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#![forbid(unsafe_code)]

mod list;
mod terminal;

pub use list::*;
pub use terminal::*;

use std::iter::repeat;
use tui::{self, buffer::Buffer, layout::Rect, style::Color, style::Style};
use unicode_segmentation::UnicodeSegmentation;
use unicode_width::UnicodeWidthStr;

pub fn fill_background_to_right(mut s: String, entire_width: u16) -> String {
    match (s.len(), entire_width as usize) {
        (x, y) if x >= y => s,
        (x, y) => {
            s.extend(repeat(' ').take(y - x));
            s
        }
    }
}

/// Helper method to quickly set the background of all cells inside the specified area.
pub fn fill_background(area: Rect, buf: &mut Buffer, color: Color) {
    for y in area.top()..area.bottom() {
        for x in area.left()..area.right() {
            buf.get_mut(x, y).set_bg(color);
        }
    }
}

pub fn draw_text_with_ellipsis_nowrap(
    bound: Rect,
    buf: &mut Buffer,
    text: impl AsRef<str>,
    style: impl Into<Option<Style>>,
) -> u16 {
    let s = style.into();
    let t = text.as_ref();
    let mut graphemes = t.graphemes(true);
    let mut total_width = 0;
    {
        let mut ellipsis_candidate_x = None;
        let mut x_offset = 0;
        for (g, mut x) in graphemes.by_ref().zip(bound.left()..bound.right()) {
            let width = g.width();
            total_width += width;

            x += x_offset;
            let cell = buf.get_mut(x, bound.y);
            if x + 1 == bound.right() {
                ellipsis_candidate_x = Some(x);
            }
            cell.set_symbol(g.into());
            if let Some(s) = s {
                cell.set_style(s);
            }

            x_offset += width.saturating_sub(1) as u16;
            if x + x_offset >= bound.right() {
                break;
            }
            let x = x as usize;
            for x in x + 1..x + width {
                let i = buf.index_of(x as u16, bound.y);
                buf.content[i].reset();
            }
        }
        if let (Some(_), Some(x)) = (graphemes.next(), ellipsis_candidate_x) {
            buf.get_mut(x, bound.y).set_symbol("…".into());
        }
    }
    total_width as u16
}

pub fn draw_text_nowrap_fn(
    bound: Rect,
    buf: &mut Buffer,
    t: impl AsRef<str>,
    mut s: impl FnMut(&str, u16, u16) -> Style,
) {
    if bound.width == 0 {
        return;
    }
    for (g, x) in t.as_ref().graphemes(true).zip(bound.left()..bound.right()) {
        let cell = buf.get_mut(x, bound.y);
        cell.set_symbol(g.into());
        cell.set_style(s(cell.symbol(), x, bound.y));
    }
}

pub mod util {
    use unicode_segmentation::UnicodeSegmentation;
    use unicode_width::UnicodeWidthStr;

    pub fn sanitize_offset(offset: u16, num_items: usize, num_displayable_lines: u16) -> u16 {
        offset.min((num_items.saturating_sub(num_displayable_lines as usize)) as u16)
    }

    #[derive(Default)]
    pub struct GraphemeCountWriter(pub usize);

    impl std::io::Write for GraphemeCountWriter {
        fn write(&mut self, buf: &[u8]) -> Result<usize, std::io::Error> {
            self.0 += String::from_utf8_lossy(buf).graphemes(true).count();
            Ok(buf.len())
        }

        fn flush(&mut self) -> Result<(), std::io::Error> {
            Ok(())
        }
    }

    pub fn block_width(s: &str) -> u16 {
        s.width() as u16
    }

    pub mod rect {
        use tui::layout::Rect;

        /// A safe version of Rect::intersection that doesn't suffer from underflows
        pub fn intersect(lhs: Rect, rhs: Rect) -> Rect {
            let x1 = lhs.x.max(rhs.x);
            let y1 = lhs.y.max(rhs.y);
            let x2 = lhs.right().min(rhs.right());
            let y2 = lhs.bottom().min(rhs.bottom());
            Rect {
                x: x1,
                y: y1,
                width: x2.saturating_sub(x1),
                height: y2.saturating_sub(y1),
            }
        }

        pub fn offset_x(r: Rect, offset: u16) -> Rect {
            Rect {
                x: r.x + offset,
                width: r.width.saturating_sub(offset),
                ..r
            }
        }

        pub fn snap_to_right(bound: Rect, new_width: u16) -> Rect {
            offset_x(bound, bound.width.saturating_sub(new_width))
        }

        pub fn line_bound(bound: Rect, line: usize) -> Rect {
            Rect {
                y: bound.y + line as u16,
                height: 1,
                ..bound
            }
        }
    }
}