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#[macro_use]
mod macros;
mod bash;
mod elvish;
mod fish;
mod powershell;
mod shell;
mod zsh;

// Std
use std::io::Write;

// Internal
use self::bash::BashGen;
use self::elvish::ElvishGen;
use self::fish::FishGen;
use self::powershell::PowerShellGen;
pub use self::shell::Shell;
use self::zsh::ZshGen;
use app::parser::Parser;

pub struct ComplGen<'a, 'b>
where
    'a: 'b,
{
    p: &'b Parser<'a, 'b>,
}

impl<'a, 'b> ComplGen<'a, 'b> {
    pub fn new(p: &'b Parser<'a, 'b>) -> Self {
        ComplGen { p: p }
    }

    pub fn generate<W: Write>(&self, for_shell: Shell, buf: &mut W) {
        match for_shell {
            Shell::Bash => BashGen::new(self.p).generate_to(buf),
            Shell::Fish => FishGen::new(self.p).generate_to(buf),
            Shell::Zsh => ZshGen::new(self.p).generate_to(buf),
            Shell::PowerShell => PowerShellGen::new(self.p).generate_to(buf),
            Shell::Elvish => ElvishGen::new(self.p).generate_to(buf),
        }
    }
}

// Gets all subcommands including child subcommands in the form of 'name' where the name
// is a single word (i.e. "install")  of the path to said subcommand (i.e.
// "rustup toolchain install")
//
// Also note, aliases are treated as their own subcommands but duplicates of whatever they're
// aliasing.
pub fn all_subcommand_names(p: &Parser) -> Vec<String> {
    debugln!("all_subcommand_names;");
    let mut subcmds: Vec<_> = subcommands_of(p)
        .iter()
        .map(|&(ref n, _)| n.clone())
        .collect();
    for sc_v in p.subcommands.iter().map(|s| all_subcommand_names(&s.p)) {
        subcmds.extend(sc_v);
    }
    subcmds.sort();
    subcmds.dedup();
    subcmds
}

// Gets all subcommands including child subcommands in the form of ('name', 'bin_name') where the name
// is a single word (i.e. "install") of the path and full bin_name of said subcommand (i.e.
// "rustup toolchain install")
//
// Also note, aliases are treated as their own subcommands but duplicates of whatever they're
// aliasing.
pub fn all_subcommands(p: &Parser) -> Vec<(String, String)> {
    debugln!("all_subcommands;");
    let mut subcmds: Vec<_> = subcommands_of(p);
    for sc_v in p.subcommands.iter().map(|s| all_subcommands(&s.p)) {
        subcmds.extend(sc_v);
    }
    subcmds
}

// Gets all subcommands excluding child subcommands in the form of (name, bin_name) where the name
// is a single word (i.e. "install") and the bin_name is a space delineated list of the path to said
// subcommand (i.e. "rustup toolchain install")
//
// Also note, aliases are treated as their own subcommands but duplicates of whatever they're
// aliasing.
pub fn subcommands_of(p: &Parser) -> Vec<(String, String)> {
    debugln!(
        "subcommands_of: name={}, bin_name={}",
        p.meta.name,
        p.meta.bin_name.as_ref().unwrap()
    );
    let mut subcmds = vec![];

    debugln!(
        "subcommands_of: Has subcommands...{:?}",
        p.has_subcommands()
    );
    if !p.has_subcommands() {
        let mut ret = vec![];
        debugln!("subcommands_of: Looking for aliases...");
        if let Some(ref aliases) = p.meta.aliases {
            for &(n, _) in aliases {
                debugln!("subcommands_of:iter:iter: Found alias...{}", n);
                let mut als_bin_name: Vec<_> =
                    p.meta.bin_name.as_ref().unwrap().split(' ').collect();
                als_bin_name.push(n);
                let old = als_bin_name.len() - 2;
                als_bin_name.swap_remove(old);
                ret.push((n.to_owned(), als_bin_name.join(" ")));
            }
        }
        return ret;
    }
    for sc in &p.subcommands {
        debugln!(
            "subcommands_of:iter: name={}, bin_name={}",
            sc.p.meta.name,
            sc.p.meta.bin_name.as_ref().unwrap()
        );

        debugln!("subcommands_of:iter: Looking for aliases...");
        if let Some(ref aliases) = sc.p.meta.aliases {
            for &(n, _) in aliases {
                debugln!("subcommands_of:iter:iter: Found alias...{}", n);
                let mut als_bin_name: Vec<_> =
                    p.meta.bin_name.as_ref().unwrap().split(' ').collect();
                als_bin_name.push(n);
                let old = als_bin_name.len() - 2;
                als_bin_name.swap_remove(old);
                subcmds.push((n.to_owned(), als_bin_name.join(" ")));
            }
        }
        subcmds.push((
            sc.p.meta.name.clone(),
            sc.p.meta.bin_name.as_ref().unwrap().clone(),
        ));
    }
    subcmds
}

pub fn get_all_subcommand_paths(p: &Parser, first: bool) -> Vec<String> {
    debugln!("get_all_subcommand_paths;");
    let mut subcmds = vec![];
    if !p.has_subcommands() {
        if !first {
            let name = &*p.meta.name;
            let path = p.meta.bin_name.as_ref().unwrap().clone().replace(" ", "__");
            let mut ret = vec![path.clone()];
            if let Some(ref aliases) = p.meta.aliases {
                for &(n, _) in aliases {
                    ret.push(path.replace(name, n));
                }
            }
            return ret;
        }
        return vec![];
    }
    for sc in &p.subcommands {
        let name = &*sc.p.meta.name;
        let path =
            sc.p.meta
                .bin_name
                .as_ref()
                .unwrap()
                .clone()
                .replace(" ", "__");
        subcmds.push(path.clone());
        if let Some(ref aliases) = sc.p.meta.aliases {
            for &(n, _) in aliases {
                subcmds.push(path.replace(name, n));
            }
        }
    }
    for sc_v in p
        .subcommands
        .iter()
        .map(|s| get_all_subcommand_paths(&s.p, false))
    {
        subcmds.extend(sc_v);
    }
    subcmds
}