use crossterm::event::{ Event as TermEvent, KeyCode as TermKeyCode, KeyModifiers, MouseButton, MouseEventKind, }; use dioxus_core::*; use fxhash::{FxHashMap, FxHashSet}; use dioxus_html::{on::*, KeyCode}; use std::{ any::Any, cell::{RefCell, RefMut}, rc::Rc, sync::Arc, time::{Duration, Instant}, }; use stretch2::{prelude::Layout, Stretch}; use crate::FocusState; use crate::{Dom, Node}; // a wrapper around the input state for easier access // todo: fix loop // pub struct InputState(Rc>>); // impl InputState { // pub fn get(cx: &ScopeState) -> InputState { // let inner = cx // .consume_context::>>() // .expect("Rink InputState can only be used in Rink apps!"); // (**inner).borrow_mut().subscribe(cx.schedule_update()); // InputState(inner) // } // pub fn mouse(&self) -> Option { // let data = (**self.0).borrow(); // data.mouse.as_ref().map(|m| m.clone()) // } // pub fn wheel(&self) -> Option { // let data = (**self.0).borrow(); // data.wheel.as_ref().map(|w| w.clone()) // } // pub fn screen(&self) -> Option<(u16, u16)> { // let data = (**self.0).borrow(); // data.screen.as_ref().map(|m| m.clone()) // } // pub fn last_key_pressed(&self) -> Option { // let data = (**self.0).borrow(); // data.last_key_pressed // .as_ref() // .map(|k| &k.0.clone()) // } // } type EventCore = (&'static str, EventData); #[derive(Debug)] enum EventData { Mouse(MouseData), Wheel(WheelData), Screen((u16, u16)), Keyboard(KeyboardData), } impl EventData { fn into_any(self) -> Arc { match self { Self::Mouse(m) => Arc::new(m), Self::Wheel(w) => Arc::new(w), Self::Screen(s) => Arc::new(s), Self::Keyboard(k) => Arc::new(k), } } } const MAX_REPEAT_TIME: Duration = Duration::from_millis(100); pub struct InnerInputState { mouse: Option<(MouseData, Vec)>, wheel: Option, last_key_pressed: Option<(KeyboardData, Instant)>, screen: Option<(u16, u16)>, pub(crate) focus_state: FocusState, // subscribers: Vec>, } impl InnerInputState { fn new() -> Self { Self { mouse: None, wheel: None, last_key_pressed: None, screen: None, // subscribers: Vec::new(), focus_state: FocusState::default(), } } // stores current input state and transforms events based on that state fn apply_event(&mut self, evt: &mut EventCore) { match evt.1 { // limitations: only two buttons may be held at once EventData::Mouse(ref mut m) => { match &mut self.mouse { Some(state) => { let mut buttons = state.0.buttons; state.0 = m.clone(); match evt.0 { // this code only runs when there are no buttons down "mouseup" => { buttons = 0; state.1 = Vec::new(); } "mousedown" => { if state.1.contains(&m.buttons) { // if we already pressed a button and there is another button released the button crossterm sends is the button remaining if state.1.len() > 1 { evt.0 = "mouseup"; state.1 = vec![m.buttons]; } // otherwise some other button was pressed. In testing it was consistantly this mapping else { match m.buttons { 0x01 => state.1.push(0x02), 0x02 => state.1.push(0x01), 0x04 => state.1.push(0x01), _ => (), } } } else { state.1.push(m.buttons); } buttons = state.1.iter().copied().reduce(|a, b| a | b).unwrap(); } _ => (), } state.0.buttons = buttons; m.buttons = buttons; } None => { self.mouse = Some(( m.clone(), if m.buttons == 0 { Vec::new() } else { vec![m.buttons] }, )); } } } EventData::Wheel(ref w) => self.wheel = Some(w.clone()), EventData::Screen(ref s) => self.screen = Some(*s), EventData::Keyboard(ref mut k) => { let repeat = self .last_key_pressed .as_ref() .filter(|k2| k2.0.key == k.key && k2.1.elapsed() < MAX_REPEAT_TIME) .is_some(); k.repeat = repeat; let new = k.clone(); self.last_key_pressed = Some((new, Instant::now())); } } } fn update( &mut self, evts: &mut Vec, resolved_events: &mut Vec, layout: &Stretch, dom: &mut Dom, ) { let previous_mouse = self.mouse.as_ref().map(|m| (m.0.clone(), m.1.clone())); self.wheel = None; evts.retain(|e| match &e.1 { EventData::Keyboard(k) => match k.key_code { KeyCode::Tab => !self.focus_state.progress(dom, !k.shift_key), _ => true, }, _ => true, }); for e in evts.iter_mut() { self.apply_event(e); } self.resolve_mouse_events(previous_mouse, resolved_events, layout, dom); // for s in &self.subscribers { // s(); // } } fn resolve_mouse_events( &mut self, previous_mouse: Option<(MouseData, Vec)>, resolved_events: &mut Vec, layout: &Stretch, dom: &mut Dom, ) { struct Data<'b> { new_pos: (i32, i32), old_pos: Option<(i32, i32)>, clicked: bool, released: bool, wheel_delta: f64, mouse_data: &'b MouseData, wheel_data: &'b Option, } fn layout_contains_point(layout: &Layout, point: (i32, i32)) -> bool { layout.location.x as i32 <= point.0 && layout.location.x as i32 + layout.size.width as i32 >= point.0 && layout.location.y as i32 <= point.1 && layout.location.y as i32 + layout.size.height as i32 >= point.1 } fn try_create_event( name: &'static str, data: Arc, will_bubble: &mut FxHashSet, resolved_events: &mut Vec, node: &Node, dom: &Dom, ) { // only trigger event if the event was not triggered already by a child if will_bubble.insert(node.id) { let mut parent = node.parent; while let Some(parent_id) = parent { will_bubble.insert(parent_id); parent = dom[parent_id.0].parent; } resolved_events.push(UserEvent { scope_id: None, priority: EventPriority::Medium, name, element: Some(node.id), data, }) } } if let Some(mouse) = &self.mouse { let new_pos = (mouse.0.screen_x, mouse.0.screen_y); let old_pos = previous_mouse .as_ref() .map(|m| (m.0.screen_x, m.0.screen_y)); let clicked = (!mouse.0.buttons & previous_mouse.as_ref().map(|m| m.0.buttons).unwrap_or(0)) > 0; let released = (mouse.0.buttons & !previous_mouse.map(|m| m.0.buttons).unwrap_or(0)) > 0; let wheel_delta = self.wheel.as_ref().map_or(0.0, |w| w.delta_y); let mouse_data = &mouse.0; let wheel_data = &self.wheel; let data = Data { new_pos, old_pos, clicked, released, wheel_delta, mouse_data, wheel_data, }; { // mousemove let mut will_bubble = FxHashSet::default(); for node in dom.get_listening_sorted("mousemove") { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let previously_contained = data .old_pos .filter(|pos| layout_contains_point(node_layout, *pos)) .is_some(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if currently_contains && previously_contained { try_create_event( "mousemove", Arc::new(data.mouse_data.clone()), &mut will_bubble, resolved_events, node, dom, ); } } } { // mouseenter let mut will_bubble = FxHashSet::default(); for node in dom.get_listening_sorted("mouseenter") { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let previously_contained = data .old_pos .filter(|pos| layout_contains_point(node_layout, *pos)) .is_some(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if currently_contains && !previously_contained { try_create_event( "mouseenter", Arc::new(data.mouse_data.clone()), &mut will_bubble, resolved_events, node, dom, ); } } } { // mouseover let mut will_bubble = FxHashSet::default(); for node in dom.get_listening_sorted("mouseover") { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let previously_contained = data .old_pos .filter(|pos| layout_contains_point(node_layout, *pos)) .is_some(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if currently_contains && !previously_contained { try_create_event( "mouseover", Arc::new(data.mouse_data.clone()), &mut will_bubble, resolved_events, node, dom, ); } } } // mousedown if data.clicked { let mut will_bubble = FxHashSet::default(); for node in dom.get_listening_sorted("mousedown") { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if currently_contains { try_create_event( "mousedown", Arc::new(data.mouse_data.clone()), &mut will_bubble, resolved_events, node, dom, ); } } } // mouseup if data.released { let mut will_bubble = FxHashSet::default(); for node in dom.get_listening_sorted("mouseup") { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if currently_contains { try_create_event( "mouseup", Arc::new(data.mouse_data.clone()), &mut will_bubble, resolved_events, node, dom, ); } } } // click if data.released && data.mouse_data.button == 0 { let mut will_bubble = FxHashSet::default(); for node in dom.get_listening_sorted("click") { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if currently_contains { try_create_event( "click", Arc::new(data.mouse_data.clone()), &mut will_bubble, resolved_events, node, dom, ); } } } // contextmenu if data.released && data.mouse_data.button == 2 { let mut will_bubble = FxHashSet::default(); for node in dom.get_listening_sorted("contextmenu") { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if currently_contains { try_create_event( "contextmenu", Arc::new(data.mouse_data.clone()), &mut will_bubble, resolved_events, node, dom, ); } } } // wheel if let Some(w) = data.wheel_data { if data.wheel_delta != 0.0 { let mut will_bubble = FxHashSet::default(); for node in dom.get_listening_sorted("wheel") { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if currently_contains { try_create_event( "wheel", Arc::new(w.clone()), &mut will_bubble, resolved_events, node, dom, ); } } } } { // mouseleave let mut will_bubble = FxHashSet::default(); for node in dom.get_listening_sorted("mouseleave") { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let previously_contained = data .old_pos .filter(|pos| layout_contains_point(node_layout, *pos)) .is_some(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if !currently_contains && previously_contained { try_create_event( "mouseleave", Arc::new(data.mouse_data.clone()), &mut will_bubble, resolved_events, node, dom, ); } } } { // mouseout let mut will_bubble = FxHashSet::default(); for node in dom.get_listening_sorted("mouseout") { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let previously_contained = data .old_pos .filter(|pos| layout_contains_point(node_layout, *pos)) .is_some(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if !currently_contains && previously_contained { try_create_event( "mouseout", Arc::new(data.mouse_data.clone()), &mut will_bubble, resolved_events, node, dom, ); } } } // update focus if data.released { let mut focus_id = None; dom.traverse_depth_first(|node| { let node_layout = layout.layout(node.state.layout.node.unwrap()).unwrap(); let currently_contains = layout_contains_point(node_layout, data.new_pos); if currently_contains { if node.state.focus.level.focusable() { focus_id = Some(node.id); } } }); if let Some(id) = focus_id { self.focus_state.set_focus(dom, id); } } } } // fn subscribe(&mut self, f: Rc) { // self.subscribers.push(f) // } } pub struct RinkInputHandler { state: Rc>, queued_events: Rc>>, } impl RinkInputHandler { /// global context that handles events /// limitations: GUI key modifier is never detected, key up events are not detected, and only two mouse buttons may be pressed at once pub fn new() -> ( Self, Rc>, impl FnMut(crossterm::event::Event), ) { let queued_events = Rc::new(RefCell::new(Vec::new())); let queued_events2 = Rc::downgrade(&queued_events); let regester_event = move |evt: crossterm::event::Event| { if let Some(evt) = get_event(evt) { if let Some(v) = queued_events2.upgrade() { (*v).borrow_mut().push(evt); } } }; let state = Rc::new(RefCell::new(InnerInputState::new())); ( Self { state: state.clone(), queued_events, }, state, regester_event, ) } pub(crate) fn prune(&self, mutations: &dioxus_core::Mutations, rdom: &Dom) { self.state.borrow_mut().focus_state.prune(mutations, rdom); } // returns a list of events and if a event will force a rerender pub(crate) fn get_events(&self, layout: &Stretch, dom: &mut Dom) -> Vec { let mut resolved_events = Vec::new(); (*self.state).borrow_mut().update( &mut (*self.queued_events).borrow_mut(), &mut resolved_events, layout, dom, ); let events = self .queued_events .replace(Vec::new()) .into_iter() // these events were added in the update stage .filter(|e| { ![ "mouseenter", "mouseover", "mouseleave", "mouseout", "mousedown", "mouseup", "mousemove", "drag", "wheel", "click", "contextmenu", ] .contains(&e.0) }) .map(|evt| (evt.0, evt.1.into_any())); let mut hm: FxHashMap<&'static str, Vec>> = FxHashMap::default(); for (event, data) in events { if let Some(v) = hm.get_mut(event) { v.push(data); } else { hm.insert(event, vec![data]); } } for (event, datas) in hm { for node in dom.get_listening_sorted(event) { for data in &datas { if node.state.focused { resolved_events.push(UserEvent { scope_id: None, priority: EventPriority::Medium, name: event, element: Some(node.id), data: data.clone(), }); } } } } resolved_events } pub(crate) fn state(&self) -> RefMut { self.state.borrow_mut() } } // translate crossterm events into dioxus events fn get_event(evt: TermEvent) -> Option<(&'static str, EventData)> { let (name, data): (&str, EventData) = match evt { TermEvent::Key(k) => ("keydown", translate_key_event(k)?), TermEvent::Mouse(m) => { let (x, y) = (m.column.into(), m.row.into()); let alt = m.modifiers.contains(KeyModifiers::ALT); let shift = m.modifiers.contains(KeyModifiers::SHIFT); let ctrl = m.modifiers.contains(KeyModifiers::CONTROL); let meta = false; let get_mouse_data = |b| { let buttons = match b { None => 0, Some(MouseButton::Left) => 1, Some(MouseButton::Right) => 2, Some(MouseButton::Middle) => 4, }; let button_state = match b { None => 0, Some(MouseButton::Left) => 0, Some(MouseButton::Middle) => 1, Some(MouseButton::Right) => 2, }; // from https://developer.mozilla.org/en-US/docs/Web/API/MouseEvent EventData::Mouse(MouseData { alt_key: alt, button: button_state, buttons, client_x: x, client_y: y, ctrl_key: ctrl, meta_key: meta, page_x: x, page_y: y, screen_x: x, screen_y: y, shift_key: shift, }) }; let get_wheel_data = |up| { // from https://developer.mozilla.org/en-US/docs/Web/API/WheelEvent EventData::Wheel(WheelData { delta_mode: 0x01, delta_x: 0.0, delta_y: if up { -1.0 } else { 1.0 }, delta_z: 0.0, }) }; match m.kind { MouseEventKind::Down(b) => ("mousedown", get_mouse_data(Some(b))), MouseEventKind::Up(b) => ("mouseup", get_mouse_data(Some(b))), MouseEventKind::Drag(b) => ("drag", get_mouse_data(Some(b))), MouseEventKind::Moved => ("mousemove", get_mouse_data(None)), MouseEventKind::ScrollDown => ("wheel", get_wheel_data(false)), MouseEventKind::ScrollUp => ("wheel", get_wheel_data(true)), } } TermEvent::Resize(x, y) => ("resize", EventData::Screen((x, y))), }; Some((name, data)) } fn translate_key_event(event: crossterm::event::KeyEvent) -> Option { let (code, key_str); if let TermKeyCode::Char(c) = event.code { code = match c { 'A'..='Z' | 'a'..='z' => match c.to_ascii_uppercase() { 'A' => KeyCode::A, 'B' => KeyCode::B, 'C' => KeyCode::C, 'D' => KeyCode::D, 'E' => KeyCode::E, 'F' => KeyCode::F, 'G' => KeyCode::G, 'H' => KeyCode::H, 'I' => KeyCode::I, 'J' => KeyCode::J, 'K' => KeyCode::K, 'L' => KeyCode::L, 'M' => KeyCode::M, 'N' => KeyCode::N, 'O' => KeyCode::O, 'P' => KeyCode::P, 'Q' => KeyCode::Q, 'R' => KeyCode::R, 'S' => KeyCode::S, 'T' => KeyCode::T, 'U' => KeyCode::U, 'V' => KeyCode::V, 'W' => KeyCode::W, 'X' => KeyCode::X, 'Y' => KeyCode::Y, 'Z' => KeyCode::Z, _ => return None, }, ' ' => KeyCode::Space, '[' => KeyCode::OpenBracket, '{' => KeyCode::OpenBracket, ']' => KeyCode::CloseBraket, '}' => KeyCode::CloseBraket, ';' => KeyCode::Semicolon, ':' => KeyCode::Semicolon, ',' => KeyCode::Comma, '<' => KeyCode::Comma, '.' => KeyCode::Period, '>' => KeyCode::Period, '1' => KeyCode::Num1, '2' => KeyCode::Num2, '3' => KeyCode::Num3, '4' => KeyCode::Num4, '5' => KeyCode::Num5, '6' => KeyCode::Num6, '7' => KeyCode::Num7, '8' => KeyCode::Num8, '9' => KeyCode::Num9, '0' => KeyCode::Num0, '!' => KeyCode::Num1, '@' => KeyCode::Num2, '#' => KeyCode::Num3, '$' => KeyCode::Num4, '%' => KeyCode::Num5, '^' => KeyCode::Num6, '&' => KeyCode::Num7, '*' => KeyCode::Num8, '(' => KeyCode::Num9, ')' => KeyCode::Num0, // numpad charicter are ambiguous to tui // '*' => KeyCode::Multiply, // '/' => KeyCode::Divide, // '-' => KeyCode::Subtract, // '+' => KeyCode::Add, '+' => KeyCode::EqualSign, '-' => KeyCode::Dash, '_' => KeyCode::Dash, '\'' => KeyCode::SingleQuote, '"' => KeyCode::SingleQuote, '\\' => KeyCode::BackSlash, '|' => KeyCode::BackSlash, '/' => KeyCode::ForwardSlash, '?' => KeyCode::ForwardSlash, '=' => KeyCode::EqualSign, '`' => KeyCode::GraveAccent, '~' => KeyCode::GraveAccent, _ => return None, }; key_str = c.to_string(); } else { code = match event.code { TermKeyCode::Esc => KeyCode::Escape, TermKeyCode::Backspace => KeyCode::Backspace, TermKeyCode::Enter => KeyCode::Enter, TermKeyCode::Left => KeyCode::LeftArrow, TermKeyCode::Right => KeyCode::RightArrow, TermKeyCode::Up => KeyCode::UpArrow, TermKeyCode::Down => KeyCode::DownArrow, TermKeyCode::Home => KeyCode::Home, TermKeyCode::End => KeyCode::End, TermKeyCode::PageUp => KeyCode::PageUp, TermKeyCode::PageDown => KeyCode::PageDown, TermKeyCode::Tab => KeyCode::Tab, TermKeyCode::Delete => KeyCode::Delete, TermKeyCode::Insert => KeyCode::Insert, TermKeyCode::F(fn_num) => match fn_num { 1 => KeyCode::F1, 2 => KeyCode::F2, 3 => KeyCode::F3, 4 => KeyCode::F4, 5 => KeyCode::F5, 6 => KeyCode::F6, 7 => KeyCode::F7, 8 => KeyCode::F8, 9 => KeyCode::F9, 10 => KeyCode::F10, 11 => KeyCode::F11, 12 => KeyCode::F12, _ => return None, }, TermKeyCode::BackTab => KeyCode::Tab, TermKeyCode::Null => return None, _ => return None, }; key_str = if let KeyCode::BackSlash = code { "\\".to_string() } else { format!("{code:?}") } }; // from https://developer.mozilla.org/en-US/docs/Web/API/KeyboardEvent Some(EventData::Keyboard(KeyboardData { char_code: code.raw_code(), key: key_str, key_code: code, alt_key: event.modifiers.contains(KeyModifiers::ALT), ctrl_key: event.modifiers.contains(KeyModifiers::CONTROL), meta_key: false, shift_key: event.modifiers.contains(KeyModifiers::SHIFT), locale: Default::default(), location: 0x00, repeat: Default::default(), which: Default::default(), })) }