/* * meli * * Copyright 2017-2018 Manos Pitsidianakis * * This file is part of meli. * * meli is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * meli is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with meli. If not, see . */ use super::*; use crate::components::PageMovement; use crate::jobs::JoinHandle; use std::cmp; use std::convert::TryInto; use std::iter::FromIterator; macro_rules! address_list { (($name:expr) as comma_sep_list) => {{ let mut ret: String = $name .into_iter() .fold(String::new(), |mut s: String, n: &Address| { s.extend(n.to_string().chars()); s.push_str(", "); s }); ret.pop(); ret.pop(); ret }}; } macro_rules! row_attr { ($color_cache:expr, $even: expr, $unseen:expr, $highlighted:expr, $selected:expr $(,)*) => {{ ThemeAttribute { fg: if $highlighted { if $even { $color_cache.even_highlighted.fg } else { $color_cache.odd_highlighted.fg } } else if $selected { if $even { $color_cache.even_selected.fg } else { $color_cache.odd_selected.fg } } else if $unseen { if $even { $color_cache.even_unseen.fg } else { $color_cache.odd_unseen.fg } } else if $even { $color_cache.even.fg } else { $color_cache.odd.fg }, bg: if $highlighted { if $even { $color_cache.even_highlighted.bg } else { $color_cache.odd_highlighted.bg } } else if $selected { if $even { $color_cache.even_selected.bg } else { $color_cache.odd_selected.bg } } else if $unseen { if $even { $color_cache.even_unseen.bg } else { $color_cache.odd_unseen.bg } } else if $even { $color_cache.even.bg } else { $color_cache.odd.bg }, attrs: if $highlighted { if $even { $color_cache.even_highlighted.attrs } else { $color_cache.odd_highlighted.attrs } } else if $selected { if $even { $color_cache.even_selected.attrs } else { $color_cache.odd_selected.attrs } } else if $unseen { if $even { $color_cache.even_unseen.attrs } else { $color_cache.odd_unseen.attrs } } else if $even { $color_cache.even.attrs } else { $color_cache.odd.attrs }, } }}; } /// A list of all mail (`Envelope`s) in a `Mailbox`. On `\n` it opens the `Envelope` content in a /// `ThreadView`. #[derive(Debug)] pub struct CompactListing { /// (x, y, z): x is accounts, y is mailboxes, z is index inside a mailbox. cursor_pos: (AccountHash, MailboxHash, usize), new_cursor_pos: (AccountHash, MailboxHash, usize), length: usize, sort: (SortField, SortOrder), subsort: (SortField, SortOrder), all_threads: HashSet, order: HashMap, /// Cache current view. data_columns: DataColumns, rows_drawn: SegmentTree, rows: Vec<((usize, (ThreadHash, EnvelopeHash)), EntryStrings)>, search_job: Option<(String, JoinHandle>>)>, select_job: Option<(String, JoinHandle>>)>, filter_term: String, filtered_selection: Vec, filtered_order: HashMap, selection: HashMap, /// If we must redraw on next redraw event dirty: bool, force_draw: bool, /// If `self.view` exists or not. unfocused: bool, view: ThreadView, row_updates: SmallVec<[ThreadHash; 8]>, color_cache: ColorCache, movement: Option, modifier_active: bool, modifier_command: Option, id: ComponentId, } impl MailListingTrait for CompactListing { fn row_updates(&mut self) -> &mut SmallVec<[ThreadHash; 8]> { &mut self.row_updates } fn selection(&mut self) -> &mut HashMap { &mut self.selection } fn get_focused_items(&self, _context: &Context) -> SmallVec<[ThreadHash; 8]> { let is_selection_empty = self.selection.values().cloned().any(std::convert::identity); let i = [self.get_thread_under_cursor(self.cursor_pos.2)]; let cursor_iter; let sel_iter = if is_selection_empty { cursor_iter = None; Some(self.selection.iter().filter(|(_, v)| **v).map(|(k, _)| k)) } else { cursor_iter = Some(i.iter()); None }; let iter = sel_iter .into_iter() .flatten() .chain(cursor_iter.into_iter().flatten()) .cloned(); SmallVec::from_iter(iter.into_iter()) } /// Fill the `self.data_columns` `CellBuffers` with the contents of the account mailbox the user has /// chosen. fn refresh_mailbox(&mut self, context: &mut Context, force: bool) { self.dirty = true; self.all_threads.clear(); self.selection.clear(); let old_cursor_pos = self.cursor_pos; if !(self.cursor_pos.0 == self.new_cursor_pos.0 && self.cursor_pos.1 == self.new_cursor_pos.1) { self.cursor_pos.2 = 0; self.new_cursor_pos.2 = 0; } self.cursor_pos.1 = self.new_cursor_pos.1; self.cursor_pos.0 = self.new_cursor_pos.0; self.color_cache = ColorCache { even_unseen: crate::conf::value(context, "mail.listing.compact.even_unseen"), even_selected: crate::conf::value(context, "mail.listing.compact.even_selected"), even_highlighted: crate::conf::value(context, "mail.listing.compact.even_highlighted"), odd_unseen: crate::conf::value(context, "mail.listing.compact.odd_unseen"), odd_selected: crate::conf::value(context, "mail.listing.compact.odd_selected"), odd_highlighted: crate::conf::value(context, "mail.listing.compact.odd_highlighted"), even: crate::conf::value(context, "mail.listing.compact.even"), odd: crate::conf::value(context, "mail.listing.compact.odd"), attachment_flag: crate::conf::value(context, "mail.listing.attachment_flag"), thread_snooze_flag: crate::conf::value(context, "mail.listing.thread_snooze_flag"), tag_default: crate::conf::value(context, "mail.listing.tag_default"), theme_default: crate::conf::value(context, "theme_default"), ..self.color_cache }; if !context.settings.terminal.use_color() { self.color_cache.highlighted.attrs |= Attr::REVERSE; self.color_cache.tag_default.attrs |= Attr::REVERSE; self.color_cache.even_highlighted.attrs |= Attr::REVERSE; self.color_cache.odd_highlighted.attrs |= Attr::REVERSE; } // Get mailbox as a reference. // match context.accounts[&self.cursor_pos.0].load(self.cursor_pos.1) { Ok(()) => {} Err(_) => { let message: String = context.accounts[&self.cursor_pos.0][&self.cursor_pos.1].status(); self.data_columns.columns[0] = CellBuffer::new_with_context(message.len(), 1, None, context); self.length = 0; write_string_to_grid( message.as_str(), &mut self.data_columns.columns[0], self.color_cache.theme_default.fg, self.color_cache.theme_default.bg, self.color_cache.theme_default.attrs, ((0, 0), (message.len() - 1, 0)), None, ); return; } } let threads = context.accounts[&self.cursor_pos.0] .collection .get_threads(self.cursor_pos.1); let mut roots = threads.roots(); threads.group_inner_sort_by( &mut roots, self.sort, &context.accounts[&self.cursor_pos.0].collection.envelopes, ); self.redraw_threads_list( context, Box::new(roots.into_iter()) as Box>, ); if !force && old_cursor_pos == self.new_cursor_pos { self.view.update(context); } else if self.unfocused { let thread = self.get_thread_under_cursor(self.cursor_pos.2); self.view = ThreadView::new(self.new_cursor_pos, thread, None, context); } } fn redraw_threads_list( &mut self, context: &Context, items: Box>, ) { let account = &context.accounts[&self.cursor_pos.0]; let threads = account.collection.get_threads(self.cursor_pos.1); self.order.clear(); self.length = 0; let mut rows = Vec::with_capacity(1024); let mut min_width = (0, 0, 0, 0, 0); let mut row_widths: ( SmallVec<[u8; 1024]>, SmallVec<[u8; 1024]>, SmallVec<[u8; 1024]>, SmallVec<[u8; 1024]>, SmallVec<[u8; 1024]>, ) = ( SmallVec::new(), SmallVec::new(), SmallVec::new(), SmallVec::new(), SmallVec::new(), ); 'items_for_loop: for thread in items { let thread_node = &threads.thread_nodes()[&threads.thread_ref(thread).root()]; let root_env_hash = if let Some(h) = thread_node.message().or_else(|| { if thread_node.children().is_empty() { return None; } let mut iter_ptr = thread_node.children()[0]; while threads.thread_nodes()[&iter_ptr].message().is_none() { if threads.thread_nodes()[&iter_ptr].children().is_empty() { return None; } iter_ptr = threads.thread_nodes()[&iter_ptr].children()[0]; } threads.thread_nodes()[&iter_ptr].message() }) { h } else { continue 'items_for_loop; }; if !context.accounts[&self.cursor_pos.0].contains_key(root_env_hash) { debug!("key = {}", root_env_hash); debug!( "name = {} {}", account[&self.cursor_pos.1].name(), context.accounts[&self.cursor_pos.0].name() ); debug!("{:#?}", context.accounts); panic!(); } let root_envelope: EnvelopeRef = context.accounts[&self.cursor_pos.0] .collection .get_env(root_env_hash); use melib::search::QueryTrait; if let Some(filter_query) = mailbox_settings!( context[self.cursor_pos.0][&self.cursor_pos.1] .listing .filter ) .as_ref() { if !root_envelope.is_match(filter_query) { continue; } } let entry_strings = self.make_entry_string(&root_envelope, context, &threads, thread); row_widths.1.push( entry_strings .date .grapheme_width() .try_into() .unwrap_or(255), ); /* date */ row_widths.2.push( entry_strings .from .grapheme_width() .try_into() .unwrap_or(255), ); /* from */ row_widths.3.push( entry_strings .flag .grapheme_width() .try_into() .unwrap_or(255), ); /* flags */ row_widths.4.push( (entry_strings.subject.grapheme_width() + 1 + entry_strings.tags.grapheme_width()) .try_into() .unwrap_or(255), ); min_width.1 = cmp::max(min_width.1, entry_strings.date.grapheme_width()); /* date */ min_width.2 = cmp::max(min_width.2, entry_strings.from.grapheme_width()); /* from */ min_width.3 = cmp::max(min_width.3, entry_strings.flag.grapheme_width()); /* flags */ min_width.4 = cmp::max( min_width.4, entry_strings.subject.grapheme_width() + 1 + entry_strings.tags.grapheme_width(), ); /* subject */ rows.push(((self.length, (thread, root_env_hash)), entry_strings)); self.all_threads.insert(thread); self.order.insert(thread, self.length); self.selection.insert(thread, false); self.length += 1; } min_width.0 = self.length.saturating_sub(1).to_string().len(); /* index column */ self.data_columns.columns[0] = CellBuffer::new_with_context(min_width.0, rows.len(), None, context); /* date column */ self.data_columns.columns[1] = CellBuffer::new_with_context(min_width.1, rows.len(), None, context); /* from column */ self.data_columns.columns[2] = CellBuffer::new_with_context(min_width.2, rows.len(), None, context); self.data_columns.segment_tree[2] = row_widths.2.into(); /* flags column */ self.data_columns.columns[3] = CellBuffer::new_with_context(min_width.3, rows.len(), None, context); /* subject column */ self.data_columns.columns[4] = CellBuffer::new_with_context(min_width.4, rows.len(), None, context); self.data_columns.segment_tree[4] = row_widths.4.into(); self.rows = rows; self.rows_drawn = SegmentTree::from( std::iter::repeat(1) .take(self.rows.len()) .collect::>(), ); debug_assert!(self.rows_drawn.array.len() == self.rows.len()); self.draw_rows( context, 0, std::cmp::min(80, self.rows.len().saturating_sub(1)), ); if self.length == 0 && self.filter_term.is_empty() { let message: String = account[&self.cursor_pos.1].status(); self.data_columns.columns[0] = CellBuffer::new_with_context(message.len(), self.length + 1, None, context); write_string_to_grid( &message, &mut self.data_columns.columns[0], self.color_cache.theme_default.fg, self.color_cache.theme_default.bg, self.color_cache.theme_default.attrs, ((0, 0), (message.len() - 1, 0)), None, ); } } } impl ListingTrait for CompactListing { fn coordinates(&self) -> (AccountHash, MailboxHash) { (self.new_cursor_pos.0, self.new_cursor_pos.1) } fn set_coordinates(&mut self, coordinates: (AccountHash, MailboxHash)) { self.new_cursor_pos = (coordinates.0, coordinates.1, 0); self.unfocused = false; self.view = ThreadView::default(); self.filtered_selection.clear(); self.filtered_order.clear(); self.filter_term.clear(); self.row_updates.clear(); } fn highlight_line(&mut self, grid: &mut CellBuffer, area: Area, idx: usize, context: &Context) { if self.length == 0 { return; } let thread_hash = self.get_thread_under_cursor(idx); let account = &context.accounts[&self.cursor_pos.0]; let threads = account.collection.get_threads(self.cursor_pos.1); let thread = threads.thread_ref(thread_hash); let row_attr = row_attr!( self.color_cache, idx % 2 == 0, thread.unseen() > 0, self.cursor_pos.2 == idx, self.selection[&thread_hash] ); let (upper_left, bottom_right) = area; let x = get_x(upper_left) + self.data_columns.widths[0] + self.data_columns.widths[1] + self.data_columns.widths[2] + 3 * 2; for c in grid.row_iter( get_x(upper_left)..(get_x(bottom_right) + 1), get_y(upper_left), ) { grid[c] .set_fg(row_attr.fg) .set_bg(row_attr.bg) .set_attrs(row_attr.attrs); } copy_area( grid, &self.data_columns.columns[3], (set_x(upper_left, x), bottom_right), ( (0, idx), pos_dec(self.data_columns.columns[3].size(), (1, 1)), ), ); for c in grid.row_iter(x..(self.data_columns.widths[3] + x), get_y(upper_left)) { grid[c].set_bg(row_attr.bg).set_attrs(row_attr.attrs); } } /// Draw the list of `Envelope`s. fn draw_list(&mut self, grid: &mut CellBuffer, area: Area, context: &mut Context) { if self.cursor_pos.1 != self.new_cursor_pos.1 || self.cursor_pos.0 != self.new_cursor_pos.0 { self.refresh_mailbox(context, false); } let upper_left = upper_left!(area); let bottom_right = bottom_right!(area); if self.length == 0 { clear_area(grid, area, self.color_cache.theme_default); copy_area( grid, &self.data_columns.columns[0], area, ((0, 0), pos_dec(self.data_columns.columns[0].size(), (1, 1))), ); context.dirty_areas.push_back(area); return; } let rows = get_y(bottom_right) - get_y(upper_left) + 1; if rows == 0 { return; } if let Some(mvm) = self.movement.take() { match mvm { PageMovement::Up(amount) => { self.new_cursor_pos.2 = self.new_cursor_pos.2.saturating_sub(amount); } PageMovement::PageUp(multiplier) => { self.new_cursor_pos.2 = self.new_cursor_pos.2.saturating_sub(rows * multiplier); } PageMovement::Down(amount) => { if self.new_cursor_pos.2 + amount + 1 < self.length { self.new_cursor_pos.2 += amount; } else { self.new_cursor_pos.2 = self.length - 1; } } PageMovement::PageDown(multiplier) => { if self.new_cursor_pos.2 + rows * multiplier + 1 < self.length { self.new_cursor_pos.2 += rows * multiplier; } else if self.new_cursor_pos.2 + rows * multiplier > self.length { self.new_cursor_pos.2 = self.length - 1; } else { self.new_cursor_pos.2 = (self.length.saturating_sub(1) / rows) * rows; } } PageMovement::Right(_) | PageMovement::Left(_) => {} PageMovement::Home => { self.new_cursor_pos.2 = 0; } PageMovement::End => { self.new_cursor_pos.2 = self.length - 1; } } } let prev_page_no = (self.cursor_pos.2).wrapping_div(rows); let page_no = (self.new_cursor_pos.2).wrapping_div(rows); let top_idx = page_no * rows; self.draw_rows( context, top_idx, cmp::min(self.length.saturating_sub(1), top_idx + rows - 1), ); /* If cursor position has changed, remove the highlight from the previous position and * apply it in the new one. */ if self.cursor_pos.2 != self.new_cursor_pos.2 && prev_page_no == page_no { let old_cursor_pos = self.cursor_pos; self.cursor_pos = self.new_cursor_pos; for idx in &[old_cursor_pos.2, self.new_cursor_pos.2] { if *idx >= self.length { continue; //bounds check } let new_area = ( set_y(upper_left, get_y(upper_left) + (*idx % rows)), set_y(bottom_right, get_y(upper_left) + (*idx % rows)), ); self.highlight_line(grid, new_area, *idx, context); context.dirty_areas.push_back(new_area); } if !self.force_draw { return; } } else if self.cursor_pos != self.new_cursor_pos { self.cursor_pos = self.new_cursor_pos; } if self.new_cursor_pos.2 >= self.length { self.new_cursor_pos.2 = self.length - 1; self.cursor_pos.2 = self.new_cursor_pos.2; } let width = width!(area); self.data_columns.widths = Default::default(); self.data_columns.widths[0] = self.data_columns.columns[0].size().0; self.data_columns.widths[1] = self.data_columns.columns[1].size().0; /* date*/ self.data_columns.widths[2] = self.data_columns.columns[2].size().0; /* from */ self.data_columns.widths[3] = self.data_columns.columns[3].size().0; /* flags */ self.data_columns.widths[4] = self.data_columns.columns[4].size().0; /* subject */ let min_col_width = std::cmp::min( 15, std::cmp::min(self.data_columns.widths[4], self.data_columns.widths[2]), ); if self.data_columns.widths[0] + self.data_columns.widths[1] + 3 * min_col_width + 8 > width { let remainder = width .saturating_sub(self.data_columns.widths[0]) .saturating_sub(self.data_columns.widths[1]) .saturating_sub(4); self.data_columns.widths[2] = remainder / 6; self.data_columns.widths[4] = ((2 * remainder) / 3).saturating_sub(self.data_columns.widths[3]); } else { let remainder = width .saturating_sub(self.data_columns.widths[0]) .saturating_sub(self.data_columns.widths[1]) .saturating_sub(8); if min_col_width + self.data_columns.widths[4] > remainder { self.data_columns.widths[4] = remainder.saturating_sub(min_col_width + self.data_columns.widths[3]); self.data_columns.widths[2] = min_col_width; } } for &i in &[2, 4] { /* Set From and Subject column widths to their maximum value width in the range * [top_idx, top_idx + rows]. By using a segment tree the query is O(logn), which is * great! */ self.data_columns.widths[i] = self.data_columns.segment_tree[i].get_max(top_idx, top_idx + rows) as usize; } if self.data_columns.widths.iter().sum::() > width { let diff = self.data_columns.widths.iter().sum::() - width; if self.data_columns.widths[2] > 2 * diff { self.data_columns.widths[2] -= diff; } else { self.data_columns.widths[2] = std::cmp::max( 15, self.data_columns.widths[2].saturating_sub((2 * diff) / 3), ); self.data_columns.widths[4] = std::cmp::max( 15, self.data_columns.widths[4].saturating_sub(diff / 3 + diff % 3), ); } } clear_area(grid, area, self.color_cache.theme_default); /* Page_no has changed, so draw new page */ let mut x = get_x(upper_left); let mut flag_x = 0; for i in 0..self.data_columns.columns.len() { let column_width = self.data_columns.columns[i].size().0; if i == 3 { flag_x = x; } if self.data_columns.widths[i] == 0 { continue; } copy_area( grid, &self.data_columns.columns[i], ( set_x(upper_left, x), set_x( bottom_right, std::cmp::min(get_x(bottom_right), x + (self.data_columns.widths[i])), ), ), ( (0, top_idx), (column_width.saturating_sub(1), self.length - 1), ), ); x += self.data_columns.widths[i] + 2; // + SEPARATOR if x > get_x(bottom_right) { break; } } let account = &context.accounts[&self.cursor_pos.0]; let threads = account.collection.get_threads(self.cursor_pos.1); for r in 0..cmp::min(self.length - top_idx, rows) { let thread_hash = self.get_thread_under_cursor(r + top_idx); let row_attr = row_attr!( self.color_cache, (r + top_idx) % 2 == 0, threads.thread_ref(thread_hash).unseen() > 0, self.cursor_pos.2 == (r + top_idx), self.selection[&thread_hash] ); change_colors( grid, ( pos_inc(upper_left, (0, r)), (flag_x.saturating_sub(1), get_y(upper_left) + r), ), row_attr.fg, row_attr.bg, ); for x in flag_x ..std::cmp::min( get_x(bottom_right), flag_x + 2 + self.data_columns.widths[3], ) { grid[(x, get_y(upper_left) + r)].set_bg(row_attr.bg); } change_colors( grid, ( ( flag_x + 2 + self.data_columns.widths[3], get_y(upper_left) + r, ), (get_x(bottom_right), get_y(upper_left) + r), ), row_attr.fg, row_attr.bg, ); } self.highlight_line( grid, ( set_y(upper_left, get_y(upper_left) + (self.cursor_pos.2 % rows)), set_y(bottom_right, get_y(upper_left) + (self.cursor_pos.2 % rows)), ), self.cursor_pos.2, context, ); if top_idx + rows > self.length { clear_area( grid, ( pos_inc(upper_left, (0, self.length - top_idx)), bottom_right, ), self.color_cache.theme_default, ); } context.dirty_areas.push_back(area); } fn filter( &mut self, filter_term: String, results: Result>, context: &Context, ) { self.order.clear(); self.selection.clear(); self.length = 0; self.filtered_selection.clear(); self.filtered_order.clear(); self.filter_term = filter_term; self.row_updates.clear(); let account = &context.accounts[&self.cursor_pos.0]; match results { Ok(results) => { let threads = account.collection.get_threads(self.cursor_pos.1); for env_hash in results { if !account.collection.contains_key(&env_hash) { continue; } let env_thread_node_hash = account.collection.get_env(env_hash).thread(); if !threads.thread_nodes.contains_key(&env_thread_node_hash) { continue; } let thread = threads.find_group(threads.thread_nodes[&env_thread_node_hash].group); if self.filtered_order.contains_key(&thread) { continue; } if self.all_threads.contains(&thread) { self.filtered_selection.push(thread); self.filtered_order .insert(thread, self.filtered_selection.len() - 1); } } if !self.filtered_selection.is_empty() { threads.group_inner_sort_by( &mut self.filtered_selection, self.sort, &context.accounts[&self.cursor_pos.0].collection.envelopes, ); self.new_cursor_pos.2 = std::cmp::min(self.filtered_selection.len() - 1, self.cursor_pos.2); } else { self.data_columns.columns[0] = CellBuffer::new_with_context(0, 0, None, context); } self.redraw_threads_list( context, Box::new(self.filtered_selection.clone().into_iter()) as Box>, ); } Err(e) => { self.cursor_pos.2 = 0; self.new_cursor_pos.2 = 0; let message = format!( "Encountered an error while searching for `{}`: {}.", &self.filter_term, e ); log( format!("Failed to search for term {}: {}", &self.filter_term, e), ERROR, ); self.data_columns.columns[0] = CellBuffer::new_with_context(message.len(), 1, None, context); write_string_to_grid( &message, &mut self.data_columns.columns[0], self.color_cache.theme_default.fg, self.color_cache.theme_default.bg, self.color_cache.theme_default.attrs, ((0, 0), (message.len() - 1, 0)), None, ); } } } fn unfocused(&self) -> bool { self.unfocused } fn set_modifier_active(&mut self, new_val: bool) { self.modifier_active = new_val; } fn set_modifier_command(&mut self, new_val: Option) { self.modifier_command = new_val; } fn modifier_command(&self) -> Option { self.modifier_command } fn set_movement(&mut self, mvm: PageMovement) { self.movement = Some(mvm); self.set_dirty(true); } } impl fmt::Display for CompactListing { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "mail") } } impl CompactListing { pub const DESCRIPTION: &'static str = "compact listing"; pub fn new(coordinates: (AccountHash, MailboxHash)) -> Self { CompactListing { cursor_pos: (coordinates.0, 1, 0), new_cursor_pos: (coordinates.0, coordinates.1, 0), length: 0, sort: (Default::default(), Default::default()), subsort: (SortField::Date, SortOrder::Desc), all_threads: HashSet::default(), order: HashMap::default(), search_job: None, select_job: None, filter_term: String::new(), filtered_selection: Vec::new(), filtered_order: HashMap::default(), selection: HashMap::default(), row_updates: SmallVec::new(), data_columns: DataColumns::default(), rows_drawn: SegmentTree::default(), rows: vec![], dirty: true, force_draw: true, unfocused: false, view: ThreadView::default(), color_cache: ColorCache::default(), movement: None, modifier_active: false, modifier_command: None, id: ComponentId::new_v4(), } } fn make_entry_string( &self, e: &Envelope, context: &Context, threads: &Threads, hash: ThreadHash, ) -> EntryStrings { let thread = threads.thread_ref(hash); let mut tags = String::new(); let mut colors: SmallVec<[_; 8]> = SmallVec::new(); let backend_lck = context.accounts[&self.cursor_pos.0].backend.read().unwrap(); if let Some(t) = backend_lck.tags() { let tags_lck = t.read().unwrap(); for t in e.labels().iter() { if mailbox_settings!( context[self.cursor_pos.0][&self.cursor_pos.1] .tags .ignore_tags ) .contains(t) || account_settings!(context[self.cursor_pos.0].tags.ignore_tags).contains(t) || context.settings.tags.ignore_tags.contains(t) || !tags_lck.contains_key(t) { continue; } tags.push(' '); tags.push_str(tags_lck.get(t).as_ref().unwrap()); tags.push(' '); colors.push( mailbox_settings!(context[self.cursor_pos.0][&self.cursor_pos.1].tags.colors) .get(t) .cloned() .or_else(|| { account_settings!(context[self.cursor_pos.0].tags.colors) .get(t) .cloned() .or_else(|| context.settings.tags.colors.get(t).cloned()) }), ); } if !tags.is_empty() { tags.pop(); } } let mut subject = e.subject().to_string(); subject.truncate_at_boundary(150); if thread.len() > 1 { EntryStrings { date: DateString(ConversationsListing::format_date(context, thread.date())), subject: SubjectString(format!("{} ({})", subject, thread.len(),)), flag: FlagString(format!( "{}{}", if thread.has_attachments() { "📎" } else { "" }, if thread.snoozed() { "💤" } else { "" } )), from: FromString(address_list!((e.from()) as comma_sep_list)), tags: TagString(tags, colors), } } else { EntryStrings { date: DateString(ConversationsListing::format_date(context, thread.date())), subject: SubjectString(subject), flag: FlagString(format!( "{}{}", if thread.has_attachments() { "📎" } else { "" }, if thread.snoozed() { "💤" } else { "" } )), from: FromString(address_list!((e.from()) as comma_sep_list)), tags: TagString(tags, colors), } } } fn get_thread_under_cursor(&self, cursor: usize) -> ThreadHash { if self.filter_term.is_empty() { *self .order .iter() .find(|(_, &r)| r == cursor) .unwrap_or_else(|| { debug!("self.order empty ? cursor={} {:#?}", cursor, &self.order); panic!(); }) .0 } else { self.filtered_selection[cursor] } } fn update_line(&mut self, context: &Context, thread_hash: ThreadHash) { let account = &context.accounts[&self.cursor_pos.0]; let threads = account.collection.get_threads(self.cursor_pos.1); let thread = threads.thread_ref(thread_hash); let thread_node_hash = threads.thread_group_iter(thread_hash).next().unwrap().1; if let Some(env_hash) = threads.thread_nodes()[&thread_node_hash].message() { if !account.contains_key(env_hash) { /* The envelope has been renamed or removed, so wait for the appropriate event to * arrive */ return; } let idx = self.order[&thread_hash]; let row_attr = row_attr!( self.color_cache, idx % 2 == 0, thread.unseen() > 0, false, false, ); let envelope: EnvelopeRef = account.collection.get_env(env_hash); let strings = self.make_entry_string(&envelope, context, &threads, thread_hash); drop(envelope); let columns = &mut self.data_columns.columns; let min_width = ( columns[0].size().0, columns[1].size().0, columns[2].size().0, columns[3].size().0, columns[4].size().0, ); let (x, _) = write_string_to_grid( &idx.to_string(), &mut columns[0], row_attr.fg, row_attr.bg, row_attr.attrs, ((0, idx), (min_width.0, idx)), None, ); for c in columns[0].row_iter(x..min_width.0, idx) { columns[0][c].set_bg(row_attr.bg); } let (x, _) = write_string_to_grid( &strings.date, &mut columns[1], row_attr.fg, row_attr.bg, row_attr.attrs, ((0, idx), (min_width.1.saturating_sub(1), idx)), None, ); for c in columns[1].row_iter(x..min_width.1, idx) { columns[1][c].set_bg(row_attr.bg); } let (x, _) = write_string_to_grid( &strings.from, &mut columns[2], row_attr.fg, row_attr.bg, row_attr.attrs, ((0, idx), (min_width.2, idx)), None, ); for c in columns[2].row_iter(x..min_width.2, idx) { columns[2][c].set_bg(row_attr.bg); } let (x, _) = write_string_to_grid( &strings.flag, &mut columns[3], row_attr.fg, row_attr.bg, row_attr.attrs, ((0, idx), (min_width.3, idx)), None, ); for c in columns[3].row_iter(x..min_width.3, idx) { columns[3][c].set_bg(row_attr.bg); } let (x, _) = write_string_to_grid( &strings.subject, &mut columns[4], row_attr.fg, row_attr.bg, row_attr.attrs, ((0, idx), (min_width.4, idx)), None, ); let x = { let mut x = x + 1; for (t, &color) in strings.tags.split_whitespace().zip(strings.tags.1.iter()) { let color = color.unwrap_or(self.color_cache.tag_default.bg); let (_x, _) = write_string_to_grid( t, &mut columns[4], self.color_cache.tag_default.fg, color, self.color_cache.tag_default.attrs, ((x + 1, idx), (min_width.4, idx)), None, ); for c in columns[4].row_iter(x..(x + 1), idx) { columns[4][c].set_bg(color); } for c in columns[4].row_iter(_x..(_x + 1), idx) { columns[4][c].set_bg(color).set_keep_bg(true); } for c in columns[4].row_iter((x + 1)..(_x + 1), idx) { columns[4][c] .set_keep_fg(true) .set_keep_bg(true) .set_keep_attrs(true); } for c in columns[4].row_iter(x..(x + 1), idx) { columns[4][c].set_keep_bg(true); } x = _x + 1; } x }; for c in columns[4].row_iter(x..min_width.4, idx) { columns[4][c].set_ch(' '); columns[4][c].set_bg(row_attr.bg); } match (thread.snoozed(), thread.has_attachments()) { (true, true) => { columns[3][(0, idx)].set_fg(self.color_cache.attachment_flag.fg); columns[3][(2, idx)].set_fg(self.color_cache.thread_snooze_flag.fg); } (true, false) => { columns[3][(0, idx)].set_fg(self.color_cache.thread_snooze_flag.fg); } (false, true) => { columns[3][(0, idx)].set_fg(self.color_cache.attachment_flag.fg); } (false, false) => {} } *self.rows.get_mut(idx).unwrap() = ((idx, (thread_hash, env_hash)), strings); self.rows_drawn.update(idx, 1); } } fn draw_rows(&mut self, context: &Context, start: usize, end: usize) { if self.length == 0 { return; } debug_assert!(end >= start); if self.rows_drawn.get_max(start, end) == 0 { //debug!("not drawing {}-{}", start, end); return; } //debug!("drawing {}-{}", start, end); for i in start..=end { self.rows_drawn.update(i, 0); } let min_width = ( self.data_columns.columns[0].size().0, self.data_columns.columns[1].size().0, self.data_columns.columns[2].size().0, self.data_columns.columns[3].size().0, self.data_columns.columns[4].size().0, ); let account = &context.accounts[&self.cursor_pos.0]; let threads = account.collection.get_threads(self.cursor_pos.1); for ((idx, (thread_hash, root_env_hash)), strings) in self.rows.iter().skip(start).take(end - start + 1) { let idx = *idx; if !context.accounts[&self.cursor_pos.0].contains_key(*root_env_hash) { //debug!("key = {}", root_env_hash); //debug!( // "name = {} {}", // account[&self.cursor_pos.1].name(), // context.accounts[&self.cursor_pos.0].name() //); //debug!("{:#?}", context.accounts); panic!(); } let thread = threads.thread_ref(*thread_hash); let row_attr = row_attr!( self.color_cache, idx % 2 == 0, thread.unseen() > 0, self.cursor_pos.2 == idx, self.selection[thread_hash] ); let (x, _) = write_string_to_grid( &idx.to_string(), &mut self.data_columns.columns[0], row_attr.fg, row_attr.bg, row_attr.attrs, ((0, idx), (min_width.0, idx)), None, ); for x in x..min_width.0 { self.data_columns.columns[0][(x, idx)] .set_bg(row_attr.bg) .set_attrs(row_attr.attrs); } let (x, _) = write_string_to_grid( &strings.date, &mut self.data_columns.columns[1], row_attr.fg, row_attr.bg, row_attr.attrs, ((0, idx), (min_width.1, idx)), None, ); for x in x..min_width.1 { self.data_columns.columns[1][(x, idx)] .set_bg(row_attr.bg) .set_attrs(row_attr.attrs); } let (x, _) = write_string_to_grid( &strings.from, &mut self.data_columns.columns[2], row_attr.fg, row_attr.bg, row_attr.attrs, ((0, idx), (min_width.2, idx)), None, ); #[cfg(feature = "regexp")] { for text_formatter in crate::conf::text_format_regexps(context, "listing.from") { let t = self.data_columns.columns[2].insert_tag(text_formatter.tag); for (start, end) in text_formatter.regexp.find_iter(strings.from.as_str()) { self.data_columns.columns[2].set_tag(t, (start, idx), (end, idx)); } } } for x in x..min_width.2 { self.data_columns.columns[2][(x, idx)] .set_bg(row_attr.bg) .set_attrs(row_attr.attrs); } let (x, _) = write_string_to_grid( &strings.flag, &mut self.data_columns.columns[3], row_attr.fg, row_attr.bg, row_attr.attrs, ((0, idx), (min_width.3, idx)), None, ); for x in x..min_width.3 { self.data_columns.columns[3][(x, idx)] .set_bg(row_attr.bg) .set_attrs(row_attr.attrs); } let (x, _) = write_string_to_grid( &strings.subject, &mut self.data_columns.columns[4], row_attr.fg, row_attr.bg, row_attr.attrs, ((0, idx), (min_width.4, idx)), None, ); #[cfg(feature = "regexp")] { for text_formatter in crate::conf::text_format_regexps(context, "listing.subject") { let t = self.data_columns.columns[4].insert_tag(text_formatter.tag); for (start, end) in text_formatter.regexp.find_iter(strings.subject.as_str()) { self.data_columns.columns[4].set_tag(t, (start, idx), (end, idx)); } } } let x = { let mut x = x + 1; for (t, &color) in strings.tags.split_whitespace().zip(strings.tags.1.iter()) { let color = color.unwrap_or(self.color_cache.tag_default.bg); let (_x, _) = write_string_to_grid( t, &mut self.data_columns.columns[4], self.color_cache.tag_default.fg, color, self.color_cache.tag_default.attrs, ((x + 1, idx), (min_width.4, idx)), None, ); self.data_columns.columns[4][(x, idx)].set_bg(color); if _x < min_width.4 { self.data_columns.columns[4][(_x, idx)] .set_bg(color) .set_keep_bg(true); } for x in (x + 1).._x { self.data_columns.columns[4][(x, idx)] .set_keep_fg(true) .set_keep_bg(true) .set_keep_attrs(true); } self.data_columns.columns[4][(x, idx)].set_keep_bg(true); x = _x + 1; } x }; for x in x..min_width.4 { self.data_columns.columns[4][(x, idx)] .set_ch(' ') .set_bg(row_attr.bg) .set_attrs(row_attr.attrs); } match (thread.snoozed(), thread.has_attachments()) { (true, true) => { self.data_columns.columns[3][(0, idx)] .set_fg(self.color_cache.attachment_flag.fg); self.data_columns.columns[3][(2, idx)] .set_fg(self.color_cache.thread_snooze_flag.fg); } (true, false) => { self.data_columns.columns[3][(0, idx)] .set_fg(self.color_cache.thread_snooze_flag.fg); } (false, true) => { self.data_columns.columns[3][(0, idx)] .set_fg(self.color_cache.attachment_flag.fg); } (false, false) => {} } } } fn select( &mut self, search_term: &str, results: Result>, context: &mut Context, ) { let account = &context.accounts[&self.cursor_pos.0]; match results { Ok(results) => { let threads = account.collection.get_threads(self.cursor_pos.1); for env_hash in results { if !account.collection.contains_key(&env_hash) { continue; } debug!(account.collection.get_env(env_hash).subject()); let env_thread_node_hash = account.collection.get_env(env_hash).thread(); if !threads.thread_nodes.contains_key(&env_thread_node_hash) { continue; } let thread = threads.find_group(threads.thread_nodes[&env_thread_node_hash].group); if self.all_threads.contains(&thread) { self.selection .entry(thread) .and_modify(|entry| *entry = true); } } } Err(err) => { self.cursor_pos.2 = 0; self.new_cursor_pos.2 = 0; let message = format!( "Encountered an error while searching for `{}`: {}.", search_term, &err ); log(message.clone(), ERROR); context.replies.push_back(UIEvent::Notification( Some("Could not perform search".to_string()), message, Some(crate::types::NotificationType::Error(err.kind)), )); } } } } impl Component for CompactListing { fn draw(&mut self, grid: &mut CellBuffer, area: Area, context: &mut Context) { if !self.unfocused { if !self.is_dirty() { return; } let mut area = area; if !self.filter_term.is_empty() { let (upper_left, bottom_right) = area; let (x, y) = write_string_to_grid( &format!( "{} results for `{}` (Press ESC to exit)", self.filtered_selection.len(), self.filter_term ), grid, self.color_cache.theme_default.fg, self.color_cache.theme_default.bg, self.color_cache.theme_default.attrs, area, Some(get_x(upper_left)), ); let default_cell = { let mut ret = Cell::with_char(' '); ret.set_fg(self.color_cache.theme_default.fg) .set_bg(self.color_cache.theme_default.bg) .set_attrs(self.color_cache.theme_default.attrs); ret }; for row in grid.bounds_iter(((x, y), set_y(bottom_right, y))) { for c in row { grid[c] = default_cell; } } context .dirty_areas .push_back((upper_left, set_y(bottom_right, y + 1))); area = (set_y(upper_left, y + 1), bottom_right); } let (upper_left, bottom_right) = area; let rows = get_y(bottom_right) - get_y(upper_left) + 1; if let Some(modifier) = self.modifier_command.take() { if let Some(mvm) = self.movement.as_ref() { match mvm { PageMovement::Up(amount) => { for c in self.new_cursor_pos.2.saturating_sub(*amount) ..=self.new_cursor_pos.2 { let thread = self.get_thread_under_cursor(c); match modifier { Modifier::SymmetricDifference => { self.selection.entry(thread).and_modify(|e| *e = !*e); } Modifier::Union => { self.selection.entry(thread).and_modify(|e| *e = true); } Modifier::Difference => { self.selection.entry(thread).and_modify(|e| *e = false); } Modifier::Intersection => {} } self.row_updates.push(thread); } if modifier == Modifier::Intersection { for c in (0..self.new_cursor_pos.2.saturating_sub(*amount)) .chain((self.new_cursor_pos.2 + 2)..self.length) { let thread = self.get_thread_under_cursor(c); self.selection.entry(thread).and_modify(|e| *e = false); self.row_updates.push(thread); } } } PageMovement::PageUp(multiplier) => { for c in self.new_cursor_pos.2.saturating_sub(rows * multiplier) ..=self.new_cursor_pos.2 { let thread = self.get_thread_under_cursor(c); match modifier { Modifier::SymmetricDifference => { self.selection.entry(thread).and_modify(|e| *e = !*e); } Modifier::Union => { self.selection.entry(thread).and_modify(|e| *e = true); } Modifier::Difference => { self.selection.entry(thread).and_modify(|e| *e = false); } Modifier::Intersection => {} } self.row_updates.push(thread); } } PageMovement::Down(amount) => { for c in self.new_cursor_pos.2 ..std::cmp::min(self.length, self.new_cursor_pos.2 + amount + 1) { let thread = self.get_thread_under_cursor(c); match modifier { Modifier::SymmetricDifference => { self.selection.entry(thread).and_modify(|e| *e = !*e); } Modifier::Union => { self.selection.entry(thread).and_modify(|e| *e = true); } Modifier::Difference => { self.selection.entry(thread).and_modify(|e| *e = false); } Modifier::Intersection => {} } self.row_updates.push(thread); } if modifier == Modifier::Intersection { for c in (0..self.new_cursor_pos.2).chain( (std::cmp::min(self.length, self.new_cursor_pos.2 + amount + 1) + 1)..self.length, ) { let thread = self.get_thread_under_cursor(c); self.selection.entry(thread).and_modify(|e| *e = false); self.row_updates.push(thread); } } } PageMovement::PageDown(multiplier) => { for c in self.new_cursor_pos.2 ..std::cmp::min( self.new_cursor_pos.2 + rows * multiplier + 1, self.length, ) { let thread = self.get_thread_under_cursor(c); match modifier { Modifier::SymmetricDifference => { self.selection.entry(thread).and_modify(|e| *e = !*e); } Modifier::Union => { self.selection.entry(thread).and_modify(|e| *e = true); } Modifier::Difference => { self.selection.entry(thread).and_modify(|e| *e = false); } Modifier::Intersection => {} } self.row_updates.push(thread); } if modifier == Modifier::Intersection { for c in (0..self.new_cursor_pos.2).chain( (std::cmp::min( self.new_cursor_pos.2 + rows * multiplier + 1, self.length, ) + 1)..self.length, ) { let thread = self.get_thread_under_cursor(c); self.selection.entry(thread).and_modify(|e| *e = false); self.row_updates.push(thread); } } } PageMovement::Right(_) | PageMovement::Left(_) => {} PageMovement::Home => { for c in 0..=self.new_cursor_pos.2 { let thread = self.get_thread_under_cursor(c); match modifier { Modifier::SymmetricDifference => { self.selection.entry(thread).and_modify(|e| *e = !*e); } Modifier::Union => { self.selection.entry(thread).and_modify(|e| *e = true); } Modifier::Difference => { self.selection.entry(thread).and_modify(|e| *e = false); } Modifier::Intersection => {} } self.row_updates.push(thread); } if modifier == Modifier::Intersection { for c in (self.new_cursor_pos.2 + 1)..self.length { let thread = self.get_thread_under_cursor(c); self.selection.entry(thread).and_modify(|e| *e = false); self.row_updates.push(thread); } } } PageMovement::End => { for c in self.new_cursor_pos.2..self.length { let thread = self.get_thread_under_cursor(c); match modifier { Modifier::SymmetricDifference => { self.selection.entry(thread).and_modify(|e| *e = !*e); } Modifier::Union => { self.selection.entry(thread).and_modify(|e| *e = true); } Modifier::Difference => { self.selection.entry(thread).and_modify(|e| *e = false); } Modifier::Intersection => {} } self.row_updates.push(thread); } if modifier == Modifier::Intersection { for c in 0..self.new_cursor_pos.2 { let thread = self.get_thread_under_cursor(c); self.selection.entry(thread).and_modify(|e| *e = false); self.row_updates.push(thread); } } } } } self.force_draw = true; } if !self.row_updates.is_empty() { while let Some(row) = self.row_updates.pop() { self.update_line(context, row); let row: usize = self.order[&row]; let page_no = (self.new_cursor_pos.2).wrapping_div(rows); let top_idx = page_no * rows; if row >= top_idx && row < top_idx + rows { let area = ( set_y(upper_left, get_y(upper_left) + (row % rows)), set_y(bottom_right, get_y(upper_left) + (row % rows)), ); self.highlight_line(grid, area, row, context); context.dirty_areas.push_back(area); } } if self.force_draw { /* Draw the entire list */ self.draw_list(grid, area, context); self.force_draw = false; } } else { /* Draw the entire list */ self.draw_list(grid, area, context); } } else { if self.length == 0 && self.dirty { clear_area(grid, area, self.color_cache.theme_default); context.dirty_areas.push_back(area); return; } self.view.draw(grid, area, context); } self.dirty = false; } fn process_event(&mut self, event: &mut UIEvent, context: &mut Context) -> bool { if self.unfocused && self.view.process_event(event, context) { return true; } let shortcuts = self.get_shortcuts(context); if self.length > 0 { match *event { UIEvent::Input(ref k) if !self.unfocused && shortcut!( k == shortcuts[CompactListing::DESCRIPTION]["open_thread"] ) => { let thread = self.get_thread_under_cursor(self.cursor_pos.2); self.view = ThreadView::new(self.cursor_pos, thread, None, context); self.unfocused = true; self.dirty = true; return true; } UIEvent::Input(ref k) if self.unfocused && shortcut!( k == shortcuts[CompactListing::DESCRIPTION]["exit_thread"] ) => { self.unfocused = false; self.dirty = true; /* If self.row_updates is not empty and we exit a thread, the row_update events * will be performed but the list will not be drawn. So force a draw in any case. * */ self.force_draw = true; return true; } UIEvent::Input(ref key) if !self.unfocused && shortcut!(key == shortcuts[Listing::DESCRIPTION]["select_entry"]) => { if self.modifier_active && self.modifier_command.is_none() { self.modifier_command = Some(Modifier::default()); } else { let thread_hash = self.get_thread_under_cursor(self.cursor_pos.2); self.selection.entry(thread_hash).and_modify(|e| *e = !*e); self.row_updates.push(thread_hash); } return true; } UIEvent::Action(ref action) => { match action { Action::Sort(field, order) if !self.unfocused => { debug!("Sort {:?} , {:?}", field, order); self.sort = (*field, *order); if !self.filtered_selection.is_empty() { // FIXME: perform sort self.dirty = true; } else { self.refresh_mailbox(context, false); } return true; } Action::SubSort(field, order) if !self.unfocused => { debug!("SubSort {:?} , {:?}", field, order); self.subsort = (*field, *order); // FIXME: perform subsort. return true; } Action::Listing(ToggleThreadSnooze) if !self.unfocused => { let thread = self.get_thread_under_cursor(self.cursor_pos.2); let account = &mut context.accounts[&self.cursor_pos.0]; account .collection .threads .write() .unwrap() .entry(self.cursor_pos.1) .and_modify(|threads| { let is_snoozed = threads.thread_ref(thread).snoozed(); threads.thread_ref_mut(thread).set_snoozed(!is_snoozed); }); self.row_updates.push(thread); self.refresh_mailbox(context, false); return true; } _ => {} } } _ => {} } } match *event { UIEvent::MailboxUpdate((ref idxa, ref idxf)) if (*idxa, *idxf) == (self.new_cursor_pos.0, self.cursor_pos.1) => { self.refresh_mailbox(context, false); self.set_dirty(true); } UIEvent::StartupCheck(ref f) if *f == self.cursor_pos.1 => { self.refresh_mailbox(context, false); self.set_dirty(true); } UIEvent::EnvelopeRename(ref old_hash, ref new_hash) => { let account = &context.accounts[&self.cursor_pos.0]; let threads = account.collection.get_threads(self.cursor_pos.1); if !account.collection.contains_key(&new_hash) { return false; } let new_env_thread_node_hash = account.collection.get_env(*new_hash).thread(); if !threads.thread_nodes.contains_key(&new_env_thread_node_hash) { return false; } let thread: ThreadHash = threads.find_group(threads.thread_nodes()[&new_env_thread_node_hash].group); drop(threads); if self.order.contains_key(&thread) { self.row_updates.push(thread); } self.dirty = true; if self.unfocused { self.view .process_event(&mut UIEvent::EnvelopeRename(*old_hash, *new_hash), context); } } UIEvent::EnvelopeRemove(ref _env_hash, ref thread_hash) => { if self.order.contains_key(thread_hash) { self.refresh_mailbox(context, false); self.set_dirty(true); } } UIEvent::EnvelopeUpdate(ref env_hash) => { let account = &context.accounts[&self.cursor_pos.0]; let threads = account.collection.get_threads(self.cursor_pos.1); if !account.collection.contains_key(&env_hash) { return false; } let new_env_thread_node_hash = account.collection.get_env(*env_hash).thread(); if !threads.thread_nodes.contains_key(&new_env_thread_node_hash) { return false; } let thread: ThreadHash = threads.find_group(threads.thread_nodes()[&new_env_thread_node_hash].group); drop(threads); if self.order.contains_key(&thread) { self.row_updates.push(thread); } self.dirty = true; if self.unfocused { self.view .process_event(&mut UIEvent::EnvelopeUpdate(*env_hash), context); } } UIEvent::ChangeMode(UIMode::Normal) => { self.dirty = true; } UIEvent::Resize => { self.dirty = true; } UIEvent::Input(Key::Esc) if !self.unfocused && self.selection.values().cloned().any(std::convert::identity) => { for v in self.selection.values_mut() { *v = false; } self.dirty = true; return true; } UIEvent::Input(Key::Esc) if !self.unfocused && !self.filter_term.is_empty() => { self.set_coordinates((self.new_cursor_pos.0, self.new_cursor_pos.1)); self.refresh_mailbox(context, false); self.set_dirty(true); return true; } UIEvent::Action(Action::Listing(Search(ref filter_term))) if !self.unfocused => { match context.accounts[&self.cursor_pos.0].search( filter_term, self.sort, self.cursor_pos.1, ) { Ok(job) => { let handle = context.accounts[&self.cursor_pos.0] .job_executor .spawn_specialized(job); self.search_job = Some((filter_term.to_string(), handle)); } Err(err) => { context.replies.push_back(UIEvent::Notification( Some("Could not perform search".to_string()), err.to_string(), Some(crate::types::NotificationType::Error(err.kind)), )); } }; self.set_dirty(true); } UIEvent::Action(Action::Listing(Select(ref search_term))) if !self.unfocused => { match context.accounts[&self.cursor_pos.0].search( search_term, self.sort, self.cursor_pos.1, ) { Ok(job) => { let mut handle = context.accounts[&self.cursor_pos.0] .job_executor .spawn_specialized(job); if let Ok(Some(search_result)) = try_recv_timeout!(&mut handle.chan) { self.select(search_term, search_result, context); } else { self.select_job = Some((search_term.to_string(), handle)); } } Err(err) => { context.replies.push_back(UIEvent::Notification( Some("Could not perform search".to_string()), err.to_string(), Some(crate::types::NotificationType::Error(err.kind)), )); } }; self.set_dirty(true); } UIEvent::StatusEvent(StatusEvent::JobFinished(ref job_id)) if self .search_job .as_ref() .map(|(_, j)| j == job_id) .unwrap_or(false) => { let (filter_term, mut handle) = self.search_job.take().unwrap(); let results = handle.chan.try_recv().unwrap().unwrap(); self.filter(filter_term, results, context); self.set_dirty(true); } UIEvent::StatusEvent(StatusEvent::JobFinished(ref job_id)) if self .select_job .as_ref() .map(|(_, j)| j == job_id) .unwrap_or(false) => { let (search_term, mut handle) = self.select_job.take().unwrap(); let results = handle.chan.try_recv().unwrap().unwrap(); self.select(&search_term, results, context); self.set_dirty(true); } _ => {} } false } fn is_dirty(&self) -> bool { self.dirty || if self.unfocused { self.view.is_dirty() } else { false } } fn set_dirty(&mut self, value: bool) { self.dirty = value; if self.unfocused { self.view.set_dirty(value); } } fn get_shortcuts(&self, context: &Context) -> ShortcutMaps { let mut map = if self.unfocused { self.view.get_shortcuts(context) } else { ShortcutMaps::default() }; let config_map = context.settings.shortcuts.compact_listing.key_values(); map.insert(CompactListing::DESCRIPTION, config_map); let config_map = context.settings.shortcuts.listing.key_values(); map.insert(Listing::DESCRIPTION, config_map); map } fn id(&self) -> ComponentId { self.id } fn set_id(&mut self, id: ComponentId) { self.id = id; } }