/*! * Simple getopt alternative. * * 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 matches object. * * Single-character options are expected to appear on the command line with a * single preceding 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. * * # 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. * * use std; * import std::getopts::{optopt,optflag,getopts,opt_present,opt_maybe_str, * fail_str}; * * fn do_work(in: str, out: option) { * // ... * } * * fn print_usage(program: str) { * io::println("Usage: " + program + " [options]"); * io::println("-o\t\tOutput"); * io::println("-h --help\tUsage"); * } * * fn main(args: ~[str]) { * check vec::is_not_empty(args); * * let program : str = vec::head(args); * * let opts = ~[ * optopt("o"), * optflag("h"), * optflag("help") * ]; * let matches = alt getopts(vec::tail(args), opts) { * result::ok(m) { m } * result::err(f) { fail fail_str(f) } * }; * if opt_present(matches, "h") || opt_present(matches, "help") { * print_usage(program); * return; * } * let output = opt_maybe_str(matches, "o"); * let input = if vec::is_not_empty(matches.free) { * matches.free[0] * } else { * print_usage(program); * return; * }; * do_work(input, output); * } */ 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 matches; export fail_; export fail_str; export opt_present; export opts_present; export opt_str; export opts_str; export opt_strs; export opt_maybe_str; export opt_default; export result; //NDM enum name { long(~str), short(char), } enum hasarg { yes, no, maybe, } enum occur { req, optional, multi, } /// A description of a possible option type opt = {name: name, hasarg: hasarg, occur: occur}; fn mkname(nm: ~str) -> name { return if str::len(nm) == 1u { short(str::char_at(nm, 0u)) } else { long(nm) }; } /// Create an option that is required and takes an argument fn reqopt(name: ~str) -> opt { return {name: mkname(name), hasarg: yes, occur: req}; } /// Create an option that is optional and takes an argument fn optopt(name: ~str) -> opt { return {name: mkname(name), hasarg: yes, occur: optional}; } /// Create an option that is optional and does not take an argument fn optflag(name: ~str) -> opt { return {name: mkname(name), hasarg: no, occur: optional}; } /// Create an option that is optional and takes an optional argument fn optflagopt(name: ~str) -> opt { return {name: mkname(name), hasarg: maybe, occur: optional}; } /** * Create an option that is optional, takes an argument, and may occur * multiple times */ fn optmulti(name: ~str) -> opt { return {name: mkname(name), hasarg: yes, occur: multi}; } enum optval { val(~str), given, } /** * The result of checking command line arguments. Contains a vector * of matches and a vector of free strings. */ type matches = {opts: ~[opt], vals: ~[~[optval]], free: ~[~str]}; fn is_arg(arg: ~str) -> bool { return str::len(arg) > 1u && arg[0] == '-' as u8; } fn name_str(nm: name) -> ~str { return alt nm { short(ch) => str::from_char(ch), long(s) => s }; } fn find_opt(opts: ~[opt], nm: name) -> option { vec::position(opts, |opt| opt.name == nm) } /** * The type returned when the command line does not conform to the * expected format. Pass this value to to get an error message. */ enum fail_ { argument_missing(~str), unrecognized_option(~str), option_missing(~str), option_duplicated(~str), unexpected_argument(~str), } /// Convert a `fail_` enum into an error string fn fail_str(f: fail_) -> ~str { return alt f { argument_missing(nm) => ~"Argument to option '" + nm + ~"' missing.", unrecognized_option(nm) => ~"Unrecognized option: '" + nm + ~"'.", option_missing(nm) => ~"Required option '" + nm + ~"' missing.", option_duplicated(nm) => ~"Option '" + nm + ~"' given more than once.", unexpected_argument(nm) => { ~"Option " + nm + ~" does not take an argument." } }; } /** * The result of parsing a command line with a set of options * (result::t) */ type result = result::result; /** * Parse command line arguments according to the provided options * * On success returns `ok(opt)`. Use functions such as `opt_present` * `opt_str`, etc. to interrogate results. Returns `err(fail_)` on failure. * Use to get an error message. */ fn getopts(args: ~[~str], opts: ~[opt]) -> result unsafe { let n_opts = vec::len::(opts); fn f(_x: uint) -> ~[optval] { return ~[]; } let vals = vec::to_mut(vec::from_fn(n_opts, f)); let mut free: ~[~str] = ~[]; let l = vec::len(args); let mut i = 0u; while i < l { let cur = args[i]; let curlen = str::len(cur); if !is_arg(cur) { vec::push(free, cur); } else if cur == ~"--" { let mut j = i + 1u; while j < l { vec::push(free, args[j]); j += 1u; } break; } else { let mut names; let mut i_arg = option::none::<~str>; if cur[1] == '-' as u8 { let tail = str::slice(cur, 2u, curlen); let tail_eq = str::splitn_char(tail, '=', 1u); if vec::len(tail_eq) <= 1u { names = ~[long(tail)]; } else { names = ~[long(tail_eq[0])]; i_arg = option::some::<~str>(tail_eq[1]); } } else { let mut j = 1u; let mut last_valid_opt_id = option::none; names = ~[]; while j < curlen { let range = str::char_range_at(cur, j); let opt = short(range.ch); /* In a series of potential options (eg. -aheJ), if we see one which takes an argument, we assume all subsequent characters make up the argument. This allows options such as -L/usr/local/lib/foo to be interpreted correctly */ alt find_opt(opts, opt) { some(id) => last_valid_opt_id = option::some(id), none => { let arg_follows = option::is_some(last_valid_opt_id) && alt opts[option::get(last_valid_opt_id)].hasarg { yes | maybe => true, no => false }; if arg_follows && j + 1 < curlen { i_arg = option::some(str::slice(cur, j, curlen)); break; } else { last_valid_opt_id = option::none; } } } vec::push(names, opt); j = range.next; } } let mut name_pos = 0u; for vec::each(names) |nm| { name_pos += 1u; let optid = alt find_opt(opts, nm) { some(id) => id, none => return err(unrecognized_option(name_str(nm))) }; alt opts[optid].hasarg { no => { if !option::is_none::<~str>(i_arg) { return err(unexpected_argument(name_str(nm))); } vec::push(vals[optid], given); } maybe => { if !option::is_none::<~str>(i_arg) { vec::push(vals[optid], val(option::get(i_arg))); } else if name_pos < vec::len::(names) || i + 1u == l || is_arg(args[i + 1u]) { vec::push(vals[optid], given); } else { i += 1u; vec::push(vals[optid], val(args[i])); } } yes => { if !option::is_none::<~str>(i_arg) { vec::push(vals[optid], val(option::get::<~str>(i_arg))); } else if i + 1u == l { return err(argument_missing(name_str(nm))); } else { i += 1u; vec::push(vals[optid], val(args[i])); } } } } } i += 1u; } i = 0u; while i < n_opts { let n = vec::len::(vals[i]); let occ = opts[i].occur; if occ == req { if n == 0u { return err(option_missing(name_str(opts[i].name))); } } if occ != multi { if n > 1u { return err(option_duplicated(name_str(opts[i].name))); } } i += 1u; } return ok({opts: opts, vals: vec::from_mut(vals), free: free}); } fn opt_vals(m: matches, nm: ~str) -> ~[optval] { return alt find_opt(m.opts, mkname(nm)) { some(id) => m.vals[id], none => { error!{"No option '%s' defined", nm}; fail } }; } fn opt_val(m: matches, nm: ~str) -> optval { return opt_vals(m, nm)[0]; } /// Returns true if an option was matched fn opt_present(m: matches, nm: ~str) -> bool { return vec::len::(opt_vals(m, nm)) > 0u; } /// Returns true if any of several options were matched fn opts_present(m: matches, names: ~[~str]) -> bool { for vec::each(names) |nm| { alt find_opt(m.opts, mkname(nm)) { some(_) => return true, _ => () } } return false; } /** * Returns the string argument supplied to a matching option * * Fails if the option was not matched or if the match did not take an * argument */ fn opt_str(m: matches, nm: ~str) -> ~str { return alt opt_val(m, nm) { val(s) => s, _ => fail }; } /** * Returns the string argument supplied to one of several matching options * * Fails if the no option was provided from the given list, or if the no such * option took an argument */ fn opts_str(m: matches, names: ~[~str]) -> ~str { for vec::each(names) |nm| { alt opt_val(m, nm) { val(s) => return s, _ => () } } fail; } /** * Returns a vector of the arguments provided to all matches of the given * option. * * Used when an option accepts multiple values. */ fn opt_strs(m: matches, nm: ~str) -> ~[~str] { let mut acc: ~[~str] = ~[]; for vec::each(opt_vals(m, nm)) |v| { alt v { val(s) => vec::push(acc, s), _ => () } } return acc; } /// Returns the string argument supplied to a matching option or none fn opt_maybe_str(m: matches, nm: ~str) -> option<~str> { let vals = opt_vals(m, nm); if vec::len::(vals) == 0u { return none::<~str>; } return alt vals[0] { val(s) => some::<~str>(s), _ => none::<~str> }; } /** * 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. */ fn opt_default(m: matches, nm: ~str, def: ~str) -> option<~str> { let vals = opt_vals(m, nm); if vec::len::(vals) == 0u { return none::<~str>; } return alt vals[0] { val(s) => some::<~str>(s), _ => some::<~str>(def) } } #[cfg(test)] mod tests { import opt = getopts; import result::{err, ok}; enum fail_type { argument_missing_, unrecognized_option_, option_missing_, option_duplicated_, unexpected_argument_, } 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 { 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 } } #[test] fn test_multi() { let args = ~[~"-e", ~"foo", ~"--encrypt", ~"foo"]; let opts = ~[optopt(~"e"), optopt(~"encrypt")]; let matches = alt getopts(args, opts) { result::ok(m) => m, result::err(f) => fail }; assert opts_present(matches, ~[~"e"]); assert opts_present(matches, ~[~"encrypt"]); assert opts_present(matches, ~[~"encrypt", ~"e"]); assert opts_present(matches, ~[~"e", ~"encrypt"]); assert !opts_present(matches, ~[~"thing"]); assert !opts_present(matches, ~[]); assert opts_str(matches, ~[~"e"]) == ~"foo"; assert opts_str(matches, ~[~"encrypt"]) == ~"foo"; assert opts_str(matches, ~[~"e", ~"encrypt"]) == ~"foo"; assert opts_str(matches, ~[~"encrypt", ~"e"]) == ~"foo"; } #[test] fn test_nospace() { let args = ~[~"-Lfoo"]; let opts = ~[optmulti(~"L")]; let matches = alt getopts(args, opts) { result::ok(m) => m, result::err(f) => fail }; assert opts_present(matches, ~[~"L"]); assert opts_str(matches, ~[~"L"]) == ~"foo"; } } // Local Variables: // mode: rust; // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: