nushell/src/cli.rs

use crate::prelude::*;

use crate::commands::classified::{
    ClassifiedCommand, ClassifiedInputStream, ExternalCommand, InternalCommand,
};
use crate::context::Context;
crate use crate::errors::ShellError;
crate use crate::format::{EntriesListView, GenericView};
use crate::object::Value;
use crate::stream::empty_stream;

use rustyline::error::ReadlineError;
use rustyline::{self, ColorMode, Config, Editor};
use std::collections::VecDeque;
use std::error::Error;
use std::iter::Iterator;
use std::sync::Arc;

#[derive(Debug)]
pub enum MaybeOwned<'a, T> {
    Owned(T),
    Borrowed(&'a T),
}

impl<T> MaybeOwned<'a, T> {
    crate fn borrow(&self) -> &T {
        match self {
            MaybeOwned::Owned(v) => v,
            MaybeOwned::Borrowed(v) => v,
        }
    }
}

pub async fn cli() -> Result<(), Box<Error>> {
    let config = Config::builder().color_mode(ColorMode::Forced).build();
    let h = crate::shell::Helper::new();
    let mut rl: Editor<crate::shell::Helper> = Editor::with_config(config);

    #[cfg(windows)]
    {
        let _ = ansi_term::enable_ansi_support();
    }

    rl.set_helper(Some(h));
    if rl.load_history("history.txt").is_err() {
        println!("No previous history.");
    }

    let mut context = Context::basic()?;

    {
        use crate::commands::*;

        context.add_commands(vec![
            ("format-list", Arc::new(format_list)),
            ("ps", Arc::new(ps::ps)),
            ("ls", Arc::new(ls::ls)),
            ("cd", Arc::new(cd::cd)),
            ("view", Arc::new(view::view)),
            ("skip", Arc::new(skip::skip)),
            ("first", Arc::new(take::take)),
            ("select", Arc::new(select::select)),
            ("reject", Arc::new(reject::reject)),
            ("to-array", Arc::new(to_array::to_array)),
            ("where", Arc::new(where_::r#where)),
            ("sort-by", Arc::new(sort_by::sort_by)),
        ]);
    }

    loop {
        let readline = rl.readline(&format!(
            "{}> ",
            context.env.lock().unwrap().cwd().display().to_string()
        ));

        match process_line(readline, &mut context).await {
            LineResult::Success(line) => {
                rl.add_history_entry(line.clone());
            }

            LineResult::Error(err) => {
                context.host.lock().unwrap().stdout(&err);
            }

            LineResult::Break => {
                break;
            }

            LineResult::FatalError(err) => {
                context
                    .host
                    .lock()
                    .unwrap()
                    .stdout(&format!("A surprising fatal error occurred.\n{:?}", err));
            }
        }
    }
    rl.save_history("history.txt").unwrap();

    Ok(())
}

enum LineResult {
    Success(String),
    Error(String),
    Break,

    #[allow(unused)]
    FatalError(ShellError),
}

impl std::ops::Try for LineResult {
    type Ok = Option<String>;
    type Error = ShellError;

    fn into_result(self) -> Result<Option<String>, ShellError> {
        match self {
            LineResult::Success(s) => Ok(Some(s)),
            LineResult::Error(s) => Err(ShellError::string(s)),
            LineResult::Break => Ok(None),
            LineResult::FatalError(err) => Err(err),
        }
    }
    fn from_error(v: ShellError) -> Self {
        LineResult::Error(v.to_string())
    }

    fn from_ok(v: Option<String>) -> Self {
        match v {
            None => LineResult::Break,
            Some(v) => LineResult::Success(v),
        }
    }
}

async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context) -> LineResult {
    match &readline {
        Ok(line) if line.trim() == "exit" => LineResult::Break,

        Ok(line) if line.trim() == "" => LineResult::Success(line.clone()),

        Ok(line) => {
            let result = match crate::parser::shell_parser(&line) {
                Err(err) => {
                    return LineResult::Error(format!("{:?}", err));
                }

                Ok(val) => val,
            };

            let parsed: Result<Vec<_>, _> = result
                .1
                .into_iter()
                .map(|item| classify_command(&item, ctx))
                .collect();

            let parsed = parsed?;

            let mut input = ClassifiedInputStream::new();

            let mut iter = parsed.into_iter().peekable();

            loop {
                let item: Option<ClassifiedCommand> = iter.next();
                let next: Option<&ClassifiedCommand> = iter.peek();

                input = match (item, next) {
                    (None, _) => break,

                    (
                        Some(ClassifiedCommand::Internal(left)),
                        Some(ClassifiedCommand::Internal(_)),
                    ) => match left.run(ctx, input).await {
                        Ok(val) => ClassifiedInputStream::from_input_stream(val),
                        Err(err) => return LineResult::Error(format!("{}", err.description())),
                    },

                    (Some(ClassifiedCommand::Internal(left)), None) => {
                        match left.run(ctx, input).await {
                            Ok(val) => ClassifiedInputStream::from_input_stream(val),
                            Err(err) => return LineResult::Error(format!("{}", err.description())),
                        }
                    }

                    (
                        Some(ClassifiedCommand::External(left)),
                        Some(ClassifiedCommand::External(_)),
                    ) => match left.run(ctx, input, true).await {
                        Ok(val) => val,
                        Err(err) => return LineResult::Error(format!("{}", err.description())),
                    },

                    (
                        Some(ClassifiedCommand::Internal(_)),
                        Some(ClassifiedCommand::External(_)),
                    ) => unimplemented!(),

                    (
                        Some(ClassifiedCommand::External(_)),
                        Some(ClassifiedCommand::Internal(_)),
                    ) => unimplemented!(),

                    (Some(ClassifiedCommand::External(left)), None) => {
                        match left.run(ctx, input, false).await {
                            Ok(val) => val,
                            Err(err) => return LineResult::Error(format!("{}", err.description())),
                        }
                    }
                }
                // input = match process_command(item.clone(), input, ctx).await {
                //     Ok(val) => val,
                //     Err(err) => return LineResult::Error(format!("{}", err.description())),
                // };
            }

            let input_vec: VecDeque<_> = input.objects.collect().await;

            if input_vec.len() > 0 {
                if equal_shapes(&input_vec) {
                    let array = crate::commands::stream_to_array(input_vec.boxed()).await;
                    let args = CommandArgs::from_context(ctx, vec![], array);
                    let mut result = format(args);
                    let mut vec = vec![];
                    vec.send_all(&mut result).await?;
                } else {
                    let args = CommandArgs::from_context(ctx, vec![], input_vec.boxed());
                    format(args).collect::<Vec<_>>().await;
                }
            }

            LineResult::Success(line.to_string())
        }
        Err(ReadlineError::Interrupted) => {
            println!("CTRL-C");
            LineResult::Break
        }
        Err(ReadlineError::Eof) => {
            println!("CTRL-D");
            LineResult::Break
        }
        Err(err) => {
            println!("Error: {:?}", err);
            LineResult::Break
        }
    }
}

// async fn process_command(
//     parsed: Vec<crate::parser::Item>,
//     input: InputStream,
//     context: &mut Context,
// ) -> Result<InputStream, ShellError> {
//     let command = classify_command(&parsed, context)?;

//     command.run(context, input).await
// }

fn classify_command(
    command: &[crate::parser::Item],
    context: &Context,
) -> Result<ClassifiedCommand, ShellError> {
    let command_name = &command[0].name()?;

    let arg_list: Vec<Value> = command[1..].iter().map(|i| i.as_value()).collect();
    let arg_list_strings: Vec<String> = command[1..].iter().map(|i| i.print()).collect();

    match *command_name {
        other => match context.has_command(*command_name) {
            true => {
                let command = context.get_command(command_name);
                Ok(ClassifiedCommand::Internal(InternalCommand {
                    command,
                    args: arg_list,
                }))
            }
            false => Ok(ClassifiedCommand::External(ExternalCommand {
                name: other.to_string(),
                args: arg_list_strings,
            })),
        },
    }
}

crate fn format(args: CommandArgs) -> OutputStream {
    let host = args.host.clone();
    let input = args.input.map(|a| a.copy());
    let input = input.collect::<Vec<_>>();

    input
        .then(move |input| {
            let last = input.len() - 1;
            let mut host = host.lock().unwrap();
            for (i, item) in input.iter().enumerate() {
                let view = GenericView::new(item);
                crate::format::print_view(&view, &mut *host);

                if last != i {
                    println!("");
                }
            }

            futures::future::ready(empty_stream())
        })
        .flatten_stream()
        .boxed()
}

crate fn format_list(args: CommandArgs) -> Result<OutputStream, ShellError> {
    let host = args.host.clone();
    // let input = args.input.map(|a| a.copy());
    // let input = input.collect::<Vec<_>>();

    let view = EntriesListView::from_stream(args.input);

    Ok(view
        .then(move |view| {
            crate::format::print_view(&view, &mut *host.lock().unwrap());

            futures::future::ready(empty_stream())
        })
        .flatten_stream()
        .boxed())

    // Ok(empty_stream())
    // Ok(args
    //     .input
    //     .map(|input| {
    //         let view = EntriesListView::from_stream(input);
    //         crate::format::print_view(&view, &mut *args.host.lock().unwrap());
    //     })
    //     .collect()
    //     .then(|_| empty_stream())
    //     .flatten_stream()
    //     .boxed())
}

fn equal_shapes(input: &VecDeque<Value>) -> bool {
    let mut items = input.iter();

    let item = match items.next() {
        Some(item) => item,
        None => return false,
    };

    let desc = item.data_descriptors();

    for item in items {
        if desc != item.data_descriptors() {
            return false;
        }
    }

    true
}
Small restructuring 2019-05-23 06:30:43 +02:00			`use crate::prelude::*;`

Streams are wired up pairwise 2019-05-24 09:29:16 +02:00			`use crate::commands::classified::{`
			`ClassifiedCommand, ClassifiedInputStream, ExternalCommand, InternalCommand,`
			`};`
Small restructuring 2019-05-23 06:30:43 +02:00			`use crate::context::Context;`
			`crate use crate::errors::ShellError;`
			`crate use crate::format::{EntriesListView, GenericView};`
			`use crate::object::Value;`
Data flows across commands via streams now 2019-05-23 09:23:06 +02:00			`use crate::stream::empty_stream;`
Small restructuring 2019-05-23 06:30:43 +02:00
			`use rustyline::error::ReadlineError;`
			`use rustyline::{self, ColorMode, Config, Editor};`
			`use std::collections::VecDeque;`
			`use std::error::Error;`
Streams are wired up pairwise 2019-05-24 09:29:16 +02:00			`use std::iter::Iterator;`
Small restructuring 2019-05-23 06:30:43 +02:00			`use std::sync::Arc;`

			`#[derive(Debug)]`
			`pub enum MaybeOwned<'a, T> {`
			`Owned(T),`
			`Borrowed(&'a T),`
			`}`

			`impl<T> MaybeOwned<'a, T> {`
			`crate fn borrow(&self) -> &T {`
			`match self {`
			`MaybeOwned::Owned(v) => v,`
			`MaybeOwned::Borrowed(v) => v,`
			`}`
			`}`
			`}`

Data flows across commands via streams now 2019-05-23 09:23:06 +02:00			`pub async fn cli() -> Result<(), Box<Error>> {`
Small restructuring 2019-05-23 06:30:43 +02:00			`let config = Config::builder().color_mode(ColorMode::Forced).build();`
			`let h = crate::shell::Helper::new();`
			`let mut rl: Editor<crate::shell::Helper> = Editor::with_config(config);`

			`#[cfg(windows)]`
			`{`
			`let _ = ansi_term::enable_ansi_support();`
			`}`

			`rl.set_helper(Some(h));`
			`if rl.load_history("history.txt").is_err() {`
			`println!("No previous history.");`
			`}`

			`let mut context = Context::basic()?;`

			`{`
			`use crate::commands::*;`

			`context.add_commands(vec![`
Improved streams 2019-05-24 06:34:43 +02:00			`("format-list", Arc::new(format_list)),`
Small restructuring 2019-05-23 06:30:43 +02:00			`("ps", Arc::new(ps::ps)),`
			`("ls", Arc::new(ls::ls)),`
			`("cd", Arc::new(cd::cd)),`
			`("view", Arc::new(view::view)),`
			`("skip", Arc::new(skip::skip)),`
Improved streams 2019-05-24 06:34:43 +02:00			`("first", Arc::new(take::take)),`
Small restructuring 2019-05-23 06:30:43 +02:00			`("select", Arc::new(select::select)),`
			`("reject", Arc::new(reject::reject)),`
			`("to-array", Arc::new(to_array::to_array)),`
			`("where", Arc::new(where_::r#where)),`
			`("sort-by", Arc::new(sort_by::sort_by)),`
			`]);`
			`}`

			`loop {`
Data flows across commands via streams now 2019-05-23 09:23:06 +02:00			`let readline = rl.readline(&format!(`
			`"{}> ",`
			`context.env.lock().unwrap().cwd().display().to_string()`
			`));`
Small restructuring 2019-05-23 06:30:43 +02:00
Data flows across commands via streams now 2019-05-23 09:23:06 +02:00			`match process_line(readline, &mut context).await {`
Small restructuring 2019-05-23 06:30:43 +02:00			`LineResult::Success(line) => {`
			`rl.add_history_entry(line.clone());`
			`}`

			`LineResult::Error(err) => {`
Data flows across commands via streams now 2019-05-23 09:23:06 +02:00			`context.host.lock().unwrap().stdout(&err);`
Small restructuring 2019-05-23 06:30:43 +02:00			`}`

			`LineResult::Break => {`
			`break;`
			`}`

			`LineResult::FatalError(err) => {`
			`context`
			`.host`
Data flows across commands via streams now 2019-05-23 09:23:06 +02:00			`.lock()`
			`.unwrap()`
Small restructuring 2019-05-23 06:30:43 +02:00			`.stdout(&format!("A surprising fatal error occurred.\n{:?}", err));`
			`}`
			`}`
			`}`
			`rl.save_history("history.txt").unwrap();`

			`Ok(())`
			`}`

			`enum LineResult {`
			`Success(String),`
			`Error(String),`
			`Break,`

			`#[allow(unused)]`
			`FatalError(ShellError),`
			`}`

Improved streams 2019-05-24 06:34:43 +02:00			`impl std::ops::Try for LineResult {`
			`type Ok = Option<String>;`
			`type Error = ShellError;`

			`fn into_result(self) -> Result<Option<String>, ShellError> {`
			`match self {`
			`LineResult::Success(s) => Ok(Some(s)),`
			`LineResult::Error(s) => Err(ShellError::string(s)),`
			`LineResult::Break => Ok(None),`
			`LineResult::FatalError(err) => Err(err),`
			`}`
			`}`
			`fn from_error(v: ShellError) -> Self {`
			`LineResult::Error(v.to_string())`
			`}`

			`fn from_ok(v: Option<String>) -> Self {`
			`match v {`
			`None => LineResult::Break,`
			`Some(v) => LineResult::Success(v),`
			`}`
			`}`
			`}`

Data flows across commands via streams now 2019-05-23 09:23:06 +02:00			`async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context) -> LineResult {`
Small restructuring 2019-05-23 06:30:43 +02:00			`match &readline {`
			`Ok(line) if line.trim() == "exit" => LineResult::Break,`

			`Ok(line) if line.trim() == "" => LineResult::Success(line.clone()),`

			`Ok(line) => {`
			`let result = match crate::parser::shell_parser(&line) {`
			`Err(err) => {`
			`return LineResult::Error(format!("{:?}", err));`
			`}`

			`Ok(val) => val,`
			`};`

Streams are wired up pairwise 2019-05-24 09:29:16 +02:00			`let parsed: Result<Vec<_>, _> = result`
			`.1`
			`.into_iter()`
			`.map(\|item\| classify_command(&item, ctx))`
			`.collect();`

			`let parsed = parsed?;`

			`let mut input = ClassifiedInputStream::new();`

			`let mut iter = parsed.into_iter().peekable();`

			`loop {`
			`let item: Option<ClassifiedCommand> = iter.next();`
			`let next: Option<&ClassifiedCommand> = iter.peek();`

			`input = match (item, next) {`
			`(None, _) => break,`

			`(`
			`Some(ClassifiedCommand::Internal(left)),`
			`Some(ClassifiedCommand::Internal(_)),`
			`) => match left.run(ctx, input).await {`
			`Ok(val) => ClassifiedInputStream::from_input_stream(val),`
			`Err(err) => return LineResult::Error(format!("{}", err.description())),`
			`},`

			`(Some(ClassifiedCommand::Internal(left)), None) => {`
			`match left.run(ctx, input).await {`
			`Ok(val) => ClassifiedInputStream::from_input_stream(val),`
			`Err(err) => return LineResult::Error(format!("{}", err.description())),`
			`}`
			`}`

			`(`
			`Some(ClassifiedCommand::External(left)),`
			`Some(ClassifiedCommand::External(_)),`
			`) => match left.run(ctx, input, true).await {`
			`Ok(val) => val,`
			`Err(err) => return LineResult::Error(format!("{}", err.description())),`
			`},`

			`(`
			`Some(ClassifiedCommand::Internal(_)),`
			`Some(ClassifiedCommand::External(_)),`
			`) => unimplemented!(),`

			`(`
			`Some(ClassifiedCommand::External(_)),`
			`Some(ClassifiedCommand::Internal(_)),`
			`) => unimplemented!(),`

			`(Some(ClassifiedCommand::External(left)), None) => {`
			`match left.run(ctx, input, false).await {`
			`Ok(val) => val,`
			`Err(err) => return LineResult::Error(format!("{}", err.description())),`
			`}`
			`}`
			`}`
			`// input = match process_command(item.clone(), input, ctx).await {`
			`// Ok(val) => val,`
			`// Err(err) => return LineResult::Error(format!("{}", err.description())),`
			`// };`
Small restructuring 2019-05-23 06:30:43 +02:00			`}`

Streams are wired up pairwise 2019-05-24 09:29:16 +02:00			`let input_vec: VecDeque<_> = input.objects.collect().await;`
Data flows across commands via streams now 2019-05-23 09:23:06 +02:00
			`if input_vec.len() > 0 {`
			`if equal_shapes(&input_vec) {`
			`let array = crate::commands::stream_to_array(input_vec.boxed()).await;`
Small restructuring 2019-05-23 06:30:43 +02:00			`let args = CommandArgs::from_context(ctx, vec![], array);`
Improved streams 2019-05-24 06:34:43 +02:00			`let mut result = format(args);`
			`let mut vec = vec![];`
			`vec.send_all(&mut result).await?;`
Small restructuring 2019-05-23 06:30:43 +02:00			`} else {`
Data flows across commands via streams now 2019-05-23 09:23:06 +02:00			`let args = CommandArgs::from_context(ctx, vec![], input_vec.boxed());`
Improved streams 2019-05-24 06:34:43 +02:00			`format(args).collect::<Vec<_>>().await;`
Small restructuring 2019-05-23 06:30:43 +02:00			`}`
			`}`

			`LineResult::Success(line.to_string())`
			`}`
			`Err(ReadlineError::Interrupted) => {`
			`println!("CTRL-C");`
			`LineResult::Break`
			`}`
			`Err(ReadlineError::Eof) => {`
			`println!("CTRL-D");`
			`LineResult::Break`
			`}`
			`Err(err) => {`
			`println!("Error: {:?}", err);`
			`LineResult::Break`
			`}`
			`}`
			`}`

Streams are wired up pairwise 2019-05-24 09:29:16 +02:00			`// async fn process_command(`
			`// parsed: Vec<crate::parser::Item>,`
			`// input: InputStream,`
			`// context: &mut Context,`
			`// ) -> Result<InputStream, ShellError> {`
			`// let command = classify_command(&parsed, context)?;`
Small restructuring 2019-05-23 06:30:43 +02:00
Streams are wired up pairwise 2019-05-24 09:29:16 +02:00			`// command.run(context, input).await`
			`// }`
Small restructuring 2019-05-23 06:30:43 +02:00
			`fn classify_command(`
			`command: &[crate::parser::Item],`
			`context: &Context,`
			`) -> Result<ClassifiedCommand, ShellError> {`
			`let command_name = &command[0].name()?;`

			`let arg_list: Vec<Value> = command[1..].iter().map(\|i\| i.as_value()).collect();`
			`let arg_list_strings: Vec<String> = command[1..].iter().map(\|i\| i.print()).collect();`

			`match *command_name {`
			`other => match context.has_command(*command_name) {`
			`true => {`
			`let command = context.get_command(command_name);`
			`Ok(ClassifiedCommand::Internal(InternalCommand {`
			`command,`
			`args: arg_list,`
			`}))`
			`}`
			`false => Ok(ClassifiedCommand::External(ExternalCommand {`
			`name: other.to_string(),`
			`args: arg_list_strings,`
			`})),`
			`},`
			`}`
			`}`

Improved streams 2019-05-24 06:34:43 +02:00			`crate fn format(args: CommandArgs) -> OutputStream {`
			`let host = args.host.clone();`
			`let input = args.input.map(\|a\| a.copy());`
			`let input = input.collect::<Vec<_>>();`

			`input`
			`.then(move \|input\| {`
			`let last = input.len() - 1;`
			`let mut host = host.lock().unwrap();`
			`for (i, item) in input.iter().enumerate() {`
			`let view = GenericView::new(item);`
			`crate::format::print_view(&view, &mut *host);`

			`if last != i {`
			`println!("");`
			`}`
			`}`
Small restructuring 2019-05-23 06:30:43 +02:00
Improved streams 2019-05-24 06:34:43 +02:00			`futures::future::ready(empty_stream())`
			`})`
			`.flatten_stream()`
			`.boxed()`
Small restructuring 2019-05-23 06:30:43 +02:00			`}`

Improved streams 2019-05-24 06:34:43 +02:00			`crate fn format_list(args: CommandArgs) -> Result<OutputStream, ShellError> {`
			`let host = args.host.clone();`
			`// let input = args.input.map(\|a\| a.copy());`
			`// let input = input.collect::<Vec<_>>();`

			`let view = EntriesListView::from_stream(args.input);`

			`Ok(view`
			`.then(move \|view\| {`
			`crate::format::print_view(&view, &mut *host.lock().unwrap());`

			`futures::future::ready(empty_stream())`
			`})`
			`.flatten_stream()`
			`.boxed())`

			`// Ok(empty_stream())`
			`// Ok(args`
			`// .input`
			`// .map(\|input\| {`
			`// let view = EntriesListView::from_stream(input);`
			`// crate::format::print_view(&view, &mut *args.host.lock().unwrap());`
			`// })`
			`// .collect()`
			`// .then(\|_\| empty_stream())`
			`// .flatten_stream()`
			`// .boxed())`
Small restructuring 2019-05-23 06:30:43 +02:00			`}`

			`fn equal_shapes(input: &VecDeque<Value>) -> bool {`
			`let mut items = input.iter();`

			`let item = match items.next() {`
			`Some(item) => item,`
			`None => return false,`
			`};`

			`let desc = item.data_descriptors();`

			`for item in items {`
			`if desc != item.data_descriptors() {`
			`return false;`
			`}`
			`}`

			`true`
			`}`