// SPDX-License-Identifier: MIT OR Apache-2.0 use std::cmp; use unicode_segmentation::UnicodeSegmentation; use crate::{AttrsList, Buffer, BufferLine, Color, Cursor, LayoutCursor}; /// An action to perform on an [Editor] #[derive(Clone, Copy, Debug, Eq, PartialEq)] pub enum Action { /// Move cursor to previous character ([Self::Left] in LTR, [Self::Right] in RTL) Previous, /// Move cursor to next character ([Self::Right] in LTR, [Self::Left] in RTL) Next, /// Move cursor left Left, /// Move cursor right Right, /// Move cursor up Up, /// Move cursor down Down, /// Move cursor to start of line Home, /// Move cursor to end of line End, /// Scroll up one page PageUp, /// Scroll down one page PageDown, /// Insert character at cursor Insert(char), /// Create new line Enter, /// Delete text behind cursor Backspace, /// Delete text in front of cursor Delete, /// Mouse click at specified position Click { x: i32, y: i32 }, /// Mouse drag to specified position Drag { x: i32, y: i32 }, /// Scroll specified number of lines Scroll { lines: i32 }, } /// A wrapper of [Buffer] for easy editing pub struct Editor<'a> { pub buffer: Buffer<'a>, cursor: Cursor, cursor_x_opt: Option, select_opt: Option, cursor_moved: bool, } impl<'a> Editor<'a> { /// Create a new [Editor] with the provided [Buffer] pub fn new(buffer: Buffer<'a>) -> Self { Self { buffer, cursor: Cursor::default(), cursor_x_opt: None, select_opt: None, cursor_moved: false, } } /// Shape lines until scroll, after adjusting scroll if the cursor moved pub fn shape_as_needed(&mut self) { if self.cursor_moved { self.buffer.shape_until_cursor(self.cursor); self.cursor_moved = false; } else { self.buffer.shape_until_scroll(); } } fn set_layout_cursor(&mut self, cursor: LayoutCursor) { let layout = self.buffer.line_layout(cursor.line).unwrap(); let layout_line = match layout.get(cursor.layout) { Some(some) => some, None => match layout.last() { Some(some) => some, None => todo!("layout cursor in line with no layouts"), } }; let new_index = match layout_line.glyphs.get(cursor.glyph) { Some(glyph) => glyph.start, None => match layout_line.glyphs.last() { Some(glyph) => glyph.end, //TODO: is this correct? None => 0, } }; if self.cursor.line != cursor.line || self.cursor.index != new_index { self.cursor.line = cursor.line; self.cursor.index = new_index; self.buffer.redraw = true; } } /// Get the current cursor position pub fn cursor(&self) -> Cursor { self.cursor } /// Perform a [Action] on the editor pub fn action(&mut self, action: Action) { let old_cursor = self.cursor; match action { Action::Previous => { let line = &mut self.buffer.lines[self.cursor.line]; if self.cursor.index > 0 { // Find previous character index let mut prev_index = 0; for (i, _) in line.text().grapheme_indices(true) { if i < self.cursor.index { prev_index = i; } else { break; } } self.cursor.index = prev_index; self.buffer.redraw = true; } else if self.cursor.line > 0 { self.cursor.line -= 1; self.cursor.index = self.buffer.lines[self.cursor.line].text().len(); self.buffer.redraw = true; } self.cursor_x_opt = None; }, Action::Next => { let line = &mut self.buffer.lines[self.cursor.line]; if self.cursor.index < line.text().len() { for (i, c) in line.text().grapheme_indices(true) { if i == self.cursor.index { self.cursor.index += c.len(); self.buffer.redraw = true; break; } } } else if self.cursor.line + 1 < self.buffer.lines.len() { self.cursor.line += 1; self.cursor.index = 0; self.buffer.redraw = true; } self.cursor_x_opt = None; }, Action::Left => { let rtl_opt = self.buffer.lines[self.cursor.line].shape_opt().as_ref().map(|shape| shape.rtl); if let Some(rtl) = rtl_opt { if rtl { self.action(Action::Next); } else { self.action(Action::Previous); } } }, Action::Right => { let rtl_opt = self.buffer.lines[self.cursor.line].shape_opt().as_ref().map(|shape| shape.rtl); if let Some(rtl) = rtl_opt { if rtl { self.action(Action::Previous); } else { self.action(Action::Next); } } }, Action::Up => { //TODO: make this preserve X as best as possible! let mut cursor = self.buffer.layout_cursor(&self.cursor); if self.cursor_x_opt.is_none() { self.cursor_x_opt = Some( cursor.glyph as i32 //TODO: glyph x position ); } if cursor.layout > 0 { cursor.layout -= 1; } else if cursor.line > 0 { cursor.line -= 1; cursor.layout = usize::max_value(); } if let Some(cursor_x) = self.cursor_x_opt { cursor.glyph = cursor_x as usize; //TODO: glyph x position } self.set_layout_cursor(cursor); }, Action::Down => { //TODO: make this preserve X as best as possible! let mut cursor = self.buffer.layout_cursor(&self.cursor); let layout_len = self.buffer.line_layout(cursor.line).unwrap().len(); if self.cursor_x_opt.is_none() { self.cursor_x_opt = Some( cursor.glyph as i32 //TODO: glyph x position ); } if cursor.layout + 1 < layout_len { cursor.layout += 1; } else if cursor.line + 1 < self.buffer.lines.len() { cursor.line += 1; cursor.layout = 0; } if let Some(cursor_x) = self.cursor_x_opt { cursor.glyph = cursor_x as usize; //TODO: glyph x position } self.set_layout_cursor(cursor); }, Action::Home => { let mut cursor = self.buffer.layout_cursor(&self.cursor); cursor.glyph = 0; self.set_layout_cursor(cursor); self.cursor_x_opt = None; }, Action::End => { let mut cursor = self.buffer.layout_cursor(&self.cursor); cursor.glyph = usize::max_value(); self.set_layout_cursor(cursor); self.cursor_x_opt = None; } Action::PageUp => { //TODO: move cursor let mut scroll = self.buffer.scroll(); scroll -= self.buffer.visible_lines(); self.buffer.set_scroll(scroll); }, Action::PageDown => { //TODO: move cursor let mut scroll = self.buffer.scroll(); scroll += self.buffer.visible_lines(); self.buffer.set_scroll(scroll); }, Action::Insert(character) => { if character.is_control() && !['\t', '\u{92}'].contains(&character) { // Filter out special chars (except for tab), use Action instead log::debug!("Refusing to insert control character {:?}", character); } else { let line = &mut self.buffer.lines[self.cursor.line]; println!("Before"); for span in line.attrs_list().spans() { println!("{:?}", span); } // Collect text after insertion as a line let after = line.split_off(self.cursor.index); // Append the inserted text line.append(BufferLine::new( character.to_string(), AttrsList::new(line.attrs_list().defaults() /*TODO: provide attrs?*/) )); // Append the text after insertion line.append(after); println!("After"); for span in line.attrs_list().spans() { println!("{:?}", span); } self.cursor.index += character.len_utf8(); } }, Action::Enter => { let new_line = self.buffer.lines[self.cursor.line].split_off(self.cursor.index); self.cursor.line += 1; self.cursor.index = 0; self.buffer.lines.insert(self.cursor.line, new_line); }, Action::Backspace => { if self.cursor.index > 0 { let line = &mut self.buffer.lines[self.cursor.line]; println!("Before"); for span in line.attrs_list().spans() { println!("{:?}", span); } // Get text line after cursor let after = line.split_off(self.cursor.index); // Find previous character index let mut prev_index = 0; for (i, _) in line.text().char_indices() { if i < self.cursor.index { prev_index = i; } else { break; } } println!("Move cursor {} to {}", self.cursor.index, prev_index); self.cursor.index = prev_index; // Remove character line.split_off(self.cursor.index); // Add text after cursor line.append(after); println!("After"); for span in line.attrs_list().spans() { println!("{:?}", span); } } else if self.cursor.line > 0 { let mut line_index = self.cursor.line; let old_line = self.buffer.lines.remove(line_index); line_index -= 1; let line = &mut self.buffer.lines[line_index]; self.cursor.line = line_index; self.cursor.index = line.text().len(); line.append(old_line); } }, Action::Delete => { if self.cursor.index < self.buffer.lines[self.cursor.line].text().len() { let line = &mut self.buffer.lines[self.cursor.line]; let range_opt = line .text() .grapheme_indices(true) .take_while(|(i, _)| *i <= self.cursor.index) .last() .map(|(i, c)| { i..(i + c.len()) }); if let Some(range) = range_opt { self.cursor.index = range.start; // Get text after deleted EGC let after = line.split_off(range.end); // Delete EGC line.split_off(range.start); // Add text after deleted EGC line.append(after); } } else if self.cursor.line + 1 < self.buffer.lines.len() { let old_line = self.buffer.lines.remove(self.cursor.line + 1); self.buffer.lines[self.cursor.line].append(old_line); } }, Action::Click { x, y } => { self.select_opt = None; if let Some(new_cursor) = self.buffer.hit(x, y) { if new_cursor != self.cursor { self.cursor = new_cursor; self.buffer.redraw = true; } } }, Action::Drag { x, y } => { if self.select_opt.is_none() { self.select_opt = Some(self.cursor); self.buffer.redraw = true; } if let Some(new_cursor) = self.buffer.hit(x, y) { if new_cursor != self.cursor { self.cursor = new_cursor; self.buffer.redraw = true; } } }, Action::Scroll { lines } => { let mut scroll = self.buffer.scroll(); scroll += lines; self.buffer.set_scroll(scroll); } } if old_cursor != self.cursor { self.cursor_moved = true; /*TODO if let Some(glyph) = run.glyphs.get(new_cursor_glyph) { let font_opt = self.buffer.font_system().get_font(glyph.cache_key.font_id); let text_glyph = &run.text[glyph.start..glyph.end]; log::debug!( "{}, {}: '{}' ('{}'): '{}' ({:?})", self.cursor.line, self.cursor.index, font_opt.as_ref().map_or("?", |font| font.info.family.as_str()), font_opt.as_ref().map_or("?", |font| font.info.post_script_name.as_str()), text_glyph, text_glyph ); } */ } } /// Draw the editor #[cfg(feature = "swash")] pub fn draw(&self, cache: &mut crate::SwashCache, color: Color, mut f: F) where F: FnMut(i32, i32, u32, u32, Color) { let font_size = self.buffer.metrics().font_size; let line_height = self.buffer.metrics().line_height; for run in self.buffer.layout_runs() { let line_i = run.line_i; let line_y = run.line_y; let cursor_glyph_opt = |cursor: &Cursor| -> Option<(usize, f32)> { if cursor.line == line_i { for (glyph_i, glyph) in run.glyphs.iter().enumerate() { if cursor.index == glyph.start { return Some((glyph_i, 0.0)); } else if cursor.index > glyph.start && cursor.index < glyph.end { // Guess x offset based on characters let mut before = 0; let mut total = 0; let cluster = &run.text[glyph.start..glyph.end]; for (i, _) in cluster.grapheme_indices(true) { if glyph.start + i < cursor.index { before += 1; } total += 1; } let offset = glyph.w * (before as f32) / (total as f32); return Some((glyph_i, offset)); } } match run.glyphs.last() { Some(glyph) => { if cursor.index == glyph.end { return Some((run.glyphs.len(), 0.0)); } }, None => { return Some((0, 0.0)); } } } None }; // Highlight selection (TODO: HIGHLIGHT COLOR!) if let Some(select) = self.select_opt { let (start, end) = match select.line.cmp(&self.cursor.line) { cmp::Ordering::Greater => (self.cursor, select), cmp::Ordering::Less => (select, self.cursor), cmp::Ordering::Equal => { /* select.line == self.cursor.line */ if select.index < self.cursor.index { (select, self.cursor) } else { /* select.index >= self.cursor.index */ (self.cursor, select) } } }; if line_i >= start.line && line_i <= end.line { let mut range_opt = None; for glyph in run.glyphs.iter() { // Guess x offset based on characters let cluster = &run.text[glyph.start..glyph.end]; let total = cluster.grapheme_indices(true).count(); let mut c_x = glyph.x; let c_w = glyph.w / total as f32; for (i, c) in cluster.grapheme_indices(true) { let c_start = glyph.start + i; let c_end = glyph.start + i + c.len(); if (start.line != line_i || c_end > start.index) && (end.line != line_i || c_start < end.index) { range_opt = match range_opt.take() { Some((min, max)) => Some(( cmp::min(min, c_x as i32), cmp::max(max, (c_x + c_w) as i32), )), None => Some(( c_x as i32, (c_x + c_w) as i32, )) }; } else if let Some((min, max)) = range_opt.take() { f( min, line_y - font_size, cmp::max(0, max - min) as u32, line_height as u32, Color::rgba(color.r(), color.g(), color.b(), 0x33) ); } c_x += c_w; } } if run.glyphs.is_empty() && end.line > line_i{ // Highlight all of internal empty lines range_opt = Some((0, self.buffer.size().0)); } if let Some((mut min, mut max)) = range_opt.take() { if end.line > line_i { // Draw to end of line if run.rtl { min = 0; } else { max = self.buffer.size().0; } } f( min, line_y - font_size, cmp::max(0, max - min) as u32, line_height as u32, Color::rgba(color.r(), color.g(), color.b(), 0x33) ); } } } // Draw cursor if let Some((cursor_glyph, cursor_glyph_offset)) = cursor_glyph_opt(&self.cursor) { let x = match run.glyphs.get(cursor_glyph) { Some(glyph) => { // Start of detected glyph if glyph.rtl { (glyph.x + glyph.w - cursor_glyph_offset) as i32 } else { (glyph.x + cursor_glyph_offset) as i32 } }, None => match run.glyphs.last() { Some(glyph) => { // End of last glyph if glyph.rtl { glyph.x as i32 } else { (glyph.x + glyph.w) as i32 } }, None => { // Start of empty line 0 } } }; f( x, line_y - font_size, 1, line_height as u32, color, ); } for glyph in run.glyphs.iter() { let (cache_key, x_int, y_int) = (glyph.cache_key, glyph.x_int, glyph.y_int); let glyph_color = match glyph.color_opt { Some(some) => some, None => color, }; cache.with_pixels(cache_key, glyph_color, |x, y, color| { f(x_int + x, line_y + y_int + y, 1, 1, color) }); } } } }