mirror of
https://github.com/clap-rs/clap
synced 2024-12-12 22:02:35 +00:00
d6743bb70d
* tests: remove unnecessary mut
When building the projec, I was told
warning: variable does not need to be mutable, #[warn(unused_mut)]
on by default
--> tests/macros.rs:39:9
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39 | let mut app = clap_app!(("app name with spaces-and-hyphens") =>
| ^^^^^^^
* examples: remove unused variable
The inner Some value is not used in the match arm:
warning: unused variable: `local_matches`,
#[warn(unused_variables)] on by default
--> examples/20_subcommands.rs:128:32
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128 | ("local", Some(local_matches)) =>{
| ^^^^^^^^^^^^^
143 lines
6.5 KiB
Rust
143 lines
6.5 KiB
Rust
// Working with subcommands is simple. There are a few key points to remember when working with
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// subcommands in clap. First, SubCommands are really just Apps. This means they can have their own
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// settings, version, authors, args, and even their own subcommands. The next thing to remember is
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// that subcommands are set up in a tree like heirachy.
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//
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// An ASCII art depiction may help explain this better. Using a fictional version of git as the demo
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// subject. Imagine the following are all subcommands of git (note, the author is aware these aren't
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// actually all subcommands in the real git interface, but it makes explanation easier)
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//
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// Top Level App (git) TOP
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// |
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// -----------------------------------------
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// / | \ \
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// clone push add commit LEVEL 1
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// | / \ / \ |
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// url origin remote ref name message LEVEL 2
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// / /\
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// path remote local LEVEL 3
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//
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// Given the above fictional subcommand hierarchy, valid runtime uses would be (not an all inclusive
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// list):
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//
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// $ git clone url
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// $ git push origin path
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// $ git add ref local
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// $ git commit message
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//
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// Notice only one command per "level" may be used. You could not, for example, do:
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//
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// $ git clone url push origin path
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//
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// It's also important to know that subcommands each have their own set of matches and may have args
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// with the same name as other subcommands in a different part of the tree heirachy (i.e. the arg
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// names aren't in a flat namespace).
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//
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// In order to use subcommands in clap, you only need to know which subcommand you're at in your
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// tree, and which args are defined on that subcommand.
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//
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// Let's make a quick program to illustrate. We'll be using the same example as above but for
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// brevity sake we won't implement all of the subcommands, only a few.
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extern crate clap;
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use clap::{App, Arg, SubCommand, AppSettings};
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fn main() {
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let matches = App::new("git")
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.about("A fictional versioning CLI")
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.version("1.0")
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.author("Me")
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.subcommand(SubCommand::with_name("clone")
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.about("clones repos")
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.arg(Arg::with_name("repo")
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.help("The repo to clone")
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.required(true)))
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.subcommand(SubCommand::with_name("push")
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.about("pushes things")
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.setting(AppSettings::SubcommandRequiredElseHelp)
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.subcommand(SubCommand::with_name("remote") // Subcommands can have thier own subcommands,
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// which in turn have their own subcommands
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.about("pushes remote things")
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.arg(Arg::with_name("repo")
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.required(true)
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.help("The remote repo to push things to")))
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.subcommand(SubCommand::with_name("local")
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.about("pushes local things")))
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.subcommand(SubCommand::with_name("add")
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.about("adds things")
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.author("Someone Else") // Subcommands can list different authors
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.version("v2.0 (I'm versioned differently") // or different version from their parents
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.setting(AppSettings::ArgRequiredElseHelp) // They can even have different settings
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.arg(Arg::with_name("stuff")
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.long("stuff")
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.help("Stuff to add")
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.takes_value(true)
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.multiple(true)))
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.get_matches();
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// At this point, the matches we have point to git. Keep this in mind...
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// You can check if one of git's subcommands was used
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if matches.is_present("clone") {
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println!("'git clone' was run.");
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}
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// You can see which subcommand was used
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if let Some(subcommand) = matches.subcommand_name() {
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println!("'git {}' was used", subcommand);
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// It's important to note, this *only* check's git's DIRECT children, **NOT** it's
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// grandchildren, great grandchildren, etc.
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//
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// i.e. if the command `git push remove --stuff foo` was run, the above will only print out,
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// `git push` was used. We'd need to get push's matches to see futher into the tree
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}
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// An alternative to checking the name is matching on known names. Again notice that only the
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// direct children are matched here.
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match matches.subcommand_name() {
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Some("clone") => println!("'git clone' was used"),
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Some("push") => println!("'git push' was used"),
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Some("add") => println!("'git add' was used"),
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None => println!("No subcommand was used"),
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_ => unreachable!(), // Assuming you've listed all direct children above, this is unreachable
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}
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// You could get the independent subcommand matches, although this is less common
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if let Some(clone_matches) = matches.subcommand_matches("clone") {
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// Now we have a reference to clone's matches
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println!("Cloning repo: {}", clone_matches.value_of("repo").unwrap());
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}
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// The most common way to handle subcommands is via a combined approach using
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// `ArgMatches::subcommand` which returns a tuple of both the name and matches
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match matches.subcommand() {
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("clone", Some(clone_matches)) =>{
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// Now we have a reference to clone's matches
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println!("Cloning {}", clone_matches.value_of("repo").unwrap());
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},
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("push", Some(push_matches)) =>{
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// Now we have a reference to push's matches
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match push_matches.subcommand() {
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("remote", Some(remote_matches)) =>{
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// Now we have a reference to remote's matches
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println!("Pushing to {}", remote_matches.value_of("repo").unwrap());
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},
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("local", Some(_)) =>{
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println!("'git push local' was used");
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},
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_ => unreachable!(),
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}
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},
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("add", Some(add_matches)) =>{
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// Now we have a reference to add's matches
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println!("Adding {}", add_matches.values_of("stuff").unwrap().collect::<Vec<_>>().join(", "));
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},
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("", None) => println!("No subcommand was used"), // If no subcommand was usd it'll match the tuple ("", None)
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_ => unreachable!(), // If all subcommands are defined above, anything else is unreachabe!()
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}
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// Continued program logic goes here...
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}
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