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#include "mupdf/fitz.h"
static inline int
fz_tolower(int c)
{
if (c >= 'A' && c <= 'Z')
return c + 32;
return c;
}
int
fz_strcasecmp(const char *a, const char *b)
{
while (fz_tolower(*a) == fz_tolower(*b))
{
if (*a++ == 0)
return 0;
b++;
}
return fz_tolower(*a) - fz_tolower(*b);
}
char *
fz_strsep(char **stringp, const char *delim)
{
char *ret = *stringp;
if (!ret) return NULL;
if ((*stringp = strpbrk(*stringp, delim)) != NULL)
*((*stringp)++) = '\0';
return ret;
}
int
fz_strlcpy(char *dst, const char *src, int siz)
{
register char *d = dst;
register const char *s = src;
register int n = siz;
/* Copy as many bytes as will fit */
if (n != 0 && --n != 0) {
do {
if ((*d++ = *s++) == 0)
break;
} while (--n != 0);
}
/* Not enough room in dst, add NUL and traverse rest of src */
if (n == 0) {
if (siz != 0)
*d = '\0'; /* NUL-terminate dst */
while (*s++)
;
}
return(s - src - 1); /* count does not include NUL */
}
int
fz_strlcat(char *dst, const char *src, int siz)
{
register char *d = dst;
register const char *s = src;
register int n = siz;
int dlen;
/* Find the end of dst and adjust bytes left but don't go past end */
while (*d != '\0' && n-- != 0)
d++;
dlen = d - dst;
n = siz - dlen;
if (n == 0)
return dlen + strlen(s);
while (*s != '\0') {
if (n != 1) {
*d++ = *s;
n--;
}
s++;
}
*d = '\0';
return dlen + (s - src); /* count does not include NUL */
}
void
fz_dirname(char *dir, const char *path, int n)
{
int i;
if (!path || !path[0])
{
fz_strlcpy(dir, ".", n);
return;
}
fz_strlcpy(dir, path, n);
i = strlen(dir);
for(; dir[i] == '/'; --i) if (!i) { fz_strlcpy(dir, "/", n); return; }
for(; dir[i] != '/'; --i) if (!i) { fz_strlcpy(dir, ".", n); return; }
for(; dir[i] == '/'; --i) if (!i) { fz_strlcpy(dir, "/", n); return; }
dir[i+1] = 0;
}
static int ishex(int a)
{
return (a >= 'A' && a <= 'F') ||
(a >= 'a' && a <= 'f') ||
(a >= '0' && a <= '9');
}
static int tohex(int c)
{
if (c >= '0' && c <= '9') return c - '0';
if (c >= 'a' && c <= 'f') return c - 'a' + 0xA;
if (c >= 'A' && c <= 'F') return c - 'A' + 0xA;
return 0;
}
char *
fz_urldecode(char *url)
{
char *s = url;
char *p = url;
while (*s)
{
int c = (unsigned char) *s++;
if (c == '%' && ishex(s[0]) && ishex(s[1]))
{
int a = tohex(*s++);
int b = tohex(*s++);
*p++ = a << 4 | b;
}
else
{
*p++ = c;
}
}
*p = 0;
return url;
}
#define SEP(x) ((x)=='/' || (x) == 0)
char *
fz_cleanname(char *name)
{
char *p, *q, *dotdot;
int rooted;
rooted = name[0] == '/';
/*
* invariants:
* p points at beginning of path element we're considering.
* q points just past the last path element we wrote (no slash).
* dotdot points just past the point where .. cannot backtrack
* any further (no slash).
*/
p = q = dotdot = name + rooted;
while (*p)
{
if(p[0] == '/') /* null element */
p++;
else if (p[0] == '.' && SEP(p[1]))
p += 1; /* don't count the separator in case it is nul */
else if (p[0] == '.' && p[1] == '.' && SEP(p[2]))
{
p += 2;
if (q > dotdot) /* can backtrack */
{
while(--q > dotdot && *q != '/')
;
}
else if (!rooted) /* /.. is / but ./../ is .. */
{
if (q != name)
*q++ = '/';
*q++ = '.';
*q++ = '.';
dotdot = q;
}
}
else /* real path element */
{
if (q != name+rooted)
*q++ = '/';
while ((*q = *p) != '/' && *q != 0)
p++, q++;
}
}
if (q == name) /* empty string is really "." */
*q++ = '.';
*q = '\0';
return name;
}
enum
{
UTFmax = 4, /* maximum bytes per rune */
Runesync = 0x80, /* cannot represent part of a UTF sequence (<) */
Runeself = 0x80, /* rune and UTF sequences are the same (<) */
Runeerror = 0xFFFD, /* decoding error in UTF */
Runemax = 0x10FFFF, /* maximum rune value */
};
enum
{
Bit1 = 7,
Bitx = 6,
Bit2 = 5,
Bit3 = 4,
Bit4 = 3,
Bit5 = 2,
T1 = ((1<<(Bit1+1))-1) ^ 0xFF, /* 0000 0000 */
Tx = ((1<<(Bitx+1))-1) ^ 0xFF, /* 1000 0000 */
T2 = ((1<<(Bit2+1))-1) ^ 0xFF, /* 1100 0000 */
T3 = ((1<<(Bit3+1))-1) ^ 0xFF, /* 1110 0000 */
T4 = ((1<<(Bit4+1))-1) ^ 0xFF, /* 1111 0000 */
T5 = ((1<<(Bit5+1))-1) ^ 0xFF, /* 1111 1000 */
Rune1 = (1<<(Bit1+0*Bitx))-1, /* 0000 0000 0111 1111 */
Rune2 = (1<<(Bit2+1*Bitx))-1, /* 0000 0111 1111 1111 */
Rune3 = (1<<(Bit3+2*Bitx))-1, /* 1111 1111 1111 1111 */
Rune4 = (1<<(Bit4+3*Bitx))-1, /* 0001 1111 1111 1111 1111 1111 */
Maskx = (1<<Bitx)-1, /* 0011 1111 */
Testx = Maskx ^ 0xFF, /* 1100 0000 */
Bad = Runeerror,
};
int
fz_chartorune(int *rune, const char *str)
{
int c, c1, c2, c3;
long l;
/*
* one character sequence
* 00000-0007F => T1
*/
c = *(const unsigned char*)str;
if(c < Tx) {
*rune = c;
return 1;
}
/*
* two character sequence
* 0080-07FF => T2 Tx
*/
c1 = *(const unsigned char*)(str+1) ^ Tx;
if(c1 & Testx)
goto bad;
if(c < T3) {
if(c < T2)
goto bad;
l = ((c << Bitx) | c1) & Rune2;
if(l <= Rune1)
goto bad;
*rune = l;
return 2;
}
/*
* three character sequence
* 0800-FFFF => T3 Tx Tx
*/
c2 = *(const unsigned char*)(str+2) ^ Tx;
if(c2 & Testx)
goto bad;
if(c < T4) {
l = ((((c << Bitx) | c1) << Bitx) | c2) & Rune3;
if(l <= Rune2)
goto bad;
*rune = l;
return 3;
}
/*
* four character sequence (21-bit value)
* 10000-1FFFFF => T4 Tx Tx Tx
*/
c3 = *(const unsigned char*)(str+3) ^ Tx;
if (c3 & Testx)
goto bad;
if (c < T5) {
l = ((((((c << Bitx) | c1) << Bitx) | c2) << Bitx) | c3) & Rune4;
if (l <= Rune3)
goto bad;
*rune = l;
return 4;
}
/*
* Support for 5-byte or longer UTF-8 would go here, but
* since we don't have that, we'll just fall through to bad.
*/
/*
* bad decoding
*/
bad:
*rune = Bad;
return 1;
}
int
fz_runetochar(char *str, int rune)
{
/* Runes are signed, so convert to unsigned for range check. */
unsigned long c = (unsigned long)rune;
/*
* one character sequence
* 00000-0007F => 00-7F
*/
if(c <= Rune1) {
str[0] = c;
return 1;
}
/*
* two character sequence
* 0080-07FF => T2 Tx
*/
if(c <= Rune2) {
str[0] = T2 | (c >> 1*Bitx);
str[1] = Tx | (c & Maskx);
return 2;
}
/*
* If the Rune is out of range, convert it to the error rune.
* Do this test here because the error rune encodes to three bytes.
* Doing it earlier would duplicate work, since an out of range
* Rune wouldn't have fit in one or two bytes.
*/
if (c > Runemax)
c = Runeerror;
/*
* three character sequence
* 0800-FFFF => T3 Tx Tx
*/
if (c <= Rune3) {
str[0] = T3 | (c >> 2*Bitx);
str[1] = Tx | ((c >> 1*Bitx) & Maskx);
str[2] = Tx | (c & Maskx);
return 3;
}
/*
* four character sequence (21-bit value)
* 10000-1FFFFF => T4 Tx Tx Tx
*/
str[0] = T4 | (c >> 3*Bitx);
str[1] = Tx | ((c >> 2*Bitx) & Maskx);
str[2] = Tx | ((c >> 1*Bitx) & Maskx);
str[3] = Tx | (c & Maskx);
return 4;
}
int
fz_runelen(int c)
{
char str[10];
return fz_runetochar(str, c);
}
int
fz_utflen(const char *s)
{
int c, n, rune;
n = 0;
for(;;) {
c = *(const unsigned char*)s;
if(c < Runeself) {
if(c == 0)
return n;
s++;
} else
s += fz_chartorune(&rune, s);
n++;
}
return 0;
}
float fz_atof(const char *s)
{
float result;
errno = 0;
result = fz_strtof(s, NULL);
if ((errno == ERANGE && result == 0) || isnan(result))
/* Return 1.0 on underflow, as it's a small known value that won't cause a divide by 0. */
return 1;
result = fz_clamp(result, -FLT_MAX, FLT_MAX);
return result;
}
int fz_atoi(const char *s)
{
if (s == NULL)
return 0;
return atoi(s);
}
fz_off_t fz_atoo(const char *s)
{
if (s == NULL)
return 0;
return fz_atoo_imp(s);
}
int fz_is_page_range(fz_context *ctx, const char *s)
{
/* TODO: check the actual syntax... */
while (*s)
{
if ((*s < '0' || *s > '9') && *s != 'N' && *s != '-' && *s != ',')
return 0;
s++;
}
return 1;
}
const char *fz_parse_page_range(fz_context *ctx, const char *s, int *a, int *b, int n)
{
if (!s || !s[0])
return NULL;
if (s[0] == ',')
s += 1;
if (s[0] == 'N')
{
*a = n;
s += 1;
}
else
*a = strtol(s, (char**)&s, 10);
if (s[0] == '-')
{
if (s[1] == 'N')
{
*b = n;
s += 2;
}
else
*b = strtol(s+1, (char**)&s, 10);
}
else
*b = *a;
*a = fz_clampi(*a, 1, n);
*b = fz_clampi(*b, 1, n);
return s;
}
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