sbase/tr.c
FRIGN 73577f10a0 Scrap chartorunearr(), introducing utftorunestr()
Interface and function as proposed by cls.

The reasoning behind this function is that cls expressed his
interest to keep memory allocation out of libutf, which is a
very good motive.
This simplifies the function a lot and should also increase the
speed a bit, but the most important factor here is that there's
no malloc anywhere in libutf, making it a lot smaller and more
robust with a smaller attack-surface.

Look at the paste(1) and tr(1) changes for an idiomatic way to
allocate the right amount of space for the Rune-array.
2015-02-11 21:32:09 +01:00

278 lines
5.7 KiB
C

/* See LICENSE file for copyright and license details. */
#include <stdio.h>
#include <stdlib.h>
#include "utf.h"
#include "util.h"
static int cflag = 0;
static int dflag = 0;
static int sflag = 0;
struct range {
Rune start;
Rune end;
size_t quant;
};
static struct {
char *name;
int (*check)(Rune);
} classes[] = {
{ "alnum", isalnumrune },
{ "alpha", isalpharune },
{ "blank", isblankrune },
{ "cntrl", iscntrlrune },
{ "digit", isdigitrune },
{ "graph", isgraphrune },
{ "lower", islowerrune },
{ "print", isprintrune },
{ "punct", ispunctrune },
{ "space", isspacerune },
{ "upper", isupperrune },
{ "xdigit", isxdigitrune },
};
static struct range *set1 = NULL;
static size_t set1ranges = 0;
static int (*set1check)(Rune) = NULL;
static struct range *set2 = NULL;
static size_t set2ranges = 0;
static int (*set2check)(Rune) = NULL;
static size_t
rangelen(struct range r)
{
return (r.end - r.start + 1) * r.quant;
}
static size_t
setlen(struct range *set, size_t setranges)
{
size_t len = 0, i;
for (i = 0; i < setranges; i++)
len += rangelen(set[i]);
return len;
}
static int
rstrmatch(Rune *r, char *s, size_t n)
{
size_t i;
for (i = 0; i < n; i++)
if (r[i] != s[i])
return 0;
return 1;
}
static size_t
makeset(char *str, struct range **set, int (**check)(Rune))
{
Rune *rstr;
size_t len, i, j, m, n;
size_t q, setranges = 0;
int factor, base;
/* rstr defines at most len ranges */
unescape(str);
rstr = emalloc((utflen(str) + 1) * sizeof(*rstr));
len = utftorunestr(str, rstr);
*set = emalloc(len * sizeof(**set));
for (i = 0; i < len; i++) {
if (rstr[i] == '[') {
j = i;
nextbrack:
if (j == len)
goto literal;
for (m = j; m < len; m++)
if (rstr[m] == ']') {
j = m;
break;
}
if (j == i)
goto literal;
/* CLASSES [=EQUIV=] (skip) */
if (j - i > 3 && rstr[i + 1] == '=' && rstr[m - 1] == '=') {
if (j - i != 4)
goto literal;
(*set)[setranges].start = rstr[i + 2];
(*set)[setranges].end = rstr[i + 2];
(*set)[setranges].quant = 1;
setranges++;
i = j;
continue;
}
/* CLASSES [:CLASS:] */
if (j - i > 3 && rstr[i + 1] == ':' && rstr[m - 1] == ':') {
for (n = 0; n < LEN(classes); n++) {
if (rstrmatch(rstr + i + 2, classes[n].name, j - i - 3)) {
*check = classes[n].check;
return 0;
}
}
eprintf("Invalid character class.\n");
}
/* REPEAT [_*n] (only allowed in set2) */
if (j - i > 2 && rstr[i + 2] == '*' && set1ranges > 0) {
/* check if right side of '*' is a number */
q = 0;
factor = 1;
base = (rstr[i + 3] == '0') ? 8 : 10;
for (n = j - 1; n > i + 2; n--) {
if (rstr[n] < '0' && rstr[n] > '9') {
n = 0;
break;
}
q += (rstr[n] - '0') * factor;
factor *= base;
}
if (n == 0) {
j = m + 1;
goto nextbrack;
}
(*set)[setranges].start = rstr[i + 1];
(*set)[setranges].end = rstr[i + 1];
(*set)[setranges].quant = q ? q : setlen(set1, set1ranges);
setranges++;
i = j;
continue;
}
j = m + 1;
goto nextbrack;
}
literal:
/* RANGES [_-__-_], _-__-_ */
/* LITERALS _______ */
(*set)[setranges].start = rstr[i];
if (i < len - 2 && rstr[i + 1] == '-' && rstr[i + 2] >= rstr[i])
i += 2;
(*set)[setranges].end = rstr[i];
(*set)[setranges].quant = 1;
setranges++;
}
free(rstr);
return setranges;
}
static void
usage(void)
{
eprintf("usage: %s [-cCds] set1 [set2]\n", argv0);
}
int
main(int argc, char *argv[])
{
Rune r = 0, lastrune = 0;
size_t off1, off2, i, m;
ARGBEGIN {
case 'c':
case 'C':
cflag = 1;
break;
case 'd':
dflag = 1;
break;
case 's':
sflag = 1;
break;
default:
usage();
} ARGEND;
if (argc < 1 || argc > 2 || (argc == 1 && dflag == sflag))
usage();
set1ranges = makeset(argv[0], &set1, &set1check);
if (argc == 2)
set2ranges = makeset(argv[1], &set2, &set2check);
if (dflag == sflag && !set2ranges && !set2check)
eprintf("set2 must be non-empty.\n");
if (set2check && set2check != islowerrune && set2check != isupperrune)
eprintf("set2 can only be the 'lower' or 'upper' class.\n");
if (set2check && cflag && !dflag)
eprintf("set2 can't be imaged to from a complement.\n");
read:
if (!efgetrune(&r, stdin, "<stdin>"))
return 0;
off1 = off2 = 0;
for (i = 0; i < set1ranges; i++) {
if (set1[i].start <= r && r <= set1[i].end) {
if (dflag) {
if (!cflag || (sflag && r == lastrune))
goto read;
else
goto write;
}
if (sflag) {
if (r == lastrune)
goto read;
else
goto write;
}
for (m = 0; m < i; m++)
off1 += rangelen(set1[m]);
off1 += r - set1[m].start;
if (off1 > setlen(set2, set2ranges) - 1) {
r = set2[set2ranges - 1].end;
goto write;
}
for (m = 0; m < set2ranges; m++) {
if (off2 + rangelen(set2[m]) > off1) {
m++;
break;
}
off2 += rangelen(set2[m]);
}
m--;
r = set2[m].start + (off1 - off2) / set2[m].quant;
goto write;
}
}
if (set1check && set1check(r)) {
if (dflag) {
if (!cflag || (sflag && r == lastrune))
goto read;
else
goto write;
}
if (sflag) {
if (r == lastrune)
goto read;
else
goto write;
}
if (set1check == isupperrune && set2check == islowerrune)
r = tolowerrune(r);
else if (set1check == islowerrune && set2check == isupperrune)
r = toupperrune(r);
else if (set2ranges > 0)
r = cflag ? r : set2[set2ranges - 1].end;
else
eprintf("Misaligned character classes.\n");
} else if (cflag && set2ranges > 0) {
r = set2[set2ranges - 1].end;
}
if (dflag && cflag)
goto read;
if (dflag && sflag && r == lastrune)
goto read;
write:
lastrune = r;
efputrune(&r, stdout, "<stdout>");
goto read;
}