veloren/voxygen/src/window.rs

998 lines
38 KiB
Rust
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use crate::{
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controller::*,
render::{Renderer, WinColorFmt, WinDepthFmt},
settings::Settings,
ui, Error,
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};
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use gilrs::{EventType, Gilrs};
use hashbrown::HashMap;
use log::{error, warn};
use serde_derive::{Deserialize, Serialize};
use std::fmt;
use vek::*;
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/// Represents a key that the game recognises after input mapping.
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash, Deserialize, Serialize)]
pub enum GameInput {
Primary,
Secondary,
ToggleCursor,
MoveForward,
MoveBack,
MoveLeft,
MoveRight,
Jump,
Sit,
Glide,
Climb,
ClimbDown,
WallLeap,
Mount,
Enter,
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Command,
Escape,
Map,
Bag,
QuestLog,
CharacterWindow,
Social,
Spellbook,
Settings,
ToggleInterface,
Help,
ToggleDebug,
Fullscreen,
Screenshot,
ToggleIngameUi,
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Roll,
Respawn,
Interact,
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ToggleWield,
Charge,
}
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/// Represents a key that the game menus recognise after input mapping
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash, Deserialize, Serialize)]
pub enum MenuInput {
Up,
Down,
Left,
Right,
ScrollUp,
ScrollDown,
ScrollLeft,
ScrollRight,
Home,
End,
Apply,
Back,
Exit,
}
#[derive(Clone, Debug, PartialEq, Deserialize, Serialize)]
pub enum AnalogMenuInput {
MoveX(f32),
MoveY(f32),
ScrollX(f32),
ScrollY(f32),
}
#[derive(Clone, Debug, PartialEq, Deserialize, Serialize)]
pub enum AnalogGameInput {
MovementX(f32),
MovementY(f32),
CameraX(f32),
CameraY(f32),
}
/// Represents an incoming event from the window.
#[derive(Clone)]
pub enum Event {
/// The window has been requested to close.
Close,
/// The window has been resized.
Resize(Vec2<u32>),
/// A key has been typed that corresponds to a specific character.
Char(char),
/// The cursor has been panned across the screen while grabbed.
CursorPan(Vec2<f32>),
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/// The cursor has been moved across the screen while ungrabbed.
CursorMove(Vec2<f32>),
/// A mouse button has been pressed or released
MouseButton(MouseButton, PressState),
/// The camera has been requested to zoom.
Zoom(f32),
/// A key that the game recognises has been pressed or released.
InputUpdate(GameInput, bool),
/// Event that the ui uses.
Ui(ui::Event),
/// The view distance has changed.
ViewDistanceChanged(u32),
/// Game settings have changed.
SettingsChanged,
/// The window is (un)focused
Focused(bool),
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/// A key that the game recognises for menu navigation has been pressed or
/// released
MenuInput(MenuInput, bool),
/// Update of the analog inputs recognized by the menus
AnalogMenuInput(AnalogMenuInput),
/// Update of the analog inputs recognized by the game
AnalogGameInput(AnalogGameInput),
}
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pub type MouseButton = winit::MouseButton;
pub type PressState = winit::ElementState;
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash, Deserialize, Serialize)]
pub enum KeyMouse {
Key(glutin::VirtualKeyCode),
Mouse(glutin::MouseButton),
}
impl fmt::Display for KeyMouse {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
use self::KeyMouse::*;
use glutin::{MouseButton, VirtualKeyCode::*};
write!(f, "{}", match self {
Key(Key1) => "1",
Key(Key2) => "2",
Key(Key3) => "3",
Key(Key4) => "4",
Key(Key5) => "5",
Key(Key6) => "6",
Key(Key7) => "7",
Key(Key8) => "8",
Key(Key9) => "9",
Key(Key0) => "0",
Key(A) => "A",
Key(B) => "B",
Key(C) => "C",
Key(D) => "D",
Key(E) => "E",
Key(F) => "F",
Key(G) => "G",
Key(H) => "H",
Key(I) => "I",
Key(J) => "J",
Key(K) => "K",
Key(L) => "L",
Key(M) => "M",
Key(N) => "N",
Key(O) => "O",
Key(P) => "P",
Key(Q) => "Q",
Key(R) => "R",
Key(S) => "S",
Key(T) => "T",
Key(U) => "U",
Key(V) => "V",
Key(W) => "W",
Key(X) => "X",
Key(Y) => "Y",
Key(Z) => "Z",
Key(Escape) => "ESC",
Key(F1) => "F1",
Key(F2) => "F2",
Key(F3) => "F3",
Key(F4) => "F4",
Key(F5) => "F5",
Key(F6) => "F6",
Key(F7) => "F7",
Key(F8) => "F8",
Key(F9) => "F9",
Key(F10) => "F10",
Key(F11) => "F11",
Key(F12) => "F12",
Key(F13) => "F13",
Key(F14) => "F14",
Key(F15) => "F15",
Key(F16) => "F16",
Key(F17) => "F17",
Key(F18) => "F18",
Key(F19) => "F19",
Key(F20) => "F20",
Key(F21) => "F21",
Key(F22) => "F22",
Key(F23) => "F23",
Key(F24) => "F24",
Key(Snapshot) => "Print Screen",
Key(Scroll) => "Scroll Lock",
Key(Pause) => "Pause/Break",
Key(Insert) => "Insert",
Key(Home) => "Home",
Key(Delete) => "Delete",
Key(End) => "End",
Key(PageDown) => "PageDown",
Key(PageUp) => "PageUp",
Key(Left) => "Left Arrow",
Key(Up) => "Up Arrow",
Key(Right) => "Right Arrow",
Key(Down) => "Down Arrow",
Key(Back) => "Backspace",
Key(Return) => "Enter",
Key(Space) => "Space",
Key(Compose) => "Compose",
Key(Caret) => "^",
Key(Numlock) => "Numlock",
Key(Numpad0) => "Numpad 0",
Key(Numpad1) => "Numpad 1",
Key(Numpad2) => "Numpad 2",
Key(Numpad3) => "Numpad 3",
Key(Numpad4) => "Numpad 4",
Key(Numpad5) => "Numpad 5",
Key(Numpad6) => "Numpad 6",
Key(Numpad7) => "Numpad 7",
Key(Numpad8) => "Numpad 8",
Key(Numpad9) => "Numpad 9",
Key(AbntC1) => "Abnt C1",
Key(AbntC2) => "Abnt C2",
Key(Add) => "Numpad +",
Key(Apostrophe) => "'",
Key(Apps) => "Context Menu",
Key(At) => "@",
Key(Ax) => "Ax",
Key(Backslash) => "\\",
Key(Calculator) => "Calculator",
Key(Capital) => "Caps Lock",
Key(Colon) => ":",
Key(Comma) => ",",
Key(Convert) => "Convert",
Key(Decimal) => "Numpad .",
Key(Divide) => "Numpad /",
Key(Equals) => "=",
Key(Grave) => "`",
Key(Kana) => "Kana",
Key(Kanji) => "Kanji",
Key(LAlt) => "LAlt",
Key(LBracket) => "[",
Key(LControl) => "LControl",
Key(LShift) => "LShift",
Key(LWin) => "LWin",
Key(Mail) => "Mail",
Key(MediaSelect) => "MediaSelect",
Key(MediaStop) => "MediaStop",
Key(Minus) => "-",
Key(Multiply) => "Numpad *",
Key(Mute) => "Mute",
Key(MyComputer) => "My Computer",
Key(NavigateForward) => "Navigate Forward",
Key(NavigateBackward) => "Navigate Backward",
Key(NextTrack) => "Next Track",
Key(NoConvert) => "Non Convert",
Key(NumpadComma) => "Numpad ,",
Key(NumpadEnter) => "Numpad Enter",
Key(NumpadEquals) => "Numpad =",
Key(OEM102) => "OEM 102",
Key(Period) => ".",
Key(PlayPause) => "Play / Pause",
Key(Power) => "Power",
Key(PrevTrack) => "Prev Track",
Key(RAlt) => "RAlt",
Key(RBracket) => "]",
Key(RControl) => "RControl",
Key(RShift) => "RShift",
Key(RWin) => "RWin",
Key(Semicolon) => ";",
Key(Slash) => "/",
Key(Sleep) => "Sleep",
Key(Stop) => "Media Stop",
Key(Subtract) => "Numpad -",
Key(Sysrq) => "Sysrq",
Key(Tab) => "Tab",
Key(Underline) => "_",
Key(Unlabeled) => "No Name",
Key(VolumeDown) => "Volume Down",
Key(VolumeUp) => "Volume Up",
Key(Wake) => "Wake",
Key(WebBack) => "Browser Back",
Key(WebFavorites) => "Browser Favorites",
Key(WebForward) => "Browser Forward",
Key(WebHome) => "Browser Home",
Key(WebRefresh) => "Browser Refresh",
Key(WebSearch) => "Browser Search",
Key(WebStop) => "Browser Stop",
Key(Yen) => "Yen",
Key(Copy) => "Copy",
Key(Paste) => "Paste",
Key(Cut) => "Cut",
Mouse(MouseButton::Left) => "Mouse L-Click",
Mouse(MouseButton::Right) => "Mouse R-Click",
Mouse(MouseButton::Middle) => "Mouse Middle-Click",
Mouse(MouseButton::Other(button)) =>
return write!(f, "Unknown Mouse Button: {:?}", button),
})
}
}
pub struct Window {
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events_loop: glutin::EventsLoop,
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renderer: Renderer,
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window: glutin::ContextWrapper<glutin::PossiblyCurrent, winit::Window>,
cursor_grabbed: bool,
pub pan_sensitivity: u32,
pub zoom_sensitivity: u32,
pub zoom_inversion: bool,
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pub mouse_y_inversion: bool,
fullscreen: bool,
needs_refresh_resize: bool,
key_map: HashMap<KeyMouse, Vec<GameInput>>,
keypress_map: HashMap<GameInput, glutin::ElementState>,
supplement_events: Vec<Event>,
focused: bool,
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gilrs: Option<Gilrs>,
controller_settings: ControllerSettings,
cursor_position: winit::dpi::LogicalPosition,
mouse_emulation_vec: Vec2<f32>,
}
impl Window {
pub fn new(settings: &Settings) -> Result<Window, Error> {
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let events_loop = glutin::EventsLoop::new();
let size = settings.graphics.window_size;
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let win_builder = glutin::WindowBuilder::new()
.with_title("Veloren")
.with_dimensions(glutin::dpi::LogicalSize::new(
size[0] as f64,
size[1] as f64,
))
.with_maximized(true);
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let ctx_builder = glutin::ContextBuilder::new()
.with_gl(glutin::GlRequest::Specific(glutin::Api::OpenGl, (3, 2)))
.with_vsync(false);
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let (window, device, factory, win_color_view, win_depth_view) =
gfx_window_glutin::init::<WinColorFmt, WinDepthFmt>(
win_builder,
ctx_builder,
&events_loop,
)
.map_err(|err| Error::BackendError(Box::new(err)))?;
let mut map: HashMap<_, Vec<_>> = HashMap::new();
map.entry(settings.controls.primary)
.or_default()
.push(GameInput::Primary);
map.entry(settings.controls.secondary)
.or_default()
.push(GameInput::Secondary);
map.entry(settings.controls.toggle_cursor)
.or_default()
.push(GameInput::ToggleCursor);
map.entry(settings.controls.escape)
.or_default()
.push(GameInput::Escape);
map.entry(settings.controls.enter)
.or_default()
.push(GameInput::Enter);
map.entry(settings.controls.command)
.or_default()
.push(GameInput::Command);
map.entry(settings.controls.move_forward)
.or_default()
.push(GameInput::MoveForward);
map.entry(settings.controls.move_left)
.or_default()
.push(GameInput::MoveLeft);
map.entry(settings.controls.move_back)
.or_default()
.push(GameInput::MoveBack);
map.entry(settings.controls.move_right)
.or_default()
.push(GameInput::MoveRight);
map.entry(settings.controls.jump)
.or_default()
.push(GameInput::Jump);
map.entry(settings.controls.sit)
.or_default()
.push(GameInput::Sit);
map.entry(settings.controls.glide)
.or_default()
.push(GameInput::Glide);
map.entry(settings.controls.climb)
.or_default()
.push(GameInput::Climb);
map.entry(settings.controls.climb_down)
.or_default()
.push(GameInput::ClimbDown);
map.entry(settings.controls.wall_leap)
.or_default()
.push(GameInput::WallLeap);
map.entry(settings.controls.mount)
.or_default()
.push(GameInput::Mount);
map.entry(settings.controls.map)
.or_default()
.push(GameInput::Map);
map.entry(settings.controls.bag)
.or_default()
.push(GameInput::Bag);
map.entry(settings.controls.quest_log)
.or_default()
.push(GameInput::QuestLog);
map.entry(settings.controls.character_window)
.or_default()
.push(GameInput::CharacterWindow);
map.entry(settings.controls.social)
.or_default()
.push(GameInput::Social);
map.entry(settings.controls.spellbook)
.or_default()
.push(GameInput::Spellbook);
map.entry(settings.controls.settings)
.or_default()
.push(GameInput::Settings);
map.entry(settings.controls.help)
.or_default()
.push(GameInput::Help);
map.entry(settings.controls.toggle_interface)
.or_default()
.push(GameInput::ToggleInterface);
map.entry(settings.controls.toggle_debug)
.or_default()
.push(GameInput::ToggleDebug);
map.entry(settings.controls.fullscreen)
.or_default()
.push(GameInput::Fullscreen);
map.entry(settings.controls.screenshot)
.or_default()
.push(GameInput::Screenshot);
map.entry(settings.controls.toggle_ingame_ui)
.or_default()
.push(GameInput::ToggleIngameUi);
map.entry(settings.controls.roll)
.or_default()
.push(GameInput::Roll);
map.entry(settings.controls.respawn)
.or_default()
.push(GameInput::Respawn);
map.entry(settings.controls.interact)
.or_default()
.push(GameInput::Interact);
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map.entry(settings.controls.toggle_wield)
.or_default()
.push(GameInput::ToggleWield);
map.entry(settings.controls.charge)
.or_default()
.push(GameInput::Charge);
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let keypress_map = HashMap::new();
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let gilrs = match Gilrs::new() {
Ok(gilrs) => Some(gilrs),
Err(gilrs::Error::NotImplemented(_dummy)) => {
warn!("Controller input is unsupported on this platform.");
None
},
Err(gilrs::Error::InvalidAxisToBtn) => {
error!(
"Invalid AxisToBtn controller mapping. Falling back to no controller support."
);
None
},
Err(gilrs::Error::Other(err)) => {
error!(
"Platform-specific error when creating a Gilrs instance: `{}`. Falling back \
to no controller support.",
err
);
None
},
};
let controller_settings = ControllerSettings::from(&settings.controller);
let mut this = Self {
events_loop,
renderer: Renderer::new(
device,
factory,
win_color_view,
win_depth_view,
settings.graphics.aa_mode,
settings.graphics.cloud_mode,
settings.graphics.fluid_mode,
)?,
window,
cursor_grabbed: false,
pan_sensitivity: settings.gameplay.pan_sensitivity,
zoom_sensitivity: settings.gameplay.zoom_sensitivity,
zoom_inversion: settings.gameplay.zoom_inversion,
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mouse_y_inversion: settings.gameplay.mouse_y_inversion,
fullscreen: false,
needs_refresh_resize: false,
key_map: map,
keypress_map,
supplement_events: vec![],
focused: true,
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gilrs,
controller_settings,
cursor_position: winit::dpi::LogicalPosition::new(0.0, 0.0),
mouse_emulation_vec: Vec2::zero(),
};
this.fullscreen(settings.graphics.fullscreen);
Ok(this)
}
pub fn renderer(&self) -> &Renderer { &self.renderer }
pub fn renderer_mut(&mut self) -> &mut Renderer { &mut self.renderer }
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pub fn fetch_events(&mut self, settings: &mut Settings) -> Vec<Event> {
let mut events = vec![];
events.append(&mut self.supplement_events);
// Refresh ui size (used when changing playstates)
if self.needs_refresh_resize {
events.push(Event::Ui(ui::Event::new_resize(self.logical_size())));
self.needs_refresh_resize = false;
}
// Copy data that is needed by the events closure to avoid lifetime errors.
// TODO: Remove this if/when the compiler permits it.
let cursor_grabbed = self.cursor_grabbed;
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let renderer = &mut self.renderer;
let window = &mut self.window;
let focused = &mut self.focused;
let key_map = &self.key_map;
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let keypress_map = &mut self.keypress_map;
let pan_sensitivity = self.pan_sensitivity;
let zoom_sensitivity = self.zoom_sensitivity;
let zoom_inversion = match self.zoom_inversion {
true => -1.0,
false => 1.0,
};
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let mouse_y_inversion = match self.mouse_y_inversion {
true => -1.0,
false => 1.0,
};
let mut toggle_fullscreen = false;
let mut take_screenshot = false;
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let mut cursor_position = None;
self.events_loop.poll_events(|event| {
// Get events for ui.
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if let Some(event) = ui::Event::try_from(event.clone(), window) {
events.push(Event::Ui(event));
}
match event {
glutin::Event::WindowEvent { event, .. } => match event {
glutin::WindowEvent::CloseRequested => events.push(Event::Close),
glutin::WindowEvent::Resized(glutin::dpi::LogicalSize { width, height }) => {
let (mut color_view, mut depth_view) = renderer.win_views_mut();
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gfx_window_glutin::update_views(window, &mut color_view, &mut depth_view);
renderer.on_resize().unwrap();
events.push(Event::Resize(Vec2::new(width as u32, height as u32)));
},
glutin::WindowEvent::ReceivedCharacter(c) => events.push(Event::Char(c)),
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glutin::WindowEvent::MouseInput { button, state, .. } => {
if let (true, Some(game_inputs)) =
(cursor_grabbed, key_map.get(&KeyMouse::Mouse(button)))
{
for game_input in game_inputs {
events.push(Event::InputUpdate(
*game_input,
state == glutin::ElementState::Pressed,
));
}
}
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events.push(Event::MouseButton(button, state));
},
glutin::WindowEvent::KeyboardInput { input, .. } => match input.virtual_keycode
{
Some(key) => {
let game_inputs = key_map.get(&KeyMouse::Key(key));
if let Some(game_inputs) = game_inputs {
for game_input in game_inputs {
match game_input {
GameInput::Fullscreen => {
if input.state == glutin::ElementState::Pressed
&& !Self::is_pressed(
keypress_map,
GameInput::Fullscreen,
)
{
toggle_fullscreen = !toggle_fullscreen;
}
Self::set_pressed(
keypress_map,
GameInput::Fullscreen,
input.state,
);
},
GameInput::Screenshot => {
take_screenshot = input.state
== glutin::ElementState::Pressed
&& !Self::is_pressed(
keypress_map,
GameInput::Screenshot,
);
Self::set_pressed(
keypress_map,
GameInput::Screenshot,
input.state,
);
},
_ => events.push(Event::InputUpdate(
*game_input,
input.state == glutin::ElementState::Pressed,
)),
}
}
}
},
_ => {},
},
glutin::WindowEvent::Focused(state) => {
*focused = state;
events.push(Event::Focused(state));
},
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glutin::WindowEvent::CursorMoved { position, .. } => {
cursor_position = Some(position);
},
_ => {},
},
glutin::Event::DeviceEvent { event, .. } => match event {
glutin::DeviceEvent::MouseMotion {
delta: (dx, dy), ..
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} if *focused => {
let delta = Vec2::new(
dx as f32 * (pan_sensitivity as f32 / 100.0),
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dy as f32 * (pan_sensitivity as f32 * mouse_y_inversion / 100.0),
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);
if cursor_grabbed {
events.push(Event::CursorPan(delta));
} else {
events.push(Event::CursorMove(delta));
}
},
glutin::DeviceEvent::MouseWheel { delta, .. } if cursor_grabbed && *focused => {
events.push(Event::Zoom({
let y = match delta {
glutin::MouseScrollDelta::LineDelta(_x, y) => y,
// TODO: Check to see if there is a better way to find the "line
// height" than just hardcoding 16.0 pixels. Alternately we could
// get rid of this and have the user set zoom sensitivity, since
// it's unlikely people would expect a configuration file to work
// across operating systems.
glutin::MouseScrollDelta::PixelDelta(pos) => (pos.y / 16.0) as f32,
};
y * (zoom_sensitivity as f32 / 100.0) * zoom_inversion
}))
},
_ => {},
},
_ => {},
}
});
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if let Some(pos) = cursor_position {
self.cursor_position = pos;
}
if take_screenshot {
self.take_screenshot(&settings);
}
if toggle_fullscreen {
self.toggle_fullscreen(settings);
}
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if let Some(gilrs) = &mut self.gilrs {
while let Some(event) = gilrs.next_event() {
fn handle_buttons(
settings: &ControllerSettings,
events: &mut Vec<Event>,
button: &Button,
is_pressed: bool,
) {
if let Some(evs) = settings.game_button_map.get(button) {
for ev in evs {
events.push(Event::InputUpdate(*ev, is_pressed));
}
}
if let Some(evs) = settings.menu_button_map.get(button) {
for ev in evs {
events.push(Event::MenuInput(*ev, is_pressed));
}
}
}
match event.event {
EventType::ButtonPressed(button, code)
| EventType::ButtonRepeated(button, code) => {
handle_buttons(
&self.controller_settings,
&mut events,
&Button::from((button, code)),
true,
);
},
EventType::ButtonReleased(button, code) => {
handle_buttons(
&self.controller_settings,
&mut events,
&Button::from((button, code)),
false,
);
},
EventType::ButtonChanged(button, _value, code) => {
if let Some(actions) = self
.controller_settings
.game_analog_button_map
.get(&AnalogButton::from((button, code)))
{
for action in actions {
match *action {}
}
}
if let Some(actions) = self
.controller_settings
.menu_analog_button_map
.get(&AnalogButton::from((button, code)))
{
for action in actions {
match *action {}
}
}
},
EventType::AxisChanged(axis, value, code) => {
let value = match self
.controller_settings
.inverted_axes
.contains(&Axis::from((axis, code)))
{
true => value * -1.0,
false => value,
};
let value = self
.controller_settings
.apply_axis_deadzone(&Axis::from((axis, code)), value);
if self.cursor_grabbed {
if let Some(actions) = self
.controller_settings
.game_axis_map
.get(&Axis::from((axis, code)))
{
for action in actions {
match *action {
AxisGameAction::MovementX => {
events.push(Event::AnalogGameInput(
AnalogGameInput::MovementX(value),
));
},
AxisGameAction::MovementY => {
events.push(Event::AnalogGameInput(
AnalogGameInput::MovementY(value),
));
},
AxisGameAction::CameraX => {
events.push(Event::AnalogGameInput(
AnalogGameInput::CameraX(
value
* self.controller_settings.pan_sensitivity
as f32
/ 100.0,
),
));
},
AxisGameAction::CameraY => {
events.push(Event::AnalogGameInput(
AnalogGameInput::CameraY(
value
* self.controller_settings.pan_sensitivity
as f32
/ 100.0,
),
));
},
}
}
}
} else if let Some(actions) = self
.controller_settings
.menu_axis_map
.get(&Axis::from((axis, code)))
{
// TODO: possibly add sensitivity settings when this is used
for action in actions {
match *action {
AxisMenuAction::MoveX => {
events.push(Event::AnalogMenuInput(
AnalogMenuInput::MoveX(value),
));
},
AxisMenuAction::MoveY => {
events.push(Event::AnalogMenuInput(
AnalogMenuInput::MoveY(value),
));
},
AxisMenuAction::ScrollX => {
events.push(Event::AnalogMenuInput(
AnalogMenuInput::ScrollX(value),
));
},
AxisMenuAction::ScrollY => {
events.push(Event::AnalogMenuInput(
AnalogMenuInput::ScrollY(value),
));
},
}
}
}
},
EventType::Connected => {},
EventType::Disconnected => {},
EventType::Dropped => {},
}
}
}
// Mouse emulation for the menus, to be removed when a proper menu navigation
// system is available
if !self.cursor_grabbed {
events = events
.into_iter()
.filter_map(|event| match event {
Event::AnalogMenuInput(input) => match input {
AnalogMenuInput::MoveX(d) => {
self.mouse_emulation_vec.x = d;
None
},
AnalogMenuInput::MoveY(d) => {
// This just has to be inverted for some reason
self.mouse_emulation_vec.y = d * -1.0;
None
},
_ => {
let event = Event::AnalogMenuInput(input);
Some(event)
},
},
Event::MenuInput(input, state) => match input {
MenuInput::Apply => Some(match state {
true => Event::Ui(ui::Event(conrod_core::event::Input::Press(
conrod_core::input::Button::Mouse(
conrod_core::input::state::mouse::Button::Left,
),
))),
false => Event::Ui(ui::Event(conrod_core::event::Input::Release(
conrod_core::input::Button::Mouse(
conrod_core::input::state::mouse::Button::Left,
),
))),
}),
_ => Some(event),
},
_ => Some(event),
})
.collect();
let sensitivity = self.controller_settings.mouse_emulation_sensitivity;
if self.mouse_emulation_vec != Vec2::zero() {
self.offset_cursor(self.mouse_emulation_vec * sensitivity as f32)
.unwrap_or(());
}
}
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events
}
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/// Moves cursor by an offset
pub fn offset_cursor(&self, d: Vec2<f32>) -> Result<(), String> {
self.window
.window()
.set_cursor_position(winit::dpi::LogicalPosition::new(
d.x as f64 + self.cursor_position.x,
d.y as f64 + self.cursor_position.y,
))
}
pub fn swap_buffers(&self) -> Result<(), Error> {
self.window
.swap_buffers()
.map_err(|err| Error::BackendError(Box::new(err)))
}
pub fn is_cursor_grabbed(&self) -> bool { self.cursor_grabbed }
pub fn grab_cursor(&mut self, grab: bool) {
self.cursor_grabbed = grab;
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self.window.window().hide_cursor(grab);
let _ = self.window.window().grab_cursor(grab);
}
pub fn toggle_fullscreen(&mut self, settings: &mut Settings) {
self.fullscreen(!self.is_fullscreen());
settings.graphics.fullscreen = self.is_fullscreen();
settings.save_to_file_warn();
}
pub fn is_fullscreen(&self) -> bool { self.fullscreen }
pub fn fullscreen(&mut self, fullscreen: bool) {
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let window = self.window.window();
self.fullscreen = fullscreen;
if fullscreen {
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window.set_fullscreen(Some(window.get_current_monitor()));
} else {
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window.set_fullscreen(None);
}
}
pub fn needs_refresh_resize(&mut self) { self.needs_refresh_resize = true; }
pub fn logical_size(&self) -> Vec2<f64> {
let (w, h) = self
.window
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.window()
.get_inner_size()
.unwrap_or(glutin::dpi::LogicalSize::new(0.0, 0.0))
.into();
Vec2::new(w, h)
}
pub fn set_size(&mut self, new_size: Vec2<u16>) {
self.window
.window()
.set_inner_size(glutin::dpi::LogicalSize::new(
new_size.x as f64,
new_size.y as f64,
));
}
pub fn send_supplement_event(&mut self, event: Event) { self.supplement_events.push(event) }
pub fn take_screenshot(&mut self, settings: &Settings) {
match self.renderer.create_screenshot() {
Ok(img) => {
let mut path = settings.screenshots_path.clone();
std::thread::spawn(move || {
use std::time::SystemTime;
// Check if folder exists and create it if it does not
if !path.exists() {
if let Err(err) = std::fs::create_dir_all(&path) {
warn!("Couldn't create folder for screenshot: {:?}", err);
}
}
path.push(format!(
"screenshot_{}.png",
SystemTime::now()
.duration_since(SystemTime::UNIX_EPOCH)
.map(|d| d.as_millis())
.unwrap_or(0)
));
if let Err(err) = img.save(&path) {
warn!("Couldn't save screenshot: {:?}", err);
}
});
},
Err(err) => error!(
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"Couldn't create screenshot due to renderer error: {:?}",
err
),
}
}
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fn is_pressed(map: &mut HashMap<GameInput, glutin::ElementState>, input: GameInput) -> bool {
*(map.entry(input).or_insert(glutin::ElementState::Released))
== glutin::ElementState::Pressed
}
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fn set_pressed(
map: &mut HashMap<GameInput, glutin::ElementState>,
input: GameInput,
state: glutin::ElementState,
) {
map.insert(input, state);
}
}