use clap::{Args, Parser, Subcommand}; #[derive(Parser, Debug)] #[command(name = "cargo", bin_name = "cargo")] pub enum Cargo { #[command(name = "3ds")] Input(Input), } #[derive(Args, Debug)] #[command(version, about)] pub struct Input { #[command(subcommand)] pub cmd: CargoCmd, } /// The cargo command to run. This command will be forwarded to the real /// `cargo` with the appropriate arguments for a 3DS executable. /// /// If another command is passed which is not recognized, it will be passed /// through unmodified to `cargo` with RUSTFLAGS set for the 3DS. #[derive(Subcommand, Debug)] #[command(allow_external_subcommands = true)] pub enum CargoCmd { /// Builds an executable suitable to run on a 3DS (3dsx). Build(RemainingArgs), /// Builds an executable and sends it to a device with `3dslink`. Run(Run), /// Builds a test executable and sends it to a device with `3dslink`. /// /// This can be used with `--test` for integration tests, or `--lib` for /// unit tests (which require a custom test runner). Test(Test), // NOTE: it seems docstring + name for external subcommands are not rendered // in help, but we might as well set them here in case a future version of clap // does include them in help text. /// Run any other `cargo` command with RUSTFLAGS set for the 3DS. #[command(external_subcommand, name = "COMMAND")] Passthrough(Vec), } #[derive(Args, Debug)] pub struct RemainingArgs { /// Pass additional options through to the `cargo` command. /// /// To pass flags that start with `-`, you must use `--` to separate `cargo 3ds` /// options from cargo options. Any argument after `--` will be passed through /// to cargo unmodified. /// /// If one of the arguments is itself `--`, the args following that will be /// considered as args to pass to the executable, rather than to `cargo` /// (only works for the `run` or `test` commands). For example, if you want /// to pass some args to the executable directly it might look like this: /// /// > cargo 3ds run -- -- arg1 arg2 #[arg(trailing_var_arg = true)] #[arg(allow_hyphen_values = true)] #[arg(global = true)] #[arg(name = "CARGO_ARGS")] args: Vec, } #[derive(Parser, Debug)] pub struct Test { /// If set, the built executable will not be sent to the device to run it. #[arg(long)] pub no_run: bool, // The test command uses a superset of the same arguments as Run. #[command(flatten)] pub run_args: Run, } #[derive(Parser, Debug)] pub struct Run { /// Specify the IP address of the device to send the executable to. /// /// Corresponds to 3dslink's `--address` arg, which defaults to automatically /// finding the device. #[arg(long, short = 'a')] pub address: Option, /// Set the 0th argument of the executable when running it. Corresponds to /// 3dslink's `--argv0` argument. #[arg(long, short = '0')] pub argv0: Option, /// Start the 3dslink server after sending the executable. Corresponds to /// 3dslink's `--server` argument. #[arg(long, short = 's', default_value_t = false)] pub server: bool, /// Set the number of tries when connecting to the device to send the executable. /// Corresponds to 3dslink's `--retries` argument. // Can't use `short = 'r'` because that would conflict with cargo's `--release/-r` #[arg(long)] pub retries: Option, // Passthrough cargo options. #[command(flatten)] pub cargo_args: RemainingArgs, } impl CargoCmd { /// Whether or not this command should build a 3DSX executable file. pub fn should_build_3dsx(&self) -> bool { matches!(self, Self::Build(_) | Self::Run(_) | Self::Test(_)) } /// Whether or not the resulting executable should be sent to the 3DS with /// `3dslink`. pub fn should_link_to_device(&self) -> bool { match self { CargoCmd::Test(test) => !test.no_run, CargoCmd::Run(_) => true, _ => false, } } pub const DEFAULT_MESSAGE_FORMAT: &str = "json-render-diagnostics"; pub fn extract_message_format(&mut self) -> Result, String> { Self::extract_message_format_from_args(match self { CargoCmd::Build(args) => &mut args.args, CargoCmd::Run(run) => &mut run.cargo_args.args, CargoCmd::Test(test) => &mut test.run_args.cargo_args.args, CargoCmd::Passthrough(args) => args, }) } fn extract_message_format_from_args( cargo_args: &mut Vec, ) -> Result, String> { // Checks for a position within the args where '--message-format' is located if let Some(pos) = cargo_args .iter() .position(|s| s.starts_with("--message-format")) { // Remove the arg from list so we don't pass anything twice by accident let arg = cargo_args.remove(pos); // Allows for usage of '--message-format=' and also using space separation. // Check for a '=' delimiter and use the second half of the split as the format, // otherwise remove next arg which is now at the same position as the original flag. let format = if let Some((_, format)) = arg.split_once('=') { format.to_string() } else { // Also need to remove the argument to the --message-format option cargo_args.remove(pos) }; // Non-json formats are not supported so the executable exits. if format.starts_with("json") { Ok(Some(format)) } else { Err(String::from( "error: non-JSON `message-format` is not supported", )) } } else { Ok(None) } } } impl RemainingArgs { /// Get the args to be passed to the executable itself (not `cargo`). pub fn cargo_args(&self) -> &[String] { self.split_args().0 } /// Get the args to be passed to the executable itself (not `cargo`). pub fn exe_args(&self) -> &[String] { self.split_args().1 } fn split_args(&self) -> (&[String], &[String]) { if let Some(split) = self.args.iter().position(|s| s == "--") { self.args.split_at(split + 1) } else { (&self.args[..], &[]) } } } #[cfg(test)] mod tests { use super::*; use clap::CommandFactory; #[test] fn verify_app() { Cargo::command().debug_assert(); } #[test] fn extract_format() { for (args, expected) in [ (&["--foo", "--message-format=json", "bar"][..], Some("json")), (&["--foo", "--message-format", "json", "bar"], Some("json")), ( &[ "--foo", "--message-format", "json-render-diagnostics", "bar", ], Some("json-render-diagnostics"), ), ( &["--foo", "--message-format=json-render-diagnostics", "bar"], Some("json-render-diagnostics"), ), ] { let mut cmd = CargoCmd::Build(RemainingArgs { args: args.iter().map(ToString::to_string).collect(), }); assert_eq!( cmd.extract_message_format().unwrap(), expected.map(ToString::to_string) ); if let CargoCmd::Build(args) = cmd { assert_eq!(args.args, vec!["--foo", "bar"]); } else { unreachable!(); } } } #[test] fn extract_format_err() { for args in [&["--message-format=foo"][..], &["--message-format", "foo"]] { let mut cmd = CargoCmd::Build(RemainingArgs { args: args.iter().map(ToString::to_string).collect(), }); assert!(cmd.extract_message_format().is_err()); } } #[test] fn split_run_args() { struct TestParam { input: &'static [&'static str], expected_cargo: &'static [&'static str], expected_exe: &'static [&'static str], } for param in [ TestParam { input: &["--example", "hello-world", "--no-default-features"], expected_cargo: &["--example", "hello-world", "--no-default-features"], expected_exe: &[], }, TestParam { input: &["--example", "hello-world", "--", "--do-stuff", "foo"], expected_cargo: &["--example", "hello-world", "--"], expected_exe: &["--do-stuff", "foo"], }, TestParam { input: &["--lib", "--", "foo"], expected_cargo: &["--lib", "--"], expected_exe: &["foo"], }, TestParam { input: &["foo", "--", "bar"], expected_cargo: &["foo", "--"], expected_exe: &["bar"], }, ] { let Run { cargo_args, .. } = Run::parse_from(std::iter::once(&"run").chain(param.input)); assert_eq!(cargo_args.cargo_args(), param.expected_cargo); assert_eq!(cargo_args.exe_args(), param.expected_exe); } } }