mirror of
https://github.com/topjohnwu/ndk-busybox.git
synced 2024-12-15 07:48:30 +00:00
af3f420116
Signed-off-by: Denys Vlasenko <vda.linux@googlemail.com>
557 lines
12 KiB
C
557 lines
12 KiB
C
/* vi: set sw=4 ts=4: */
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/*
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* Mini expr implementation for busybox
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*
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* based on GNU expr Mike Parker.
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* Copyright (C) 86, 1991-1997, 1999 Free Software Foundation, Inc.
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*
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* Busybox modifications
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* Copyright (c) 2000 Edward Betts <edward@debian.org>.
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* Copyright (C) 2003-2005 Vladimir Oleynik <dzo@simtreas.ru>
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* - reduced 464 bytes.
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* - 64 math support
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*
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* Licensed under GPLv2 or later, see file LICENSE in this source tree.
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*/
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/* This program evaluates expressions. Each token (operator, operand,
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* parenthesis) of the expression must be a separate argument. The
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* parser used is a reasonably general one, though any incarnation of
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* it is language-specific. It is especially nice for expressions.
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*
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* No parse tree is needed; a new node is evaluated immediately.
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* One function can handle multiple operators all of equal precedence,
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* provided they all associate ((x op x) op x).
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*/
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//config:config EXPR
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//config: bool "expr"
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//config: default y
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//config: help
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//config: expr is used to calculate numbers and print the result
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//config: to standard output.
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//config:
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//config:config EXPR_MATH_SUPPORT_64
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//config: bool "Extend Posix numbers support to 64 bit"
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//config: default y
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//config: depends on EXPR
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//config: help
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//config: Enable 64-bit math support in the expr applet. This will make
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//config: the applet slightly larger, but will allow computation with very
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//config: large numbers.
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//applet:IF_EXPR(APPLET(expr, BB_DIR_USR_BIN, BB_SUID_DROP))
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//kbuild:lib-$(CONFIG_EXPR) += expr.o
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//usage:#define expr_trivial_usage
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//usage: "EXPRESSION"
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//usage:#define expr_full_usage "\n\n"
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//usage: "Print the value of EXPRESSION to stdout\n"
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//usage: "\n"
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//usage: "EXPRESSION may be:\n"
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//usage: " ARG1 | ARG2 ARG1 if it is neither null nor 0, otherwise ARG2\n"
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//usage: " ARG1 & ARG2 ARG1 if neither argument is null or 0, otherwise 0\n"
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//usage: " ARG1 < ARG2 1 if ARG1 is less than ARG2, else 0. Similarly:\n"
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//usage: " ARG1 <= ARG2\n"
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//usage: " ARG1 = ARG2\n"
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//usage: " ARG1 != ARG2\n"
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//usage: " ARG1 >= ARG2\n"
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//usage: " ARG1 > ARG2\n"
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//usage: " ARG1 + ARG2 Sum of ARG1 and ARG2. Similarly:\n"
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//usage: " ARG1 - ARG2\n"
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//usage: " ARG1 * ARG2\n"
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//usage: " ARG1 / ARG2\n"
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//usage: " ARG1 % ARG2\n"
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//usage: " STRING : REGEXP Anchored pattern match of REGEXP in STRING\n"
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//usage: " match STRING REGEXP Same as STRING : REGEXP\n"
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//usage: " substr STRING POS LENGTH Substring of STRING, POS counted from 1\n"
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//usage: " index STRING CHARS Index in STRING where any CHARS is found, or 0\n"
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//usage: " length STRING Length of STRING\n"
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//usage: " quote TOKEN Interpret TOKEN as a string, even if\n"
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//usage: " it is a keyword like 'match' or an\n"
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//usage: " operator like '/'\n"
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//usage: " (EXPRESSION) Value of EXPRESSION\n"
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//usage: "\n"
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//usage: "Beware that many operators need to be escaped or quoted for shells.\n"
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//usage: "Comparisons are arithmetic if both ARGs are numbers, else\n"
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//usage: "lexicographical. Pattern matches return the string matched between\n"
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//usage: "\\( and \\) or null; if \\( and \\) are not used, they return the number\n"
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//usage: "of characters matched or 0."
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#include "libbb.h"
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#include "common_bufsiz.h"
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#include "xregex.h"
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#if ENABLE_EXPR_MATH_SUPPORT_64
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typedef int64_t arith_t;
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#define PF_REZ "ll"
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#define PF_REZ_TYPE (long long)
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#define STRTOL(s, e, b) strtoll(s, e, b)
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#else
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typedef long arith_t;
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#define PF_REZ "l"
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#define PF_REZ_TYPE (long)
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#define STRTOL(s, e, b) strtol(s, e, b)
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#endif
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/* TODO: use bb_strtol[l]? It's easier to check for errors... */
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/* The kinds of value we can have. */
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enum {
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INTEGER,
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STRING
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};
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/* A value is.... */
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struct valinfo {
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smallint type; /* Which kind. */
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union { /* The value itself. */
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arith_t i;
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char *s;
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} u;
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};
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typedef struct valinfo VALUE;
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/* The arguments given to the program, minus the program name. */
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struct globals {
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char **args;
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} FIX_ALIASING;
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#define G (*(struct globals*)bb_common_bufsiz1)
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#define INIT_G() do { setup_common_bufsiz(); } while (0)
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/* forward declarations */
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static VALUE *eval(void);
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/* Return a VALUE for I. */
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static VALUE *int_value(arith_t i)
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{
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VALUE *v;
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v = xzalloc(sizeof(VALUE));
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if (INTEGER) /* otherwise xzalloc did it already */
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v->type = INTEGER;
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v->u.i = i;
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return v;
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}
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/* Return a VALUE for S. */
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static VALUE *str_value(const char *s)
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{
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VALUE *v;
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v = xzalloc(sizeof(VALUE));
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if (STRING) /* otherwise xzalloc did it already */
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v->type = STRING;
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v->u.s = xstrdup(s);
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return v;
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}
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/* Free VALUE V, including structure components. */
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static void freev(VALUE *v)
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{
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if (v->type == STRING)
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free(v->u.s);
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free(v);
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}
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/* Return nonzero if V is a null-string or zero-number. */
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static int null(VALUE *v)
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{
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if (v->type == INTEGER)
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return v->u.i == 0;
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/* STRING: */
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return v->u.s[0] == '\0' || LONE_CHAR(v->u.s, '0');
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}
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/* Coerce V to a STRING value (can't fail). */
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static void tostring(VALUE *v)
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{
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if (v->type == INTEGER) {
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v->u.s = xasprintf("%" PF_REZ "d", PF_REZ_TYPE v->u.i);
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v->type = STRING;
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}
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}
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/* Coerce V to an INTEGER value. Return 1 on success, 0 on failure. */
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static bool toarith(VALUE *v)
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{
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if (v->type == STRING) {
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arith_t i;
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char *e;
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/* Don't interpret the empty string as an integer. */
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/* Currently does not worry about overflow or int/long differences. */
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i = STRTOL(v->u.s, &e, 10);
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if ((v->u.s == e) || *e)
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return 0;
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free(v->u.s);
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v->u.i = i;
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v->type = INTEGER;
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}
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return 1;
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}
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/* Return str[0]+str[1] if the next token matches STR exactly.
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STR must not be NULL. */
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static int nextarg(const char *str)
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{
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if (*G.args == NULL || strcmp(*G.args, str) != 0)
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return 0;
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return (unsigned char)str[0] + (unsigned char)str[1];
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}
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/* The comparison operator handling functions. */
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static int cmp_common(VALUE *l, VALUE *r, int op)
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{
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arith_t ll, rr;
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ll = l->u.i;
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rr = r->u.i;
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if (l->type == STRING || r->type == STRING) {
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tostring(l);
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tostring(r);
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ll = strcmp(l->u.s, r->u.s);
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rr = 0;
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}
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/* calculating ll - rr and checking the result is prone to overflows.
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* We'll do it differently: */
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if (op == '<')
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return ll < rr;
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if (op == ('<' + '='))
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return ll <= rr;
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if (op == '=' || (op == '=' + '='))
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return ll == rr;
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if (op == '!' + '=')
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return ll != rr;
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if (op == '>')
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return ll > rr;
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/* >= */
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return ll >= rr;
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}
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/* The arithmetic operator handling functions. */
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static arith_t arithmetic_common(VALUE *l, VALUE *r, int op)
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{
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arith_t li, ri;
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if (!toarith(l) || !toarith(r))
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bb_error_msg_and_die("non-numeric argument");
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li = l->u.i;
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ri = r->u.i;
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if (op == '+')
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return li + ri;
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if (op == '-')
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return li - ri;
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if (op == '*')
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return li * ri;
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if (ri == 0)
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bb_error_msg_and_die("division by zero");
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if (op == '/')
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return li / ri;
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return li % ri;
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}
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/* Do the : operator.
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SV is the VALUE for the lhs (the string),
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PV is the VALUE for the rhs (the pattern). */
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static VALUE *docolon(VALUE *sv, VALUE *pv)
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{
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enum { NMATCH = 2 };
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VALUE *v;
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regex_t re_buffer;
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regmatch_t re_regs[NMATCH];
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tostring(sv);
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tostring(pv);
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if (pv->u.s[0] == '^') {
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bb_error_msg(
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"warning: '%s': using '^' as the first character\n"
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"of a basic regular expression is not portable; it is ignored", pv->u.s);
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}
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memset(&re_buffer, 0, sizeof(re_buffer));
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memset(re_regs, 0, sizeof(re_regs));
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xregcomp(&re_buffer, pv->u.s, 0);
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/* expr uses an anchored pattern match, so check that there was a
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* match and that the match starts at offset 0. */
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if (regexec(&re_buffer, sv->u.s, NMATCH, re_regs, 0) != REG_NOMATCH
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&& re_regs[0].rm_so == 0
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) {
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/* Were \(...\) used? */
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if (re_buffer.re_nsub > 0 && re_regs[1].rm_so >= 0) {
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sv->u.s[re_regs[1].rm_eo] = '\0';
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v = str_value(sv->u.s + re_regs[1].rm_so);
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} else {
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v = int_value(re_regs[0].rm_eo);
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}
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} else {
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/* Match failed -- return the right kind of null. */
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if (re_buffer.re_nsub > 0)
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v = str_value("");
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else
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v = int_value(0);
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}
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regfree(&re_buffer);
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return v;
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}
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/* Handle bare operands and ( expr ) syntax. */
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static VALUE *eval7(void)
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{
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VALUE *v;
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if (!*G.args)
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bb_error_msg_and_die("syntax error");
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if (nextarg("(")) {
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G.args++;
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v = eval();
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if (!nextarg(")"))
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bb_error_msg_and_die("syntax error");
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G.args++;
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return v;
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}
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if (nextarg(")"))
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bb_error_msg_and_die("syntax error");
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return str_value(*G.args++);
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}
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/* Handle match, substr, index, length, and quote keywords. */
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static VALUE *eval6(void)
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{
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static const char keywords[] ALIGN1 =
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"quote\0""length\0""match\0""index\0""substr\0";
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VALUE *r, *i1, *i2;
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VALUE *l = l; /* silence gcc */
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VALUE *v = v; /* silence gcc */
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int key = *G.args ? index_in_strings(keywords, *G.args) + 1 : 0;
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if (key == 0) /* not a keyword */
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return eval7();
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G.args++; /* We have a valid token, so get the next argument. */
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if (key == 1) { /* quote */
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if (!*G.args)
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bb_error_msg_and_die("syntax error");
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return str_value(*G.args++);
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}
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if (key == 2) { /* length */
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r = eval6();
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tostring(r);
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v = int_value(strlen(r->u.s));
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freev(r);
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} else
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l = eval6();
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if (key == 3) { /* match */
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r = eval6();
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v = docolon(l, r);
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freev(l);
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freev(r);
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}
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if (key == 4) { /* index */
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r = eval6();
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tostring(l);
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tostring(r);
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v = int_value(strcspn(l->u.s, r->u.s) + 1);
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if (v->u.i == (arith_t) strlen(l->u.s) + 1)
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v->u.i = 0;
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freev(l);
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freev(r);
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}
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if (key == 5) { /* substr */
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i1 = eval6();
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i2 = eval6();
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tostring(l);
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if (!toarith(i1) || !toarith(i2)
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|| i1->u.i > (arith_t) strlen(l->u.s)
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|| i1->u.i <= 0 || i2->u.i <= 0)
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v = str_value("");
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else {
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v = xmalloc(sizeof(VALUE));
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v->type = STRING;
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v->u.s = xstrndup(l->u.s + i1->u.i - 1, i2->u.i);
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}
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freev(l);
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freev(i1);
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freev(i2);
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}
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return v;
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}
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/* Handle : operator (pattern matching).
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Calls docolon to do the real work. */
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static VALUE *eval5(void)
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{
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VALUE *l, *r, *v;
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l = eval6();
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while (nextarg(":")) {
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G.args++;
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r = eval6();
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v = docolon(l, r);
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freev(l);
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freev(r);
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l = v;
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}
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return l;
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}
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/* Handle *, /, % operators. */
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static VALUE *eval4(void)
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{
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VALUE *l, *r;
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int op;
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arith_t val;
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l = eval5();
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while (1) {
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op = nextarg("*");
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if (!op) { op = nextarg("/");
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if (!op) { op = nextarg("%");
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if (!op) return l;
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}}
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G.args++;
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r = eval5();
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val = arithmetic_common(l, r, op);
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freev(l);
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freev(r);
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l = int_value(val);
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}
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}
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/* Handle +, - operators. */
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static VALUE *eval3(void)
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{
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VALUE *l, *r;
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int op;
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arith_t val;
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l = eval4();
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while (1) {
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op = nextarg("+");
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if (!op) {
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op = nextarg("-");
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if (!op) return l;
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}
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G.args++;
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r = eval4();
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val = arithmetic_common(l, r, op);
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freev(l);
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freev(r);
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l = int_value(val);
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}
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}
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/* Handle comparisons. */
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static VALUE *eval2(void)
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{
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VALUE *l, *r;
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int op;
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arith_t val;
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l = eval3();
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while (1) {
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op = nextarg("<");
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if (!op) { op = nextarg("<=");
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if (!op) { op = nextarg("=");
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if (!op) { op = nextarg("==");
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if (!op) { op = nextarg("!=");
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if (!op) { op = nextarg(">=");
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if (!op) { op = nextarg(">");
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if (!op) return l;
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}}}}}}
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G.args++;
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r = eval3();
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toarith(l);
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toarith(r);
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val = cmp_common(l, r, op);
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freev(l);
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freev(r);
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l = int_value(val);
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}
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}
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/* Handle &. */
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static VALUE *eval1(void)
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{
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VALUE *l, *r;
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l = eval2();
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while (nextarg("&")) {
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G.args++;
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r = eval2();
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if (null(l) || null(r)) {
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freev(l);
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freev(r);
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l = int_value(0);
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} else
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freev(r);
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}
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return l;
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}
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/* Handle |. */
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static VALUE *eval(void)
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{
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VALUE *l, *r;
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l = eval1();
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while (nextarg("|")) {
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G.args++;
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r = eval1();
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if (null(l)) {
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freev(l);
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l = r;
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} else
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freev(r);
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}
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return l;
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}
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int expr_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE;
|
|
int expr_main(int argc UNUSED_PARAM, char **argv)
|
|
{
|
|
VALUE *v;
|
|
|
|
INIT_G();
|
|
|
|
xfunc_error_retval = 2; /* coreutils compat */
|
|
G.args = argv + 1;
|
|
if (*G.args == NULL) {
|
|
bb_error_msg_and_die("too few arguments");
|
|
}
|
|
v = eval();
|
|
if (*G.args)
|
|
bb_error_msg_and_die("syntax error");
|
|
if (v->type == INTEGER)
|
|
printf("%" PF_REZ "d\n", PF_REZ_TYPE v->u.i);
|
|
else
|
|
puts(v->u.s);
|
|
fflush_stdout_and_exit(null(v));
|
|
}
|