use crate::{ display_map::ToDisplayPoint, DisplayRow, Editor, EditorMode, LineWithInvisibles, RowExt, }; use gpui::{px, Bounds, Pixels, ViewContext}; use language::Point; use std::{cmp, f32}; #[derive(PartialEq, Eq, Clone, Copy)] pub enum Autoscroll { Next, Strategy(AutoscrollStrategy), } impl Autoscroll { /// scrolls the minimal amount to (try) and fit all cursors onscreen pub fn fit() -> Self { Self::Strategy(AutoscrollStrategy::Fit) } /// scrolls the minimal amount to fit the newest cursor pub fn newest() -> Self { Self::Strategy(AutoscrollStrategy::Newest) } /// scrolls so the newest cursor is vertically centered pub fn center() -> Self { Self::Strategy(AutoscrollStrategy::Center) } /// scrolls so the neweset cursor is near the top /// (offset by vertical_scroll_margin) pub fn focused() -> Self { Self::Strategy(AutoscrollStrategy::Focused) } /// Scrolls so that the newest cursor is roughly an n-th line from the top. pub fn top_relative(n: usize) -> Self { Self::Strategy(AutoscrollStrategy::TopRelative(n)) } } #[derive(PartialEq, Eq, Default, Clone, Copy)] pub enum AutoscrollStrategy { Fit, Newest, #[default] Center, Focused, Top, Bottom, TopRelative(usize), } impl AutoscrollStrategy { fn next(&self) -> Self { match self { AutoscrollStrategy::Center => AutoscrollStrategy::Top, AutoscrollStrategy::Top => AutoscrollStrategy::Bottom, _ => AutoscrollStrategy::Center, } } } impl Editor { pub fn autoscroll_requested(&self) -> bool { self.scroll_manager.autoscroll_requested() } pub fn autoscroll_vertically( &mut self, bounds: Bounds, line_height: Pixels, cx: &mut ViewContext, ) -> bool { let viewport_height = bounds.size.height; let visible_lines = viewport_height / line_height; let display_map = self.display_map.update(cx, |map, cx| map.snapshot(cx)); let mut scroll_position = self.scroll_manager.scroll_position(&display_map); let original_y = scroll_position.y; if let Some(last_bounds) = self.expect_bounds_change.take() { if scroll_position.y != 0. { scroll_position.y += (bounds.top() - last_bounds.top()) / line_height; if scroll_position.y < 0. { scroll_position.y = 0.; } } } let max_scroll_top = if matches!(self.mode, EditorMode::AutoHeight { .. }) { (display_map.max_point().row().as_f32() - visible_lines + 1.).max(0.) } else { display_map.max_point().row().as_f32() }; if scroll_position.y > max_scroll_top { scroll_position.y = max_scroll_top; } if original_y != scroll_position.y { self.set_scroll_position(scroll_position, cx); } let Some((autoscroll, local)) = self.scroll_manager.autoscroll_request.take() else { return false; }; let mut target_top; let mut target_bottom; if let Some(first_highlighted_row) = self.highlighted_display_row_for_autoscroll(&display_map) { target_top = first_highlighted_row.as_f32(); target_bottom = target_top + 1.; } else { let selections = self.selections.all::(cx); target_top = selections .first() .unwrap() .head() .to_display_point(&display_map) .row() .as_f32(); target_bottom = selections .last() .unwrap() .head() .to_display_point(&display_map) .row() .next_row() .as_f32(); // If the selections can't all fit on screen, scroll to the newest. if autoscroll == Autoscroll::newest() || autoscroll == Autoscroll::fit() && target_bottom - target_top > visible_lines { let newest_selection_top = selections .iter() .max_by_key(|s| s.id) .unwrap() .head() .to_display_point(&display_map) .row() .as_f32(); target_top = newest_selection_top; target_bottom = newest_selection_top + 1.; } } let margin = if matches!(self.mode, EditorMode::AutoHeight { .. }) { 0. } else { ((visible_lines - (target_bottom - target_top)) / 2.0).floor() }; let strategy = match autoscroll { Autoscroll::Strategy(strategy) => strategy, Autoscroll::Next => { let last_autoscroll = &self.scroll_manager.last_autoscroll; if let Some(last_autoscroll) = last_autoscroll { if self.scroll_manager.anchor.offset == last_autoscroll.0 && target_top == last_autoscroll.1 && target_bottom == last_autoscroll.2 { last_autoscroll.3.next() } else { AutoscrollStrategy::default() } } else { AutoscrollStrategy::default() } } }; match strategy { AutoscrollStrategy::Fit | AutoscrollStrategy::Newest => { let margin = margin.min(self.scroll_manager.vertical_scroll_margin); let target_top = (target_top - margin).max(0.0); let target_bottom = target_bottom + margin; let start_row = scroll_position.y; let end_row = start_row + visible_lines; let needs_scroll_up = target_top < start_row; let needs_scroll_down = target_bottom >= end_row; if needs_scroll_up && !needs_scroll_down { scroll_position.y = target_top; self.set_scroll_position_internal(scroll_position, local, true, cx); } if !needs_scroll_up && needs_scroll_down { scroll_position.y = target_bottom - visible_lines; self.set_scroll_position_internal(scroll_position, local, true, cx); } } AutoscrollStrategy::Center => { scroll_position.y = (target_top - margin).max(0.0); self.set_scroll_position_internal(scroll_position, local, true, cx); } AutoscrollStrategy::Focused => { scroll_position.y = (target_top - self.scroll_manager.vertical_scroll_margin).max(0.0); self.set_scroll_position_internal(scroll_position, local, true, cx); } AutoscrollStrategy::Top => { scroll_position.y = (target_top).max(0.0); self.set_scroll_position_internal(scroll_position, local, true, cx); } AutoscrollStrategy::Bottom => { scroll_position.y = (target_bottom - visible_lines).max(0.0); self.set_scroll_position_internal(scroll_position, local, true, cx); } AutoscrollStrategy::TopRelative(lines) => { scroll_position.y = target_top - lines as f32; self.set_scroll_position_internal(scroll_position, local, true, cx); } } self.scroll_manager.last_autoscroll = Some(( self.scroll_manager.anchor.offset, target_top, target_bottom, strategy, )); true } pub(crate) fn autoscroll_horizontally( &mut self, start_row: DisplayRow, viewport_width: Pixels, scroll_width: Pixels, max_glyph_width: Pixels, layouts: &[LineWithInvisibles], cx: &mut ViewContext, ) -> bool { let display_map = self.display_map.update(cx, |map, cx| map.snapshot(cx)); let selections = self.selections.all::(cx); let mut target_left; let mut target_right; if self .highlighted_display_row_for_autoscroll(&display_map) .is_none() { target_left = px(f32::INFINITY); target_right = px(0.); for selection in selections { let head = selection.head().to_display_point(&display_map); if head.row() >= start_row && head.row() < DisplayRow(start_row.0 + layouts.len() as u32) { let start_column = head.column().saturating_sub(3); let end_column = cmp::min(display_map.line_len(head.row()), head.column() + 3); target_left = target_left.min( layouts[head.row().minus(start_row) as usize] .x_for_index(start_column as usize), ); target_right = target_right.max( layouts[head.row().minus(start_row) as usize] .x_for_index(end_column as usize) + max_glyph_width, ); } } } else { target_left = px(0.); target_right = px(0.); } target_right = target_right.min(scroll_width); if target_right - target_left > viewport_width { return false; } let scroll_left = self.scroll_manager.anchor.offset.x * max_glyph_width; let scroll_right = scroll_left + viewport_width; if target_left < scroll_left { self.scroll_manager.anchor.offset.x = target_left / max_glyph_width; true } else if target_right > scroll_right { self.scroll_manager.anchor.offset.x = (target_right - viewport_width) / max_glyph_width; true } else { false } } pub fn request_autoscroll(&mut self, autoscroll: Autoscroll, cx: &mut ViewContext) { self.scroll_manager.autoscroll_request = Some((autoscroll, true)); cx.notify(); } pub(crate) fn request_autoscroll_remotely( &mut self, autoscroll: Autoscroll, cx: &mut ViewContext, ) { self.scroll_manager.autoscroll_request = Some((autoscroll, false)); cx.notify(); } }