
* Removes characters from pos to pos+len-1 inclusive and shifts the tail of
* the bstring starting from pos+len to pos. len must be positive for this
* call to have any effect. The section of the string described by (pos,
* len) is clamped to boundaries of the bstring b.
*/
int bdelete (bstring b, int pos, int len) {
/* Clamp to left side of bstring */
if (pos < 0) {
len += pos;
pos = 0;
}
if (len < 0 || b == NULL || b->data == NULL || b->slen < 0 ||
b->mlen < b->slen || b->mlen <= 0)
return BSTR_ERR;
if (len > 0 && pos < b->slen) {
if (pos + len >= b->slen) {
b->slen = pos;
} else {
bBlockCopy ((char *) (b->data + pos),
(char *) (b->data + pos + len),
b->slen - (pos+len));
b->slen -= len;
}
b->data[b->slen] = (unsigned char) '\0';
}
return BSTR_OK;
}
/* int bdestroy (bstring b)
*
* Free up the bstring. Note that if b is detectably invalid or not writable
* then no action is performed and BSTR_ERR is returned. Like a freed memory
* allocation, dereferences, writes or any other action on b after it has
* been bdestroyed is undefined.
*/
int bdestroy (bstring b) {
if (b == NULL || b->slen < 0 || b->mlen <= 0 || b->mlen < b->slen ||
b->data == NULL)
return BSTR_ERR;