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// Package opts implements unicode-aware getopt(3)- and getopt_long(3)
// flag parsing.
//
// The opts package aims to provide as simple an API as possible. If
// your usecase requires more advanced argument-parsing or a more robust
// API, this may not be the ideal package for you.
//
// While the opts package aims to closely follow the POSIX getopt(3) and
// GNU getopt_long(3) C functions, there are some notable differences.
// This package properly supports unicode flags, but also does not
// support a leading ‘:’ in the [Get] function’s option string; all
// user-facing I/O is delegrated to the caller.
package opts
// ArgMode represents the whether or not a long-option takes an argument.
type ArgMode int
// These tokens can be used to specify whether or not a long-option takes
// an argument.
const (
None ArgMode = iota // long opt takes no argument
Required // long opt takes an argument
Optional // long opt optionally takes an argument
)
// Flag represents a parsed command-line flag. Key corresponds to the
// rune that was passed on the command-line, and Value corresponds to the
// flags argument if one was provided. In the case of long-options Key
// will map to the corresponding short-code, even if a long-option was
// used.
type Flag struct {
Key rune // the flag that was passed
Value string // the flags argument
}
// LongOpt represents a long-option to attempt to parse. All long
// options have a short-hand form represented by Short and a long-form
// represented by Long. Arg is used to represent whether or not a takes
// an argument.
//
// In the case that you want to parse a long-option which doesn’t have a
// short-hand form, you can set Short to a negative integer.
type LongOpt struct {
Short rune
Long string
Arg ArgMode
}
// Get parses the command-line arguments in args according to optstr.
// Unlike POSIX-getopt(3), a leading ‘:’ in optstr is not supported and
// will be ignored and no I/O is ever performed.
//
// Get will look for the flags listed in optstr (i.e., it will look for
// ‘-a’, ‘-ß’, and ‘λ’ given optstr == "aßλ"). The optstr need not be
// sorted in any particular order. If an option takes a required
// argument, it can be suffixed by a colon. If an option takes an
// optional argument, it can be suffixed by two colons. As an example,
// optstr == "a::ßλ:" will search for ‘-a’ with an optional argument,
// ‘-ß’ with no argument, and ‘-λ’ with a required argument.
//
// A successful parse returns the flags in the flags slice and the index
// of the first non-option argument in optind. In the case of failure,
// err will be one of [BadOptionError] or [NoArgumentError].
func Get(args []string, optstr string) (flags []Flag, optind int, err error) {
argmap := make(map[rune]bool)
rs := []rune(optstr)
for i, r := range rs {
if r != ':' {
argmap[r] = false
} else if i > 0 {
argmap[rs[i-1]] = true
}
}
for i := 1; i < len(args); i++ {
arg := args[i]
if len(arg) == 0 || arg == "-" || arg[0] != '-' {
optind = i
return
} else if arg == "--" {
optind = i + 1
return
}
rs := []rune(arg[1:])
for j, r := range rs {
var s string
argp, ok := argmap[r]
switch {
case !ok:
return nil, 0, BadOptionError(r)
case argp && j < len(rs)-1:
s = string(rs[j+1:])
case argp:
i++
if i >= len(args) {
return nil, 0, NoArgumentError(r)
}
s = args[i]
default:
flags = append(flags, Flag{Key: r})
continue
}
flags = append(flags, Flag{r, s})
break
}
}
optind = len(args)
return
}
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