// use super::icons::{icon_for_file, iconify_style_ansi_to_nu};
use super::icons::icon_for_file;
use lscolors::{LsColors, Style};
use nu_engine::CallExt;
use nu_protocol::{
    ast::{Call, PathMember},
    engine::{Command, EngineState, Stack},
    Category, Config, IntoPipelineData, PipelineData, ShellError, Signature, Span, SyntaxShape,
    Value,
};
use nu_term_grid::grid::{Alignment, Cell, Direction, Filling, Grid, GridOptions};
use terminal_size::{Height, Width};

#[derive(Clone)]
pub struct Griddle;

impl Command for Griddle {
    fn name(&self) -> &str {
        "grid"
    }

    fn usage(&self) -> &str {
        "Renders the output to a textual terminal grid."
    }

    fn signature(&self) -> nu_protocol::Signature {
        Signature::build("grid")
            .named(
                "width",
                SyntaxShape::Int,
                "number of columns wide",
                Some('w'),
            )
            .switch("color", "draw output with color", Some('c'))
            .named(
                "separator",
                SyntaxShape::String,
                "character to separate grid with",
                Some('s'),
            )
            .category(Category::Viewers)
    }

    fn extra_usage(&self) -> &str {
        r#"grid was built to give a concise gridded layout for ls. however,
it determines what to put in the grid by looking for a column named
'name'. this works great for tables and records but for lists we
need to do something different. such as with '[one two three] | grid'
it creates a fake column called 'name' for these values so that it
prints out the list properly."#
    }

    fn run(
        &self,
        engine_state: &EngineState,
        stack: &mut Stack,
        call: &Call,
        input: PipelineData,
    ) -> Result<nu_protocol::PipelineData, nu_protocol::ShellError> {
        let width_param: Option<String> = call.get_flag(engine_state, stack, "width")?;
        let color_param: bool = call.has_flag("color");
        let separator_param: Option<String> = call.get_flag(engine_state, stack, "separator")?;
        let config = stack.get_config().unwrap_or_default();
        let env_str = stack.get_env_var("LS_COLORS");
        let use_grid_icons = config.use_grid_icons;

        match input {
            PipelineData::Value(Value::List { vals, .. }, ..) => {
                // dbg!("value::list");
                let data = convert_to_list(vals, &config);
                if let Some(items) = data {
                    Ok(create_grid_output(
                        items,
                        call,
                        width_param,
                        color_param,
                        separator_param,
                        env_str,
                        use_grid_icons,
                    )?)
                } else {
                    Ok(PipelineData::new(call.head))
                }
            }
            PipelineData::Stream(stream, ..) => {
                // dbg!("value::stream");
                let data = convert_to_list(stream, &config);
                if let Some(items) = data {
                    Ok(create_grid_output(
                        items,
                        call,
                        width_param,
                        color_param,
                        separator_param,
                        env_str,
                        use_grid_icons,
                    )?)
                } else {
                    // dbg!(data);
                    Ok(PipelineData::new(call.head))
                }
            }
            PipelineData::Value(Value::Record { cols, vals, .. }, ..) => {
                // dbg!("value::record");
                let mut items = vec![];

                for (i, (c, v)) in cols.into_iter().zip(vals.into_iter()).enumerate() {
                    items.push((i, c, v.into_string(", ", &config)))
                }

                Ok(create_grid_output(
                    items,
                    call,
                    width_param,
                    color_param,
                    separator_param,
                    env_str,
                    use_grid_icons,
                )?)
            }
            x => {
                // dbg!("other value");
                // dbg!(x.get_type());
                Ok(x)
            }
        }
    }
}

fn strip_ansi(astring: &str) -> String {
    if let Ok(bytes) = strip_ansi_escapes::strip(astring) {
        String::from_utf8_lossy(&bytes).to_string()
    } else {
        astring.to_string()
    }
}

fn create_grid_output(
    items: Vec<(usize, String, String)>,
    call: &Call,
    width_param: Option<String>,
    color_param: bool,
    separator_param: Option<String>,
    env_str: Option<String>,
    use_grid_icons: bool,
) -> Result<PipelineData, ShellError> {
    let ls_colors = match env_str {
        Some(s) => LsColors::from_string(&s),
        None => LsColors::default(),
    };

    let cols = if let Some(col) = width_param {
        col.parse::<u16>().unwrap_or(80)
    } else if let Some((Width(w), Height(_h))) = terminal_size::terminal_size() {
        w
    } else {
        80u16
    };
    let sep = if let Some(separator) = separator_param {
        separator
    } else {
        " │ ".to_string()
    };

    let mut grid = Grid::new(GridOptions {
        direction: Direction::TopToBottom,
        filling: Filling::Text(sep),
    });

    for (_row_index, header, value) in items {
        // only output value if the header name is 'name'
        if header == "name" {
            if color_param {
                if use_grid_icons {
                    let no_ansi = strip_ansi(&value);
                    let path = std::path::Path::new(&no_ansi);
                    let icon = icon_for_file(path)?;
                    let ls_colors_style = ls_colors.style_for_path(path);
                    // eprintln!("ls_colors_style: {:?}", &ls_colors_style);

                    let icon_style = match ls_colors_style {
                        Some(c) => c.to_crossterm_style(),
                        None => crossterm::style::ContentStyle::default(),
                    };
                    // eprintln!("icon_style: {:?}", &icon_style);

                    let ansi_style = ls_colors_style
                        .map(Style::to_crossterm_style)
                        .unwrap_or_default();
                    // eprintln!("ansi_style: {:?}", &ansi_style);

                    let item = format!(
                        "{} {}",
                        icon_style.apply(icon).to_string(),
                        ansi_style.apply(value).to_string()
                    );

                    let mut cell = Cell::from(item);
                    cell.alignment = Alignment::Left;
                    grid.add(cell);
                } else {
                    let style = ls_colors.style_for_path(value.clone());
                    let ansi_style = style.map(Style::to_crossterm_style).unwrap_or_default();
                    let mut cell = Cell::from(ansi_style.apply(value).to_string());
                    cell.alignment = Alignment::Left;
                    grid.add(cell);
                }
            } else {
                let mut cell = Cell::from(value);
                cell.alignment = Alignment::Left;
                grid.add(cell);
            }
        }
    }

    Ok(
        if let Some(grid_display) = grid.fit_into_width(cols as usize) {
            Value::String {
                val: grid_display.to_string(),
                span: call.head,
            }
        } else {
            Value::String {
                val: format!("Couldn't fit grid into {} columns!", cols),
                span: call.head,
            }
        }
        .into_pipeline_data(),
    )
}

fn convert_to_list(
    iter: impl IntoIterator<Item = Value>,
    config: &Config,
) -> Option<Vec<(usize, String, String)>> {
    let mut iter = iter.into_iter().peekable();

    if let Some(first) = iter.peek() {
        let mut headers = first.columns();

        if !headers.is_empty() {
            headers.insert(0, "#".into());
        }

        let mut data = vec![];

        for (row_num, item) in iter.enumerate() {
            let mut row = vec![row_num.to_string()];

            if headers.is_empty() {
                row.push(item.into_string(", ", config))
            } else {
                for header in headers.iter().skip(1) {
                    let result = match item {
                        Value::Record { .. } => {
                            item.clone().follow_cell_path(&[PathMember::String {
                                val: header.into(),
                                span: Span::unknown(),
                            }])
                        }
                        _ => Ok(item.clone()),
                    };

                    match result {
                        Ok(value) => row.push(value.into_string(", ", config)),
                        Err(_) => row.push(String::new()),
                    }
                }
            }

            data.push(row);
        }

        let mut h: Vec<String> = headers.into_iter().collect();

        // This is just a list
        if h.is_empty() {
            // let's fake the header
            h.push("#".to_string());
            h.push("name".to_string());
        }

        // this tuple is (row_index, header_name, value)
        let mut interleaved = vec![];
        for (i, v) in data.into_iter().enumerate() {
            for (n, s) in v.into_iter().enumerate() {
                if h.len() == 1 {
                    // always get the 1th element since this is a simple list
                    // and we hacked the header above because it was empty
                    // 0th element is an index, 1th element is the value
                    interleaved.push((i, h[1].clone(), s))
                } else {
                    interleaved.push((i, h[n].clone(), s))
                }
            }
        }

        Some(interleaved)
    } else {
        None
    }
}