use crate::ui::boundaries::boundary_type; use ansi_term::Colour::{Fixed, RGB}; use ansi_term::Style; use zellij_utils::pane_size::Viewport; use zellij_utils::zellij_tile::prelude::PaletteColor; fn color_string(character: &str, color: Option) -> String { match color { Some(color) => match color { PaletteColor::Rgb((r, g, b)) => { format!("{}", RGB(r, g, b).bold().paint(character)) } PaletteColor::EightBit(color) => { format!("{}", Fixed(color).bold().paint(character)) } }, None => format!("{}", Style::new().bold().paint(character)), } } #[derive(Default, PartialEq)] pub struct PaneFrame { pub geom: Viewport, pub title: String, pub scroll_position: (usize, usize), // (position, length) pub color: Option, } impl PaneFrame { fn render_title_right_side(&self, max_length: usize) -> Option { if self.scroll_position.0 > 0 || self.scroll_position.1 > 0 { let prefix = " SCROLL: "; let full_indication = format!(" {}/{} ", self.scroll_position.0, self.scroll_position.1); let short_indication = format!(" {} ", self.scroll_position.0); if prefix.chars().count() + full_indication.chars().count() <= max_length { Some(format!("{}{}", prefix, full_indication)) } else if full_indication.chars().count() <= max_length { Some(full_indication) } else if short_indication.chars().count() <= max_length { Some(short_indication) } else { None } } else { None } } fn render_title_left_side(&self, max_length: usize) -> Option { let middle_truncated_sign = "[..]"; let middle_truncated_sign_long = "[...]"; let full_text = format!(" {} ", &self.title); if max_length <= 6 { None } else if full_text.chars().count() <= max_length { Some(full_text) } else { let length_of_each_half = (max_length - middle_truncated_sign.chars().count()) / 2; let first_part: String = full_text.chars().take(length_of_each_half).collect(); let second_part: String = full_text .chars() .skip(full_text.chars().count() - length_of_each_half) .collect(); let title_left_side = if first_part.chars().count() + middle_truncated_sign.chars().count() + second_part.chars().count() < max_length { // this means we lost 1 character when dividing the total length into halves format!( "{}{}{}", first_part, middle_truncated_sign_long, second_part ) } else { format!("{}{}{}", first_part, middle_truncated_sign, second_part) }; Some(title_left_side) } } fn render_title(&self, vte_output: &mut String) { let total_title_length = self.geom.cols.saturating_sub(2); // 2 for the left and right corners let left_boundary = boundary_type::TOP_LEFT; let right_boundary = boundary_type::TOP_RIGHT; let left_side = self.render_title_left_side(total_title_length); let right_side = left_side.as_ref().and_then(|left_side| { let space_left = total_title_length.saturating_sub(left_side.chars().count() + 1); // 1 for a middle separator self.render_title_right_side(space_left) }); let title_text = match (left_side, right_side) { (Some(left_side), Some(right_side)) => { let mut middle = String::new(); for _ in (left_side.chars().count() + right_side.chars().count())..total_title_length { middle.push_str(boundary_type::HORIZONTAL); } format!( "{}{}{}{}{}", left_boundary, left_side, middle, right_side, right_boundary ) } (Some(left_side), None) => { let mut middle_padding = String::new(); for _ in left_side.chars().count()..total_title_length { middle_padding.push_str(boundary_type::HORIZONTAL); } format!( "{}{}{}{}", left_boundary, left_side, middle_padding, right_boundary ) } _ => { let mut middle_padding = String::new(); for _ in 0..total_title_length { middle_padding.push_str(boundary_type::HORIZONTAL); } format!("{}{}{}", left_boundary, middle_padding, right_boundary) } }; vte_output.push_str(&format!( "\u{1b}[{};{}H\u{1b}[m{}", self.geom.y + 1, // +1 because goto is 1 indexed self.geom.x + 1, // +1 because goto is 1 indexed color_string(&title_text, self.color), )); // goto row/col + boundary character } pub fn render(&self) -> String { let mut vte_output = String::new(); for row in self.geom.y..(self.geom.y + self.geom.rows) { if row == self.geom.y { // top row self.render_title(&mut vte_output); } else if row == self.geom.y + self.geom.rows - 1 { // bottom row for col in self.geom.x..(self.geom.x + self.geom.cols) { if col == self.geom.x { // bottom left corner vte_output.push_str(&format!( "\u{1b}[{};{}H\u{1b}[m{}", row + 1, // +1 because goto is 1 indexed col + 1, color_string(boundary_type::BOTTOM_LEFT, self.color), )); // goto row/col + boundary character } else if col == self.geom.x + self.geom.cols - 1 { // bottom right corner vte_output.push_str(&format!( "\u{1b}[{};{}H\u{1b}[m{}", row + 1, // +1 because goto is 1 indexed col + 1, color_string(boundary_type::BOTTOM_RIGHT, self.color), )); // goto row/col + boundary character } else { vte_output.push_str(&format!( "\u{1b}[{};{}H\u{1b}[m{}", row + 1, // +1 because goto is 1 indexed col + 1, color_string(boundary_type::HORIZONTAL, self.color), )); // goto row/col + boundary character } } } else { vte_output.push_str(&format!( "\u{1b}[{};{}H\u{1b}[m{}", row + 1, // +1 because goto is 1 indexed self.geom.x + 1, color_string(boundary_type::VERTICAL, self.color), )); // goto row/col + boundary character vte_output.push_str(&format!( "\u{1b}[{};{}H\u{1b}[m{}", row + 1, // +1 because goto is 1 indexed self.geom.x + self.geom.cols, color_string(boundary_type::VERTICAL, self.color), )); // goto row/col + boundary character } } vte_output } }