sbase/expr.c

/* See LICENSE file for copyright and license details. */
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#include "utf.h"
#include "util.h"

/* tokens, one-character operators represent themselves */
enum {
	VAL = CHAR_MAX + 1, GE, LE, NE
};

struct val {
	char *str;
	long long num;
};

static void
enan(struct val *v)
{
	if (!v->str)
		return;
	enprintf(2, "syntax error: expected integer, got %s\n", v->str);
}

static void
ezero(struct val *v)
{
	if (v->num != 0)
		return;
	enprintf(2, "division by zero\n");
}

static int
valcmp(struct val *a, struct val *b)
{
	int ret;
	char buf[BUFSIZ];

	if (!a->str && !b->str) {
		ret = (a->num > b->num) - (a->num < b->num);
	} else if (a->str && !b->str) {
		snprintf(buf, sizeof(buf), "%lld", b->num);
		ret = strcmp(a->str, buf);
	} else if (!a->str && b->str) {
		snprintf(buf, sizeof(buf), "%lld", a->num);
		ret = strcmp(buf, b->str);
	} else {
		ret = strcmp(a->str, b->str);
	}

	return ret;
}

static void
match(struct val *vstr, struct val *vregx, struct val *ret)
{
	regex_t re;
	regmatch_t matches[2];
	long long d;
	size_t anchlen;
	char strbuf[BUFSIZ], regxbuf[BUFSIZ],
	     *s, *p, *anchreg, *str, *regx;
	const char *errstr;

	if (!vstr->str) {
		snprintf(strbuf, sizeof(strbuf), "%lld", vstr->num);
		str = strbuf;
	} else {
		str = vstr->str;
	}

	if (!vregx->str) {
		snprintf(regxbuf, sizeof(regxbuf), "%lld", vregx->num);
		regx = regxbuf;
	} else {
		regx = vregx->str;
	}

	/* anchored regex */
	anchlen = strlen(regx) + 1 + 1;
	anchreg = emalloc(anchlen);
	estrlcpy(anchreg, "^", anchlen);
	estrlcat(anchreg, regx, anchlen);
	enregcomp(3, &re, anchreg, 0);
	free(anchreg);

	if (regexec(&re, str, 2, matches, 0)) {
		regfree(&re);
		ret->str = re.re_nsub ? "" : NULL;
		return;
	} else if (re.re_nsub) {
		regfree(&re);

		s = str + matches[1].rm_so;
		p = str + matches[1].rm_eo;
		*p = '\0';

		d = strtonum(s, LLONG_MIN, LLONG_MAX, &errstr);
		if (!errstr) {
			ret->num = d;
			return;
		} else {
			ret->str = enstrdup(3, s);
			return;
		}
	} else {
		regfree(&re);
		str += matches[0].rm_so;
		ret->num = utfnlen(str, matches[0].rm_eo - matches[0].rm_so);
		return;
	}
}

static void
doop(int *ophead, int *opp, struct val *valhead, struct val *valp)
{
	struct val ret = { .str = NULL, .num = 0 }, *a, *b;
	int op;

	/* an operation "a op b" needs an operator and two values */
	if (opp[-1] == '(')
		enprintf(2, "syntax error: extra (\n");
	if (valp - valhead < 2)
		enprintf(2, "syntax error: missing expression or extra operator\n");

	a = valp - 2;
	b = valp - 1;
	op = opp[-1];

	switch (op) {
	case '|':
		if      ( a->str && *a->str) ret.str = a->str;
		else if (!a->str &&  a->num) ret.num = a->num;
		else if ( b->str && *b->str) ret.str = b->str;
		else                         ret.num = b->num;
		break;
	case '&':
		if (((a->str && *a->str) || a->num) &&
		    ((b->str && *b->str) || b->num)) {
			ret.str = a->str;
			ret.num = a->num;
		}
		break;

	case '=': ret.num = (valcmp(a, b) == 0); break;
	case '>': ret.num = (valcmp(a, b) >  0); break;
	case GE : ret.num = (valcmp(a, b) >= 0); break;
	case '<': ret.num = (valcmp(a, b) <  0); break;
	case LE : ret.num = (valcmp(a, b) <= 0); break;
	case NE : ret.num = (valcmp(a, b) != 0); break;

	case '+': enan(a); enan(b);           ret.num = a->num + b->num; break;
	case '-': enan(a); enan(b);           ret.num = a->num - b->num; break;
	case '*': enan(a); enan(b);           ret.num = a->num * b->num; break;
	case '/': enan(a); enan(b); ezero(b); ret.num = a->num / b->num; break;
	case '%': enan(a); enan(b); ezero(b); ret.num = a->num % b->num; break;

	case ':': match(a, b, &ret); break;
	}

	valp[-2] = ret;
}

static int
lex(char *s, struct val *v)
{
	long long d;
	int type = VAL;
	char *ops = "|&=><+-*/%():";
	const char *errstr;

	d = strtonum(s, LLONG_MIN, LLONG_MAX, &errstr);

	if (!errstr) {
		/* integer */
		v->num = d;
	} else if (s[0] && strchr(ops, s[0]) && !s[1]) {
		/* one-char operand */
		type = s[0];
	} else if (s[0] && strchr("><!", s[0]) && s[1] == '=' && !s[2]) {
		/* two-char operand */
		type = (s[0] == '>') ? GE : (s[0] == '<') ? LE : NE;
	} else {
		/* string */
		v->str = s;
	}

	return type;
}

static int
parse(char *expr[], int numexpr)
{
	struct val valhead[numexpr], *valp = valhead, v = { .str = NULL, .num = 0 };
	int ophead[numexpr], *opp = ophead, type, lasttype = 0;
	char prec[] = {
		[ 0 ] = 0, [VAL] = 0, ['('] = 0, [')'] = 0,
		['|'] = 1,
		['&'] = 2,
		['='] = 3, ['>'] = 3, [GE] = 3, ['<'] = 3, [LE] = 3, [NE] = 3,
		['+'] = 4, ['-'] = 4,
		['*'] = 5, ['/'] = 5, ['%'] = 5,
		[':'] = 6,
	};

	for (; *expr; expr++) {
		switch ((type = lex(*expr, &v))) {
		case VAL:
			valp->str = v.str;
			valp->num = v.num;
			valp++;
			break;
		case '(':
			*opp++ = type;
			break;
		case ')':
			if (lasttype == '(')
				enprintf(2, "syntax error: empty ( )\n");
			while (opp > ophead && opp[-1] != '(')
				doop(ophead, opp--, valhead, valp--);
			if (opp == ophead)
				enprintf(2, "syntax error: extra )\n");
			opp--;
			break;
		default: /* operator */
			if (prec[lasttype])
				enprintf(2, "syntax error: extra operator\n");
			while (opp > ophead && prec[opp[-1]] >= prec[type])
				doop(ophead, opp--, valhead, valp--);
			*opp++ = type;
			break;
		}
		lasttype = type;
		v.str = NULL;
		v.num = 0;
	}
	while (opp > ophead)
		doop(ophead, opp--, valhead, valp--);
	if (valp == valhead)
		enprintf(2, "syntax error: missing expression\n");
	if (--valp > valhead)
		enprintf(2, "syntax error: extra expression\n");

	if (valp->str)
		puts(valp->str);
	else
		printf("%lld\n", valp->num);

	return (valp->str && *valp->str) || valp->num;
}

int
main(int argc, char *argv[])
{
	int ret;

	argv0 = *argv, argv0 ? (argc--, argv++) : (void *)0;

	ret = !parse(argv, argc);

	if (fshut(stdout, "<stdout>"))
		ret = 3;

	return ret;
}