rust/src/libstd/getopts.rs

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#[doc = "
Simple getopt alternative.
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Construct a vector of options, either by using reqopt, optopt, and optflag or
by building them from components yourself, and pass them to getopts, along
with a vector of actual arguments (not including argv[0]). You'll either get a
failure code back, or a match. You'll have to verify whether the amount of
'free' arguments in the match is what you expect. Use opt_* accessors to get
argument values out of the match object.
Single-character options are expected to appear on the command line with a
single preceeding dash; multiple-character options are expected to be
proceeded by two dashes. Options that expect an argument accept their argument
following either a space or an equals sign.
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# Example
The following example shows simple command line parsing for an application
that requires an input file to be specified, accepts an optional output file
name following -o, and accepts both -h and --help as optional flags.
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fn main(args: [str]) {
let opts = [
optopt(\"o\"),
optflag(\"h\"),
optflag(\"help\")
];
let match = alt getopts(vec::shift(args), opts) {
ok(m) { m }
err(f) { fail fail_str(f) }
};
if opt_present(match, \"h\") || opt_present(match, \"help\") {
print_usage();
ret;
}
let output = opt_maybe_str(match, \"o\");
let input = if !vec::is_empty(match.free) {
match.free[0]
} else {
print_usage();
ret;
}
do_work(input, output);
}
"];
import core::result;
import core::result::{err, ok};
import core::option;
import core::option::{some, none};
export opt;
export reqopt;
export optopt;
export optflag;
export optflagopt;
export optmulti;
export getopts;
export match;
export fail_;
export fail_str;
export opt_present;
export opt_str;
export opt_strs;
export opt_maybe_str;
export opt_default;
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enum name { long(str), short(char), }
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enum hasarg { yes, no, maybe, }
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enum occur { req, optional, multi, }
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#[doc = "A description of a possible option"]
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type opt = {name: name, hasarg: hasarg, occur: occur};
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fn mkname(nm: str) -> name {
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ret if str::len(nm) == 1u {
short(str::char_at(nm, 0u))
} else { long(nm) };
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}
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#[doc = "Create an option that is required and takes an argument"]
fn reqopt(name: str) -> opt {
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ret {name: mkname(name), hasarg: yes, occur: req};
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}
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#[doc = "Create an option that is optional and takes an argument"]
fn optopt(name: str) -> opt {
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ret {name: mkname(name), hasarg: yes, occur: optional};
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}
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#[doc = "Create an option that is optional and does not take an argument"]
fn optflag(name: str) -> opt {
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ret {name: mkname(name), hasarg: no, occur: optional};
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}
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#[doc = "Create an option that is optional and takes an optional argument"]
fn optflagopt(name: str) -> opt {
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ret {name: mkname(name), hasarg: maybe, occur: optional};
}
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#[doc = "
Create an option that is optional, takes an argument, and may occur
multiple times
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"]
fn optmulti(name: str) -> opt {
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ret {name: mkname(name), hasarg: yes, occur: multi};
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}
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enum optval { val(str), given, }
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#[doc = "
The result of checking command line arguments. Contains a vector
of matches and a vector of free strings.
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"]
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type match = {opts: [opt], vals: [mutable [optval]], free: [str]};
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fn is_arg(arg: str) -> bool {
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ret str::len(arg) > 1u && arg[0] == '-' as u8;
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}
fn name_str(nm: name) -> str {
ret alt nm { short(ch) { str::from_char(ch) } long(s) { s } };
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}
fn find_opt(opts: [opt], nm: name) -> option<uint> {
vec::position(opts, { |opt| opt.name == nm })
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}
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#[doc = "
The type returned when the command line does not conform to the
expected format. Pass this value to <fail_str> to get an error message.
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"]
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enum fail_ {
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argument_missing(str),
unrecognized_option(str),
option_missing(str),
option_duplicated(str),
unexpected_argument(str),
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}
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#[doc = "Convert a `fail_` enum into an error string"]
fn fail_str(f: fail_) -> str {
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ret alt f {
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argument_missing(nm) { "Argument to option '" + nm + "' missing." }
unrecognized_option(nm) { "Unrecognized option: '" + nm + "'." }
option_missing(nm) { "Required option '" + nm + "' missing." }
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option_duplicated(nm) {
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"Option '" + nm + "' given more than once."
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}
unexpected_argument(nm) {
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"Option " + nm + " does not take an argument."
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}
};
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}
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#[doc = "
The result of parsing a command line with a set of options
(result::t<match, fail_>)
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"]
type result = result::t<match, fail_>;
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#[doc = "
Parse command line arguments according to the provided options
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On success returns `ok(opt)`. Use functions such as `opt_present` `opt_str`,
etc. to interrogate results. Returns `err(fail_)` on failure. Use <fail_str>
to get an error message.
"]
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fn getopts(args: [str], opts: [opt]) -> result unsafe {
let n_opts = vec::len::<opt>(opts);
fn f(_x: uint) -> [optval] { ret []; }
let vals = vec::to_mut(vec::init_fn(n_opts, f));
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let free: [str] = [];
let l = vec::len(args);
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let i = 0u;
while i < l {
let cur = args[i];
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let curlen = str::len(cur);
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if !is_arg(cur) {
free += [cur];
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} else if str::eq(cur, "--") {
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let j = i + 1u;
while j < l { free += [args[j]]; j += 1u; }
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break;
} else {
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let names;
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let i_arg = option::none::<str>;
if cur[1] == '-' as u8 {
let tail = str::slice(cur, 2u, curlen);
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let tail_eq = str::splitn_char(tail, '=', 1u);
if vec::len(tail_eq) <= 1u {
names = [long(tail)];
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} else {
names =
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[long(tail_eq[0])];
i_arg =
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option::some::<str>(tail_eq[1]);
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}
} else {
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let j = 1u;
names = [];
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while j < curlen {
let range = str::char_range_at(cur, j);
names += [short(range.ch)];
j = range.next;
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}
}
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let name_pos = 0u;
for nm: name in names {
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name_pos += 1u;
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let optid;
alt find_opt(opts, nm) {
some(id) { optid = id; }
none { ret err(unrecognized_option(name_str(nm))); }
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}
alt opts[optid].hasarg {
no {
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if !option::is_none::<str>(i_arg) {
ret err(unexpected_argument(name_str(nm)));
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}
vals[optid] += [given];
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}
maybe {
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if !option::is_none::<str>(i_arg) {
vals[optid] += [val(option::get(i_arg))];
} else if name_pos < vec::len::<name>(names) ||
i + 1u == l || is_arg(args[i + 1u]) {
vals[optid] += [given];
} else { i += 1u; vals[optid] += [val(args[i])]; }
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}
yes {
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if !option::is_none::<str>(i_arg) {
vals[optid] += [val(option::get::<str>(i_arg))];
} else if i + 1u == l {
ret err(argument_missing(name_str(nm)));
} else { i += 1u; vals[optid] += [val(args[i])]; }
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}
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}
}
}
i += 1u;
}
i = 0u;
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while i < n_opts {
let n = vec::len::<optval>(vals[i]);
let occ = opts[i].occur;
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if occ == req {
if n == 0u {
ret err(option_missing(name_str(opts[i].name)));
}
}
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if occ != multi {
if n > 1u {
ret err(option_duplicated(name_str(opts[i].name)));
}
}
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i += 1u;
}
ret ok({opts: opts, vals: vals, free: free});
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}
fn opt_vals(m: match, nm: str) -> [optval] {
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ret alt find_opt(m.opts, mkname(nm)) {
some(id) { m.vals[id] }
none { #error("No option '%s' defined", nm); fail }
};
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}
fn opt_val(m: match, nm: str) -> optval { ret opt_vals(m, nm)[0]; }
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#[doc = "Returns true if an option was matched"]
fn opt_present(m: match, nm: str) -> bool {
ret vec::len::<optval>(opt_vals(m, nm)) > 0u;
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}
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#[doc = "
Returns the string argument supplied to a matching option
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Fails if the option was not matched or if the match did not take an argument
"]
fn opt_str(m: match, nm: str) -> str {
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ret alt opt_val(m, nm) { val(s) { s } _ { fail } };
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}
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#[doc = "
Returns a vector of the arguments provided to all matches of the given option.
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Used when an option accepts multiple values.
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"]
fn opt_strs(m: match, nm: str) -> [str] {
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let acc: [str] = [];
for v: optval in opt_vals(m, nm) {
alt v { val(s) { acc += [s]; } _ { } }
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}
ret acc;
}
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#[doc = "
Returns the string argument supplied to a matching option or none
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"]
fn opt_maybe_str(m: match, nm: str) -> option<str> {
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let vals = opt_vals(m, nm);
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if vec::len::<optval>(vals) == 0u { ret none::<str>; }
ret alt vals[0] { val(s) { some::<str>(s) } _ { none::<str> } };
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}
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#[doc = "
Returns the matching string, a default, or none
Returns none if the option was not present, `def` if the option was
present but no argument was provided, and the argument if the option was
present and an argument was provided.
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"]
fn opt_default(m: match, nm: str, def: str) -> option<str> {
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let vals = opt_vals(m, nm);
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if vec::len::<optval>(vals) == 0u { ret none::<str>; }
ret alt vals[0] { val(s) { some::<str>(s) } _ { some::<str>(def) } }
}
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#[cfg(test)]
mod tests {
import opt = getopts;
import result::{err, ok};
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enum fail_type {
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argument_missing_,
unrecognized_option_,
option_missing_,
option_duplicated_,
unexpected_argument_,
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}
fn check_fail_type(f: fail_, ft: fail_type) {
alt f {
argument_missing(_) { assert (ft == argument_missing_); }
unrecognized_option(_) { assert (ft == unrecognized_option_); }
option_missing(_) { assert (ft == option_missing_); }
option_duplicated(_) { assert (ft == option_duplicated_); }
unexpected_argument(_) { assert (ft == unexpected_argument_); }
}
}
// Tests for reqopt
#[test]
fn test_reqopt_long() {
let args = ["--test=20"];
let opts = [reqopt("test")];
let rs = getopts(args, opts);
alt check rs {
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ok(m) {
assert (opt_present(m, "test"));
assert (opt_str(m, "test") == "20");
}
}
}
#[test]
fn test_reqopt_long_missing() {
let args = ["blah"];
let opts = [reqopt("test")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, option_missing_); }
_ { fail; }
}
}
#[test]
fn test_reqopt_long_no_arg() {
let args = ["--test"];
let opts = [reqopt("test")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, argument_missing_); }
_ { fail; }
}
}
#[test]
fn test_reqopt_long_multi() {
let args = ["--test=20", "--test=30"];
let opts = [reqopt("test")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, option_duplicated_); }
_ { fail; }
}
}
#[test]
fn test_reqopt_short() {
let args = ["-t", "20"];
let opts = [reqopt("t")];
let rs = getopts(args, opts);
alt rs {
ok(m) {
assert (opt_present(m, "t"));
assert (opt_str(m, "t") == "20");
}
_ { fail; }
}
}
#[test]
fn test_reqopt_short_missing() {
let args = ["blah"];
let opts = [reqopt("t")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, option_missing_); }
_ { fail; }
}
}
#[test]
fn test_reqopt_short_no_arg() {
let args = ["-t"];
let opts = [reqopt("t")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, argument_missing_); }
_ { fail; }
}
}
#[test]
fn test_reqopt_short_multi() {
let args = ["-t", "20", "-t", "30"];
let opts = [reqopt("t")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, option_duplicated_); }
_ { fail; }
}
}
// Tests for optopt
#[test]
fn test_optopt_long() {
let args = ["--test=20"];
let opts = [optopt("test")];
let rs = getopts(args, opts);
alt rs {
ok(m) {
assert (opt_present(m, "test"));
assert (opt_str(m, "test") == "20");
}
_ { fail; }
}
}
#[test]
fn test_optopt_long_missing() {
let args = ["blah"];
let opts = [optopt("test")];
let rs = getopts(args, opts);
alt rs {
ok(m) { assert (!opt_present(m, "test")); }
_ { fail; }
}
}
#[test]
fn test_optopt_long_no_arg() {
let args = ["--test"];
let opts = [optopt("test")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, argument_missing_); }
_ { fail; }
}
}
#[test]
fn test_optopt_long_multi() {
let args = ["--test=20", "--test=30"];
let opts = [optopt("test")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, option_duplicated_); }
_ { fail; }
}
}
#[test]
fn test_optopt_short() {
let args = ["-t", "20"];
let opts = [optopt("t")];
let rs = getopts(args, opts);
alt rs {
ok(m) {
assert (opt_present(m, "t"));
assert (opt_str(m, "t") == "20");
}
_ { fail; }
}
}
#[test]
fn test_optopt_short_missing() {
let args = ["blah"];
let opts = [optopt("t")];
let rs = getopts(args, opts);
alt rs {
ok(m) { assert (!opt_present(m, "t")); }
_ { fail; }
}
}
#[test]
fn test_optopt_short_no_arg() {
let args = ["-t"];
let opts = [optopt("t")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, argument_missing_); }
_ { fail; }
}
}
#[test]
fn test_optopt_short_multi() {
let args = ["-t", "20", "-t", "30"];
let opts = [optopt("t")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, option_duplicated_); }
_ { fail; }
}
}
// Tests for optflag
#[test]
fn test_optflag_long() {
let args = ["--test"];
let opts = [optflag("test")];
let rs = getopts(args, opts);
alt rs {
ok(m) { assert (opt_present(m, "test")); }
_ { fail; }
}
}
#[test]
fn test_optflag_long_missing() {
let args = ["blah"];
let opts = [optflag("test")];
let rs = getopts(args, opts);
alt rs {
ok(m) { assert (!opt_present(m, "test")); }
_ { fail; }
}
}
#[test]
fn test_optflag_long_arg() {
let args = ["--test=20"];
let opts = [optflag("test")];
let rs = getopts(args, opts);
alt rs {
err(f) {
log(error, fail_str(f));
check_fail_type(f, unexpected_argument_);
}
_ { fail; }
}
}
#[test]
fn test_optflag_long_multi() {
let args = ["--test", "--test"];
let opts = [optflag("test")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, option_duplicated_); }
_ { fail; }
}
}
#[test]
fn test_optflag_short() {
let args = ["-t"];
let opts = [optflag("t")];
let rs = getopts(args, opts);
alt rs {
ok(m) { assert (opt_present(m, "t")); }
_ { fail; }
}
}
#[test]
fn test_optflag_short_missing() {
let args = ["blah"];
let opts = [optflag("t")];
let rs = getopts(args, opts);
alt rs {
ok(m) { assert (!opt_present(m, "t")); }
_ { fail; }
}
}
#[test]
fn test_optflag_short_arg() {
let args = ["-t", "20"];
let opts = [optflag("t")];
let rs = getopts(args, opts);
alt rs {
ok(m) {
// The next variable after the flag is just a free argument
assert (m.free[0] == "20");
}
_ { fail; }
}
}
#[test]
fn test_optflag_short_multi() {
let args = ["-t", "-t"];
let opts = [optflag("t")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, option_duplicated_); }
_ { fail; }
}
}
// Tests for optmulti
#[test]
fn test_optmulti_long() {
let args = ["--test=20"];
let opts = [optmulti("test")];
let rs = getopts(args, opts);
alt rs {
ok(m) {
assert (opt_present(m, "test"));
assert (opt_str(m, "test") == "20");
}
_ { fail; }
}
}
#[test]
fn test_optmulti_long_missing() {
let args = ["blah"];
let opts = [optmulti("test")];
let rs = getopts(args, opts);
alt rs {
ok(m) { assert (!opt_present(m, "test")); }
_ { fail; }
}
}
#[test]
fn test_optmulti_long_no_arg() {
let args = ["--test"];
let opts = [optmulti("test")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, argument_missing_); }
_ { fail; }
}
}
#[test]
fn test_optmulti_long_multi() {
let args = ["--test=20", "--test=30"];
let opts = [optmulti("test")];
let rs = getopts(args, opts);
alt rs {
ok(m) {
assert (opt_present(m, "test"));
assert (opt_str(m, "test") == "20");
assert (opt_strs(m, "test")[0] == "20");
assert (opt_strs(m, "test")[1] == "30");
}
_ { fail; }
}
}
#[test]
fn test_optmulti_short() {
let args = ["-t", "20"];
let opts = [optmulti("t")];
let rs = getopts(args, opts);
alt rs {
ok(m) {
assert (opt_present(m, "t"));
assert (opt_str(m, "t") == "20");
}
_ { fail; }
}
}
#[test]
fn test_optmulti_short_missing() {
let args = ["blah"];
let opts = [optmulti("t")];
let rs = getopts(args, opts);
alt rs {
ok(m) { assert (!opt_present(m, "t")); }
_ { fail; }
}
}
#[test]
fn test_optmulti_short_no_arg() {
let args = ["-t"];
let opts = [optmulti("t")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, argument_missing_); }
_ { fail; }
}
}
#[test]
fn test_optmulti_short_multi() {
let args = ["-t", "20", "-t", "30"];
let opts = [optmulti("t")];
let rs = getopts(args, opts);
alt rs {
ok(m) {
assert (opt_present(m, "t"));
assert (opt_str(m, "t") == "20");
assert (opt_strs(m, "t")[0] == "20");
assert (opt_strs(m, "t")[1] == "30");
}
_ { fail; }
}
}
#[test]
fn test_unrecognized_option_long() {
let args = ["--untest"];
let opts = [optmulti("t")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, unrecognized_option_); }
_ { fail; }
}
}
#[test]
fn test_unrecognized_option_short() {
let args = ["-t"];
let opts = [optmulti("test")];
let rs = getopts(args, opts);
alt rs {
err(f) { check_fail_type(f, unrecognized_option_); }
_ { fail; }
}
}
#[test]
fn test_combined() {
let args =
["prog", "free1", "-s", "20", "free2", "--flag", "--long=30",
"-f", "-m", "40", "-m", "50", "-n", "-A B", "-n", "-60 70"];
let opts =
[optopt("s"), optflag("flag"), reqopt("long"),
optflag("f"), optmulti("m"), optmulti("n"),
optopt("notpresent")];
let rs = getopts(args, opts);
alt rs {
ok(m) {
assert (m.free[0] == "prog");
assert (m.free[1] == "free1");
assert (opt_str(m, "s") == "20");
assert (m.free[2] == "free2");
assert (opt_present(m, "flag"));
assert (opt_str(m, "long") == "30");
assert (opt_present(m, "f"));
assert (opt_strs(m, "m")[0] == "40");
assert (opt_strs(m, "m")[1] == "50");
assert (opt_strs(m, "n")[0] == "-A B");
assert (opt_strs(m, "n")[1] == "-60 70");
assert (!opt_present(m, "notpresent"));
}
_ { fail; }
}
}
}
2011-04-26 10:46:54 -05:00
// Local Variables:
// mode: rust;
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// End: