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/* vi: set sw=4 ts=4 :
* args.c - Command line argument parsing.
*
* Copyright 2006 Rob Landley <rob@landley.net>
*/
#include "toys.h"
// Design goals:
// Don't use getopt()
// Don't permute original arguments.
// handle --long gracefully "(noshort)a(along)b(blong1)(blong2)"
// After each argument:
// Note that pointer and long are always the same size, even on 64 bit.
// : plus a string argument, keep most recent if more than one
// * plus a string argument, appended to a list
// ? plus a signed long argument (TODO: Bounds checking?)
// @ plus an occurrence counter (which is a long)
// | this is required. If more than one marked, only one required.
// (longopt)
// +X enabling this enables X (switch on)
// ~X enabling this disables X (switch off)
// x~x means toggle x, I.E. specifying it again switches it off.
// !X die with error if X already set (x!x die if x supplied twice)
// [yz] needs at least one of y or z.
// at the beginning:
// + stop at first nonoption argument
// <0 at least # leftover arguments needed (default 0)
// >9 at most # leftover arguments needed (default MAX_INT)
// # don't show_usage() on unknown argument.
// & first argument has imaginary dash (ala tar/ps)
// If given twice, all arguments have imaginary dash
// Notes from getopt man page
// - and -- cannot be arguments.
// -- force end of arguments
// - is a synonym for stdin in file arguments
// -abc means -a -b -c
/* This uses a getopt-like option string, but not getopt() itself.
*
* Each option in options corresponds to a bit position in the return
* value (last argument is (1<<0), the next to last is (1<<1) and so on.
* If the option isn't seen in argv its bit is 0. Options which have an
* argument use the next vararg. (So varargs used by options go from left to
* right, but bits set by arguments go from right to left.)
*
* Example:
* get_optflags("ab:c:d", NULL, &bstring, &cstring);
* argv = ["command", "-b", "fruit", "-d"]
* flags = 5, bstring="fruit", cstring=NULL;
*/
struct opts {
struct opts *next;
char c;
int type;
int shift;
void *arg;
};
struct getoptflagstate
{
int argc;
char *arg;
struct opts *opts, *this;
int noerror, nodash_now;
};
static struct getoptflagstate gof;
static void gotflag(void)
{
int type;
// Did we recognize this option?
if (!gof.this && !gof.noerror) error_exit("Unknown option %s\n", gof.arg);
else toys.optflags |= 1 << gof.this->shift;
// Does this option take an argument?
gof.arg++;
if (gof.this->type & 255) {
// Make "tar xCjfv blah1 blah2 thingy" work like
// "tar -x -C blah1 -j -f blah2 -v thingy"
if (!gof.nodash_now && !*gof.arg) {
gof.arg = toys.argv[++gof.argc];
if (!gof.arg) error_exit("Missing argument");
}
} else gof.this = NULL;
// If the last option had an argument, grab it.
if (gof.this) {
type = gof.this->type & 255;
if (!gof.arg && !(gof.arg = toys.argv[++gof.argc]))
error_exit("Missing argument");
if (type == ':') gof.this->arg = gof.arg;
else if (type == '*') {
struct arg_list *temp, **list;
list = (struct arg_list **)gof.this->arg;
temp = xmalloc(sizeof(struct arg_list));
temp->arg = gof.arg;
temp->next = *list;
*list = temp;
} else if (type == '?') {
} else if (type == '@') {
}
gof.arg = "";
}
}
// Fill out toys.optflags and toys.optargs. This isn't reentrant because
// we don't bzero(&gof, sizeof(gof));
void get_optflags(void)
{
int stopearly = 0, optarg = 0, nodash = 0, minargs = 0, maxargs;
struct longopts {
struct longopts *next;
struct opts *opt;
char *str;
int len;
} *longopts = NULL;
long *nextarg = (long *)&toy;
char *options = toys.which->options;
// Allocate memory for optargs
maxargs = 0;
while (toys.argv[maxargs++]);
toys.optargs = xzalloc(sizeof(char *)*maxargs);
maxargs = INT_MAX;
// Parse option format
if (options) {
// Parse leading special behavior indicators
for (;;) {
if (*options == '+') stopearly++;
else if (*options == '<') minargs=*(++options)-'0';
else if (*options == '>') maxargs=*(++options)-'0';
else if (*options == '#') gof.noerror++;
else if (*options == '&') nodash++;
else break;
options++;
}
// Parse rest of opts into array
while (*options) {
// Allocate a new option entry when necessary
if (!gof.this) {
gof.this = xzalloc(sizeof(struct opts));
gof.this->next = gof.opts;
gof.opts = gof.this;
}
// Each option must start with (or an option character. (Bare
// longopts only come at the start of the string.)
if (*options == '(') {
char *end;
struct longopts *lo = xmalloc(sizeof(struct longopts));
// Find the end of the longopt
for (end = ++options; *end && *end != ')'; end++);
if (CFG_DEBUG && !*end) error_exit("Unterminated optstring");
// Allocate and init a new struct longopts
lo = xmalloc(sizeof(struct longopts));
lo->next = longopts;
lo->opt = gof.this;
lo->str = options;
lo->len = end-options;
longopts = lo;
options = end;
// For leading longopts (with no corresponding short opt), note
// that this option struct has been used.
gof.this->shift++;
// If this is the start of a new option that wasn't a longopt,
} else if (index(":*?@", *options)) {
gof.this->type |= *options;
// Pointer and long guaranteed to be the same size by LP64.
*(++nextarg) = 0;
gof.this->arg = (void *)nextarg;
} else if (*options == '|') {
} else if (*options == '+') {
} else if (*options == '~') {
} else if (*options == '!') {
} else if (*options == '[') {
// At this point, we've hit the end of the previous option. The
// current character is the start of a new option. If we've already
// assigned an option to this struct, loop to allocate a new one.
// (It'll get back here afterwards.)
} else if(gof.this->shift || gof.this->c) {
gof.this = NULL;
continue;
// Claim this option, loop to see what's after it.
} else gof.this->c = *options;
options++;
}
}
// Initialize shift bits (have to calculate this ahead of time because
// longopts jump into the middle of the list), and allocate space to
// store optargs.
gof.argc = 0;
for (gof.this = gof.opts; gof.this; gof.this = gof.this->next)
gof.this->shift = gof.argc++;
// Iterate through command line arguments, skipping argv[0]
for (gof.argc=1; toys.argv[gof.argc]; gof.argc++) {
gof.arg = toys.argv[gof.argc];
gof.this = NULL;
// Parse this argument
if (stopearly>1) goto notflag;
gof.nodash_now = 0;
// Various things with dashes
if (*gof.arg == '-') {
// Handle -
if (!gof.arg[1]) goto notflag;
gof.arg++;
if (*gof.arg=='-') {
struct longopts *lo;
gof.arg++;
// Handle --
if (!*gof.arg) {
stopearly += 2;
goto notflag;
}
// Handle --longopt
for (lo = longopts; lo; lo = lo->next) {
if (!strncmp(gof.arg, lo->str, lo->len)) {
if (gof.arg[lo->len]) {
if (gof.arg[lo->len]=='='
&& (lo->opt->type & 255))
{
gof.arg += lo->len;
} else continue;
}
// It's a match.
gof.arg = "";
gof.this = lo->opt;
break;
}
}
// Long option parsed, handle option.
gotflag();
continue;
}
// Handle things that don't start with a dash.
} else {
if (nodash && (nodash>1 || gof.argc == 1)) gof.nodash_now = 1;
else goto notflag;
}
// At this point, we have the args part of -args. Loop through
// each entry (could be -abc meaning -a -b -c)
while (*gof.arg) {
// Identify next option char.
for (gof.this = gof.opts; gof.this; gof.this = gof.this->next)
if (*gof.arg == gof.this->c) break;
// Handle option char (advancing past what was used)
gotflag();
}
continue;
// Not a flag, save value in toys.optargs[]
notflag:
if (stopearly) stopearly++;
toys.optargs[optarg++] = toys.argv[gof.argc];
}
// Sanity check
if (optarg<minargs) error_exit("Need %d arguments", minargs);
if (optarg>maxargs) error_exit("Max %d arguments", maxargs);
}
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