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calc/str.c
Landon Curt Noll ac0d84eef8 Release v2.12.9.0 
Added notes to help/unexpected about:

    display() will limit the number of digits printed after decimal point

    %d will format after the decimal point for non-integer numeric values

    %x will format as fractions for non-integer numeric values

    fprintf(fd, "%d\n", huge_value) may need fflush(fd) to finish

Fixed Makefile dependencies for the args.h rule.

Fixed Makefile cases where echo with -n is used.  On some systems,
/bin/sh does not use -n, so we must call /bin/echo -n instead
via the ${ECHON} Makefile variable.

Add missing standard tools to sub-Makefiles to make them
easier to invoke directly.

Sort lists of standard tool Makefile variables and remove duplicates.

Declare the SHELL at the top of Makefiles.

Fixed the depend rule in the custom Makefile.

Improved the messages produced by the depend in the Makefiles.

Changed the UNUSED define in have_unused.h to be a macro with
a parameter.  Changed all use of UNUSED in *.c to be UNUSED(x).

Removed need for HAVE_UNUSED in building the have_unused.h file.

 CCBAN is given to ${CC} in order to control if banned.h is in effect.

 The banned.h attempts to ban the use of certain dangerous functions
 that, if improperly used, could compromise the computational integrity
 if calculations.

 In the case of calc, we are motivated in part by the desire for calc
 to correctly calculate: even during extremely long calculations.

 If UNBAN is NOT defined, then calling certain functions
 will result in a call to a non-existent function (link error).

 While we do NOT encourage defining UNBAN, there may be
 a system / compiler environment where re-defining a
 function may lead to a fatal compiler complication.
 If that happens, consider compiling as:

    make clobber all chk CCBAN=-DUNBAN

 as see if this is a work-a-round.

 If YOU discover a need for the -DUNBAN work-a-round, PLEASE tell us!
 Please send us a bug report.  See the file:

    BUGS

 or the URL:

    http://www.isthe.com/chongo/tech/comp/calc/calc-bugrept.html

 for how to send us such a bug report.

 Added the building of have_ban_pragma.h, which will determine
 if "#pragma GCC poison func_name" is supported.  If it is not,
 or of HAVE_PRAGMA_GCC_POSION=-DHAVE_NO_PRAGMA_GCC_POSION, then
 banned.h will have no effect.

 Fixed building of the have_getpgid.h file.
 Fixed building of the have_getprid.h file.
 Fixed building of the have_getsid.h file.
 Fixed building of the have_gettime.h file.
 Fixed building of the have_strdup.h file.
 Fixed building of the have_ustat.h file.
 Fixed building of the have_rusage.h file.

 Added HAVE_NO_STRLCPY to control if we want to test if
 the system has a strlcpy() function.  This in turn produces
 the have_strlcpy.h file wherein the symbol HAVE_STRLCPY will
 be defined, or not depending if the system comes with a
 strlcpy() function.

 If the system does not have a strlcpy() function, we
 compile our own strlcpy() function.  See strl.c for details.

 Added HAVE_NO_STRLCAT to control if we want to test if
 the system has a strlcat() function.  This in turn produces
 the have_strlcat.h file wherein the symbol HAVE_STRLCAT will
 be defined, or not depending if the system comes with a
 strlcat() function.

 If the system does not have a strlcat() function, we
 compile our own strlcat() function.  See strl.c for details.

 Fixed places were <string.h>, using #ifdef HAVE_STRING_H
 for legacy systems that do not have that include file.

 Added ${H} Makefile symbol to control the announcement
 of forming and having formed hsrc related files.  By default
 H=@ (announce hsrc file formation) vs. H=@: to silence hsrc
 related file formation.

 Explicitly turn off quiet mode (set Makefile variable ${Q} to
 be empty) when building rpms.

 Improved and fixed the hsrc build process.

 Forming rpms is performed in verbose mode to assist debugging
 to the rpm build process.

 Compile custom code, if needed, after main code is compiled.
2021-03-11 01:54:28 -08:00

1548 lines
29 KiB
C
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/*
* str - string list routines
*
* Copyright (C) 1999-2007,2021 David I. Bell and Ernest Bowen
*
* Primary author: David I. Bell
*
* Calc is open software; you can redistribute it and/or modify it under
* the terms of the version 2.1 of the GNU Lesser General Public License
* as published by the Free Software Foundation.
*
* Calc is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General
* Public License for more details.
*
* A copy of version 2.1 of the GNU Lesser General Public License is
* distributed with calc under the filename COPYING-LGPL. You should have
* received a copy with calc; if not, write to Free Software Foundation, Inc.
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* Under source code control: 1990/02/15 01:48:10
* File existed as early as: before 1990
*
* Share and enjoy! :-) http://www.isthe.com/chongo/tech/comp/calc/
*/
#include <stdio.h>
#include <ctype.h>
#include "have_string.h"
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#include "calc.h"
#include "alloc.h"
#include "str.h"
#include "strl.h"
#include "banned.h" /* include after system header <> includes */
#define STR_TABLECHUNK 100 /* how often to reallocate string table */
#define STR_CHUNK (1<<11) /* size of string storage allocation */
#define STR_UNIQUE (1<<7) /* size of string to allocate separately */
STRING _nullstring_ = {"", 0, 1, NULL};
STATIC char *chartable; /* single character string table */
STATIC struct {
long l_count; /* count of strings in table */
long l_maxcount; /* maximum strings storable in table */
size_t l_avail; /* characters available in current string */
char *l_alloc; /* next available string storage */
char **l_table; /* current string table */
} literals;
/*
* Initialize or reinitialize a string header for use.
*
* given:
* hp structure to be inited
*/
void
initstr(STRINGHEAD *hp)
{
if (hp->h_list == NULL) {
hp->h_list = (char *)malloc(2000);
if (hp->h_list == NULL) {
math_error("Cannot allocate string header");
/*NOTREACHED*/
}
hp->h_avail = 2000;
hp->h_used = 0;
}
hp->h_avail += hp->h_used;
hp->h_used = 0;
hp->h_count = 0;
hp->h_list[0] = '\0';
hp->h_list[1] = '\0';
}
/*
* Copy a string to the end of a list of strings, and return the address
* of the copied string. Returns NULL if the string could not be copied.
* No checks are made to see if the string is already in the list.
* The string cannot be null or have embedded nulls.
*
* given:
* hp header of string storage
* str string to be added
*/
char *
addstr(STRINGHEAD *hp, char *str)
{
char *retstr; /* returned string pointer */
char *list; /* string list */
long newsize; /* new size of string list */
size_t len; /* length of current string */
if ((str == NULL) || (*str == '\0'))
return NULL;
len = strlen(str) + 1;
if (hp->h_avail <= len) {
newsize = len + 2000 + hp->h_used + hp->h_avail;
list = (char *)realloc(hp->h_list, newsize);
if (list == NULL)
return NULL;
hp->h_list = list;
hp->h_avail = newsize - hp->h_used;
}
retstr = hp->h_list + hp->h_used;
hp->h_used += len;
hp->h_avail -= len;
hp->h_count++;
strlcpy(retstr, str, len);
retstr[len] = '\0';
return retstr;
}
/*
* Return a null-terminated string which consists of a single character.
* The table is initialized on the first call.
*/
char *
charstr(int ch)
{
char *cp;
int i;
if (chartable == NULL) {
cp = (char *)malloc(512);
if (cp == NULL) {
math_error("Cannot allocate character table");
/*NOTREACHED*/
}
for (i = 0; i < 256; i++) {
*cp++ = (char)i;
*cp++ = '\0';
}
chartable = cp - 512;
}
return &chartable[(ch & 0xff) * 2];
}
/*
* Find a string with the specified name and return its number in the
* string list. The first string is numbered zero. Minus one is returned
* if the string is not found.
*
* given:
* hp header of string storage
* str string to be added
*/
int
findstr(STRINGHEAD *hp, char *str)
{
register char *test; /* string being tested */
size_t len; /* length of string being found */
size_t testlen; /* length of test string */
int index; /* index of string */
if ((hp->h_count <= 0) || (str == NULL))
return -1;
len = strlen(str);
test = hp->h_list;
index = 0;
while (*test) {
testlen = strlen(test);
if ((testlen == len) && (*test == *str) &&
(strcmp(test, str) == 0))
return index;
test += (testlen + 1);
index++;
}
return -1;
}
/*
* Return the name of a string with the given index.
* If the index is illegal, a pointer to an empty string is returned.
*
* given:
* hp header of string storage
* n string index
*/
char *
namestr(STRINGHEAD *hp, long n)
{
register char *str; /* current string */
if (n >= hp->h_count)
return "";
str = hp->h_list;
while (*str) {
if (--n < 0)
return str;
str += (strlen(str) + 1);
}
return "";
}
/*
* Useful routine to return the index of one string within another one
* which has the format: "str1\000str2\000str3\000...strn\0\0". Index starts
* at one for the first string. Returns zero if the string being checked
* is not contained in the formatted string.
*
* Be sure to use \000 instead of \0. ANSI-C compilers interpret "foo\0foo..."
* as "foo\017oo...".
*
* given:
* format string formatted into substrings
* test string to be found in formatted string
*/
long
stringindex(char *format, char *test)
{
long index; /* found index */
size_t len; /* length of current piece of string */
size_t testlen; /* length of test string */
testlen = strlen(test);
index = 1;
while (*format) {
len = strlen(format);
if ((len == testlen) && (*format == *test) &&
(strcmp(format, test) == 0))
return index;
format += (len + 1);
index++;
}
return 0;
}
/*
* Add a possibly new literal string to the literal string pool.
* Returns the new string address which is guaranteed to be always valid.
* Duplicate strings will repeatedly return the same address.
*/
char *
addliteral(char *str)
{
register char **table; /* table of strings */
char *newstr; /* newly allocated string */
long count; /* number of strings */
size_t len; /* length of string to allocate */
len = strlen(str);
if (len <= 1)
return charstr(*str);
/*
* See if the string is already in the table.
*/
table = literals.l_table;
count = literals.l_count;
while (count-- > 0) {
if ((str[0] == table[0][0]) && (str[1] == table[0][1]) &&
(strcmp(str, table[0]) == 0))
return table[0];
table++;
}
/*
* Make the table of string pointers larger if necessary.
*/
if (literals.l_count >= literals.l_maxcount) {
count = literals.l_maxcount + STR_TABLECHUNK;
if (literals.l_maxcount)
table = (char **) realloc(literals.l_table, count *
sizeof(char *));
else
table = (char **) malloc(count * sizeof(char *));
if (table == NULL) {
math_error("Cannot allocate string literal table");
/*NOTREACHED*/
}
literals.l_table = table;
literals.l_maxcount = count;
}
table = literals.l_table;
/*
* If the new string is very long, allocate it manually.
*
* Add room for trailing NUL and then round up to a
* memory chunk (in this case we pick the size of a FULL
* just because that is a nice size) for extra padded room.
*/
len = ROUNDUP(len+1, FULL_LEN);
if (len >= STR_UNIQUE) {
newstr = (char *)malloc(len);
if (newstr == NULL) {
math_error("Cannot allocate large literal string");
/*NOTREACHED*/
}
strlcpy(newstr, str, len);
table[literals.l_count++] = newstr;
return newstr;
}
/*
* If the remaining space in the allocate string is too small,
* then allocate a new one.
*/
if (literals.l_avail < len) {
newstr = (char *)malloc(STR_CHUNK);
if (newstr == NULL) {
math_error("Cannot allocate new literal string");
/*NOTREACHED*/
}
literals.l_alloc = newstr;
literals.l_avail = STR_CHUNK;
}
/*
* Allocate the new string from the allocate string.
*/
newstr = literals.l_alloc;
literals.l_avail -= len;
literals.l_alloc += len;
table[literals.l_count++] = newstr;
strlcpy(newstr, str, len);
return newstr;
}
STRING *
stringadd(STRING *s1, STRING *s2)
{
STRING *s;
char *cfrom, *c;
long len;
len = s1->s_len + s2->s_len;
s = stralloc();
s->s_len = len;
s->s_str = (char *) malloc(len + 1);
if (s->s_str == NULL)
return NULL;
len = s1->s_len;
cfrom = s1->s_str;
c = s->s_str;
while (len-- > 0)
*c++ = *cfrom++;
len = s2->s_len;
cfrom = s2->s_str;
while (len-- > 0)
*c++ = *cfrom++;
*c = '\0';
return s;
}
/*
* stringneg reverses the characters in a string, returns null if malloc fails
*/
STRING *
stringneg(STRING *str)
{
long len;
STRING *s;
char *c, *cfrom;
len = str->s_len;
if (len <= 1)
return slink(str);
c = (char *) malloc(len + 1);
if (c == NULL)
return NULL;
s = stralloc();
s->s_len = len;
s->s_str = c;
cfrom = str->s_str + len;
while (len-- > 0)
*c++ = *--cfrom;
*c = '\0';
return s;
}
STRING *
stringsub(STRING *s1, STRING *s2)
{
STRING *tmp, *s;
tmp = stringneg(s2);
if (tmp == NULL)
return NULL;
s = stringadd(s1, tmp);
if (s != NULL)
sfree(tmp);
return s;
}
/*
* stringmul: repeated concatenation, reverse if negative multiplier
* returns null if malloc fails
*/
STRING *
stringmul(NUMBER *q, STRING *str)
{
long len;
size_t j;
NUMBER *tmp1, *tmp2;
char *c, *c1;
STRING *s;
BOOL neg;
if (str->s_len == 0)
return slink(str);
neg = qisneg(q);
q = neg ? qneg(q): qlink(q);
tmp1 = itoq(str->s_len);
tmp2 = qmul(q, tmp1);
qfree(tmp1);
tmp1 = qint(tmp2);
qfree(tmp2);
if (zge31b(tmp1->num)) {
qfree(q);
qfree(tmp1);
return NULL;
}
len = qtoi(tmp1);
qfree(tmp1);
qfree(q);
if (len == 0)
return slink(&_nullstring_);
c = (char *) malloc(len + 1);
if (c == NULL)
return NULL;
str = neg ? stringneg(str) : slink(str);
s = stralloc();
s->s_str = c;
s->s_len = len;
j = 0;
c1 = str->s_str;
while (len-- > 0) {
*c++ = *c1++;
if (++j == str->s_len) {
j = 0;
c1 = str->s_str;
}
}
*c = '\0';
sfree(str);
return s;
}
STRING *
stringand(STRING *s1, STRING *s2)
{
STRING *s;
size_t len;
char *c1, *c2, *c;
if (s1->s_len == 0 || s2->s_len == 0)
return slink(&_nullstring_);
len = s1->s_len;
if (s2->s_len < len)
len = s2->s_len;
s = stralloc();
s->s_len = len;
c = malloc(len + 1);
if (c == NULL)
return NULL;
s->s_str = c;
c1 = s1->s_str;
c2 = s2->s_str;
while (len-- > 0)
*c++ = *c1++ & *c2++;
return s;
}
STRING *
stringor(STRING *s1, STRING *s2)
{
STRING *s;
long len, i, j;
char *c1, *c2, *c;
if (s1->s_len < s2->s_len) {
s = s1;
s1 = s2;
s2 = s;
} /* Now len(s1) >= len(s2) */
if (s2->s_len == 0)
return slink(s1);
i = s1->s_len;
if (i == 0)
return slink(&_nullstring_);
len = s1->s_len;
s = stralloc();
s->s_len = len;
c = malloc(len + 1);
if (c == NULL)
return NULL;
s->s_str = c;
c1 = s1->s_str;
c2 = s2->s_str;
i = s2->s_len;
j = s1->s_len - i;
while (i-- > 0)
*c++ = *c1++ | *c2++;
while (j-- > 0)
*c++ = *c1++;
return s;
}
STRING *
stringxor(STRING *s1, STRING *s2)
{
STRING *s;
long len, i, j;
char *c1, *c2, *c;
if (s1->s_len < s2->s_len) {
s = s1;
s1 = s2;
s2 = s;
} /* Now len(s1) >= len(s2) */
if (s2->s_len == 0)
return slink(s1);
i = s1->s_len;
if (i == 0)
return slink(&_nullstring_);
len = s1->s_len;
s = stralloc();
s->s_len = len;
c = malloc(len + 1);
if (c == NULL)
return NULL;
s->s_str = c;
c1 = s1->s_str;
c2 = s2->s_str;
i = s2->s_len;
j = s1->s_len - i;
while (i-- > 0)
*c++ = *c1++ ^ *c2++;
while (j-- > 0)
*c++ = *c1++;
return s;
}
STRING *
stringdiff(STRING *s1, STRING *s2)
{
STRING *s;
size_t i;
char *c2, *c;
i = s1->s_len;
if (i == 0)
return slink(s1);
s = stringcopy(s1);
if (i > s2->s_len)
i = s2->s_len;
c = s->s_str;
c2 = s2->s_str;
while (i-- > 0)
*c++ &= ~*c2++;
return s;
}
STRING *
stringcomp(STRING *s1)
{
long len;
STRING *s;
char *c1, *c;
len = s1->s_len;
if (len == 0)
return slink(&_nullstring_);
c = malloc(len + 1);
if (c == NULL)
return NULL;
s = stralloc();
s->s_len = len;
s->s_str = c;
c1 = s1->s_str;
while (len-- > 0)
*c++ = ~*c1++;
*c = '\0';
return s;
}
STRING *
stringsegment(STRING *s1, long n1, long n2)
{
STRING *s;
char *c, *c1;
long len;
if ((n1 < 0 && n2 < 0) ||
((size_t)n1 >= s1->s_len && (size_t)n2 >= s1->s_len))
return slink(&_nullstring_);
if (n1 < 0)
n1 = 0;
if (n2 < 0)
n2 = 0;
if ((size_t)n1 >= s1->s_len)
n1 = s1->s_len - 1;
if ((size_t)n2 >= s1->s_len)
n2 = s1->s_len - 1;
len = (n1 >= n2) ? n1 - n2 + 1 : n2 - n1 + 1;
s = stralloc();
c = malloc(len + 1);
if (c == NULL)
return NULL;
s->s_len = len;
s->s_str = c;
c1 = s1->s_str + n1;
if (n1 >= n2) {
/*
* We prevent the c1 pointer from walking behind s1_s_str
* by stopping one short of the end and running the loop one
* more time.
*
* We could stop the loop with just len-- > 0, but stopping
* short and running the loop one last time manually helps make
* code checkers such as insure happy.
*/
while (len-- > 1) {
*c++ = *c1--;
}
/* run the loop manually one last time */
*c++ = *c1;
} else {
while (len-- > 0)
*c++ = *c1++;
}
*c = '\0';
return s;
}
/*
* stringshift shifts s1 n bits to left if n > 0, -n to the right if n < 0;
* octets in string considered to be in decreasing order of index, as in
* ... a_3 a_2 a_1 a_0. Returned string has same length as s1.
* Vacated bits are filled with '\0'; bits shifted off end are lost
*/
STRING *
stringshift(STRING *s1, long n)
{
char *c1, *c;
STRING *s;
long len, i, j, k;
BOOL right;
char ch;
len = s1->s_len;
if (len == 0 || n == 0)
return slink(s1);
right = (n < 0);
if (right) n = -n;
j = n & 7;
k = 8 - j;
n >>= 3;
c = malloc(len + 1);
if (c == NULL)
return NULL;
s = stralloc();
s->s_len = len;
s->s_str = c;
c[len] = '\0';
if (n > len)
n = len;
ch = '\0';
c1 = s1->s_str;
i = n;
if (right) {
c += len;
c1 += len;
while (i-- > 0)
*--c = '\0';
i = len - n;
while (i-- > 0) {
*--c = ((unsigned char) *--c1 >> j) | ch;
ch = (unsigned char) *c1 << k;
}
} else {
while (i-- > 0)
*c++ = '\0';
i = len - n;
while (i-- > 0) {
*c++ = ((unsigned char) *c1 << j) | ch;
ch = (unsigned char) *c1++ >> k;
}
}
return s;
}
/*
* stringtoupper makes st upper case
*/
STRING *
stringtoupper(STRING *st)
{
char *c1, *c2;
size_t num;
if (st->s_len > 0) {
c1 = st->s_str;
num = st->s_len;
c2 = c1;
while (num-- > 0)
*c1++ = (char)toupper((int)*c2++);
*c1 = '\0';
}
return slink(st);
}
/*
* stringtolower makes st lower case
*/
STRING *
stringtolower(STRING *st)
{
char *c1, *c2;
size_t num;
if (st->s_len > 0) {
c1 = st->s_str;
num = st->s_len;
c2 = c1;
while (num-- > 0)
*c1++ = (char)tolower((int)*c2++);
*c1 = '\0';
}
return slink(st);
}
/*
* stringcpy copies as many characters as possible
* from s2 to s1 and returns s1
*/
STRING *
stringcpy(STRING *s1, STRING *s2)
{
char *c1, *c2;
size_t num;
if (s1->s_len > 0) {
c1 = s1->s_str;
c2 = s2->s_str;
num = s1->s_len;
if (num > s2->s_len)
num = s2->s_len;
while (num-- > 0)
*c1++ = *c2++;
*c1 = '\0';
}
return slink(s1);
}
/*
* stringncpy copies up to num characters from s2 to s1 and returns s1
* If num > size(s2) null characters are copied until s1 is full or
* a total of num characters have been copied
*/
STRING *
stringncpy(STRING *s1, STRING *s2, size_t num)
{
char *c1, *c2;
size_t i;
if (num > s1->s_len)
num = s1->s_len;
i = num;
if (i > s2->s_len)
i = s2->s_len;
c1 = s1->s_str;
c2 = s2->s_str;
while (i-- > 0)
*c1++ = *c2++;
if (num > s2->s_len) {
memset(c1, 0, num - s2->s_len);
}
return slink(s1);
}
/*
* stringcontent counts the number of set bits in s
*/
long
stringcontent(STRING *s)
{
char *c;
unsigned char ch;
long count;
long len;
len = s->s_len;
count = 0;
c = s->s_str;
while (len-- > 0) {
ch = *c++;
while (ch) {
count += (ch & 1);
ch >>= 1;
}
}
return count;
}
long
stringhighbit(STRING *s)
{
char *c;
unsigned char ch;
long i;
i = s->s_len;
c = s->s_str + i;
while (--i >= 0 && *--c == '\0');
if (i < 0)
return -1;
i <<= 3;
for (ch = *c; ch >>= 1; i++);
return i;
}
long
stringlowbit(STRING *s)
{
char *c;
unsigned char ch;
long i;
for (i = s->s_len, c = s->s_str; i > 0 && *c == '\0'; i--, c++);
if (i == 0)
return -1;
i = (s->s_len - i) << 3;
for (ch = *c; !(ch & 1); ch >>= 1, i++);
return i;
}
/*
* stringcompare compares first len characters of strings starting at c1, c2
* Returns TRUE if and only if a difference is encountered.
* Essentially a local version of memcmp.
*/
S_FUNC BOOL
stringcompare(char *c1, char *c2, long len)
{
while (len-- > 0) {
if (*c1++ != *c2++)
return TRUE;
}
return FALSE;
}
/*
* stringcmp returns TRUE if strings differ, FALSE if strings equal
*/
BOOL
stringcmp(STRING *s1, STRING *s2)
{
if (s1->s_len != s2->s_len)
return TRUE;
return stringcompare(s1->s_str, s2->s_str, s1->s_len);
}
/*
* stringrel returns 0 if strings are equal; otherwise 1 or -1 according
* as the greater of the first unequal characters are in the first or
* second string, or in the case of unequal-length strings when the compared
* characters are all equal, 1 or -1 according as the first or second string
* is longer.
*/
FLAG
stringrel(STRING *s1, STRING *s2)
{
char *c1, *c2;
long i1, i2;
if (s1 == s2)
return 0;
i1 = s1->s_len;
i2 = s2->s_len;
if (i2 == 0)
return (i1 > 0);
if (i1 == 0)
return -1;
c1 = s1->s_str;
c2 = s2->s_str;
while (i1 > 1 && i2 > 1 && *c1 == *c2) {
i1--;
i2--;
c1++;
c2++;
}
if ((unsigned char) *c1 > (unsigned char) *c2) return 1;
if ((unsigned char) *c1 < (unsigned char) *c2) return -1;
if (i1 < i2) return -1;
return (i1 > i2);
}
/* Case independent stringrel(STRING *s1, STRING *s2)
* stringcaserel returns 0 if strings are equal; otherwise 1 or -1 according
* as the greater of the first unequal characters are in the first or
* second string, or in the case of unequal-length strings when the compared
* characters are all equal, 1 or -1 according as the first or second string
* is longer.
*/
FLAG
stringcaserel(STRING *s1, STRING *s2)
{
char *c1, *c2;
long i1, i2;
if (s1 == s2)
return 0;
i1 = s1->s_len;
i2 = s2->s_len;
if (i2 == 0)
return (i1 > 0);
if (i1 == 0)
return -1;
c1 = s1->s_str;
c2 = s2->s_str;
while (i1 > 1 && i2 > 1 && tolower(*c1) == tolower(*c2)) {
i1--;
i2--;
c1++;
c2++;
}
if ( (tolower(*c1)) > (tolower(*c2)))
return 1;
if ( (tolower(*c1)) < (tolower(*c2)))
return -1;
if (i1 < i2) return -1;
return (i1 > i2);
}
/*
* str with characters c0, c1, ... is considered as a bitstream, 8 bits
* per character; within a character the bits ordered from low order to
* high order. For 0 <= i < 8 * length of str, stringbit returns 1 or 0
* according as the bit with index i is set or not set; other values of i
* return -1.
*/
int
stringbit(STRING *s, long index)
{
unsigned int ch;
int res;
if (index < 0)
return -1;
res = index & 7;
index >>= 3;
if ((size_t)index >= s->s_len)
return -1;
ch = s->s_str[index];
return (ch >> res) & 1;
}
BOOL
stringtest(STRING *s)
{
long i;
char *c;
i = s->s_len;
c = s->s_str;
while (i-- > 0) {
if (*c++)
return TRUE;
}
return FALSE;
}
/*
* If index is in acceptable range, stringsetbit sets or resets specified
* bit in string s according as val is TRUE or FALSE, and returns 0.
* Returns 1 if index < 0; 2 if index too large.
*/
int
stringsetbit(STRING *s, long index, BOOL val)
{
char *c;
int bit;
if (index < 0)
return 1;
bit = 1 << (index & 7);
index >>= 3;
if ((size_t)index >= s->s_len)
return 2;
c = &s->s_str[index];
*c &= ~bit;
if (val)
*c |= bit;
return 0;
}
/*
* stringsearch returns 0 and sets index = i if the first occurrence
* of s2 in s1 for start <= i < end is at index i. If no such occurrence
* is found, -1 is returned.
*/
int
stringsearch(STRING *s1, STRING *s2, long start, long end, ZVALUE *index)
{
long len2, i, j;
char *c1, *c2, *c;
char ch;
len2 = s2->s_len;
if (start < 0)
start = 0;
if (end < start + len2)
return -1;
if (len2 == 0) {
itoz(start, index);
return 0;
}
i = end - start - len2;
c1 = s1->s_str + start;
ch = *s2->s_str;
while (i-- >= 0) {
if (*c1++ == ch) {
c = c1;
c2 = s2->s_str;
j = len2;
while (--j > 0 && *c++ == *++c2);
if (j == 0) {
itoz(end - len2 - i - 1, index);
return 0;
}
}
}
return -1;
}
int
stringrsearch(STRING *s1, STRING *s2, long start, long end, ZVALUE *index)
{
long len1, len2, i, j;
char *c1, *c2, *c, *c2top;
char ch;
len1 = s1->s_len;
len2 = s2->s_len;
if (start < 0)
start = 0;
if (end > len1)
end = len1;
if (end < start + len2)
return -1;
if (len2 == 0) {
itoz(start, index);
return 0;
}
i = end - start - len2 + 1;
c1 = s1->s_str + end - 1;
c2top = s2->s_str + len2 - 1;
ch = *c2top;
while (--i >= 0) {
if (*c1-- == ch) {
c = c1;
j = len2;
c2 = c2top;
while (--j > 0 && *c-- == *--c2);
if (j == 0) {
itoz(start + i, index);
return 0;
}
}
}
return -1;
}
/*
* String allocation routines
*/
#define STRALLOC 100
STATIC STRING *freeStr = NULL;
STATIC STRING **firstStrs = NULL;
STATIC long blockcount = 0;
STRING *
stralloc(void)
{
STRING *temp;
STRING **newfn;
if (freeStr == NULL) {
freeStr = (STRING *) malloc(sizeof (STRING) * STRALLOC);
if (freeStr == NULL) {
math_error("Unable to allocate memory for stralloc");
/*NOTREACHED*/
}
freeStr[STRALLOC - 1].s_next = NULL;
freeStr[STRALLOC - 1].s_links = 0;
/*
* We prevent the temp pointer from walking behind freeStr
* by stopping one short of the end and running the loop one
* more time.
*
* We would stop the loop with just temp >= freeStr, but
* doing this helps make code checkers such as insure happy.
*/
for (temp = freeStr + STRALLOC - 2; temp > freeStr; --temp) {
temp->s_next = temp + 1;
temp->s_links = 0;
}
/* run the loop manually one last time */
temp->s_next = temp + 1;
temp->s_links = 0;
blockcount++;
if (firstStrs == NULL) {
newfn = (STRING **) malloc( blockcount * sizeof(STRING *));
} else {
newfn = (STRING **)
realloc(firstStrs, blockcount * sizeof(STRING *));
}
if (newfn == NULL) {
math_error("Cannot allocate new string block");
/*NOTREACHED*/
}
firstStrs = newfn;
firstStrs[blockcount - 1] = freeStr;
}
temp = freeStr;
freeStr = temp->s_next;
temp->s_links = 1;
temp->s_str = NULL;
return temp;
}
/*
* makestring to be called only when str is the result of a malloc
*/
STRING *
makestring(char *str)
{
STRING *s;
size_t len;
len = strlen(str);
s = stralloc();
s->s_str = str;
s->s_len = len;
return s;
}
STRING *
charstring(int ch)
{
STRING *s;
char *c;
c = (char *) malloc(2);
if (c == NULL) {
math_error("Allocation failure for charstring");
/*NOTREACHED*/
}
s = stralloc();
s->s_len = 1;
s->s_str = c;
*c++ = (char) ch;
*c = '\0';
return s;
}
/*
* makenewstring creates a new string by copying null-terminated str;
* str is not freed
*/
STRING *
makenewstring(char *str)
{
STRING *s;
char *c;
size_t len;
len = strlen(str);
if (len == 0)
return slink(&_nullstring_);
c = (char *) malloc(len + 1);
if (c == NULL) {
math_error("malloc for makenewstring failed");
/*NOTREACHED*/
}
s = stralloc();
s->s_str = c;
s->s_len = len;
memcpy(c, str, len);
c[len] = '\0';
return s;
}
STRING *
stringcopy (STRING *s1)
{
STRING *s;
char *c;
long len;
len = s1->s_len;
if (len == 0)
return slink(s1);
c = malloc(len + 1);
if (c == NULL) {
math_error("Malloc failed for stringcopy");
/*NOTREACHED*/
}
s = stralloc();
s->s_len = len;
s->s_str = c;
memcpy(c, s1->s_str, len);
c[len] = '\0';
return s;
}
STRING *
slink(STRING *s)
{
if (s->s_links <= 0) {
math_error("Argument for slink has non-positive links!!!");
/*NOTREACHED*/
}
++s->s_links;
return s;
}
void
sfree(STRING *s)
{
if (s->s_links <= 0) {
math_error("Argument for sfree has non-positive links!!!");
/*NOTREACHED*/
}
if (--s->s_links > 0 || s->s_len == 0)
return;
free(s->s_str);
s->s_next = freeStr;
freeStr = s;
}
STATIC long stringconstcount = 0;
STATIC long stringconstavail = 0;
STATIC STRING **stringconsttable;
#define STRCONSTALLOC 100
void
initstrings(void)
{
stringconsttable = (STRING **) malloc(sizeof(STRING *) * STRCONSTALLOC);
if (stringconsttable == NULL) {
math_error("Unable to allocate constant table");
/*NOTREACHED*/
}
stringconsttable[0] = &_nullstring_;
stringconstcount = 1;
stringconstavail = STRCONSTALLOC - 1;
}
/*
* addstring is called only from token.c
* When called, len is length of string including '\0'
*/
long
addstring(char *str, size_t len)
{
STRING **sp;
STRING *s;
char *c;
long index; /* index into constant table */
long first; /* first non-null position found */
BOOL havefirst;
if (len < 1) {
math_error("addstring length including trailing NUL < 1");
}
if (stringconstavail <= 0) {
if (stringconsttable == NULL) {
initstrings();
} else {
sp = (STRING **) realloc((char *) stringconsttable,
sizeof(STRING *) * (stringconstcount + STRCONSTALLOC));
if (sp == NULL) {
math_error("Unable to reallocate string "
"const table");
/*NOTREACHED*/
}
stringconsttable = sp;
stringconstavail = STRCONSTALLOC;
}
}
len--;
first = 0;
havefirst = FALSE;
sp = stringconsttable;
for (index = 0; index < stringconstcount; index++, sp++) {
s = *sp;
if (s->s_links == 0) {
if (!havefirst) {
havefirst = TRUE;
first = index;
}
continue;
}
if (s->s_len == len && stringcompare(s->s_str, str, len) == 0) {
s->s_links++;
return index;
}
}
s = stralloc();
c = (char *) malloc(len + 1);
if (c == NULL) {
math_error("Unable to allocate string constant memory");
/*NOTREACHED*/
}
s->s_str = c;
s->s_len = len;
memcpy(s->s_str, str, len+1);
if (havefirst) {
stringconsttable[first] = s;
return first;
}
stringconstavail--;
stringconsttable[stringconstcount++] = s;
return index;
}
STRING *
findstring(long index)
{
if (index < 0 || index >= stringconstcount) {
math_error("Bad index for findstring");
/*NOTREACHED*/
}
return stringconsttable[index];
}
void
freestringconstant(long index)
{
STRING *s;
STRING **sp;
if (index >= 0) {
s = findstring(index);
sfree(s);
if (index == stringconstcount - 1) {
sp = &stringconsttable[index];
while (stringconstcount > 0 && (*sp)->s_links == 0) {
stringconstcount--;
stringconstavail++;
sp--;
}
}
}
}
long
printechar(char *c)
{
unsigned char ch, cc;
unsigned char ech; /* for escape sequence */
ch = *c;
if (ch >= ' ' && ch < 127 && ch != '\\' && ch != '\"' && ch != '\'') {
math_chr(ch);
return 1;
}
math_chr('\\');
ech = 0;
switch (ch) {
case '\a': ech = 'a'; break;
case '\b': ech = 'b'; break;
case '\f': ech = 'f'; break;
case '\n': ech = 'n'; break;
case '\r': ech = 'r'; break;
case '\t': ech = 't'; break;
case '\v': ech = 'v'; break;
case '\\': ech = '\\'; break;
case '\"': ech = '\"'; break;
case '\'': ech = '\''; break;
case 0: ech = '0'; break;
case 27: ech = 'e'; break;
}
if (ech == '0') {
cc = *(c + 1);
if (cc >= '0' && cc < '8') {
math_str("000");
return 4;
}
}
if (ech) {
math_chr(ech);
return 2;
}
math_chr('x');
cc = ch / 16;
math_chr((cc < 10) ? '0' + cc : 87 + cc);
cc = ch % 16;
math_chr((cc < 10) ? '0' + cc : 87 + cc);
return 4;
}
void
fitstring(char *str, long len, long width)
{
long i, j, n, max;
char *c;
unsigned char ch, nch;
max = (width - 3)/2;
if (len == 0)
return;
c = str;
for (i = 0, n = 0; i < len && n < max; i++) {
n += printechar(c++);
}
if (i >= len)
return;
c = str + len;
nch = '\0';
for (n = 0, j = len ; j > i && n < max ; --j, nch = ch) {
ch = *--c;
n++;
if (ch >= ' ' && ch <= 127 && ch != '\\' && ch != '\"')
continue;
n++;
switch (ch) {
case '\a':
case '\b':
case '\f':
case '\n':
case '\r':
case '\t':
case '\v':
case '\\':
case '\"':
case '\'':
case 27:
continue;
}
if (ch >= 64 || (nch >= '0' && nch <= '7')) {
n += 2;
continue;
}
if (ch >= 8)
n++;
}
if (j > i)
math_str("...");
while (j++ < len)
(void) printechar(c++);
}
void
strprint(STRING *str) {
long n;
char *c;
c = str->s_str;
n = str->s_len;
while (n-- > 0)
(void) printechar(c++);
}
void
showstrings(void)
{
STRING *sp;
long i, j, k;
long count;
printf("Index Links Length String\n");
printf("----- ----- ------ ------\n");
sp = &_nullstring_;
printf(" 0 %5ld 0 \"\"\n", sp->s_links);
for (i = 0, k = 1, count = 1; i < blockcount; i++) {
sp = firstStrs[i];
for (j = 0; j < STRALLOC; j++, k++, sp++) {
if (sp->s_links > 0) {
++count;
printf("%5ld %5ld %6ld \"",
k, sp->s_links, (long int)sp->s_len);
fitstring(sp->s_str, sp->s_len, 50);
printf("\"\n");
}
}
}
printf("\nNumber: %ld\n", count);
}
void
showliterals(void)
{
STRING *sp;
long i;
long count = 0;
printf("Index Links Length String\n");
printf("----- ----- ------ ------\n");
for (i = 0; i < stringconstcount; i++) {
sp = stringconsttable[i];
if (sp->s_links > 0) {
++count;
printf("%5ld %5ld %6ld \"",
i, sp->s_links, (long int)sp->s_len);
fitstring(sp->s_str, sp->s_len, 50);
printf("\"\n");
}
}
printf("\nNumber: %ld\n", count);
}
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