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// SPDX-License-Identifier: Apache-2.0
// SPDX-License-Identifier: MIT
use clap::{
builder::{PossibleValue, PossibleValuesParser},
error::ErrorKind,
Arg as ClapArg, ArgAction, ArgMatches, Command,
};
use serde::Serialize;
use serde_json::Value;
use tauri::PackageInfo;
use crate::{Arg, Config};
use std::collections::HashMap;
#[macro_use]
mod macros;
/// The resolution of a argument match.
#[derive(Default, Debug, Serialize, Clone)]
#[non_exhaustive]
pub struct ArgData {
/// - [`Value::Bool`] if it's a flag,
/// - [`Value::Array`] if it's multiple,
/// - [`Value::String`] if it has value,
/// - [`Value::Null`] otherwise.
pub value: Value,
/// The number of occurrences of the argument.
/// e.g. `./app --arg 1 --arg 2 --arg 2 3 4` results in three occurrences.
pub occurrences: u8,
}
/// The matched subcommand.
#[derive(Default, Debug, Serialize, Clone)]
#[non_exhaustive]
pub struct SubcommandMatches {
/// The subcommand name.
pub name: String,
/// The subcommand argument matches.
pub matches: Matches,
}
/// The argument matches of a command.
#[derive(Default, Debug, Serialize, Clone)]
#[non_exhaustive]
pub struct Matches {
/// Data structure mapping each found arg with its resolution.
pub args: HashMap<String, ArgData>,
/// The matched subcommand if found.
pub subcommand: Option<Box<SubcommandMatches>>,
}
impl Matches {
/// Set a arg match.
pub(crate) fn set_arg(&mut self, name: String, value: ArgData) {
self.args.insert(name, value);
}
/// Sets the subcommand matches.
pub(crate) fn set_subcommand(&mut self, name: String, matches: Matches) {
self.subcommand = Some(Box::new(SubcommandMatches { name, matches }));
}
}
/// Gets the argument matches of the CLI definition.
///
/// This is a low level API. If the application has been built,
/// prefer [`App::get_cli_matches`](`crate::App#method.get_cli_matches`).
///
/// # Examples
///
/// ```rust,no_run
/// use tauri_plugin_cli::CliExt;
/// tauri::Builder::default()
/// .setup(|app| {
/// let matches = app.cli().matches()?;
/// Ok(())
/// });
/// ```
pub fn get_matches(
cli: &Config,
package_info: &PackageInfo,
args: Option<Vec<String>>,
) -> crate::Result<Matches> {
let about = cli
.description()
.unwrap_or(&package_info.description.to_string())
.to_string();
let version = package_info.version.to_string();
let app = get_app(
package_info,
version,
package_info.name.clone(),
Some(&about),
cli,
);
let matches = if let Some(args) = args {
app.try_get_matches_from(args)
} else {
app.try_get_matches()
};
match matches {
Ok(matches) => Ok(get_matches_internal(cli, &matches)),
Err(e) => match e.kind() {
ErrorKind::DisplayHelp => {
let mut matches = Matches::default();
let help_text = e.to_string();
matches.args.insert(
"help".to_string(),
ArgData {
value: Value::String(help_text),
occurrences: 0,
},
);
Ok(matches)
}
ErrorKind::DisplayVersion => {
let mut matches = Matches::default();
matches
.args
.insert("version".to_string(), Default::default());
Ok(matches)
}
_ => Err(e.into()),
},
}
}
fn get_matches_internal(config: &Config, matches: &ArgMatches) -> Matches {
let mut cli_matches = Matches::default();
map_matches(config, matches, &mut cli_matches);
if let Some((subcommand_name, subcommand_matches)) = matches.subcommand() {
if let Some(subcommand_config) = config
.subcommands
.as_ref()
.and_then(|s| s.get(subcommand_name))
{
cli_matches.set_subcommand(
subcommand_name.to_string(),
get_matches_internal(subcommand_config, subcommand_matches),
);
}
}
cli_matches
}
fn map_matches(config: &Config, matches: &ArgMatches, cli_matches: &mut Matches) {
if let Some(args) = config.args() {
for arg in args {
let (occurrences, value) = if arg.takes_value {
if arg.multiple {
matches
.get_many::<String>(&arg.name)
.map(|v| {
let mut values = Vec::new();
for value in v {
values.push(Value::String(value.into()));
}
(values.len() as u8, Value::Array(values))
})
.unwrap_or((0, Value::Null))
} else {
matches
.get_one::<String>(&arg.name)
.map(|v| (1, Value::String(v.clone())))
.unwrap_or((0, Value::Null))
}
} else {
let occurrences = matches.get_count(&arg.name);
(occurrences, Value::Bool(occurrences > 0))
};
cli_matches.set_arg(arg.name.clone(), ArgData { value, occurrences });
}
}
}
fn get_app(
package_info: &PackageInfo,
version: String,
command_name: String,
about: Option<&String>,
config: &Config,
) -> Command {
let mut app = Command::new(command_name)
.author(package_info.authors)
.version(version.clone());
if let Some(about) = about {
app = app.about(about);
}
if let Some(long_description) = config.long_description() {
app = app.long_about(long_description);
}
if let Some(before_help) = config.before_help() {
app = app.before_help(before_help);
}
if let Some(after_help) = config.after_help() {
app = app.after_help(after_help);
}
if let Some(args) = config.args() {
for arg in args {
app = app.arg(get_arg(arg.name.clone(), arg));
}
}
if let Some(subcommands) = config.subcommands() {
for (subcommand_name, subcommand) in subcommands {
let clap_subcommand = get_app(
package_info,
version.clone(),
subcommand_name.to_string(),
subcommand.description(),
subcommand,
);
app = app.subcommand(clap_subcommand);
}
}
app
}
fn get_arg(arg_name: String, arg: &Arg) -> ClapArg {
let mut clap_arg = ClapArg::new(arg_name.clone());
if arg.index.is_none() {
clap_arg = clap_arg.long(arg_name);
if let Some(short) = arg.short {
clap_arg = clap_arg.short(short);
}
}
clap_arg = bind_string_arg!(arg, clap_arg, description, help);
clap_arg = bind_string_arg!(arg, clap_arg, long_description, long_help);
let action = if arg.multiple {
ArgAction::Append
} else if arg.takes_value {
ArgAction::Set
} else {
ArgAction::Count
};
clap_arg = clap_arg.action(action);
clap_arg = bind_value_arg!(arg, clap_arg, number_of_values);
if let Some(values) = &arg.possible_values {
clap_arg = clap_arg.value_parser(PossibleValuesParser::new(
values
.iter()
.map(PossibleValue::new)
.collect::<Vec<PossibleValue>>(),
));
}
clap_arg = match (arg.min_values, arg.max_values) {
(Some(min), Some(max)) => clap_arg.num_args(min..=max),
(Some(min), None) => clap_arg.num_args(min..),
(None, Some(max)) => clap_arg.num_args(0..max),
(None, None) => clap_arg,
};
clap_arg = clap_arg.required(arg.required);
clap_arg = bind_string_arg!(
arg,
clap_arg,
required_unless_present,
required_unless_present
);
clap_arg = bind_string_slice_arg!(arg, clap_arg, required_unless_present_all);
clap_arg = bind_string_slice_arg!(arg, clap_arg, required_unless_present_any);
clap_arg = bind_string_arg!(arg, clap_arg, conflicts_with, conflicts_with);
if let Some(value) = &arg.conflicts_with_all {
clap_arg = clap_arg.conflicts_with_all(value);
}
clap_arg = bind_string_arg!(arg, clap_arg, requires, requires);
if let Some(value) = &arg.requires_all {
clap_arg = clap_arg.requires_all(value);
}
clap_arg = bind_if_arg!(arg, clap_arg, requires_if);
clap_arg = bind_if_arg!(arg, clap_arg, required_if_eq);
clap_arg = bind_value_arg!(arg, clap_arg, require_equals);
clap_arg = bind_value_arg!(arg, clap_arg, index);
clap_arg = clap_arg.global(arg.global);
clap_arg
}
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