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/*
* meli - status tab module.
*
* Copyright 2019 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 <http://www.gnu.org/licenses/>.
*/
use super::*;
use std::fmt;
#[derive(Debug)]
pub struct StatusPanel {
cursor: (usize, usize),
account_cursor: usize,
status: Option<AccountStatus>,
content: CellBuffer,
dirty: bool,
id: ComponentId,
}
impl fmt::Display for StatusPanel {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "status")
}
}
impl Component for StatusPanel {
fn draw(&mut self, grid: &mut CellBuffer, area: Area, context: &mut Context) {
if let Some(ref mut status) = self.status {
status.draw(grid, area, context);
return;
}
self.draw_accounts(context);
let (width, height) = self.content.size();
{
let (_, y) = write_string_to_grid(
"Worker threads",
&mut self.content,
Color::Default,
Color::Default,
Attr::Bold,
((1, 1), (width - 1, height - 1)),
true,
);
let mut y = y + 1;
let work_controller = context.work_controller().threads.lock().unwrap();
let mut workers: Vec<&Worker> = work_controller.values().collect::<Vec<&Worker>>();
let mut max_name = 0;
workers.sort_by_key(|w| {
max_name = std::cmp::max(max_name, w.name.len());
w.name.as_str()
});
for worker in workers {
let (x, y_off) = write_string_to_grid(
&format!(
"- {:<max_name$} {}",
worker.name.as_str(),
worker.status.as_str(),
max_name = max_name
),
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((1, y), (width - 1, height - 1)),
true,
);
for x in x..(width - 1) {
self.content[(x, y)].set_ch(' ');
}
y = y_off + 1;
}
write_string_to_grid(
"Static threads",
&mut self.content,
Color::Default,
Color::Default,
Attr::Bold,
((1, y + 1), (width - 1, height - 1)),
true,
);
y += 2;
let work_controller = context.work_controller().static_threads.lock().unwrap();
let mut workers: Vec<&Worker> = work_controller.values().collect::<Vec<&Worker>>();
max_name = 0;
workers.retain(|w| w.name != "WorkController-thread");
workers.sort_by_key(|w| {
max_name = std::cmp::max(max_name, w.name.len());
w.name.as_str()
});
for worker in workers {
let (x, y_off) = write_string_to_grid(
&format!(
"- {:<max_name$} {}",
worker.name.as_str(),
worker.status.as_str(),
max_name = max_name
),
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((1, y), (width - 1, height - 1)),
true,
);
for x in x..(width - 1) {
self.content[(x, y)].set_ch(' ');
}
y = y_off + 1;
}
}
let (cols, rows) = (width!(area), height!(area));
self.cursor = (
std::cmp::min(width.saturating_sub(cols), self.cursor.0),
std::cmp::min(height.saturating_sub(rows), self.cursor.1),
);
clear_area(grid, area);
copy_area(
grid,
&self.content,
area,
(
(
std::cmp::min((width - 1).saturating_sub(cols), self.cursor.0),
std::cmp::min((height - 1).saturating_sub(rows), self.cursor.1),
),
(
std::cmp::min(self.cursor.0 + cols, width - 1),
std::cmp::min(self.cursor.1 + rows, height - 1),
),
),
);
context.dirty_areas.push_back(area);
}
fn process_event(&mut self, event: &mut UIEvent, context: &mut Context) -> bool {
if let Some(ref mut status) = self.status {
if status.process_event(event, context) {
return true;
}
}
match *event {
UIEvent::Input(Key::Char('k')) => {
self.account_cursor = self.account_cursor.saturating_sub(1);
self.dirty = true;
return true;
}
UIEvent::Input(Key::Char('j')) => {
if self.account_cursor + 1 < context.accounts.len() {
self.account_cursor += 1;
self.dirty = true;
}
return true;
}
UIEvent::Input(Key::Char('\n')) if self.status.is_none() => {
self.status = Some(AccountStatus::new(self.account_cursor));
return true;
}
UIEvent::Input(Key::Esc) if self.status.is_some() => {
self.status = None;
return true;
}
UIEvent::Input(Key::Left) => {
self.cursor.0 = self.cursor.0.saturating_sub(1);
self.dirty = true;
return true;
}
UIEvent::Input(Key::Right) => {
self.cursor.0 = self.cursor.0 + 1;
self.dirty = true;
return true;
}
UIEvent::Input(Key::Up) => {
self.cursor.1 = self.cursor.1.saturating_sub(1);
self.dirty = true;
return true;
}
UIEvent::Input(Key::Down) => {
self.cursor.1 = self.cursor.1 + 1;
self.dirty = true;
return true;
}
UIEvent::MailboxUpdate(_) => {
self.dirty = true;
}
_ => {}
}
false
}
fn is_dirty(&self) -> bool {
self.dirty || self.status.as_ref().map(|s| s.is_dirty()).unwrap_or(false)
}
fn set_dirty(&mut self) {
self.dirty = true;
if let Some(ref mut status) = self.status {
status.set_dirty();
}
}
fn id(&self) -> ComponentId {
self.id
}
fn set_id(&mut self, id: ComponentId) {
self.id = id;
}
}
impl StatusPanel {
pub fn new() -> StatusPanel {
let content = CellBuffer::new(120, 40, Cell::default());
StatusPanel {
cursor: (0, 0),
account_cursor: 0,
content,
status: None,
dirty: true,
id: ComponentId::new_v4(),
}
}
fn draw_accounts(&mut self, context: &Context) {
self.content
.resize(120, 40 + context.accounts.len() * 20, Cell::default());
write_string_to_grid(
"Accounts",
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((2, 10), (120 - 1, 10)),
true,
);
for (i, a) in context.accounts.iter().enumerate() {
for x in 2..(120 - 1) {
set_and_join_box(&mut self.content, (x, 12 + i * 10), HORZ_BOUNDARY);
}
//create_box(&mut self.content, ((2, 5 + i * 10), (120 - 1, 15 + i * 10)));
let (x, y) = write_string_to_grid(
a.name(),
&mut self.content,
Color::Default,
Color::Default,
Attr::Bold,
((3, 12 + i * 10), (120 - 2, 12 + i * 10)),
true,
);
write_string_to_grid(
" ▒██▒ ",
&mut self.content,
Color::Byte(32),
Color::Default,
Attr::Default,
((x, y), (120 - 2, 12 + i * 10)),
true,
);
write_string_to_grid(
&a.runtime_settings.account().identity,
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((4, y + 2), (120 - 2, y + 2)),
true,
);
if i == self.account_cursor {
for h in 1..8 {
self.content[(2, h + y + 1)].set_ch('*');
}
} else {
for h in 1..8 {
self.content[(2, h + y + 1)].set_ch(' ');
}
}
let (mut column_width, _) = write_string_to_grid(
&format!(
"Messages total {}, unseen {}",
a.collection.len(),
a.collection
.envelopes
.read()
.unwrap()
.values()
.filter(|e| !e.is_seen())
.count()
),
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((5, y + 3), (120 - 2, y + 3)),
true,
);
column_width = std::cmp::max(
column_width,
write_string_to_grid(
&format!("Contacts total {}", a.address_book.len()),
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((5, y + 4), (120 - 2, y + 4)),
true,
)
.0,
);
column_width = std::cmp::max(
column_width,
write_string_to_grid(
&format!("Backend {}", a.settings.account().format()),
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((5, y + 5), (120 - 2, y + 5)),
true,
)
.0,
);
/* next column */
write_string_to_grid(
&format!(
"Messages total {}, unseen {}",
a.collection.len(),
a.collection
.envelopes
.read()
.unwrap()
.values()
.filter(|e| !e.is_seen())
.count()
),
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((5 + column_width, y + 2), (120 - 2, y + 2)),
true,
);
}
}
}
impl Component for AccountStatus {
fn draw(&mut self, grid: &mut CellBuffer, area: Area, context: &mut Context) {
if !self.dirty {
return;
}
self.dirty = false;
let (width, height) = self.content.size();
let a = &context.accounts[self.account_pos];
if a.settings.account().format() == "imap" {
let backend_lck = a.backend.read().unwrap();
let b = (*backend_lck).as_any();
if let Some(imap_backend) = b.downcast_ref::<melib::backends::ImapType>() {
write_string_to_grid(
"Server Capabilities:",
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((1, 1), (width - 1, height - 1)),
true,
);
let mut capabilities = imap_backend.capabilities();
let max_name_width = std::cmp::max(
"Server Capabilities:".len(),
capabilities.iter().map(String::len).max().unwrap_or(0),
);
write_string_to_grid(
"meli support:",
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((max_name_width + 6, 1), (width - 1, height - 1)),
true,
);
capabilities.sort();
for (i, cap) in capabilities.into_iter().enumerate() {
let (width, height) = self.content.size();
write_string_to_grid(
&cap,
&mut self.content,
Color::Default,
Color::Default,
Attr::Default,
((1, 2 + i), (width - 1, height - 1)),
true,
);
let (width, height) = self.content.size();
if melib::backends::imap::SUPPORTED_CAPABILITIES.contains(&cap.as_str()) {
write_string_to_grid(
"supported",
&mut self.content,
Color::Green,
Color::Default,
Attr::Default,
((max_name_width + 6, 2 + i), (width - 1, height - 1)),
true,
);
} else {
write_string_to_grid(
"not supported",
&mut self.content,
Color::Red,
Color::Default,
Attr::Default,
((max_name_width + 6, 2 + i), (width - 1, height - 1)),
true,
);
}
}
}
}
/* self.content may have been resized with write_string_to_grid() calls above since it has
* growable set */
let (width, height) = self.content.size();
let (cols, rows) = (width!(area), height!(area));
self.cursor = (
std::cmp::min(width.saturating_sub(cols), self.cursor.0),
std::cmp::min(height.saturating_sub(rows), self.cursor.1),
);
clear_area(grid, area);
copy_area(
grid,
&self.content,
area,
(
(
std::cmp::min((width - 1).saturating_sub(cols), self.cursor.0),
std::cmp::min((height - 1).saturating_sub(rows), self.cursor.1),
),
(
std::cmp::min(self.cursor.0 + cols, width - 1),
std::cmp::min(self.cursor.1 + rows, height - 1),
),
),
);
context.dirty_areas.push_back(area);
}
fn process_event(&mut self, event: &mut UIEvent, _context: &mut Context) -> bool {
match *event {
UIEvent::Resize => {
self.dirty = true;
}
UIEvent::Input(Key::Left) => {
self.cursor.0 = self.cursor.0.saturating_sub(1);
self.dirty = true;
return true;
}
UIEvent::Input(Key::Right) => {
self.cursor.0 = self.cursor.0 + 1;
self.dirty = true;
return true;
}
UIEvent::Input(Key::Up) => {
self.cursor.1 = self.cursor.1.saturating_sub(1);
self.dirty = true;
return true;
}
UIEvent::Input(Key::Down) => {
self.cursor.1 = self.cursor.1 + 1;
self.dirty = true;
return true;
}
_ => {}
}
false
}
fn is_dirty(&self) -> bool {
self.dirty
}
fn set_dirty(&mut self) {
self.dirty = true;
}
fn id(&self) -> ComponentId {
self.id
}
fn set_id(&mut self, id: ComponentId) {
self.id = id;
}
}
impl AccountStatus {
pub fn new(account_pos: usize) -> AccountStatus {
let mut content = CellBuffer::new(120, 5, Cell::default());
content.set_growable(true);
AccountStatus {
cursor: (0, 0),
account_pos,
content,
dirty: true,
id: ComponentId::new_v4(),
}
}
}
#[derive(Debug)]
struct AccountStatus {
cursor: (usize, usize),
account_pos: usize,
content: CellBuffer,
dirty: bool,
id: ComponentId,
}
impl fmt::Display for AccountStatus {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "status")
}
}