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use bitflags::bitflags;
use std::cmp::{max, min};

#[derive(Debug, Clone, Copy, PartialEq)]
/// UNSTABLE
pub enum CursorKind {
    /// █
    Block,
    /// |
    Bar,
    /// _
    Underline,
    /// Hidden cursor, can set cursor position with this to let IME have correct cursor position.
    Hidden,
}

#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub struct Margin {
    pub vertical: u16,
    pub horizontal: u16,
}

/// A simple rectangle used in the computation of the layout and to give widgets an hint about the
/// area they are supposed to render to.
#[derive(Debug, Clone, Copy, Hash, PartialEq, Eq)]
pub struct Rect {
    pub x: u16,
    pub y: u16,
    pub width: u16,
    pub height: u16,
}

impl Default for Rect {
    fn default() -> Rect {
        Rect {
            x: 0,
            y: 0,
            width: 0,
            height: 0,
        }
    }
}

impl Rect {
    /// Creates a new rect, with width and height limited to keep the area under max u16.
    /// If clipped, aspect ratio will be preserved.
    pub fn new(x: u16, y: u16, width: u16, height: u16) -> Rect {
        let max_area = u16::max_value();
        let (clipped_width, clipped_height) =
            if u32::from(width) * u32::from(height) > u32::from(max_area) {
                let aspect_ratio = f64::from(width) / f64::from(height);
                let max_area_f = f64::from(max_area);
                let height_f = (max_area_f / aspect_ratio).sqrt();
                let width_f = height_f * aspect_ratio;
                (width_f as u16, height_f as u16)
            } else {
                (width, height)
            };
        Rect {
            x,
            y,
            width: clipped_width,
            height: clipped_height,
        }
    }

    #[inline]
    pub fn area(self) -> u16 {
        self.width * self.height
    }

    #[inline]
    pub fn left(self) -> u16 {
        self.x
    }

    #[inline]
    pub fn right(self) -> u16 {
        self.x.saturating_add(self.width)
    }

    #[inline]
    pub fn top(self) -> u16 {
        self.y
    }

    #[inline]
    pub fn bottom(self) -> u16 {
        self.y.saturating_add(self.height)
    }

    pub fn inner(self, margin: &Margin) -> Rect {
        if self.width < 2 * margin.horizontal || self.height < 2 * margin.vertical {
            Rect::default()
        } else {
            Rect {
                x: self.x + margin.horizontal,
                y: self.y + margin.vertical,
                width: self.width - 2 * margin.horizontal,
                height: self.height - 2 * margin.vertical,
            }
        }
    }

    /// Calculate the union between two [`Rect`]s.
    pub fn union(self, other: Rect) -> Rect {
        // Example:
        //
        // If `Rect` A is positioned at `(0, 0)` with a width and height of `5`,
        // and `Rect` B is positioned at `(5, 0)` with a width and height of `2`,
        // then this is the resulting union:
        //
        // x1 = min(0, 5) => x1 = 0
        // y1 = min(0, 0) => y1 = 0
        // x2 = max(0 + 5, 5 + 2) => x2 = 7
        // y2 = max(0 + 5, 0 + 2) => y2 = 5
        let x1 = min(self.x, other.x);
        let y1 = min(self.y, other.y);
        let x2 = max(self.x + self.width, other.x + other.width);
        let y2 = max(self.y + self.height, other.y + other.height);
        Rect {
            x: x1,
            y: y1,
            width: x2 - x1,
            height: y2 - y1,
        }
    }

    /// Calculate the intersection between two [`Rect`]s.
    pub fn intersection(self, other: Rect) -> Rect {
        // Example:
        //
        // If `Rect` A is positioned at `(0, 0)` with a width and height of `5`,
        // and `Rect` B is positioned at `(5, 0)` with a width and height of `2`,
        // then this is the resulting intersection:
        //
        // x1 = max(0, 5) => x1 = 5
        // y1 = max(0, 0) => y1 = 0
        // x2 = min(0 + 5, 5 + 2) => x2 = 5
        // y2 = min(0 + 5, 0 + 2) => y2 = 2
        let x1 = max(self.x, other.x);
        let y1 = max(self.y, other.y);
        let x2 = min(self.x + self.width, other.x + other.width);
        let y2 = min(self.y + self.height, other.y + other.height);
        Rect {
            x: x1,
            y: y1,
            width: x2 - x1,
            height: y2 - y1,
        }
    }

    pub fn intersects(self, other: Rect) -> bool {
        self.x < other.x + other.width
            && self.x + self.width > other.x
            && self.y < other.y + other.height
            && self.y + self.height > other.y
    }
}

#[derive(Debug, Clone, Copy, PartialEq)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
pub enum Color {
    Reset,
    Black,
    Red,
    Green,
    Yellow,
    Blue,
    Magenta,
    Cyan,
    Gray,
    DarkGray,
    LightRed,
    LightGreen,
    LightYellow,
    LightBlue,
    LightMagenta,
    LightCyan,
    White,
    Rgb(u8, u8, u8),
    Indexed(u8),
}

#[cfg(feature = "term")]
impl From<Color> for crossterm::style::Color {
    fn from(color: Color) -> Self {
        use crossterm::style::Color as CColor;

        match color {
            Color::Reset => CColor::Reset,
            Color::Black => CColor::Black,
            Color::Red => CColor::DarkRed,
            Color::Green => CColor::DarkGreen,
            Color::Yellow => CColor::DarkYellow,
            Color::Blue => CColor::DarkBlue,
            Color::Magenta => CColor::DarkMagenta,
            Color::Cyan => CColor::DarkCyan,
            Color::Gray => CColor::Grey,
            Color::DarkGray => CColor::DarkGrey,
            Color::LightRed => CColor::Red,
            Color::LightGreen => CColor::Green,
            Color::LightBlue => CColor::Blue,
            Color::LightYellow => CColor::Yellow,
            Color::LightMagenta => CColor::Magenta,
            Color::LightCyan => CColor::Cyan,
            Color::White => CColor::White,
            Color::Indexed(i) => CColor::AnsiValue(i),
            Color::Rgb(r, g, b) => CColor::Rgb { r, g, b },
        }
    }
}

bitflags! {
    /// Modifier changes the way a piece of text is displayed.
    ///
    /// They are bitflags so they can easily be composed.
    ///
    /// ## Examples
    ///
    /// ```rust
    /// # use helix_view::graphics::Modifier;
    ///
    /// let m = Modifier::BOLD | Modifier::ITALIC;
    /// ```
    #[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
    pub struct Modifier: u16 {
        const BOLD              = 0b0000_0000_0001;
        const DIM               = 0b0000_0000_0010;
        const ITALIC            = 0b0000_0000_0100;
        const UNDERLINED        = 0b0000_0000_1000;
        const SLOW_BLINK        = 0b0000_0001_0000;
        const RAPID_BLINK       = 0b0000_0010_0000;
        const REVERSED          = 0b0000_0100_0000;
        const HIDDEN            = 0b0000_1000_0000;
        const CROSSED_OUT       = 0b0001_0000_0000;
    }
}

/// Style let you control the main characteristics of the displayed elements.
///
/// ```rust
/// # use helix_view::graphics::{Color, Modifier, Style};
/// Style::default()
///     .fg(Color::Black)
///     .bg(Color::Green)
///     .add_modifier(Modifier::ITALIC | Modifier::BOLD);
/// ```
///
/// It represents an incremental change. If you apply the styles S1, S2, S3 to a cell of the
/// terminal buffer, the style of this cell will be the result of the merge of S1, S2 and S3, not
/// just S3.
///
/// ```rust
/// # use helix_view::graphics::{Rect, Color, Modifier, Style};
/// # use helix_tui::buffer::Buffer;
/// let styles = [
///     Style::default().fg(Color::Blue).add_modifier(Modifier::BOLD | Modifier::ITALIC),
///     Style::default().bg(Color::Red),
///     Style::default().fg(Color::Yellow).remove_modifier(Modifier::ITALIC),
/// ];
/// let mut buffer = Buffer::empty(Rect::new(0, 0, 1, 1));
/// for style in &styles {
///   buffer.get_mut(0, 0).set_style(*style);
/// }
/// assert_eq!(
///     Style {
///         fg: Some(Color::Yellow),
///         bg: Some(Color::Red),
///         add_modifier: Modifier::BOLD,
///         sub_modifier: Modifier::empty(),
///     },
///     buffer.get(0, 0).style(),
/// );
/// ```
///
/// The default implementation returns a `Style` that does not modify anything. If you wish to
/// reset all properties until that point use [`Style::reset`].
///
/// ```
/// # use helix_view::graphics::{Rect, Color, Modifier, Style};
/// # use helix_tui::buffer::Buffer;
/// let styles = [
///     Style::default().fg(Color::Blue).add_modifier(Modifier::BOLD | Modifier::ITALIC),
///     Style::reset().fg(Color::Yellow),
/// ];
/// let mut buffer = Buffer::empty(Rect::new(0, 0, 1, 1));
/// for style in &styles {
///   buffer.get_mut(0, 0).set_style(*style);
/// }
/// assert_eq!(
///     Style {
///         fg: Some(Color::Yellow),
///         bg: Some(Color::Reset),
///         add_modifier: Modifier::empty(),
///         sub_modifier: Modifier::empty(),
///     },
///     buffer.get(0, 0).style(),
/// );
/// ```
#[derive(Debug, Clone, Copy, PartialEq)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
pub struct Style {
    pub fg: Option<Color>,
    pub bg: Option<Color>,
    pub add_modifier: Modifier,
    pub sub_modifier: Modifier,
}

impl Default for Style {
    fn default() -> Style {
        Style {
            fg: None,
            bg: None,
            add_modifier: Modifier::empty(),
            sub_modifier: Modifier::empty(),
        }
    }
}

impl Style {
    /// Returns a `Style` resetting all properties.
    pub fn reset() -> Style {
        Style {
            fg: Some(Color::Reset),
            bg: Some(Color::Reset),
            add_modifier: Modifier::empty(),
            sub_modifier: Modifier::all(),
        }
    }

    /// Changes the foreground color.
    ///
    /// ## Examples
    ///
    /// ```rust
    /// # use helix_view::graphics::{Color, Style};
    /// let style = Style::default().fg(Color::Blue);
    /// let diff = Style::default().fg(Color::Red);
    /// assert_eq!(style.patch(diff), Style::default().fg(Color::Red));
    /// ```
    pub fn fg(mut self, color: Color) -> Style {
        self.fg = Some(color);
        self
    }

    /// Changes the background color.
    ///
    /// ## Examples
    ///
    /// ```rust
    /// # use helix_view::graphics::{Color, Style};
    /// let style = Style::default().bg(Color::Blue);
    /// let diff = Style::default().bg(Color::Red);
    /// assert_eq!(style.patch(diff), Style::default().bg(Color::Red));
    /// ```
    pub fn bg(mut self, color: Color) -> Style {
        self.bg = Some(color);
        self
    }

    /// Changes the text emphasis.
    ///
    /// When applied, it adds the given modifier to the `Style` modifiers.
    ///
    /// ## Examples
    ///
    /// ```rust
    /// # use helix_view::graphics::{Color, Modifier, Style};
    /// let style = Style::default().add_modifier(Modifier::BOLD);
    /// let diff = Style::default().add_modifier(Modifier::ITALIC);
    /// let patched = style.patch(diff);
    /// assert_eq!(patched.add_modifier, Modifier::BOLD | Modifier::ITALIC);
    /// assert_eq!(patched.sub_modifier, Modifier::empty());
    /// ```
    pub fn add_modifier(mut self, modifier: Modifier) -> Style {
        self.sub_modifier.remove(modifier);
        self.add_modifier.insert(modifier);
        self
    }

    /// Changes the text emphasis.
    ///
    /// When applied, it removes the given modifier from the `Style` modifiers.
    ///
    /// ## Examples
    ///
    /// ```rust
    /// # use helix_view::graphics::{Color, Modifier, Style};
    /// let style = Style::default().add_modifier(Modifier::BOLD | Modifier::ITALIC);
    /// let diff = Style::default().remove_modifier(Modifier::ITALIC);
    /// let patched = style.patch(diff);
    /// assert_eq!(patched.add_modifier, Modifier::BOLD);
    /// assert_eq!(patched.sub_modifier, Modifier::ITALIC);
    /// ```
    pub fn remove_modifier(mut self, modifier: Modifier) -> Style {
        self.add_modifier.remove(modifier);
        self.sub_modifier.insert(modifier);
        self
    }

    /// Results in a combined style that is equivalent to applying the two individual styles to
    /// a style one after the other.
    ///
    /// ## Examples
    /// ```
    /// # use helix_view::graphics::{Color, Modifier, Style};
    /// let style_1 = Style::default().fg(Color::Yellow);
    /// let style_2 = Style::default().bg(Color::Red);
    /// let combined = style_1.patch(style_2);
    /// assert_eq!(
    ///     Style::default().patch(style_1).patch(style_2),
    ///     Style::default().patch(combined));
    /// ```
    pub fn patch(mut self, other: Style) -> Style {
        self.fg = other.fg.or(self.fg);
        self.bg = other.bg.or(self.bg);

        self.add_modifier.remove(other.sub_modifier);
        self.add_modifier.insert(other.add_modifier);
        self.sub_modifier.remove(other.add_modifier);
        self.sub_modifier.insert(other.sub_modifier);

        self
    }
}

#[cfg(test)]
mod tests {
    use super::*;

    #[test]
    fn test_rect_size_truncation() {
        for width in 256u16..300u16 {
            for height in 256u16..300u16 {
                let rect = Rect::new(0, 0, width, height);
                rect.area(); // Should not panic.
                assert!(rect.width < width || rect.height < height);
                // The target dimensions are rounded down so the math will not be too precise
                // but let's make sure the ratios don't diverge crazily.
                assert!(
                    (f64::from(rect.width) / f64::from(rect.height)
                        - f64::from(width) / f64::from(height))
                    .abs()
                        < 1.0
                )
            }
        }

        // One dimension below 255, one above. Area above max u16.
        let width = 900;
        let height = 100;
        let rect = Rect::new(0, 0, width, height);
        assert_ne!(rect.width, 900);
        assert_ne!(rect.height, 100);
        assert!(rect.width < width || rect.height < height);
    }

    #[test]
    fn test_rect_size_preservation() {
        for width in 0..256u16 {
            for height in 0..256u16 {
                let rect = Rect::new(0, 0, width, height);
                rect.area(); // Should not panic.
                assert_eq!(rect.width, width);
                assert_eq!(rect.height, height);
            }
        }

        // One dimension below 255, one above. Area below max u16.
        let rect = Rect::new(0, 0, 300, 100);
        assert_eq!(rect.width, 300);
        assert_eq!(rect.height, 100);
    }

    fn styles() -> Vec<Style> {
        vec![
            Style::default(),
            Style::default().fg(Color::Yellow),
            Style::default().bg(Color::Yellow),
            Style::default().add_modifier(Modifier::BOLD),
            Style::default().remove_modifier(Modifier::BOLD),
            Style::default().add_modifier(Modifier::ITALIC),
            Style::default().remove_modifier(Modifier::ITALIC),
            Style::default().add_modifier(Modifier::ITALIC | Modifier::BOLD),
            Style::default().remove_modifier(Modifier::ITALIC | Modifier::BOLD),
        ]
    }

    #[test]
    fn combined_patch_gives_same_result_as_individual_patch() {
        let styles = styles();
        for &a in &styles {
            for &b in &styles {
                for &c in &styles {
                    for &d in &styles {
                        let combined = a.patch(b.patch(c.patch(d)));

                        assert_eq!(
                            Style::default().patch(a).patch(b).patch(c).patch(d),
                            Style::default().patch(combined)
                        );
                    }
                }
            }
        }
    }
}