andrei/niri
1
0
Fork 0
mirror of https://github.com/niri-wm/niri.git synced 2026-06-22 02:01:55 +07:00
Code Issues Packages Projects Releases 10 Wiki Activity
Files
7ec771f7ec4415695b1e5fb3c90ac54eac3dd5c3
niri/src/layout/scrolling.rs
T

4312 lines
147 KiB
Rust
Raw Normal View History

layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
use std::cmp::{max, min};
use std::iter::{self, zip};
use std::rc::Rc;
use std::time::Duration;
use niri_config::{CenterFocusedColumn, CornerRadius, PresetSize, Struts};
use niri_ipc::SizeChange;
use ordered_float::NotNan;
use smithay::backend::renderer::gles::GlesRenderer;
use smithay::utils::{Logical, Point, Rectangle, Scale, Serial, Size};
use super::closing_window::{ClosingWindow, ClosingWindowRenderElement};
use super::insert_hint_element::{InsertHintElement, InsertHintRenderElement};
use super::tile::{Tile, TileRenderElement, TileRenderSnapshot};
use super::workspace::{InteractiveResize, ResolvedSize};
use super::{ConfigureIntent, InteractiveResizeData, LayoutElement, Options, RemovedTile};
use crate::animation::{Animation, Clock};
use crate::input::swipe_tracker::SwipeTracker;
use crate::niri_render_elements;
use crate::render_helpers::renderer::NiriRenderer;
use crate::render_helpers::RenderTarget;
use crate::utils::transaction::{Transaction, TransactionBlocker};
use crate::utils::ResizeEdge;
use crate::window::ResolvedWindowRules;
/// Amount of touchpad movement to scroll the view for the width of one working area.
const VIEW_GESTURE_WORKING_AREA_MOVEMENT: f64 = 1200.;
/// A scrollable-tiling space for windows.
#[derive(Debug)]
pub struct ScrollingSpace<W: LayoutElement> {
/// Columns of windows on this space.
columns: Vec<Column<W>>,
/// Extra per-column data.
data: Vec<ColumnData>,
/// Index of the currently active column, if any.
active_column_idx: usize,
/// Ongoing interactive resize.
interactive_resize: Option<InteractiveResize<W>>,
/// Offset of the view computed from the active column.
///
/// Any gaps, including left padding from work area left exclusive zone, is handled
/// with this view offset (rather than added as a constant elsewhere in the code). This allows
/// for natural handling of fullscreen windows, which must ignore work area padding.
view_offset: ViewOffset,
/// Whether to activate the previous, rather than the next, column upon column removal.
///
/// When a new column is created and removed with no focus changes in-between, it is more
/// natural to activate the previously-focused column. This variable tracks that.
///
/// Since we only create-and-activate columns immediately to the right of the active column (in
/// contrast to tabs in Firefox, for example), we can track this as a bool, rather than an
/// index of the previous column to activate.
///
/// The value is the view offset that the previous column had before, to restore it.
activate_prev_column_on_removal: Option<f64>,
/// View offset to restore after unfullscreening.
view_offset_before_fullscreen: Option<f64>,
/// Windows in the closing animation.
closing_windows: Vec<ClosingWindow>,
/// Indication where an interactively-moved window is about to be placed.
insert_hint: Option<InsertHint>,
/// Insert hint element for rendering.
insert_hint_element: InsertHintElement,
/// View size for this space.
view_size: Size<f64, Logical>,
/// Working area for this space.
///
/// Takes into account layer-shell exclusive zones and niri struts.
working_area: Rectangle<f64, Logical>,
/// Scale of the output the space is on (and rounds its sizes to).
scale: f64,
/// Clock for driving animations.
clock: Clock,
/// Configurable properties of the layout.
options: Rc<Options>,
}
niri_render_elements! {
ScrollingSpaceRenderElement<R> => {
Tile = TileRenderElement<R>,
ClosingWindow = ClosingWindowRenderElement,
InsertHint = InsertHintRenderElement,
}
}
#[derive(Debug, PartialEq)]
pub enum InsertPosition {
NewColumn(usize),
InColumn(usize, usize),
Initial WIP floating window implementation
2024-11-29 21:11:02 +03:00
Floating,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
#[derive(Debug)]
pub struct InsertHint {
pub position: InsertPosition,
pub width: ColumnWidth,
pub is_full_width: bool,
pub corner_radius: CornerRadius,
}
/// Extra per-column data.
#[derive(Debug, Clone, Copy, PartialEq)]
struct ColumnData {
/// Cached actual column width.
width: f64,
}
#[derive(Debug)]
enum ViewOffset {
/// The view offset is static.
Static(f64),
/// The view offset is animating.
Animation(Animation),
/// The view offset is controlled by the ongoing gesture.
Gesture(ViewGesture),
}
#[derive(Debug)]
struct ViewGesture {
current_view_offset: f64,
tracker: SwipeTracker,
delta_from_tracker: f64,
// The view offset we'll use if needed for activate_prev_column_on_removal.
stationary_view_offset: f64,
/// Whether the gesture is controlled by the touchpad.
is_touchpad: bool,
}
#[derive(Debug)]
pub struct Column<W: LayoutElement> {
/// Tiles in this column.
///
/// Must be non-empty.
tiles: Vec<Tile<W>>,
/// Extra per-tile data.
///
/// Must have the same number of elements as `tiles`.
data: Vec<TileData>,
/// Index of the currently active tile.
active_tile_idx: usize,
/// Desired width of this column.
///
/// If the column is full-width or full-screened, this is the width that should be restored
/// upon unfullscreening and untoggling full-width.
width: ColumnWidth,
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
/// Currently selected preset width index.
preset_width_idx: Option<usize>,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
/// Whether this column is full-width.
is_full_width: bool,
/// Whether this column contains a single full-screened window.
is_fullscreen: bool,
/// Animation of the render offset during window swapping.
move_animation: Option<Animation>,
/// Latest known view size for this column's workspace.
view_size: Size<f64, Logical>,
/// Latest known working area for this column's workspace.
working_area: Rectangle<f64, Logical>,
/// Scale of the output the column is on (and rounds its sizes to).
scale: f64,
/// Clock for driving animations.
clock: Clock,
/// Configurable properties of the layout.
options: Rc<Options>,
}
/// Extra per-tile data.
#[derive(Debug, Clone, Copy, PartialEq)]
struct TileData {
/// Requested height of the window.
///
/// This is window height, not tile height, so it excludes tile decorations.
height: WindowHeight,
/// Cached actual size of the tile.
size: Size<f64, Logical>,
/// Cached whether the tile is being interactively resized by its left edge.
interactively_resizing_by_left_edge: bool,
}
/// Width of a column.
#[derive(Debug, Clone, Copy, PartialEq)]
pub enum ColumnWidth {
/// Proportion of the current view width.
Proportion(f64),
/// Fixed width in logical pixels.
Fixed(f64),
}
/// Height of a window in a column.
///
/// Every window but one in a column must be `Auto`-sized so that the total height can add up to
/// the workspace height. Resizing a window converts all other windows to `Auto`, weighted to
/// preserve their visual heights at the moment of the conversion.
///
/// In contrast to column widths, proportional height changes are converted to, and stored as,
/// fixed height right away. With column widths you frequently want e.g. two columns side-by-side
/// with 50% width each, and you want them to remain this way when moving to a differently sized
/// monitor. Windows in a column, however, already auto-size to fill the available height, giving
/// you this behavior. The main reason to set a different window height, then, is when you want
/// something in the window to fit exactly, e.g. to fit 30 lines in a terminal, which corresponds
/// to the `Fixed` variant.
#[derive(Debug, Clone, Copy, PartialEq)]
pub enum WindowHeight {
/// Automatically computed *tile* height, distributed across the column according to weights.
///
/// This controls the tile height rather than the window height because it's easier in the auto
/// height distribution algorithm.
Auto { weight: f64 },
/// Fixed *window* height in logical pixels.
Fixed(f64),
/// One of the preset heights (tile or window).
Preset(usize),
}
Add a window swap operation (#899)
2025-01-09 08:29:36 +00:00
/// Horizontal direction for an operation
///
/// As operations often have a symmetrical counterpart, e.g. focus-right/focus-left, methods
/// on `Scrolling` can sometimes be factored using the direction of the operation as a parameter.
#[derive(Debug, Clone, Copy, PartialEq)]
pub enum ScrollDirection {
Left,
Right,
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
impl<W: LayoutElement> ScrollingSpace<W> {
pub fn new(
view_size: Size<f64, Logical>,
working_area: Rectangle<f64, Logical>,
scale: f64,
clock: Clock,
options: Rc<Options>,
) -> Self {
let working_area = compute_working_area(working_area, scale, options.struts);
Self {
columns: Vec::new(),
data: Vec::new(),
active_column_idx: 0,
interactive_resize: None,
view_offset: ViewOffset::Static(0.),
activate_prev_column_on_removal: None,
view_offset_before_fullscreen: None,
closing_windows: Vec::new(),
insert_hint: None,
insert_hint_element: InsertHintElement::new(options.insert_hint),
view_size,
working_area,
scale,
clock,
options,
}
}
pub fn update_config(
&mut self,
view_size: Size<f64, Logical>,
working_area: Rectangle<f64, Logical>,
scale: f64,
options: Rc<Options>,
) {
let working_area = compute_working_area(working_area, scale, options.struts);
for (column, data) in zip(&mut self.columns, &mut self.data) {
column.update_config(view_size, working_area, scale, options.clone());
data.update(column);
}
self.insert_hint_element.update_config(options.insert_hint);
self.view_size = view_size;
self.working_area = working_area;
self.scale = scale;
self.options = options;
}
pub fn update_shaders(&mut self) {
for tile in self.tiles_mut() {
tile.update_shaders();
}
self.insert_hint_element.update_shaders();
}
pub fn advance_animations(&mut self) {
if let ViewOffset::Animation(anim) = &self.view_offset {
if anim.is_done() {
self.view_offset = ViewOffset::Static(anim.to());
}
}
for col in &mut self.columns {
col.advance_animations();
}
self.closing_windows.retain_mut(|closing| {
closing.advance_animations();
closing.are_animations_ongoing()
});
}
pub fn are_animations_ongoing(&self) -> bool {
self.view_offset.is_animation()
|| self.columns.iter().any(Column::are_animations_ongoing)
|| !self.closing_windows.is_empty()
}
pub fn are_transitions_ongoing(&self) -> bool {
!self.view_offset.is_static()
|| self.columns.iter().any(Column::are_animations_ongoing)
|| !self.closing_windows.is_empty()
}
pub fn update_render_elements(&mut self, is_active: bool) {
let view_pos = Point::from((self.view_pos(), 0.));
layout: Mark accessors as cfg(test)
2024-12-04 22:08:47 +03:00
let view_size = self.view_size;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let active_idx = self.active_column_idx;
for (col_idx, (col, col_x)) in self.columns_mut().enumerate() {
let is_active = is_active && col_idx == active_idx;
let col_off = Point::from((col_x, 0.));
let col_pos = view_pos - col_off - col.render_offset();
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
let view_rect = Rectangle::new(col_pos, view_size);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
col.update_render_elements(is_active, view_rect);
}
if let Some(insert_hint) = &self.insert_hint {
if let Some(area) = self.insert_hint_area(insert_hint) {
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
let view_rect = Rectangle::new(area.loc.upscale(-1.), view_size);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
self.insert_hint_element.update_render_elements(
area.size,
view_rect,
insert_hint.corner_radius,
self.scale,
);
}
}
}
pub fn tiles(&self) -> impl Iterator<Item = &Tile<W>> + '_ {
self.columns.iter().flat_map(|col| col.tiles.iter())
}
pub fn tiles_mut(&mut self) -> impl Iterator<Item = &mut Tile<W>> + '_ {
self.columns.iter_mut().flat_map(|col| col.tiles.iter_mut())
}
Initial WIP floating window implementation
2024-11-29 21:11:02 +03:00
pub fn is_empty(&self) -> bool {
self.columns.is_empty()
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
pub fn active_window(&self) -> Option<&W> {
if self.columns.is_empty() {
return None;
}
let col = &self.columns[self.active_column_idx];
Some(col.tiles[col.active_tile_idx].window())
}
Add toggle-window-rule-opacity action
2025-01-23 10:40:52 +03:00
pub fn active_window_mut(&mut self) -> Option<&mut W> {
if self.columns.is_empty() {
return None;
}
let col = &mut self.columns[self.active_column_idx];
Some(col.tiles[col.active_tile_idx].window_mut())
}
Add move-floating-window action
2024-12-28 11:40:16 +03:00
pub fn active_tile_mut(&mut self) -> Option<&mut Tile<W>> {
if self.columns.is_empty() {
return None;
}
let col = &mut self.columns[self.active_column_idx];
Some(&mut col.tiles[col.active_tile_idx])
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
pub fn is_active_fullscreen(&self) -> bool {
if self.columns.is_empty() {
return false;
}
let col = &self.columns[self.active_column_idx];
col.is_fullscreen
}
layout: Rename toplevel_bounds() to new_window_toplevel_bounds()
2025-02-06 10:54:48 +03:00
pub fn new_window_toplevel_bounds(&self, rules: &ResolvedWindowRules) -> Size<i32, Logical> {
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let border_config = rules.border.resolve_against(self.options.border);
compute_toplevel_bounds(border_config, self.working_area.size, self.options.gaps)
}
pub fn new_window_size(
&self,
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
width: Option<PresetSize>,
Implement default-window-height for scrolling windows
2024-12-30 08:48:05 +03:00
height: Option<PresetSize>,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
rules: &ResolvedWindowRules,
) -> Size<i32, Logical> {
let border = rules.border.resolve_against(self.options.border);
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
let width = if let Some(size) = width {
let size = match resolve_preset_size(size, &self.options, self.working_area.size.w) {
ResolvedSize::Tile(mut size) => {
if !border.off {
size -= border.width.0 * 2.;
}
size
}
ResolvedSize::Window(size) => size,
};
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
max(1, size.floor() as i32)
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
} else {
0
};
Implement default-window-height for scrolling windows
2024-12-30 08:48:05 +03:00
let mut full_height = self.working_area.size.h - self.options.gaps * 2.;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
if !border.off {
Implement default-window-height for scrolling windows
2024-12-30 08:48:05 +03:00
full_height -= border.width.0 * 2.;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
Implement default-window-height for scrolling windows
2024-12-30 08:48:05 +03:00
let height = if let Some(height) = height {
let height = match resolve_preset_size(height, &self.options, self.working_area.size.h)
{
ResolvedSize::Tile(mut size) => {
if !border.off {
size -= border.width.0 * 2.;
}
size
}
ResolvedSize::Window(size) => size,
};
f64::min(height, full_height)
} else {
full_height
};
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
Size::from((width, max(height.floor() as i32, 1)))
}
pub fn is_centering_focused_column(&self) -> bool {
self.options.center_focused_column == CenterFocusedColumn::Always
|| (self.options.always_center_single_column && self.columns.len() <= 1)
}
fn compute_new_view_offset_fit(
&self,
target_x: Option<f64>,
col_x: f64,
width: f64,
is_fullscreen: bool,
) -> f64 {
if is_fullscreen {
return 0.;
}
let target_x = target_x.unwrap_or_else(|| self.target_view_pos());
let new_offset = compute_new_view_offset(
target_x + self.working_area.loc.x,
self.working_area.size.w,
col_x,
width,
self.options.gaps,
);
// Non-fullscreen windows are always offset at least by the working area position.
new_offset - self.working_area.loc.x
}
fn compute_new_view_offset_centered(
&self,
target_x: Option<f64>,
col_x: f64,
width: f64,
is_fullscreen: bool,
) -> f64 {
if is_fullscreen {
return self.compute_new_view_offset_fit(target_x, col_x, width, is_fullscreen);
}
// Columns wider than the view are left-aligned (the fit code can deal with that).
if self.working_area.size.w <= width {
return self.compute_new_view_offset_fit(target_x, col_x, width, is_fullscreen);
}
-(self.working_area.size.w - width) / 2. - self.working_area.loc.x
}
fn compute_new_view_offset_for_column_fit(&self, target_x: Option<f64>, idx: usize) -> f64 {
let col = &self.columns[idx];
self.compute_new_view_offset_fit(
target_x,
self.column_x(idx),
col.width(),
col.is_fullscreen,
)
}
fn compute_new_view_offset_for_column_centered(
&self,
target_x: Option<f64>,
idx: usize,
) -> f64 {
let col = &self.columns[idx];
self.compute_new_view_offset_centered(
target_x,
self.column_x(idx),
col.width(),
col.is_fullscreen,
)
}
fn compute_new_view_offset_for_column(
&self,
target_x: Option<f64>,
idx: usize,
prev_idx: Option<usize>,
) -> f64 {
if self.is_centering_focused_column() {
return self.compute_new_view_offset_for_column_centered(target_x, idx);
}
match self.options.center_focused_column {
CenterFocusedColumn::Always => {
self.compute_new_view_offset_for_column_centered(target_x, idx)
}
CenterFocusedColumn::OnOverflow => {
let Some(prev_idx) = prev_idx else {
return self.compute_new_view_offset_for_column_fit(target_x, idx);
};
// Always take the left or right neighbor of the target as the source.
let source_idx = if prev_idx > idx {
min(idx + 1, self.columns.len() - 1)
} else {
idx.saturating_sub(1)
};
let source_col_x = self.column_x(source_idx);
let source_col_width = self.columns[source_idx].width();
let target_col_x = self.column_x(idx);
let target_col_width = self.columns[idx].width();
let total_width = if source_col_x < target_col_x {
// Source is left from target.
target_col_x - source_col_x + target_col_width
} else {
// Source is right from target.
source_col_x - target_col_x + source_col_width
} + self.options.gaps * 2.;
// If it fits together, do a normal animation, otherwise center the new column.
if total_width <= self.working_area.size.w {
self.compute_new_view_offset_for_column_fit(target_x, idx)
} else {
self.compute_new_view_offset_for_column_centered(target_x, idx)
}
}
CenterFocusedColumn::Never => {
self.compute_new_view_offset_for_column_fit(target_x, idx)
}
}
}
fn animate_view_offset(&mut self, idx: usize, new_view_offset: f64) {
self.animate_view_offset_with_config(
idx,
new_view_offset,
self.options.animations.horizontal_view_movement.0,
);
}
fn animate_view_offset_with_config(
&mut self,
idx: usize,
new_view_offset: f64,
config: niri_config::Animation,
) {
self.view_offset.cancel_gesture();
let new_col_x = self.column_x(idx);
let old_col_x = self.column_x(self.active_column_idx);
let offset_delta = old_col_x - new_col_x;
self.view_offset.offset(offset_delta);
let pixel = 1. / self.scale;
// If our view offset is already this or animating towards this, we don't need to do
// anything.
let to_diff = new_view_offset - self.view_offset.target();
if to_diff.abs() < pixel {
// Correct for any inaccuracy.
self.view_offset.offset(to_diff);
return;
}
// FIXME: also compute and use current velocity.
self.view_offset = ViewOffset::Animation(Animation::new(
self.clock.clone(),
self.view_offset.current(),
new_view_offset,
0.,
config,
));
}
fn animate_view_offset_to_column_centered(
&mut self,
target_x: Option<f64>,
idx: usize,
config: niri_config::Animation,
) {
let new_view_offset = self.compute_new_view_offset_for_column_centered(target_x, idx);
self.animate_view_offset_with_config(idx, new_view_offset, config);
}
fn animate_view_offset_to_column_with_config(
&mut self,
target_x: Option<f64>,
idx: usize,
prev_idx: Option<usize>,
config: niri_config::Animation,
) {
let new_view_offset = self.compute_new_view_offset_for_column(target_x, idx, prev_idx);
self.animate_view_offset_with_config(idx, new_view_offset, config);
}
fn animate_view_offset_to_column(
&mut self,
target_x: Option<f64>,
idx: usize,
prev_idx: Option<usize>,
) {
self.animate_view_offset_to_column_with_config(
target_x,
idx,
prev_idx,
self.options.animations.horizontal_view_movement.0,
)
}
fn activate_column(&mut self, idx: usize) {
self.activate_column_with_anim_config(
idx,
self.options.animations.horizontal_view_movement.0,
);
}
fn activate_column_with_anim_config(&mut self, idx: usize, config: niri_config::Animation) {
if self.active_column_idx == idx {
return;
}
self.animate_view_offset_to_column_with_config(
None,
idx,
Some(self.active_column_idx),
config,
);
self.active_column_idx = idx;
// A different column was activated; reset the flag.
self.activate_prev_column_on_removal = None;
self.view_offset_before_fullscreen = None;
self.interactive_resize = None;
}
pub fn set_insert_hint(&mut self, insert_hint: InsertHint) {
if self.options.insert_hint.off {
return;
}
self.insert_hint = Some(insert_hint);
}
pub fn clear_insert_hint(&mut self) {
self.insert_hint = None;
}
Make interactive move keep in the same layout (floating/tiling)
2024-12-12 09:06:02 +03:00
pub fn get_insert_position(&self, pos: Point<f64, Logical>) -> InsertPosition {
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
if self.columns.is_empty() {
Make interactive move keep in the same layout (floating/tiling)
2024-12-12 09:06:02 +03:00
return InsertPosition::NewColumn(0);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
let x = pos.x + self.view_pos();
// Aim for the center of the gap.
let x = x + self.options.gaps / 2.;
let y = pos.y + self.options.gaps / 2.;
// Insert position is before the first column.
if x < 0. {
Make interactive move keep in the same layout (floating/tiling)
2024-12-12 09:06:02 +03:00
return InsertPosition::NewColumn(0);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
// Find the closest gap between columns.
let (closest_col_idx, col_x) = self
.column_xs(self.data.iter().copied())
.enumerate()
.min_by_key(|(_, col_x)| NotNan::new((col_x - x).abs()).unwrap())
.unwrap();
// Find the column containing the position.
let (col_idx, _) = self
.column_xs(self.data.iter().copied())
.enumerate()
.take_while(|(_, col_x)| *col_x <= x)
.last()
.unwrap_or((0, 0.));
// Insert position is past the last column.
if col_idx == self.columns.len() {
Make interactive move keep in the same layout (floating/tiling)
2024-12-12 09:06:02 +03:00
return InsertPosition::NewColumn(closest_col_idx);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
// Find the closest gap between tiles.
let col = &self.columns[col_idx];
let (closest_tile_idx, tile_off) = col
.tile_offsets()
.enumerate()
.min_by_key(|(_, tile_off)| NotNan::new((tile_off.y - y).abs()).unwrap())
.unwrap();
// Return the closest among the vertical and the horizontal gap.
let vert_dist = (col_x - x).abs();
let hor_dist = (tile_off.y - y).abs();
if vert_dist <= hor_dist {
Make interactive move keep in the same layout (floating/tiling)
2024-12-12 09:06:02 +03:00
InsertPosition::NewColumn(closest_col_idx)
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
} else {
Make interactive move keep in the same layout (floating/tiling)
2024-12-12 09:06:02 +03:00
InsertPosition::InColumn(col_idx, closest_tile_idx)
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
}
pub fn add_tile(
&mut self,
col_idx: Option<usize>,
tile: Tile<W>,
activate: bool,
width: ColumnWidth,
is_full_width: bool,
anim_config: Option<niri_config::Animation>,
) {
let column = Column::new_with_tile(
tile,
self.view_size,
self.working_area,
self.scale,
width,
is_full_width,
true,
);
self.add_column(col_idx, column, activate, anim_config);
}
pub fn add_tile_to_column(
&mut self,
col_idx: usize,
tile_idx: Option<usize>,
tile: Tile<W>,
activate: bool,
) {
let prev_next_x = self.column_x(col_idx + 1);
let target_column = &mut self.columns[col_idx];
let tile_idx = tile_idx.unwrap_or(target_column.tiles.len());
let was_fullscreen = target_column.tiles[target_column.active_tile_idx].is_fullscreen();
target_column.add_tile_at(tile_idx, tile, true);
self.data[col_idx].update(target_column);
// If the target column is the active column and its window was requested to, but hasn't
// gone into fullscreen yet, then clear the stored view offset, since we just asked it to
// stop going into fullscreen.
if col_idx == self.active_column_idx && !was_fullscreen {
self.view_offset_before_fullscreen = None;
}
if activate {
target_column.active_tile_idx = tile_idx;
if self.active_column_idx != col_idx {
self.activate_column(col_idx);
}
} else if tile_idx <= target_column.active_tile_idx {
target_column.active_tile_idx += 1;
}
// Adding a wider window into a column increases its width now (even if the window will
// shrink later). Move the columns to account for this.
let offset = self.column_x(col_idx + 1) - prev_next_x;
if self.active_column_idx <= col_idx {
for col in &mut self.columns[col_idx + 1..] {
col.animate_move_from(-offset);
}
} else {
for col in &mut self.columns[..=col_idx] {
col.animate_move_from(offset);
}
}
}
pub fn add_tile_right_of(
&mut self,
right_of: &W::Id,
tile: Tile<W>,
layout: Refactor window opening targets
2024-12-26 09:37:38 +03:00
activate: bool,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
width: ColumnWidth,
is_full_width: bool,
) {
let right_of_idx = self
.columns
.iter()
.position(|col| col.contains(right_of))
.unwrap();
let col_idx = right_of_idx + 1;
self.add_tile(Some(col_idx), tile, activate, width, is_full_width, None);
}
pub fn add_column(
&mut self,
idx: Option<usize>,
mut column: Column<W>,
activate: bool,
anim_config: Option<niri_config::Animation>,
) {
let was_empty = self.columns.is_empty();
let idx = idx.unwrap_or_else(|| {
if was_empty {
0
} else {
self.active_column_idx + 1
}
});
column.update_config(
self.view_size,
self.working_area,
self.scale,
self.options.clone(),
);
self.data.insert(idx, ColumnData::new(&column));
self.columns.insert(idx, column);
if activate {
// If this is the first window on an empty workspace, remove the effect of whatever
// view_offset was left over and skip the animation.
if was_empty {
self.view_offset = ViewOffset::Static(0.);
self.view_offset =
ViewOffset::Static(self.compute_new_view_offset_for_column(None, idx, None));
}
let prev_offset = (!was_empty && idx == self.active_column_idx + 1)
.then(|| self.view_offset.stationary());
let anim_config =
anim_config.unwrap_or(self.options.animations.horizontal_view_movement.0);
self.activate_column_with_anim_config(idx, anim_config);
self.activate_prev_column_on_removal = prev_offset;
} else if !was_empty && idx <= self.active_column_idx {
self.active_column_idx += 1;
}
// Animate movement of other columns.
let offset = self.column_x(idx + 1) - self.column_x(idx);
let config = anim_config.unwrap_or(self.options.animations.window_movement.0);
if self.active_column_idx <= idx {
for col in &mut self.columns[idx + 1..] {
col.animate_move_from_with_config(-offset, config);
}
} else {
for col in &mut self.columns[..idx] {
col.animate_move_from_with_config(offset, config);
}
}
}
pub fn remove_active_tile(&mut self, transaction: Transaction) -> Option<RemovedTile<W>> {
if self.columns.is_empty() {
return None;
}
let column = &self.columns[self.active_column_idx];
Some(self.remove_tile_by_idx(
self.active_column_idx,
column.active_tile_idx,
transaction,
None,
))
}
pub fn remove_tile(&mut self, window: &W::Id, transaction: Transaction) -> RemovedTile<W> {
let column_idx = self
.columns
.iter()
.position(|col| col.contains(window))
.unwrap();
let column = &self.columns[column_idx];
let tile_idx = column.position(window).unwrap();
self.remove_tile_by_idx(column_idx, tile_idx, transaction, None)
}
pub fn remove_tile_by_idx(
&mut self,
column_idx: usize,
tile_idx: usize,
transaction: Transaction,
anim_config: Option<niri_config::Animation>,
) -> RemovedTile<W> {
// If this is the only tile in the column, remove the whole column.
if self.columns[column_idx].tiles.len() == 1 {
let mut column = self.remove_column_by_idx(column_idx, anim_config);
return RemovedTile {
tile: column.tiles.remove(tile_idx),
width: column.width,
is_full_width: column.is_full_width,
Initial WIP floating window implementation
2024-11-29 21:11:02 +03:00
is_floating: false,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
};
}
let column = &mut self.columns[column_idx];
let prev_width = self.data[column_idx].width;
// Animate movement of other tiles.
// FIXME: tiles can move by X too, in a centered or resizing layout with one window smaller
// than the others.
let offset_y = column.tile_offset(tile_idx + 1).y - column.tile_offset(tile_idx).y;
for tile in &mut column.tiles[tile_idx + 1..] {
tile.animate_move_y_from(offset_y);
}
let tile = column.tiles.remove(tile_idx);
column.data.remove(tile_idx);
// If one window is left, reset its weight to 1.
if column.data.len() == 1 {
if let WindowHeight::Auto { weight } = &mut column.data[0].height {
*weight = 1.;
}
}
// Stop interactive resize.
if let Some(resize) = &self.interactive_resize {
if tile.window().id() == &resize.window {
self.interactive_resize = None;
}
}
let tile = RemovedTile {
tile,
width: column.width,
is_full_width: column.is_full_width,
Initial WIP floating window implementation
2024-11-29 21:11:02 +03:00
is_floating: false,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
};
layout: Preserve focused window in column when window above is closed
2025-02-06 09:38:35 +03:00
if tile_idx < column.active_tile_idx {
// A tile above was removed; preserve the current position.
column.active_tile_idx -= 1;
} else {
column.active_tile_idx = min(column.active_tile_idx, column.tiles.len() - 1);
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
column.update_tile_sizes_with_transaction(true, transaction);
self.data[column_idx].update(column);
let offset = prev_width - column.width();
// Animate movement of the other columns.
let movement_config = anim_config.unwrap_or(self.options.animations.window_movement.0);
if self.active_column_idx <= column_idx {
for col in &mut self.columns[column_idx + 1..] {
col.animate_move_from_with_config(offset, movement_config);
}
} else {
for col in &mut self.columns[..=column_idx] {
col.animate_move_from_with_config(-offset, movement_config);
}
}
tile
}
pub fn remove_active_column(&mut self) -> Option<Column<W>> {
if self.columns.is_empty() {
return None;
}
Some(self.remove_column_by_idx(self.active_column_idx, None))
}
pub fn remove_column_by_idx(
&mut self,
column_idx: usize,
anim_config: Option<niri_config::Animation>,
) -> Column<W> {
// Animate movement of the other columns.
let movement_config = anim_config.unwrap_or(self.options.animations.window_movement.0);
let offset = self.column_x(column_idx + 1) - self.column_x(column_idx);
if self.active_column_idx <= column_idx {
for col in &mut self.columns[column_idx + 1..] {
col.animate_move_from_with_config(offset, movement_config);
}
} else {
for col in &mut self.columns[..column_idx] {
col.animate_move_from_with_config(-offset, movement_config);
}
}
let column = self.columns.remove(column_idx);
self.data.remove(column_idx);
// Stop interactive resize.
if let Some(resize) = &self.interactive_resize {
if column
.tiles
.iter()
.any(|tile| tile.window().id() == &resize.window)
{
self.interactive_resize = None;
}
}
if column_idx + 1 == self.active_column_idx {
// The previous column, that we were going to activate upon removal of the active
// column, has just been itself removed.
self.activate_prev_column_on_removal = None;
}
if column_idx == self.active_column_idx {
self.view_offset_before_fullscreen = None;
}
if self.columns.is_empty() {
return column;
}
let view_config = anim_config.unwrap_or(self.options.animations.horizontal_view_movement.0);
if column_idx < self.active_column_idx {
// A column to the left was removed; preserve the current position.
// FIXME: preserve activate_prev_column_on_removal.
self.active_column_idx -= 1;
self.activate_prev_column_on_removal = None;
} else if column_idx == self.active_column_idx
&& self.activate_prev_column_on_removal.is_some()
{
// The active column was removed, and we needed to activate the previous column.
if 0 < column_idx {
let prev_offset = self.activate_prev_column_on_removal.unwrap();
self.activate_column_with_anim_config(self.active_column_idx - 1, view_config);
// Restore the view offset but make sure to scroll the view in case the
// previous window had resized.
self.animate_view_offset_with_config(
self.active_column_idx,
prev_offset,
view_config,
);
self.animate_view_offset_to_column_with_config(
None,
self.active_column_idx,
None,
view_config,
);
}
} else {
self.activate_column_with_anim_config(
min(self.active_column_idx, self.columns.len() - 1),
view_config,
);
}
column
}
pub fn update_window(&mut self, window: &W::Id, serial: Option<Serial>) {
let (col_idx, column) = self
.columns
.iter_mut()
.enumerate()
.find(|(_, col)| col.contains(window))
.unwrap();
let (tile_idx, tile) = column
.tiles
.iter_mut()
.enumerate()
.find(|(_, tile)| tile.window().id() == window)
.unwrap();
let was_fullscreen = tile.is_fullscreen();
let resize = tile.window_mut().interactive_resize_data();
// Do this before calling update_window() so it can get up-to-date info.
if let Some(serial) = serial {
layout: Rename update_interactive_resize() to on_commit()
2024-12-18 10:38:02 +03:00
tile.window_mut().on_commit(serial);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
let prev_width = self.data[col_idx].width;
column.update_window(window);
self.data[col_idx].update(column);
column.update_tile_sizes(false);
let offset = prev_width - self.data[col_idx].width;
// Move other columns in tandem with resizing.
let started_resize_anim =
column.tiles[tile_idx].resize_animation().is_some() && offset != 0.;
if started_resize_anim {
if self.active_column_idx <= col_idx {
for col in &mut self.columns[col_idx + 1..] {
col.animate_move_from_with_config(
offset,
self.options.animations.window_resize.anim,
);
}
} else {
for col in &mut self.columns[..=col_idx] {
col.animate_move_from_with_config(
-offset,
self.options.animations.window_resize.anim,
);
}
}
}
if col_idx == self.active_column_idx {
// If offset == 0, then don't mess with the view or the gesture. Some clients (Firefox,
// Chromium, Electron) currently don't commit after the ack of a configure that drops
// the Resizing state, which can trigger this code path for a while.
let resize = if offset != 0. { resize } else { None };
if let Some(resize) = resize {
// Don't bother with the gesture.
self.view_offset.cancel_gesture();
// If this is an interactive resize commit of an active window, then we need to
// either preserve the view offset or adjust it accordingly.
let centered = self.is_centering_focused_column();
let width = self.data[col_idx].width;
let offset = if centered {
// FIXME: when view_offset becomes fractional, this can be made additive too.
let new_offset =
-(self.working_area.size.w - width) / 2. - self.working_area.loc.x;
new_offset - self.view_offset.target()
} else if resize.edges.contains(ResizeEdge::LEFT) {
-offset
} else {
0.
};
self.view_offset.offset(offset);
}
if self.interactive_resize.is_none() && !self.view_offset.is_gesture() {
// We might need to move the view to ensure the resized window is still visible.
// Upon unfullscreening, restore the view offset.
let is_fullscreen = self.columns[col_idx].tiles[tile_idx].is_fullscreen();
if was_fullscreen && !is_fullscreen {
if let Some(prev_offset) = self.view_offset_before_fullscreen.take() {
self.animate_view_offset(col_idx, prev_offset);
}
}
// Synchronize the horizontal view movement with the resize so that it looks nice.
// This is especially important for always-centered view.
let config = if started_resize_anim {
self.options.animations.window_resize.anim
} else {
self.options.animations.horizontal_view_movement.0
};
// FIXME: we will want to skip the animation in some cases here to make continuously
// resizing windows not look janky.
self.animate_view_offset_to_column_with_config(None, col_idx, None, config);
}
}
}
pub fn scroll_amount_to_activate(&self, window: &W::Id) -> f64 {
let column_idx = self
.columns
.iter()
.position(|col| col.contains(window))
.unwrap();
if self.active_column_idx == column_idx {
return 0.;
}
// Consider the end of an ongoing animation because that's what compute to fit does too.
let target_x = self.target_view_pos();
let new_view_offset = self.compute_new_view_offset_for_column(
Some(target_x),
column_idx,
Some(self.active_column_idx),
);
let new_col_x = self.column_x(column_idx);
let from_view_offset = target_x - new_col_x;
(from_view_offset - new_view_offset).abs() / self.working_area.size.w
}
layout: Return bool from activate_window()
2024-12-08 09:15:10 +03:00
pub fn activate_window(&mut self, window: &W::Id) -> bool {
let column_idx = self.columns.iter().position(|col| col.contains(window));
let Some(column_idx) = column_idx else {
return false;
};
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let column = &mut self.columns[column_idx];
column.activate_window(window);
self.activate_column(column_idx);
layout: Return bool from activate_window()
2024-12-08 09:15:10 +03:00
true
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
pub fn start_close_animation_for_window(
&mut self,
renderer: &mut GlesRenderer,
window: &W::Id,
blocker: TransactionBlocker,
) {
let (tile, mut tile_pos) = self
.tiles_with_render_positions_mut(false)
.find(|(tile, _)| tile.window().id() == window)
.unwrap();
let Some(snapshot) = tile.take_unmap_snapshot() else {
return;
};
let tile_size = tile.tile_size();
let (col_idx, tile_idx) = self
.columns
.iter()
.enumerate()
.find_map(|(col_idx, col)| {
col.tiles
.iter()
.position(|tile| tile.window().id() == window)
.map(move |tile_idx| (col_idx, tile_idx))
})
.unwrap();
let col = &self.columns[col_idx];
let removing_last = col.tiles.len() == 1;
tile_pos.x += self.view_pos();
if col_idx < self.active_column_idx {
let offset = if removing_last {
self.column_x(col_idx + 1) - self.column_x(col_idx)
} else {
self.data[col_idx].width
- col
.data
.iter()
.enumerate()
.filter_map(|(idx, data)| {
(idx != tile_idx).then_some(NotNan::new(data.size.w).unwrap())
})
.max()
.map(NotNan::into_inner)
.unwrap()
};
tile_pos.x -= offset;
}
self.start_close_animation_for_tile(renderer, snapshot, tile_size, tile_pos, blocker);
}
Initial WIP floating window implementation
2024-11-29 21:11:02 +03:00
fn start_close_animation_for_tile(
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
&mut self,
renderer: &mut GlesRenderer,
snapshot: TileRenderSnapshot,
tile_size: Size<f64, Logical>,
tile_pos: Point<f64, Logical>,
blocker: TransactionBlocker,
) {
let anim = Animation::new(
self.clock.clone(),
0.,
1.,
0.,
self.options.animations.window_close.anim,
);
let blocker = if self.options.disable_transactions {
TransactionBlocker::completed()
} else {
blocker
};
let scale = Scale::from(self.scale);
let res = ClosingWindow::new(
renderer, snapshot, scale, tile_size, tile_pos, blocker, anim,
);
match res {
Ok(closing) => {
self.closing_windows.push(closing);
}
Err(err) => {
warn!("error creating a closing window animation: {err:?}");
}
}
}
pub fn focus_left(&mut self) -> bool {
if self.active_column_idx == 0 {
return false;
}
self.activate_column(self.active_column_idx - 1);
true
}
pub fn focus_right(&mut self) -> bool {
if self.active_column_idx + 1 >= self.columns.len() {
return false;
}
self.activate_column(self.active_column_idx + 1);
true
}
pub fn focus_column_first(&mut self) {
self.activate_column(0);
}
pub fn focus_column_last(&mut self) {
if self.columns.is_empty() {
return;
}
self.activate_column(self.columns.len() - 1);
}
Add focus-window-in-column (by index) action
2025-02-05 17:18:21 +03:00
pub fn focus_window_in_column(&mut self, index: u8) {
if self.columns.is_empty() {
return;
}
self.columns[self.active_column_idx].focus_index(index);
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
pub fn focus_down(&mut self) -> bool {
if self.columns.is_empty() {
return false;
}
self.columns[self.active_column_idx].focus_down()
}
pub fn focus_up(&mut self) -> bool {
if self.columns.is_empty() {
return false;
}
self.columns[self.active_column_idx].focus_up()
}
pub fn focus_down_or_left(&mut self) {
if self.columns.is_empty() {
return;
}
let column = &mut self.columns[self.active_column_idx];
if !column.focus_down() {
self.focus_left();
}
}
pub fn focus_down_or_right(&mut self) {
if self.columns.is_empty() {
return;
}
let column = &mut self.columns[self.active_column_idx];
if !column.focus_down() {
self.focus_right();
}
}
pub fn focus_up_or_left(&mut self) {
if self.columns.is_empty() {
return;
}
let column = &mut self.columns[self.active_column_idx];
if !column.focus_up() {
self.focus_left();
}
}
pub fn focus_up_or_right(&mut self) {
if self.columns.is_empty() {
return;
}
let column = &mut self.columns[self.active_column_idx];
if !column.focus_up() {
self.focus_right();
}
}
Add focus-window-top/bottom/down-or-top/up-or-bottom actions
2025-02-05 17:18:21 +03:00
pub fn focus_top(&mut self) {
if self.columns.is_empty() {
return;
}
self.columns[self.active_column_idx].focus_top()
}
pub fn focus_bottom(&mut self) {
if self.columns.is_empty() {
return;
}
self.columns[self.active_column_idx].focus_bottom()
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
fn move_column_to(&mut self, new_idx: usize) {
if self.active_column_idx == new_idx {
return;
}
let current_col_x = self.column_x(self.active_column_idx);
let next_col_x = self.column_x(self.active_column_idx + 1);
let mut column = self.columns.remove(self.active_column_idx);
let data = self.data.remove(self.active_column_idx);
cancel_resize_for_column(&mut self.interactive_resize, &mut column);
self.columns.insert(new_idx, column);
self.data.insert(new_idx, data);
// Preserve the camera position when moving to the left.
let view_offset_delta = -self.column_x(self.active_column_idx) + current_col_x;
self.view_offset.cancel_gesture();
self.view_offset.offset(view_offset_delta);
// The column we just moved is offset by the difference between its new and old position.
let new_col_x = self.column_x(new_idx);
self.columns[new_idx].animate_move_from(current_col_x - new_col_x);
// All columns in between moved by the width of the column that we just moved.
let others_x_offset = next_col_x - current_col_x;
if self.active_column_idx < new_idx {
for col in &mut self.columns[self.active_column_idx..new_idx] {
col.animate_move_from(others_x_offset);
}
} else {
for col in &mut self.columns[new_idx + 1..=self.active_column_idx] {
col.animate_move_from(-others_x_offset);
}
}
self.activate_column_with_anim_config(new_idx, self.options.animations.window_movement.0);
}
pub fn move_left(&mut self) -> bool {
if self.active_column_idx == 0 {
return false;
}
self.move_column_to(self.active_column_idx - 1);
true
}
pub fn move_right(&mut self) -> bool {
let new_idx = self.active_column_idx + 1;
if new_idx >= self.columns.len() {
return false;
}
self.move_column_to(new_idx);
true
}
pub fn move_column_to_first(&mut self) {
self.move_column_to(0);
}
pub fn move_column_to_last(&mut self) {
if self.columns.is_empty() {
return;
}
let new_idx = self.columns.len() - 1;
self.move_column_to(new_idx);
}
pub fn move_down(&mut self) -> bool {
if self.columns.is_empty() {
return false;
}
self.columns[self.active_column_idx].move_down()
}
pub fn move_up(&mut self) -> bool {
if self.columns.is_empty() {
return false;
}
self.columns[self.active_column_idx].move_up()
}
pub fn consume_or_expel_window_left(&mut self, window: Option<&W::Id>) {
if self.columns.is_empty() {
return;
}
let (source_col_idx, source_tile_idx) = if let Some(window) = window {
self.columns
.iter_mut()
.enumerate()
.find_map(|(col_idx, col)| {
col.tiles
.iter()
.position(|tile| tile.window().id() == window)
.map(|tile_idx| (col_idx, tile_idx))
})
.unwrap()
} else {
let source_col_idx = self.active_column_idx;
let source_tile_idx = self.columns[self.active_column_idx].active_tile_idx;
(source_col_idx, source_tile_idx)
};
let source_column = &self.columns[source_col_idx];
let prev_off = source_column.tile_offset(source_tile_idx);
let source_tile_was_active = self.active_column_idx == source_col_idx
&& source_column.active_tile_idx == source_tile_idx;
if source_column.tiles.len() == 1 {
if source_col_idx == 0 {
return;
}
// Move into adjacent column.
let target_column_idx = source_col_idx - 1;
let offset = if self.active_column_idx <= source_col_idx {
// Tiles to the right animate from the following column.
self.column_x(source_col_idx) - self.column_x(target_column_idx)
} else {
// Tiles to the left animate to preserve their right edge position.
f64::max(
0.,
self.data[target_column_idx].width - self.data[source_col_idx].width,
)
};
let mut offset = Point::from((offset, 0.));
if source_tile_was_active {
// Make sure the previous (target) column is activated so the animation looks right.
self.activate_prev_column_on_removal =
Some(self.view_offset.stationary() + offset.x);
}
offset.x += self.columns[source_col_idx].render_offset().x;
let RemovedTile { tile, .. } = self.remove_tile_by_idx(
source_col_idx,
0,
Transaction::new(),
Some(self.options.animations.window_movement.0),
);
self.add_tile_to_column(target_column_idx, None, tile, source_tile_was_active);
let target_column = &mut self.columns[target_column_idx];
offset.x -= target_column.render_offset().x;
offset += prev_off - target_column.tile_offset(target_column.tiles.len() - 1);
let new_tile = target_column.tiles.last_mut().unwrap();
new_tile.animate_move_from(offset);
} else {
// Move out of column.
let mut offset = Point::from((source_column.render_offset().x, 0.));
let removed =
self.remove_tile_by_idx(source_col_idx, source_tile_idx, Transaction::new(), None);
// We're inserting into the source column position.
let target_column_idx = source_col_idx;
self.add_tile(
Some(target_column_idx),
removed.tile,
source_tile_was_active,
removed.width,
removed.is_full_width,
Some(self.options.animations.window_movement.0),
);
if source_tile_was_active {
// We added to the left, don't activate even further left on removal.
self.activate_prev_column_on_removal = None;
}
if target_column_idx < self.active_column_idx {
// Tiles to the left animate from the following column.
offset.x += self.column_x(target_column_idx + 1) - self.column_x(target_column_idx);
}
let new_col = &mut self.columns[target_column_idx];
offset += prev_off - new_col.tile_offset(0);
new_col.tiles[0].animate_move_from(offset);
}
}
pub fn consume_or_expel_window_right(&mut self, window: Option<&W::Id>) {
if self.columns.is_empty() {
return;
}
let (source_col_idx, source_tile_idx) = if let Some(window) = window {
self.columns
.iter_mut()
.enumerate()
.find_map(|(col_idx, col)| {
col.tiles
.iter()
.position(|tile| tile.window().id() == window)
.map(|tile_idx| (col_idx, tile_idx))
})
.unwrap()
} else {
let source_col_idx = self.active_column_idx;
let source_tile_idx = self.columns[self.active_column_idx].active_tile_idx;
(source_col_idx, source_tile_idx)
};
let cur_x = self.column_x(source_col_idx);
let source_column = &self.columns[source_col_idx];
let mut offset = Point::from((source_column.render_offset().x, 0.));
let prev_off = source_column.tile_offset(source_tile_idx);
let source_tile_was_active = self.active_column_idx == source_col_idx
&& source_column.active_tile_idx == source_tile_idx;
if source_column.tiles.len() == 1 {
if source_col_idx + 1 == self.columns.len() {
return;
}
// Move into adjacent column.
let target_column_idx = source_col_idx;
offset.x += cur_x - self.column_x(source_col_idx + 1);
offset.x -= self.columns[source_col_idx + 1].render_offset().x;
if source_tile_was_active {
// Make sure the target column gets activated.
self.activate_prev_column_on_removal = None;
}
let RemovedTile { tile, .. } = self.remove_tile_by_idx(
source_col_idx,
0,
Transaction::new(),
Some(self.options.animations.window_movement.0),
);
self.add_tile_to_column(target_column_idx, None, tile, source_tile_was_active);
let target_column = &mut self.columns[target_column_idx];
offset += prev_off - target_column.tile_offset(target_column.tiles.len() - 1);
let new_tile = target_column.tiles.last_mut().unwrap();
new_tile.animate_move_from(offset);
} else {
// Move out of column.
let prev_width = self.data[source_col_idx].width;
let removed =
self.remove_tile_by_idx(source_col_idx, source_tile_idx, Transaction::new(), None);
let target_column_idx = source_col_idx + 1;
self.add_tile(
Some(target_column_idx),
removed.tile,
source_tile_was_active,
removed.width,
removed.is_full_width,
Some(self.options.animations.window_movement.0),
);
offset.x += if self.active_column_idx <= target_column_idx {
// Tiles to the right animate to the following column.
cur_x - self.column_x(target_column_idx)
} else {
// Tiles to the left animate for a change in width.
-f64::max(0., prev_width - self.data[target_column_idx].width)
};
let new_col = &mut self.columns[target_column_idx];
offset += prev_off - new_col.tile_offset(0);
new_col.tiles[0].animate_move_from(offset);
}
}
pub fn consume_into_column(&mut self) {
if self.columns.len() < 2 {
return;
}
if self.active_column_idx == self.columns.len() - 1 {
return;
}
let target_column_idx = self.active_column_idx;
let source_column_idx = self.active_column_idx + 1;
let offset = self.column_x(source_column_idx)
+ self.columns[source_column_idx].render_offset().x
- self.column_x(target_column_idx);
let mut offset = Point::from((offset, 0.));
let prev_off = self.columns[source_column_idx].tile_offset(0);
let removed = self.remove_tile_by_idx(source_column_idx, 0, Transaction::new(), None);
self.add_tile_to_column(target_column_idx, None, removed.tile, false);
let target_column = &mut self.columns[target_column_idx];
offset += prev_off - target_column.tile_offset(target_column.tiles.len() - 1);
offset.x -= target_column.render_offset().x;
let new_tile = target_column.tiles.last_mut().unwrap();
new_tile.animate_move_from(offset);
}
pub fn expel_from_column(&mut self) {
if self.columns.is_empty() {
return;
}
let source_col_idx = self.active_column_idx;
let target_col_idx = self.active_column_idx + 1;
let cur_x = self.column_x(source_col_idx);
let source_column = &self.columns[self.active_column_idx];
if source_column.tiles.len() == 1 {
return;
}
let source_tile_idx = source_column.tiles.len() - 1;
let mut offset = Point::from((source_column.render_offset().x, 0.));
let prev_off = source_column.tile_offset(source_tile_idx);
let removed =
self.remove_tile_by_idx(source_col_idx, source_tile_idx, Transaction::new(), None);
self.add_tile(
Some(target_col_idx),
removed.tile,
false,
removed.width,
removed.is_full_width,
Some(self.options.animations.window_movement.0),
);
offset.x += cur_x - self.column_x(target_col_idx);
let new_col = &mut self.columns[target_col_idx];
offset += prev_off - new_col.tile_offset(0);
new_col.tiles[0].animate_move_from(offset);
}
Add a window swap operation (#899)
2025-01-09 08:29:36 +00:00
pub fn swap_window_in_direction(&mut self, direction: ScrollDirection) {
if self.columns.is_empty() {
return;
}
// if this is the first (resp. last column), then this operation is equivalent
// to an `consume_or_expel_window_left` (resp. `consume_or_expel_window_right`)
match direction {
ScrollDirection::Left => {
if self.active_column_idx == 0 {
return;
}
}
ScrollDirection::Right => {
if self.active_column_idx == self.columns.len() - 1 {
return;
}
}
}
let source_column_idx = self.active_column_idx;
let target_column_idx = self.active_column_idx.wrapping_add_signed(match direction {
ScrollDirection::Left => -1,
ScrollDirection::Right => 1,
});
// if both source and target columns contain a single tile, then the operation is equivalent
// to a simple column move
if self.columns[source_column_idx].tiles.len() == 1
&& self.columns[target_column_idx].tiles.len() == 1
{
return self.move_column_to(target_column_idx);
}
let source_tile_idx = self.columns[source_column_idx].active_tile_idx;
let target_tile_idx = self.columns[target_column_idx].active_tile_idx;
let source_column_drained = self.columns[source_column_idx].tiles.len() == 1;
// capture the original positions of the tiles
let (mut source_pt, mut target_pt) = (
self.columns[source_column_idx].render_offset()
+ self.columns[source_column_idx].tile_offset(source_tile_idx),
self.columns[target_column_idx].render_offset()
+ self.columns[target_column_idx].tile_offset(target_tile_idx),
);
source_pt.x += self.column_x(source_column_idx);
target_pt.x += self.column_x(target_column_idx);
let transaction = Transaction::new();
// If the source column contains a single tile, this will also remove the column.
// When this happens `source_column_drained` will be set and the column will need to be
// recreated with `add_tile`
let source_removed = self.remove_tile_by_idx(
source_column_idx,
source_tile_idx,
transaction.clone(),
None,
);
{
// special case when the source column disappears after removing its last tile
let adjusted_target_column_idx =
if direction == ScrollDirection::Right && source_column_drained {
target_column_idx - 1
} else {
target_column_idx
};
self.add_tile_to_column(
adjusted_target_column_idx,
Some(target_tile_idx),
source_removed.tile,
false,
);
let RemovedTile {
tile: target_tile, ..
} = self.remove_tile_by_idx(
adjusted_target_column_idx,
target_tile_idx + 1,
transaction.clone(),
None,
);
if source_column_drained {
// recreate the drained column with only the target tile
self.add_tile(
Some(source_column_idx),
target_tile,
true,
source_removed.width,
source_removed.is_full_width,
None,
)
} else {
// simply add the removed target tile to the source column
self.add_tile_to_column(
source_column_idx,
Some(source_tile_idx),
target_tile,
false,
);
}
}
// update the active tile in the modified columns
self.columns[source_column_idx].active_tile_idx = source_tile_idx;
self.columns[target_column_idx].active_tile_idx = target_tile_idx;
// Animations
self.columns[target_column_idx].tiles[target_tile_idx]
.animate_move_from(source_pt - target_pt);
// FIXME: this stop_move_animations() causes the target tile animation to "reset" when
// swapping. It's here as a workaround to stop the unwanted animation of moving the source
// tile down when adding the target tile above it. This code needs to be written in some
// other way not to trigger that animation, or to cancel it properly, so that swap doesn't
// cancel all ongoing target tile animations.
self.columns[source_column_idx].tiles[source_tile_idx].stop_move_animations();
self.columns[source_column_idx].tiles[source_tile_idx]
.animate_move_from(target_pt - source_pt);
self.activate_column(target_column_idx);
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
pub fn center_column(&mut self) {
if self.columns.is_empty() {
return;
}
self.animate_view_offset_to_column_centered(
None,
self.active_column_idx,
self.options.animations.horizontal_view_movement.0,
);
let col = &mut self.columns[self.active_column_idx];
cancel_resize_for_column(&mut self.interactive_resize, col);
}
Add center-window by-id action
2024-12-29 22:44:19 +03:00
pub fn center_window(&mut self, window: Option<&W::Id>) {
if self.columns.is_empty() {
return;
}
let col_idx = if let Some(window) = window {
self.columns
.iter()
.position(|col| col.contains(window))
.unwrap()
} else {
self.active_column_idx
};
// We can reasonably center only the active column.
if col_idx != self.active_column_idx {
return;
}
self.center_column();
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
pub fn view_pos(&self) -> f64 {
self.column_x(self.active_column_idx) + self.view_offset.current()
}
pub fn target_view_pos(&self) -> f64 {
self.column_x(self.active_column_idx) + self.view_offset.target()
}
// HACK: pass a self.data iterator in manually as a workaround for the lack of method partial
// borrowing. Note that this method's return value does not borrow the entire &Self!
fn column_xs(&self, data: impl Iterator<Item = ColumnData>) -> impl Iterator<Item = f64> {
let gaps = self.options.gaps;
let mut x = 0.;
// Chain with a dummy value to be able to get one past all columns' X.
let dummy = ColumnData { width: 0. };
let data = data.chain(iter::once(dummy));
data.map(move |data| {
let rv = x;
x += data.width + gaps;
rv
})
}
fn column_x(&self, column_idx: usize) -> f64 {
self.column_xs(self.data.iter().copied())
.nth(column_idx)
.unwrap()
}
fn column_xs_in_render_order(
&self,
data: impl Iterator<Item = ColumnData>,
) -> impl Iterator<Item = f64> {
let active_idx = self.active_column_idx;
let active_pos = self.column_x(active_idx);
let offsets = self
.column_xs(data)
.enumerate()
.filter_map(move |(idx, pos)| (idx != active_idx).then_some(pos));
iter::once(active_pos).chain(offsets)
}
fn columns_mut(&mut self) -> impl Iterator<Item = (&mut Column<W>, f64)> + '_ {
let offsets = self.column_xs(self.data.iter().copied());
zip(&mut self.columns, offsets)
}
fn columns_in_render_order(&self) -> impl Iterator<Item = (&Column<W>, f64)> + '_ {
let offsets = self.column_xs_in_render_order(self.data.iter().copied());
let (first, active, rest) = if self.columns.is_empty() {
(&[][..], &[][..], &[][..])
} else {
let (first, rest) = self.columns.split_at(self.active_column_idx);
let (active, rest) = rest.split_at(1);
(first, active, rest)
};
let columns = active.iter().chain(first).chain(rest);
zip(columns, offsets)
}
fn columns_in_render_order_mut(&mut self) -> impl Iterator<Item = (&mut Column<W>, f64)> + '_ {
let offsets = self.column_xs_in_render_order(self.data.iter().copied());
let (first, active, rest) = if self.columns.is_empty() {
(&mut [][..], &mut [][..], &mut [][..])
} else {
let (first, rest) = self.columns.split_at_mut(self.active_column_idx);
let (active, rest) = rest.split_at_mut(1);
(first, active, rest)
};
let columns = active.iter_mut().chain(first).chain(rest);
zip(columns, offsets)
}
pub fn tiles_with_render_positions(
&self,
) -> impl Iterator<Item = (&Tile<W>, Point<f64, Logical>)> {
let scale = self.scale;
let view_off = Point::from((-self.view_pos(), 0.));
self.columns_in_render_order()
.flat_map(move |(col, col_x)| {
let col_off = Point::from((col_x, 0.));
let col_render_off = col.render_offset();
col.tiles_in_render_order().map(move |(tile, tile_off)| {
let pos = view_off + col_off + col_render_off + tile_off + tile.render_offset();
// Round to physical pixels.
let pos = pos.to_physical_precise_round(scale).to_logical(scale);
(tile, pos)
})
})
}
pub fn tiles_with_render_positions_mut(
&mut self,
round: bool,
) -> impl Iterator<Item = (&mut Tile<W>, Point<f64, Logical>)> {
let scale = self.scale;
let view_off = Point::from((-self.view_pos(), 0.));
self.columns_in_render_order_mut()
.flat_map(move |(col, col_x)| {
let col_off = Point::from((col_x, 0.));
let col_render_off = col.render_offset();
col.tiles_in_render_order_mut()
.map(move |(tile, tile_off)| {
let mut pos =
view_off + col_off + col_render_off + tile_off + tile.render_offset();
// Round to physical pixels.
if round {
pos = pos.to_physical_precise_round(scale).to_logical(scale);
}
(tile, pos)
})
})
}
fn insert_hint_area(&self, insert_hint: &InsertHint) -> Option<Rectangle<f64, Logical>> {
let mut hint_area = match insert_hint.position {
InsertPosition::NewColumn(column_index) => {
if column_index == 0 || column_index == self.columns.len() {
let size =
Size::from((300., self.working_area.size.h - self.options.gaps * 2.));
let mut loc = Point::from((
self.column_x(column_index),
self.working_area.loc.y + self.options.gaps,
));
if column_index == 0 && !self.columns.is_empty() {
loc.x -= size.w + self.options.gaps;
}
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
Rectangle::new(loc, size)
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
} else if column_index > self.columns.len() {
error!("insert hint column index is out of range");
return None;
} else {
let size =
Size::from((300., self.working_area.size.h - self.options.gaps * 2.));
let loc = Point::from((
self.column_x(column_index) - size.w / 2. - self.options.gaps / 2.,
self.working_area.loc.y + self.options.gaps,
));
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
Rectangle::new(loc, size)
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
}
InsertPosition::InColumn(column_index, tile_index) => {
if column_index > self.columns.len() {
error!("insert hint column index is out of range");
return None;
}
layout: Extract col variable
2025-02-06 10:15:43 +03:00
let col = &self.columns[column_index];
if tile_index > col.tiles.len() {
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
error!("insert hint tile index is out of range");
return None;
}
let (height, y) = if tile_index == 0 {
layout: Extract col variable
2025-02-06 10:15:43 +03:00
(150., col.tile_offset(tile_index).y)
} else if tile_index == col.tiles.len() {
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
(
150.,
layout: Extract col variable
2025-02-06 10:15:43 +03:00
col.tile_offset(tile_index).y - self.options.gaps - 150.,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
)
} else {
(
300.,
layout: Extract col variable
2025-02-06 10:15:43 +03:00
col.tile_offset(tile_index).y - self.options.gaps / 2. - 150.,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
)
};
let size = Size::from((self.data[column_index].width, height));
let loc = Point::from((self.column_x(column_index), y));
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
Rectangle::new(loc, size)
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
Initial WIP floating window implementation
2024-11-29 21:11:02 +03:00
InsertPosition::Floating => return None,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
};
// First window on an empty workspace will cancel out any view offset. Replicate this
// effect here.
if self.columns.is_empty() {
let view_offset = if self.is_centering_focused_column() {
self.compute_new_view_offset_centered(Some(0.), 0., hint_area.size.w, false)
} else {
self.compute_new_view_offset_fit(Some(0.), 0., hint_area.size.w, false)
};
hint_area.loc.x -= view_offset;
} else {
hint_area.loc.x -= self.view_pos();
}
layout: Mark accessors as cfg(test)
2024-12-04 22:08:47 +03:00
let view_size = self.view_size;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
// Make sure the hint is at least partially visible.
if matches!(insert_hint.position, InsertPosition::NewColumn(_)) {
hint_area.loc.x = hint_area.loc.x.max(-hint_area.size.w / 2.);
hint_area.loc.x = hint_area.loc.x.min(view_size.w - hint_area.size.w / 2.);
}
// Round to physical pixels.
hint_area = hint_area
.to_physical_precise_round(self.scale)
.to_logical(self.scale);
Some(hint_area)
}
/// Returns the geometry of the active tile relative to and clamped to the view.
///
/// During animations, assumes the final view position.
pub fn active_tile_visual_rectangle(&self) -> Option<Rectangle<f64, Logical>> {
let col = self.columns.get(self.active_column_idx)?;
let final_view_offset = self.view_offset.target();
let view_off = Point::from((-final_view_offset, 0.));
let (tile, tile_off) = col.tiles().nth(col.active_tile_idx).unwrap();
let tile_pos = view_off + tile_off;
let tile_size = tile.tile_size();
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
let tile_rect = Rectangle::new(tile_pos, tile_size);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
let view = Rectangle::from_size(self.view_size);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
view.intersection(tile_rect)
}
pub fn popup_target_rect(&self, id: &W::Id) -> Option<Rectangle<f64, Logical>> {
self.columns
.iter()
.find_map(|col| col.popup_target_rect(id))
}
pub fn toggle_width(&mut self) {
if self.columns.is_empty() {
return;
}
let col = &mut self.columns[self.active_column_idx];
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
col.toggle_width(None);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
cancel_resize_for_column(&mut self.interactive_resize, col);
}
pub fn toggle_full_width(&mut self) {
if self.columns.is_empty() {
return;
}
let col = &mut self.columns[self.active_column_idx];
col.toggle_full_width();
cancel_resize_for_column(&mut self.interactive_resize, col);
}
Add set-window-width action
2024-12-28 10:12:50 +03:00
pub fn set_window_width(&mut self, window: Option<&W::Id>, change: SizeChange) {
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
if self.columns.is_empty() {
return;
}
Add set-window-width action
2024-12-28 10:12:50 +03:00
let (col, tile_idx) = if let Some(window) = window {
self.columns
.iter_mut()
.find_map(|col| {
col.tiles
.iter()
.position(|tile| tile.window().id() == window)
.map(|tile_idx| (col, Some(tile_idx)))
})
.unwrap()
} else {
(&mut self.columns[self.active_column_idx], None)
};
col.set_column_width(change, tile_idx, true);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
cancel_resize_for_column(&mut self.interactive_resize, col);
}
pub fn set_window_height(&mut self, window: Option<&W::Id>, change: SizeChange) {
if self.columns.is_empty() {
return;
}
let (col, tile_idx) = if let Some(window) = window {
self.columns
.iter_mut()
.find_map(|col| {
col.tiles
.iter()
.position(|tile| tile.window().id() == window)
.map(|tile_idx| (col, Some(tile_idx)))
})
.unwrap()
} else {
(&mut self.columns[self.active_column_idx], None)
};
col.set_window_height(change, tile_idx, true);
cancel_resize_for_column(&mut self.interactive_resize, col);
}
pub fn reset_window_height(&mut self, window: Option<&W::Id>) {
if self.columns.is_empty() {
return;
}
let (col, tile_idx) = if let Some(window) = window {
self.columns
.iter_mut()
.find_map(|col| {
col.tiles
.iter()
.position(|tile| tile.window().id() == window)
.map(|tile_idx| (col, Some(tile_idx)))
})
.unwrap()
} else {
(&mut self.columns[self.active_column_idx], None)
};
col.reset_window_height(tile_idx, true);
cancel_resize_for_column(&mut self.interactive_resize, col);
}
Add toggle-window-width by-id action
2024-12-30 09:05:35 +03:00
pub fn toggle_window_width(&mut self, window: Option<&W::Id>) {
if self.columns.is_empty() {
return;
}
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
let (col, tile_idx) = if let Some(window) = window {
Add toggle-window-width by-id action
2024-12-30 09:05:35 +03:00
self.columns
.iter_mut()
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
.find_map(|col| {
col.tiles
.iter()
.position(|tile| tile.window().id() == window)
.map(|tile_idx| (col, Some(tile_idx)))
})
Add toggle-window-width by-id action
2024-12-30 09:05:35 +03:00
.unwrap()
} else {
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
(&mut self.columns[self.active_column_idx], None)
Add toggle-window-width by-id action
2024-12-30 09:05:35 +03:00
};
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
col.toggle_width(tile_idx);
Add toggle-window-width by-id action
2024-12-30 09:05:35 +03:00
cancel_resize_for_column(&mut self.interactive_resize, col);
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
pub fn toggle_window_height(&mut self, window: Option<&W::Id>) {
if self.columns.is_empty() {
return;
}
let (col, tile_idx) = if let Some(window) = window {
self.columns
.iter_mut()
.find_map(|col| {
col.tiles
.iter()
.position(|tile| tile.window().id() == window)
.map(|tile_idx| (col, Some(tile_idx)))
})
.unwrap()
} else {
(&mut self.columns[self.active_column_idx], None)
};
col.toggle_window_height(tile_idx, true);
cancel_resize_for_column(&mut self.interactive_resize, col);
}
layout: Remember whether to unfullscreen back into floating
2024-12-16 09:03:50 +03:00
pub fn set_fullscreen(&mut self, window: &W::Id, is_fullscreen: bool) -> bool {
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let (mut col_idx, tile_idx) = self
.columns
.iter()
.enumerate()
.find_map(|(col_idx, col)| col.position(window).map(|tile_idx| (col_idx, tile_idx)))
.unwrap();
if is_fullscreen == self.columns[col_idx].is_fullscreen {
layout: Remember whether to unfullscreen back into floating
2024-12-16 09:03:50 +03:00
return false;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
if is_fullscreen
&& col_idx == self.active_column_idx
&& self.columns[col_idx].tiles.len() == 1
{
self.view_offset_before_fullscreen = Some(self.view_offset.stationary());
}
let mut col = &mut self.columns[col_idx];
cancel_resize_for_column(&mut self.interactive_resize, col);
if is_fullscreen && col.tiles.len() > 1 {
// This wasn't the only window in its column; extract it into a separate column.
let activate = self.active_column_idx == col_idx && col.active_tile_idx == tile_idx;
let removed = self.remove_tile_by_idx(col_idx, tile_idx, Transaction::new(), None);
// Create a column manually to disable the resize animation.
let column = Column::new_with_tile(
removed.tile,
self.view_size,
self.working_area,
self.scale,
removed.width,
removed.is_full_width,
false,
);
self.add_column(Some(col_idx + 1), column, activate, None);
col_idx += 1;
col = &mut self.columns[col_idx];
}
col.set_fullscreen(is_fullscreen);
// If we quickly fullscreen and unfullscreen before any window has a chance to receive the
// request, we need to reset the offset.
if col_idx == self.active_column_idx
&& !is_fullscreen
&& !col
.tiles
.iter()
.any(|tile| tile.is_fullscreen() || tile.window().is_pending_fullscreen())
{
self.view_offset_before_fullscreen = None;
}
layout: Remember whether to unfullscreen back into floating
2024-12-16 09:03:50 +03:00
true
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
pub fn render_above_top_layer(&self) -> bool {
// Render above the top layer if we're on a fullscreen window and the view is stationary.
if self.columns.is_empty() {
return false;
}
if !self.view_offset.is_static() {
return false;
}
self.columns[self.active_column_idx].is_fullscreen
}
pub fn render_elements<R: NiriRenderer>(
&self,
renderer: &mut R,
scale: Scale<f64>,
target: RenderTarget,
Hide focus ring for unfocused layout and under interactive move
2024-12-29 11:04:08 +03:00
focus_ring: bool,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
) -> Vec<ScrollingSpaceRenderElement<R>> {
let mut rv = vec![];
// Draw the insert hint.
if let Some(insert_hint) = &self.insert_hint {
if let Some(area) = self.insert_hint_area(insert_hint) {
rv.extend(
self.insert_hint_element
.render(renderer, area.loc)
.map(ScrollingSpaceRenderElement::InsertHint),
);
}
}
// Draw the closing windows on top of the other windows.
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
let view_rect = Rectangle::new(Point::from((self.view_pos(), 0.)), self.view_size);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
for closing in self.closing_windows.iter().rev() {
let elem = closing.render(renderer.as_gles_renderer(), view_rect, scale, target);
rv.push(elem.into());
}
if self.columns.is_empty() {
return rv;
}
let mut first = true;
for (tile, tile_pos) in self.tiles_with_render_positions() {
// For the active tile (which comes first), draw the focus ring.
Hide focus ring for unfocused layout and under interactive move
2024-12-29 11:04:08 +03:00
let focus_ring = focus_ring && first;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
first = false;
rv.extend(
tile.render(renderer, tile_pos, scale, focus_ring, target)
.map(Into::into),
);
}
rv
}
pub fn view_offset_gesture_begin(&mut self, is_touchpad: bool) {
if self.columns.is_empty() {
return;
}
if self.interactive_resize.is_some() {
return;
}
let gesture = ViewGesture {
current_view_offset: self.view_offset.current(),
tracker: SwipeTracker::new(),
delta_from_tracker: self.view_offset.current(),
stationary_view_offset: self.view_offset.stationary(),
is_touchpad,
};
self.view_offset = ViewOffset::Gesture(gesture);
}
pub fn view_offset_gesture_update(
&mut self,
delta_x: f64,
timestamp: Duration,
is_touchpad: bool,
) -> Option<bool> {
let ViewOffset::Gesture(gesture) = &mut self.view_offset else {
return None;
};
if gesture.is_touchpad != is_touchpad {
return None;
}
gesture.tracker.push(delta_x, timestamp);
let norm_factor = if gesture.is_touchpad {
self.working_area.size.w / VIEW_GESTURE_WORKING_AREA_MOVEMENT
} else {
1.
};
let pos = gesture.tracker.pos() * norm_factor;
let view_offset = pos + gesture.delta_from_tracker;
gesture.current_view_offset = view_offset;
Some(true)
}
pub fn view_offset_gesture_end(&mut self, _cancelled: bool, is_touchpad: Option<bool>) -> bool {
let ViewOffset::Gesture(gesture) = &mut self.view_offset else {
return false;
};
Fix new Clippy warnings
2025-01-10 09:01:23 +03:00
if is_touchpad.is_some_and(|x| gesture.is_touchpad != x) {
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
return false;
}
// We do not handle cancelling, just like GNOME Shell doesn't. For this gesture, proper
// cancelling would require keeping track of the original active column, and then updating
// it in all the right places (adding columns, removing columns, etc.) -- quite a bit of
// effort and bug potential.
let norm_factor = if gesture.is_touchpad {
self.working_area.size.w / VIEW_GESTURE_WORKING_AREA_MOVEMENT
} else {
1.
};
let velocity = gesture.tracker.velocity() * norm_factor;
let pos = gesture.tracker.pos() * norm_factor;
let current_view_offset = pos + gesture.delta_from_tracker;
if self.columns.is_empty() {
self.view_offset = ViewOffset::Static(current_view_offset);
return true;
}
// Figure out where the gesture would stop after deceleration.
let end_pos = gesture.tracker.projected_end_pos() * norm_factor;
let target_view_offset = end_pos + gesture.delta_from_tracker;
// Compute the snapping points. These are where the view aligns with column boundaries on
// either side.
struct Snap {
// View position relative to x = 0 (the first column).
view_pos: f64,
// Column to activate for this snapping point.
col_idx: usize,
}
let mut snapping_points = Vec::new();
let left_strut = self.working_area.loc.x;
let right_strut = self.view_size.w - self.working_area.size.w - self.working_area.loc.x;
if self.is_centering_focused_column() {
let mut col_x = 0.;
for (col_idx, col) in self.columns.iter().enumerate() {
let col_w = col.width();
let view_pos = if col.is_fullscreen {
col_x
} else if self.working_area.size.w <= col_w {
col_x - left_strut
} else {
col_x - (self.working_area.size.w - col_w) / 2. - left_strut
};
snapping_points.push(Snap { view_pos, col_idx });
col_x += col_w + self.options.gaps;
}
} else {
adjust horizontal view movement gestures snap points for center-focused-column "on-overflow" (#1052)
2025-01-30 14:17:16 +00:00
let center_on_overflow = matches!(
self.options.center_focused_column,
CenterFocusedColumn::OnOverflow
);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let view_width = self.view_size.w;
let working_area_width = self.working_area.size.w;
let gaps = self.options.gaps;
adjust horizontal view movement gestures snap points for center-focused-column "on-overflow" (#1052)
2025-01-30 14:17:16 +00:00
let snap_points =
|col_x, col: &Column<W>, prev_col_w: Option<f64>, next_col_w: Option<f64>| {
let col_w = col.width();
// Normal columns align with the working area, but fullscreen columns align with
// the view size.
if col.is_fullscreen {
let left = col_x;
let right = col_x + col_w;
(left, right)
} else {
// Logic from compute_new_view_offset.
let padding = ((working_area_width - col_w) / 2.).clamp(0., gaps);
let center = if self.working_area.size.w <= col_w {
col_x - left_strut
} else {
col_x - (self.working_area.size.w - col_w) / 2. - left_strut
};
let is_overflowing = |adj_col_w: Option<f64>| {
center_on_overflow
&& adj_col_w
.filter(|adj_col_w| {
center_on_overflow
&& adj_col_w + 3.0 * gaps + col_w > working_area_width
})
.is_some()
};
let left = if is_overflowing(next_col_w) {
center
} else {
col_x - padding - left_strut
};
let right = if is_overflowing(prev_col_w) {
center + view_width
} else {
col_x + col_w + padding + right_strut
};
(left, right)
}
};
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
// Prevent the gesture from snapping further than the first/last column, as this is
// generally undesired.
//
// It's ok if leftmost_snap is > rightmost_snap (this happens if the columns on a
// workspace total up to less than the workspace width).
adjust horizontal view movement gestures snap points for center-focused-column "on-overflow" (#1052)
2025-01-30 14:17:16 +00:00
let leftmost_snap = snap_points(
0.,
&self.columns[0],
None,
self.columns.get(1).map(|c| c.width()),
)
.0;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let last_col_idx = self.columns.len() - 1;
let last_col_x = self
.columns
.iter()
.take(last_col_idx)
.fold(0., |col_x, col| col_x + col.width() + gaps);
adjust horizontal view movement gestures snap points for center-focused-column "on-overflow" (#1052)
2025-01-30 14:17:16 +00:00
let rightmost_snap = snap_points(
last_col_x,
&self.columns[last_col_idx],
last_col_idx
.checked_sub(1)
.and_then(|idx| self.columns.get(idx).map(|c| c.width())),
None,
)
.1 - view_width;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
snapping_points.push(Snap {
view_pos: leftmost_snap,
col_idx: 0,
});
snapping_points.push(Snap {
view_pos: rightmost_snap,
col_idx: last_col_idx,
});
let mut push = |col_idx, left, right| {
if leftmost_snap < left && left < rightmost_snap {
snapping_points.push(Snap {
view_pos: left,
col_idx,
});
}
let right = right - view_width;
if leftmost_snap < right && right < rightmost_snap {
snapping_points.push(Snap {
view_pos: right,
col_idx,
});
}
};
let mut col_x = 0.;
for (col_idx, col) in self.columns.iter().enumerate() {
adjust horizontal view movement gestures snap points for center-focused-column "on-overflow" (#1052)
2025-01-30 14:17:16 +00:00
let (left, right) = snap_points(
col_x,
col,
col_idx
.checked_sub(1)
.and_then(|idx| self.columns.get(idx).map(|c| c.width())),
self.columns.get(col_idx + 1).map(|c| c.width()),
);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
push(col_idx, left, right);
col_x += col.width() + gaps;
}
}
// Find the closest snapping point.
snapping_points.sort_by_key(|snap| NotNan::new(snap.view_pos).unwrap());
let active_col_x = self.column_x(self.active_column_idx);
let target_view_pos = active_col_x + target_view_offset;
let target_snap = snapping_points
.iter()
.min_by_key(|snap| NotNan::new((snap.view_pos - target_view_pos).abs()).unwrap())
.unwrap();
let mut new_col_idx = target_snap.col_idx;
if !self.is_centering_focused_column() {
// Focus the furthest window towards the direction of the gesture.
if target_view_offset >= current_view_offset {
for col_idx in (new_col_idx + 1)..self.columns.len() {
let col = &self.columns[col_idx];
let col_x = self.column_x(col_idx);
let col_w = col.width();
if col.is_fullscreen {
if target_snap.view_pos + self.view_size.w < col_x + col_w {
break;
}
} else {
let padding =
((self.working_area.size.w - col_w) / 2.).clamp(0., self.options.gaps);
if target_snap.view_pos + left_strut + self.working_area.size.w
< col_x + col_w + padding
{
break;
}
}
new_col_idx = col_idx;
}
} else {
for col_idx in (0..new_col_idx).rev() {
let col = &self.columns[col_idx];
let col_x = self.column_x(col_idx);
let col_w = col.width();
if col.is_fullscreen {
if col_x < target_snap.view_pos {
break;
}
} else {
let padding =
((self.working_area.size.w - col_w) / 2.).clamp(0., self.options.gaps);
if col_x - padding < target_snap.view_pos + left_strut {
break;
}
}
new_col_idx = col_idx;
}
}
}
let new_col_x = self.column_x(new_col_idx);
let delta = active_col_x - new_col_x;
if self.active_column_idx != new_col_idx {
self.view_offset_before_fullscreen = None;
}
self.active_column_idx = new_col_idx;
let target_view_offset = target_snap.view_pos - new_col_x;
self.view_offset = ViewOffset::Animation(Animation::new(
self.clock.clone(),
current_view_offset + delta,
target_view_offset,
velocity,
self.options.animations.horizontal_view_movement.0,
));
// HACK: deal with things like snapping to the right edge of a larger-than-view window.
self.animate_view_offset_to_column(None, new_col_idx, None);
true
}
pub fn interactive_resize_begin(&mut self, window: W::Id, edges: ResizeEdge) -> bool {
if self.interactive_resize.is_some() {
return false;
}
let col = self
.columns
.iter_mut()
.find(|col| col.contains(&window))
.unwrap();
if col.is_fullscreen {
return false;
}
let tile = col
.tiles
.iter_mut()
.find(|tile| tile.window().id() == &window)
.unwrap();
let original_window_size = tile.window_size();
let resize = InteractiveResize {
window,
original_window_size,
data: InteractiveResizeData { edges },
};
self.interactive_resize = Some(resize);
self.view_offset.stop_anim_and_gesture();
true
}
pub fn interactive_resize_update(
&mut self,
window: &W::Id,
delta: Point<f64, Logical>,
) -> bool {
let Some(resize) = &self.interactive_resize else {
return false;
};
if window != &resize.window {
return false;
}
let is_centering = self.is_centering_focused_column();
let col = self
.columns
.iter_mut()
.find(|col| col.contains(window))
.unwrap();
let tile_idx = col
.tiles
.iter()
.position(|tile| tile.window().id() == window)
.unwrap();
if resize.data.edges.intersects(ResizeEdge::LEFT_RIGHT) {
let mut dx = delta.x;
if resize.data.edges.contains(ResizeEdge::LEFT) {
dx = -dx;
};
if is_centering {
dx *= 2.;
}
let window_width = (resize.original_window_size.w + dx).round() as i32;
col.set_column_width(SizeChange::SetFixed(window_width), Some(tile_idx), false);
}
if resize.data.edges.intersects(ResizeEdge::TOP_BOTTOM) {
// Prevent the simplest case of weird resizing (top edge when this is the topmost
// window).
if !(resize.data.edges.contains(ResizeEdge::TOP) && tile_idx == 0) {
let mut dy = delta.y;
if resize.data.edges.contains(ResizeEdge::TOP) {
dy = -dy;
};
// FIXME: some smarter height distribution would be nice here so that vertical
// resizes work as expected in more cases.
let window_height = (resize.original_window_size.h + dy).round() as i32;
col.set_window_height(SizeChange::SetFixed(window_height), Some(tile_idx), false);
}
}
true
}
pub fn interactive_resize_end(&mut self, window: Option<&W::Id>) {
let Some(resize) = &self.interactive_resize else {
return;
};
if let Some(window) = window {
if window != &resize.window {
return;
}
// Animate the active window into view right away.
if self.columns[self.active_column_idx].contains(window) {
self.animate_view_offset_to_column(None, self.active_column_idx, None);
}
}
self.interactive_resize = None;
}
pub fn refresh(&mut self, is_active: bool) {
for (col_idx, col) in self.columns.iter_mut().enumerate() {
let mut col_resize_data = None;
if let Some(resize) = &self.interactive_resize {
if col.contains(&resize.window) {
col_resize_data = Some(resize.data);
}
}
let intent = if self.options.disable_resize_throttling {
ConfigureIntent::CanSend
} else if self.options.disable_transactions {
// When transactions are disabled, we don't use combined throttling, but rather
// compute throttling individually below.
ConfigureIntent::CanSend
} else {
col.tiles
.iter()
.fold(ConfigureIntent::NotNeeded, |intent, tile| {
match (intent, tile.window().configure_intent()) {
(_, ConfigureIntent::ShouldSend) => ConfigureIntent::ShouldSend,
(ConfigureIntent::NotNeeded, tile_intent) => tile_intent,
(ConfigureIntent::CanSend, ConfigureIntent::Throttled) => {
ConfigureIntent::Throttled
}
(intent, _) => intent,
}
})
};
for (tile_idx, tile) in col.tiles.iter_mut().enumerate() {
let win = tile.window_mut();
let active_in_column = col.active_tile_idx == tile_idx;
win.set_active_in_column(active_in_column);
Implement is-floating window rule matcher
2024-12-27 11:20:03 +03:00
win.set_floating(false);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let active = is_active && self.active_column_idx == col_idx && active_in_column;
win.set_activated(active);
win.set_interactive_resize(col_resize_data);
let border_config = win.rules().border.resolve_against(self.options.border);
let bounds = compute_toplevel_bounds(
border_config,
self.working_area.size,
self.options.gaps,
);
win.set_bounds(bounds);
// If transactions are disabled, also disable combined throttling, for more
// intuitive behavior.
let intent = if self.options.disable_transactions {
win.configure_intent()
} else {
intent
};
if matches!(
intent,
ConfigureIntent::CanSend | ConfigureIntent::ShouldSend
) {
win.send_pending_configure();
}
win.refresh();
}
}
}
layout: Mark accessors as cfg(test)
2024-12-04 22:08:47 +03:00
#[cfg(test)]
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
pub fn view_size(&self) -> Size<f64, Logical> {
self.view_size
}
layout: Mark accessors as cfg(test)
2024-12-04 22:08:47 +03:00
#[cfg(test)]
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
pub fn clock(&self) -> &Clock {
&self.clock
}
layout: Mark accessors as cfg(test)
2024-12-04 22:08:47 +03:00
#[cfg(test)]
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
pub fn options(&self) -> &Rc<Options> {
&self.options
}
#[cfg(test)]
pub fn active_column_idx(&self) -> usize {
self.active_column_idx
}
#[cfg(test)]
pub fn verify_invariants(&self, working_area: Rectangle<f64, Logical>) {
assert!(self.view_size.w > 0.);
assert!(self.view_size.h > 0.);
assert!(self.scale > 0.);
assert!(self.scale.is_finite());
assert_eq!(self.columns.len(), self.data.len());
assert_eq!(
self.working_area,
compute_working_area(working_area, self.scale, self.options.struts)
);
if !self.columns.is_empty() {
assert!(self.active_column_idx < self.columns.len());
for (column, data) in zip(&self.columns, &self.data) {
assert!(Rc::ptr_eq(&self.options, &column.options));
assert_eq!(self.clock, column.clock);
assert_eq!(self.scale, column.scale);
column.verify_invariants();
let mut data2 = *data;
data2.update(column);
assert_eq!(data, &data2, "column data must be up to date");
}
let col = &self.columns[self.active_column_idx];
// When we have an unfullscreen view offset stored, the active column should have a
// fullscreen tile.
if self.view_offset_before_fullscreen.is_some() {
assert!(
col.is_fullscreen
|| col.tiles.iter().any(|tile| {
tile.is_fullscreen() || tile.window().is_pending_fullscreen()
})
);
}
}
if let Some(resize) = &self.interactive_resize {
assert!(
self.columns
.iter()
.flat_map(|col| &col.tiles)
.any(|tile| tile.window().id() == &resize.window),
Initial WIP floating window implementation
2024-11-29 21:11:02 +03:00
"interactive resize window must be present in the layout"
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
);
}
}
}
impl ViewOffset {
/// Returns the current view offset.
pub fn current(&self) -> f64 {
match self {
ViewOffset::Static(offset) => *offset,
ViewOffset::Animation(anim) => anim.value(),
ViewOffset::Gesture(gesture) => gesture.current_view_offset,
}
}
/// Returns the target view offset suitable for computing the new view offset.
pub fn target(&self) -> f64 {
match self {
ViewOffset::Static(offset) => *offset,
ViewOffset::Animation(anim) => anim.to(),
// This can be used for example if a gesture is interrupted.
ViewOffset::Gesture(gesture) => gesture.current_view_offset,
}
}
/// Returns a view offset value suitable for saving and later restoration.
///
/// This means that it shouldn't return an in-progress animation or gesture value.
fn stationary(&self) -> f64 {
match self {
ViewOffset::Static(offset) => *offset,
// For animations we can return the final value.
ViewOffset::Animation(anim) => anim.to(),
ViewOffset::Gesture(gesture) => gesture.stationary_view_offset,
}
}
pub fn is_static(&self) -> bool {
matches!(self, Self::Static(_))
}
pub fn is_animation(&self) -> bool {
matches!(self, Self::Animation(_))
}
pub fn is_gesture(&self) -> bool {
matches!(self, Self::Gesture(_))
}
pub fn offset(&mut self, delta: f64) {
match self {
ViewOffset::Static(offset) => *offset += delta,
ViewOffset::Animation(anim) => anim.offset(delta),
ViewOffset::Gesture(_gesture) => {
// Is this needed?
error!("cancel gesture before offsetting");
}
}
}
pub fn cancel_gesture(&mut self) {
if let ViewOffset::Gesture(gesture) = self {
*self = ViewOffset::Static(gesture.current_view_offset);
}
}
pub fn stop_anim_and_gesture(&mut self) {
*self = ViewOffset::Static(self.current());
}
}
impl ColumnData {
pub fn new<W: LayoutElement>(column: &Column<W>) -> Self {
let mut rv = Self { width: 0. };
rv.update(column);
rv
}
pub fn update<W: LayoutElement>(&mut self, column: &Column<W>) {
self.width = column.width();
}
}
impl TileData {
pub fn new<W: LayoutElement>(tile: &Tile<W>, height: WindowHeight) -> Self {
let mut rv = Self {
height,
size: Size::default(),
interactively_resizing_by_left_edge: false,
};
rv.update(tile);
rv
}
pub fn update<W: LayoutElement>(&mut self, tile: &Tile<W>) {
self.size = tile.tile_size();
self.interactively_resizing_by_left_edge = tile
.window()
.interactive_resize_data()
Fix new Clippy warnings
2025-01-10 09:01:23 +03:00
.is_some_and(|data| data.edges.contains(ResizeEdge::LEFT));
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
}
impl ColumnWidth {
fn resolve(self, options: &Options, view_width: f64) -> f64 {
match self {
ColumnWidth::Proportion(proportion) => {
(view_width - options.gaps) * proportion - options.gaps
}
ColumnWidth::Fixed(width) => width,
}
}
}
impl From<PresetSize> for ColumnWidth {
fn from(value: PresetSize) -> Self {
match value {
PresetSize::Proportion(p) => Self::Proportion(p.clamp(0., 10000.)),
PresetSize::Fixed(f) => Self::Fixed(f64::from(f.clamp(1, 100000))),
}
}
}
impl WindowHeight {
const fn auto_1() -> Self {
Self::Auto { weight: 1. }
}
}
impl<W: LayoutElement> Column<W> {
#[allow(clippy::too_many_arguments)]
fn new_with_tile(
tile: Tile<W>,
view_size: Size<f64, Logical>,
working_area: Rectangle<f64, Logical>,
scale: f64,
width: ColumnWidth,
is_full_width: bool,
animate_resize: bool,
) -> Self {
let mut rv = Self {
tiles: vec![],
data: vec![],
active_tile_idx: 0,
width,
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
preset_width_idx: None,
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
is_full_width,
is_fullscreen: false,
move_animation: None,
view_size,
working_area,
scale,
clock: tile.clock.clone(),
options: tile.options.clone(),
};
let is_pending_fullscreen = tile.window().is_pending_fullscreen();
rv.add_tile_at(0, tile, animate_resize);
if is_pending_fullscreen {
rv.set_fullscreen(true);
}
rv
}
fn update_config(
&mut self,
view_size: Size<f64, Logical>,
working_area: Rectangle<f64, Logical>,
scale: f64,
options: Rc<Options>,
) {
let mut update_sizes = false;
if self.view_size != view_size || self.working_area != working_area {
update_sizes = true;
}
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
// If preset widths changed, clear our stored preset index.
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
if self.options.preset_column_widths != options.preset_column_widths {
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
self.preset_width_idx = None;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
// If preset heights changed, make our heights non-preset.
if self.options.preset_window_heights != options.preset_window_heights {
self.convert_heights_to_auto();
update_sizes = true;
}
if self.options.gaps != options.gaps {
update_sizes = true;
}
if self.options.border.off != options.border.off
|| self.options.border.width != options.border.width
{
update_sizes = true;
}
for (tile, data) in zip(&mut self.tiles, &mut self.data) {
layout: Pass and store view_size on a Tile
2024-12-26 08:54:56 +03:00
tile.update_config(view_size, scale, options.clone());
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
data.update(tile);
}
self.view_size = view_size;
self.working_area = working_area;
self.scale = scale;
self.options = options;
if update_sizes {
self.update_tile_sizes(false);
}
}
pub fn advance_animations(&mut self) {
if let Some(anim) = &mut self.move_animation {
if anim.is_done() {
self.move_animation = None;
}
}
for tile in &mut self.tiles {
tile.advance_animations();
}
}
pub fn are_animations_ongoing(&self) -> bool {
self.move_animation.is_some() || self.tiles.iter().any(Tile::are_animations_ongoing)
}
pub fn update_render_elements(&mut self, is_active: bool, view_rect: Rectangle<f64, Logical>) {
let active_idx = self.active_tile_idx;
for (tile_idx, (tile, tile_off)) in self.tiles_mut().enumerate() {
let is_active = is_active && tile_idx == active_idx;
let mut tile_view_rect = view_rect;
tile_view_rect.loc -= tile_off + tile.render_offset();
tile: Rename update() to update_render_elements()
2025-01-21 09:40:00 +03:00
tile.update_render_elements(is_active, tile_view_rect);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
}
pub fn render_offset(&self) -> Point<f64, Logical> {
let mut offset = Point::from((0., 0.));
if let Some(anim) = &self.move_animation {
offset.x += anim.value();
}
offset
}
pub fn animate_move_from(&mut self, from_x_offset: f64) {
self.animate_move_from_with_config(
from_x_offset,
self.options.animations.window_movement.0,
);
}
pub fn animate_move_from_with_config(
&mut self,
from_x_offset: f64,
config: niri_config::Animation,
) {
let current_offset = self.move_animation.as_ref().map_or(0., Animation::value);
self.move_animation = Some(Animation::new(
self.clock.clone(),
from_x_offset + current_offset,
0.,
0.,
config,
));
}
pub fn contains(&self, window: &W::Id) -> bool {
self.tiles
.iter()
.map(Tile::window)
.any(|win| win.id() == window)
}
pub fn position(&self, window: &W::Id) -> Option<usize> {
self.tiles
.iter()
.map(Tile::window)
.position(|win| win.id() == window)
}
fn activate_window(&mut self, window: &W::Id) {
let idx = self.position(window).unwrap();
self.active_tile_idx = idx;
}
fn add_tile_at(&mut self, idx: usize, mut tile: Tile<W>, animate: bool) {
layout: Pass and store view_size on a Tile
2024-12-26 08:54:56 +03:00
tile.update_config(self.view_size, self.scale, self.options.clone());
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
// Inserting a tile pushes down all tiles below it, but also in always-centering mode it
// will affect the X position of all tiles in the column.
let mut prev_offsets = Vec::with_capacity(self.tiles.len() + 1);
prev_offsets.extend(self.tile_offsets().take(self.tiles.len()));
self.is_fullscreen = false;
self.data
.insert(idx, TileData::new(&tile, WindowHeight::auto_1()));
self.tiles.insert(idx, tile);
self.update_tile_sizes(animate);
// Animate tiles according to the offset changes.
prev_offsets.insert(idx, Point::default());
for (i, ((tile, offset), prev)) in zip(self.tiles_mut(), prev_offsets).enumerate() {
if i == idx {
continue;
}
tile.animate_move_from(prev - offset);
}
}
fn update_window(&mut self, window: &W::Id) {
let (tile_idx, tile) = self
.tiles
.iter_mut()
.enumerate()
.find(|(_, tile)| tile.window().id() == window)
.unwrap();
let height = f64::from(tile.window().size().h);
let offset = tile
.window()
.animation_snapshot()
.map_or(0., |from| from.size.h - height);
tile.update_window();
self.data[tile_idx].update(tile);
// Move windows below in tandem with resizing.
//
// FIXME: in always-centering mode, window resizing will affect the offsets of all other
// windows in the column, so they should all be animated. How should this interact with
// animated vs. non-animated resizes? For example, an animated +20 resize followed by two
// non-animated -10 resizes.
if tile.resize_animation().is_some() && offset != 0. {
for tile in &mut self.tiles[tile_idx + 1..] {
tile.animate_move_y_from_with_config(
offset,
self.options.animations.window_resize.anim,
);
}
}
}
fn update_tile_sizes(&mut self, animate: bool) {
self.update_tile_sizes_with_transaction(animate, Transaction::new());
}
fn update_tile_sizes_with_transaction(&mut self, animate: bool, transaction: Transaction) {
if self.is_fullscreen {
layout: Pass and store view_size on a Tile
2024-12-26 08:54:56 +03:00
self.tiles[0].request_fullscreen();
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
return;
}
let min_size: Vec<_> = self
.tiles
.iter()
.map(Tile::min_size)
.map(|mut size| {
size.w = size.w.max(1.);
size.h = size.h.max(1.);
size
})
.collect();
let max_size: Vec<_> = self.tiles.iter().map(Tile::max_size).collect();
// Compute the column width.
let min_width = min_size
.iter()
.map(|size| NotNan::new(size.w).unwrap())
.max()
.map(NotNan::into_inner)
.unwrap();
let max_width = max_size
.iter()
.filter_map(|size| {
let w = size.w;
if w == 0. {
None
} else {
Some(NotNan::new(w).unwrap())
}
})
.min()
.map(NotNan::into_inner)
.unwrap_or(f64::from(i32::MAX));
let max_width = f64::max(max_width, min_width);
let width = if self.is_full_width {
ColumnWidth::Proportion(1.)
} else {
self.width
};
let width = width.resolve(&self.options, self.working_area.size.w);
let width = f64::max(f64::min(width, max_width), min_width);
layout: Extract max_tile_height
2025-02-01 13:04:10 +03:00
let max_tile_height = self.working_area.size.h - self.options.gaps * 2.;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
// If there are multiple windows in a column, clamp the non-auto window's height according
// to other windows' min sizes.
let mut max_non_auto_window_height = None;
if self.tiles.len() > 1 {
if let Some(non_auto_idx) = self
.data
.iter()
.position(|data| !matches!(data.height, WindowHeight::Auto { .. }))
{
let min_height_taken = min_size
.iter()
.enumerate()
.filter(|(idx, _)| *idx != non_auto_idx)
.map(|(_, min_size)| min_size.h + self.options.gaps)
.sum::<f64>();
let tile = &self.tiles[non_auto_idx];
layout: Extract max_tile_height
2025-02-01 13:04:10 +03:00
let height_left = max_tile_height - min_height_taken;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
max_non_auto_window_height = Some(f64::max(
1.,
tile.window_height_for_tile_height(height_left).round(),
));
}
}
// Compute the tile heights. Start by converting window heights to tile heights.
let mut heights = zip(&self.tiles, &self.data)
.map(|(tile, data)| match data.height {
auto @ WindowHeight::Auto { .. } => auto,
WindowHeight::Fixed(height) => {
let mut window_height = height.round().max(1.);
if let Some(max) = max_non_auto_window_height {
window_height = f64::min(window_height, max);
layout: Verify that individual tiles don't get sized taller than working area
2025-02-01 10:46:52 +03:00
} else {
// In any case, clamp to the working area height.
layout: Extract max_tile_height
2025-02-01 13:04:10 +03:00
let max = tile.window_height_for_tile_height(max_tile_height).round();
layout: Verify that individual tiles don't get sized taller than working area
2025-02-01 10:46:52 +03:00
window_height = f64::min(window_height, max);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
WindowHeight::Fixed(tile.tile_height_for_window_height(window_height))
}
WindowHeight::Preset(idx) => {
let preset = self.options.preset_window_heights[idx];
layout: Inline variable
2025-02-01 13:04:10 +03:00
let available_height = self.working_area.size.h;
let window_height =
match resolve_preset_size(preset, &self.options, available_height) {
ResolvedSize::Tile(h) => tile.window_height_for_tile_height(h),
ResolvedSize::Window(h) => h,
};
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let mut window_height = window_height.round().clamp(1., 100000.);
if let Some(max) = max_non_auto_window_height {
window_height = f64::min(window_height, max);
}
let tile_height = tile.tile_height_for_window_height(window_height);
WindowHeight::Fixed(tile_height)
}
})
.collect::<Vec<_>>();
let gaps_left = self.options.gaps * (self.tiles.len() + 1) as f64;
let mut height_left = self.working_area.size.h - gaps_left;
let mut auto_tiles_left = self.tiles.len();
// Subtract all fixed-height tiles.
for (h, (min_size, max_size)) in zip(&mut heights, zip(&min_size, &max_size)) {
// Check if the tile has an exact height constraint.
if min_size.h == max_size.h {
*h = WindowHeight::Fixed(min_size.h);
}
if let WindowHeight::Fixed(h) = h {
if max_size.h > 0. {
*h = f64::min(*h, max_size.h);
}
*h = f64::max(*h, min_size.h);
height_left -= *h;
auto_tiles_left -= 1;
}
}
let mut total_weight: f64 = heights
.iter()
.filter_map(|h| {
if let WindowHeight::Auto { weight } = *h {
Some(weight)
} else {
None
}
})
.sum();
// Iteratively try to distribute the remaining height, checking against tile min heights.
// Pick an auto height according to the current sizes, then check if it satisfies all
// remaining min heights. If not, allocate fixed height to those tiles and repeat the
// loop. On each iteration the auto height will get smaller.
//
// NOTE: we do not respect max height here. Doing so would complicate things: if the current
// auto height is above some tile's max height, then the auto height can become larger.
// Combining this with the min height loop is where the complexity appears.
//
// However, most max height uses are for fixed-size dialogs, where min height == max_height.
// This case is separately handled above.
'outer: while auto_tiles_left > 0 {
// Wayland requires us to round the requested size for a window to integer logical
// pixels, therefore we compute the remaining auto height dynamically.
let mut height_left_2 = height_left;
let mut total_weight_2 = total_weight;
for ((h, tile), min_size) in zip(zip(&mut heights, &self.tiles), &min_size) {
let weight = match *h {
WindowHeight::Auto { weight } => weight,
WindowHeight::Fixed(_) => continue,
WindowHeight::Preset(_) => unreachable!(),
};
let factor = weight / total_weight_2;
// Compute the current auto height.
let mut auto = height_left_2 * factor;
// Check if the auto height satisfies the min height.
if min_size.h > auto {
auto = min_size.h;
*h = WindowHeight::Fixed(auto);
height_left -= auto;
total_weight -= weight;
auto_tiles_left -= 1;
// If a min height was unsatisfied, then we allocate the tile more than the
// auto height, which means that the remaining auto tiles now have less height
// to work with, and the loop must run again.
//
// If we keep going in this loop and break out later, we may allocate less
// height to the subsequent tiles than would be available next iteration and
// potentially trip their min height check earlier than necessary, leading to
// visible snapping.
continue 'outer;
}
auto = tile.tile_height_for_window_height(
tile.window_height_for_tile_height(auto).round().max(1.),
);
height_left_2 -= auto;
total_weight_2 -= weight;
}
// All min heights were satisfied, fill them in.
for (h, tile) in zip(&mut heights, &self.tiles) {
let weight = match *h {
WindowHeight::Auto { weight } => weight,
WindowHeight::Fixed(_) => continue,
WindowHeight::Preset(_) => unreachable!(),
};
let factor = weight / total_weight;
// Compute the current auto height.
let auto = height_left * factor;
let auto = tile.tile_height_for_window_height(
tile.window_height_for_tile_height(auto).round().max(1.),
);
*h = WindowHeight::Fixed(auto);
height_left -= auto;
total_weight -= weight;
auto_tiles_left -= 1;
}
assert_eq!(auto_tiles_left, 0);
}
for (tile, h) in zip(&mut self.tiles, heights) {
let WindowHeight::Fixed(height) = h else {
unreachable!()
};
let size = Size::from((width, height));
tile.request_tile_size(size, animate, Some(transaction.clone()));
}
}
fn width(&self) -> f64 {
self.data
.iter()
.map(|data| NotNan::new(data.size.w).unwrap())
.max()
.map(NotNan::into_inner)
.unwrap()
}
Add focus-window-in-column (by index) action
2025-02-05 17:18:21 +03:00
fn focus_index(&mut self, index: u8) {
self.active_tile_idx = min(usize::from(index.saturating_sub(1)), self.tiles.len() - 1);
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
fn focus_up(&mut self) -> bool {
if self.active_tile_idx == 0 {
return false;
}
self.active_tile_idx -= 1;
true
}
fn focus_down(&mut self) -> bool {
if self.active_tile_idx == self.tiles.len() - 1 {
return false;
}
self.active_tile_idx += 1;
true
}
Add focus-window-top/bottom/down-or-top/up-or-bottom actions
2025-02-05 17:18:21 +03:00
fn focus_top(&mut self) {
self.active_tile_idx = 0;
}
fn focus_bottom(&mut self) {
self.active_tile_idx = self.tiles.len() - 1;
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
fn move_up(&mut self) -> bool {
let new_idx = self.active_tile_idx.saturating_sub(1);
if self.active_tile_idx == new_idx {
return false;
}
let mut ys = self.tile_offsets().skip(self.active_tile_idx);
let active_y = ys.next().unwrap().y;
let next_y = ys.next().unwrap().y;
drop(ys);
self.tiles.swap(self.active_tile_idx, new_idx);
self.data.swap(self.active_tile_idx, new_idx);
self.active_tile_idx = new_idx;
// Animate the movement.
let new_active_y = self.tile_offset(new_idx).y;
self.tiles[new_idx].animate_move_y_from(active_y - new_active_y);
self.tiles[new_idx + 1].animate_move_y_from(active_y - next_y);
true
}
fn move_down(&mut self) -> bool {
let new_idx = min(self.active_tile_idx + 1, self.tiles.len() - 1);
if self.active_tile_idx == new_idx {
return false;
}
let mut ys = self.tile_offsets().skip(self.active_tile_idx);
let active_y = ys.next().unwrap().y;
let next_y = ys.next().unwrap().y;
drop(ys);
self.tiles.swap(self.active_tile_idx, new_idx);
self.data.swap(self.active_tile_idx, new_idx);
self.active_tile_idx = new_idx;
// Animate the movement.
let new_active_y = self.tile_offset(new_idx).y;
self.tiles[new_idx].animate_move_y_from(active_y - new_active_y);
self.tiles[new_idx - 1].animate_move_y_from(next_y - active_y);
true
}
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
fn toggle_width(&mut self, tile_idx: Option<usize>) {
let tile_idx = tile_idx.unwrap_or(self.active_tile_idx);
let preset_idx = if self.is_full_width {
None
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
} else {
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
self.preset_width_idx
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
};
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
let preset_idx = if let Some(idx) = preset_idx {
(idx + 1) % self.options.preset_column_widths.len()
} else {
let tile = &self.tiles[tile_idx];
let current_window = tile.window_expected_or_current_size().w;
let current_tile = tile.tile_expected_or_current_size().w;
let available_size = self.working_area.size.w;
self.options
.preset_column_widths
.iter()
.position(|prop| {
let resolved = resolve_preset_size(*prop, &self.options, available_size);
match resolved {
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
// Some allowance for fractional scaling purposes.
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
ResolvedSize::Tile(resolved) => current_tile + 1. < resolved,
ResolvedSize::Window(resolved) => current_window + 1. < resolved,
}
})
.unwrap_or(0)
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
};
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
let preset = self.options.preset_column_widths[preset_idx];
self.set_column_width(SizeChange::from(preset), Some(tile_idx), true);
self.preset_width_idx = Some(preset_idx);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
fn toggle_full_width(&mut self) {
self.is_full_width = !self.is_full_width;
self.update_tile_sizes(true);
}
fn set_column_width(&mut self, change: SizeChange, tile_idx: Option<usize>, animate: bool) {
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
let current = if self.is_full_width {
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
ColumnWidth::Proportion(1.)
} else {
self.width
};
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
let current_px = current.resolve(&self.options, self.working_area.size.w);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
// FIXME: fix overflows then remove limits.
const MAX_PX: f64 = 100000.;
const MAX_F: f64 = 10000.;
let width = match (current, change) {
(_, SizeChange::SetFixed(fixed)) => {
// As a special case, setting a fixed column width will compute it in such a way
// that the specified (usually active) window gets that width. This is the
// intention behind the ability to set a fixed size.
let tile_idx = tile_idx.unwrap_or(self.active_tile_idx);
let tile = &self.tiles[tile_idx];
ColumnWidth::Fixed(
tile.tile_width_for_window_width(f64::from(fixed))
.clamp(1., MAX_PX),
)
}
(_, SizeChange::SetProportion(proportion)) => {
ColumnWidth::Proportion((proportion / 100.).clamp(0., MAX_F))
}
(_, SizeChange::AdjustFixed(delta)) => {
let width = (current_px + f64::from(delta)).clamp(1., MAX_PX);
ColumnWidth::Fixed(width)
}
(ColumnWidth::Proportion(current), SizeChange::AdjustProportion(delta)) => {
let proportion = (current + delta / 100.).clamp(0., MAX_F);
ColumnWidth::Proportion(proportion)
}
(ColumnWidth::Fixed(_), SizeChange::AdjustProportion(delta)) => {
let full = self.working_area.size.w - self.options.gaps;
let current = if full == 0. {
1.
} else {
(current_px + self.options.gaps) / full
};
let proportion = (current + delta / 100.).clamp(0., MAX_F);
ColumnWidth::Proportion(proportion)
}
};
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
self.width = width;
self.preset_width_idx = None;
self.is_full_width = false;
self.update_tile_sizes(animate);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
fn set_window_height(&mut self, change: SizeChange, tile_idx: Option<usize>, animate: bool) {
let tile_idx = tile_idx.unwrap_or(self.active_tile_idx);
// Start by converting all heights to automatic, since only one window in the column can be
// non-auto-height. If the current tile is already non-auto, however, we can skip that
// step. Which is not only for optimization, but also preserves automatic weights in case
// one window is resized in such a way that other windows hit their min size, and then
// back.
if matches!(self.data[tile_idx].height, WindowHeight::Auto { .. }) {
self.convert_heights_to_auto();
}
let current = self.data[tile_idx].height;
let tile = &self.tiles[tile_idx];
let current_window_px = match current {
WindowHeight::Auto { .. } | WindowHeight::Preset(_) => tile.window_size().h,
WindowHeight::Fixed(height) => height,
};
let current_tile_px = tile.tile_height_for_window_height(current_window_px);
let full = self.working_area.size.h - self.options.gaps;
let current_prop = if full == 0. {
1.
} else {
layout: Remove redundant ()
2025-02-06 10:54:48 +03:00
(current_tile_px + self.options.gaps) / full
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
};
// FIXME: fix overflows then remove limits.
const MAX_PX: f64 = 100000.;
let mut window_height = match change {
SizeChange::SetFixed(fixed) => f64::from(fixed),
SizeChange::SetProportion(proportion) => {
let tile_height = (self.working_area.size.h - self.options.gaps)
* (proportion / 100.)
- self.options.gaps;
tile.window_height_for_tile_height(tile_height)
}
SizeChange::AdjustFixed(delta) => current_window_px + f64::from(delta),
SizeChange::AdjustProportion(delta) => {
let proportion = current_prop + delta / 100.;
let tile_height =
(self.working_area.size.h - self.options.gaps) * proportion - self.options.gaps;
tile.window_height_for_tile_height(tile_height)
}
};
Clamp single tiled window height
2024-12-29 22:22:55 +03:00
// Clamp the height according to other windows' min sizes, or simply to working area height.
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let min_height_taken = self
.tiles
.iter()
.enumerate()
.filter(|(idx, _)| *idx != tile_idx)
.map(|(_, tile)| f64::max(1., tile.min_size().h) + self.options.gaps)
.sum::<f64>();
Clamp single tiled window height
2024-12-29 22:22:55 +03:00
let height_left =
self.working_area.size.h - self.options.gaps - min_height_taken - self.options.gaps;
let height_left = f64::max(1., tile.window_height_for_tile_height(height_left));
window_height = f64::min(height_left, window_height);
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
// Clamp it against the window height constraints.
let win = &self.tiles[tile_idx].window();
let min_h = win.min_size().h;
let max_h = win.max_size().h;
if max_h > 0 {
window_height = f64::min(window_height, f64::from(max_h));
}
if min_h > 0 {
window_height = f64::max(window_height, f64::from(min_h));
}
self.data[tile_idx].height = WindowHeight::Fixed(window_height.clamp(1., MAX_PX));
self.update_tile_sizes(animate);
}
fn reset_window_height(&mut self, tile_idx: Option<usize>, animate: bool) {
let tile_idx = tile_idx.unwrap_or(self.active_tile_idx);
self.data[tile_idx].height = WindowHeight::auto_1();
self.update_tile_sizes(animate);
}
fn toggle_window_height(&mut self, tile_idx: Option<usize>, animate: bool) {
let tile_idx = tile_idx.unwrap_or(self.active_tile_idx);
// Start by converting all heights to automatic, since only one window in the column can be
// non-auto-height. If the current tile is already non-auto, however, we can skip that
// step. Which is not only for optimization, but also preserves automatic weights in case
// one window is resized in such a way that other windows hit their min size, and then
// back.
if matches!(self.data[tile_idx].height, WindowHeight::Auto { .. }) {
self.convert_heights_to_auto();
}
let preset_idx = match self.data[tile_idx].height {
WindowHeight::Preset(idx) => (idx + 1) % self.options.preset_window_heights.len(),
_ => {
let current = self.data[tile_idx].size.h;
let tile = &self.tiles[tile_idx];
self.options
.preset_window_heights
.iter()
.copied()
.position(|preset| {
let resolved =
resolve_preset_size(preset, &self.options, self.working_area.size.h);
let window_height = match resolved {
ResolvedSize::Tile(h) => tile.window_height_for_tile_height(h),
ResolvedSize::Window(h) => h,
};
let resolved = tile.tile_height_for_window_height(
window_height.round().clamp(1., 100000.),
);
// Some allowance for fractional scaling purposes.
current + 1. < resolved
})
.unwrap_or(0)
}
};
self.data[tile_idx].height = WindowHeight::Preset(preset_idx);
self.update_tile_sizes(animate);
}
/// Converts all heights in the column to automatic, preserving the apparent heights.
///
/// All weights are recomputed to preserve the current tile heights while "centering" the
/// weights at the median window height (it gets weight = 1).
///
/// One case where apparent heights will not be preserved is when the column is taller than the
/// working area.
fn convert_heights_to_auto(&mut self) {
let heights: Vec<_> = self.tiles.iter().map(|tile| tile.tile_size().h).collect();
// Weights are invariant to multiplication: a column with weights 2, 2, 1 is equivalent to
// a column with weights 4, 4, 2. So we find the median window height and use that as 1.
let mut sorted = heights.clone();
sorted.sort_unstable_by(|a, b| a.partial_cmp(b).unwrap());
let median = sorted[sorted.len() / 2];
for (data, height) in zip(&mut self.data, heights) {
let weight = height / median;
data.height = WindowHeight::Auto { weight };
}
}
fn set_fullscreen(&mut self, is_fullscreen: bool) {
if self.is_fullscreen == is_fullscreen {
return;
}
assert_eq!(self.tiles.len(), 1);
self.is_fullscreen = is_fullscreen;
self.update_tile_sizes(false);
}
fn popup_target_rect(&self, id: &W::Id) -> Option<Rectangle<f64, Logical>> {
for (tile, pos) in self.tiles() {
if tile.window().id() == id {
// In the scrolling layout, we try to position popups horizontally within the
// window geometry (so they remain visible even if the window scrolls flush with
// the left/right edge of the screen), and vertically wihin the whole view size.
let width = tile.window_size().w;
let height = self.view_size.h;
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
let mut target = Rectangle::from_size(Size::from((width, height)));
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
target.loc.y -= pos.y;
target.loc.y -= tile.window_loc().y;
return Some(target);
}
}
None
}
layout/scrolling: Extract tiles_origin()
2025-02-04 09:29:30 +03:00
fn tiles_origin(&self) -> Point<f64, Logical> {
if self.is_fullscreen {
Point::from((0., 0.))
} else {
Point::from((0., self.working_area.loc.y + self.options.gaps))
}
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
// HACK: pass a self.data iterator in manually as a workaround for the lack of method partial
// borrowing. Note that this method's return value does not borrow the entire &Self!
fn tile_offsets_iter(
&self,
data: impl Iterator<Item = TileData>,
) -> impl Iterator<Item = Point<f64, Logical>> {
// FIXME: this should take into account always-center-single-column, which means that
// Column should somehow know when it is being centered due to being the single column on
// the workspace or some other reason.
let center = self.options.center_focused_column == CenterFocusedColumn::Always;
let gaps = self.options.gaps;
let col_width = if self.tiles.is_empty() {
0.
} else {
self.width()
};
layout/scrolling: Extract tiles_origin()
2025-02-04 09:29:30 +03:00
let mut origin = self.tiles_origin();
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
// Chain with a dummy value to be able to get one past all tiles' Y.
let dummy = TileData {
height: WindowHeight::auto_1(),
size: Size::default(),
interactively_resizing_by_left_edge: false,
};
let data = data.chain(iter::once(dummy));
data.map(move |data| {
layout/scrolling: Extract tiles_origin()
2025-02-04 09:29:30 +03:00
let mut pos = origin;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
if center {
layout/scrolling: Extract tiles_origin()
2025-02-04 09:29:30 +03:00
pos.x += (col_width - data.size.w) / 2.;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
} else if data.interactively_resizing_by_left_edge {
layout/scrolling: Extract tiles_origin()
2025-02-04 09:29:30 +03:00
pos.x += col_width - data.size.w;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
layout/scrolling: Extract tiles_origin()
2025-02-04 09:29:30 +03:00
origin.y += data.size.h + gaps;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
pos
})
}
fn tile_offsets(&self) -> impl Iterator<Item = Point<f64, Logical>> + '_ {
self.tile_offsets_iter(self.data.iter().copied())
}
fn tile_offset(&self, tile_idx: usize) -> Point<f64, Logical> {
self.tile_offsets().nth(tile_idx).unwrap()
}
fn tile_offsets_in_render_order(
&self,
data: impl Iterator<Item = TileData>,
) -> impl Iterator<Item = Point<f64, Logical>> {
let active_idx = self.active_tile_idx;
let active_pos = self.tile_offset(active_idx);
let offsets = self
.tile_offsets_iter(data)
.enumerate()
.filter_map(move |(idx, pos)| (idx != active_idx).then_some(pos));
iter::once(active_pos).chain(offsets)
}
pub fn tiles(&self) -> impl Iterator<Item = (&Tile<W>, Point<f64, Logical>)> + '_ {
let offsets = self.tile_offsets_iter(self.data.iter().copied());
zip(&self.tiles, offsets)
}
fn tiles_mut(&mut self) -> impl Iterator<Item = (&mut Tile<W>, Point<f64, Logical>)> + '_ {
let offsets = self.tile_offsets_iter(self.data.iter().copied());
zip(&mut self.tiles, offsets)
}
fn tiles_in_render_order(&self) -> impl Iterator<Item = (&Tile<W>, Point<f64, Logical>)> + '_ {
let offsets = self.tile_offsets_in_render_order(self.data.iter().copied());
let (first, rest) = self.tiles.split_at(self.active_tile_idx);
let (active, rest) = rest.split_at(1);
let tiles = active.iter().chain(first).chain(rest);
zip(tiles, offsets)
}
fn tiles_in_render_order_mut(
&mut self,
) -> impl Iterator<Item = (&mut Tile<W>, Point<f64, Logical>)> + '_ {
let offsets = self.tile_offsets_in_render_order(self.data.iter().copied());
let (first, rest) = self.tiles.split_at_mut(self.active_tile_idx);
let (active, rest) = rest.split_at_mut(1);
let tiles = active.iter_mut().chain(first).chain(rest);
zip(tiles, offsets)
}
#[cfg(test)]
fn verify_invariants(&self) {
assert!(!self.tiles.is_empty(), "columns can't be empty");
assert!(self.active_tile_idx < self.tiles.len());
assert_eq!(self.tiles.len(), self.data.len());
if self.is_fullscreen {
assert_eq!(self.tiles.len(), 1);
}
Take border into account for fixed preset-column-width for tiled windows
2025-01-31 19:24:26 +03:00
if let Some(idx) = self.preset_width_idx {
assert!(idx < self.options.preset_column_widths.len());
}
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let tile_count = self.tiles.len();
if tile_count == 1 {
if let WindowHeight::Auto { weight } = self.data[0].height {
assert_eq!(
weight, 1.,
"auto height weight must reset to 1 for a single window"
);
}
}
let mut found_fixed = false;
let mut total_height = 0.;
let mut total_min_height = 0.;
for (tile, data) in zip(&self.tiles, &self.data) {
assert!(Rc::ptr_eq(&self.options, &tile.options));
assert_eq!(self.clock, tile.clock);
assert_eq!(self.scale, tile.scale());
assert_eq!(self.is_fullscreen, tile.window().is_pending_fullscreen());
layout: Pass and store view_size on a Tile
2024-12-26 08:54:56 +03:00
assert_eq!(self.view_size, tile.view_size());
layout: Extract Tile::verify_invariants()
2024-12-04 22:08:47 +03:00
tile.verify_invariants();
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let mut data2 = *data;
data2.update(tile);
assert_eq!(data, &data2, "tile data must be up to date");
if matches!(data.height, WindowHeight::Fixed(_)) {
assert!(
!found_fixed,
"there can only be one fixed-height window in a column"
);
found_fixed = true;
}
if let WindowHeight::Preset(idx) = data.height {
assert!(self.options.preset_window_heights.len() > idx);
}
let requested_size = tile.window().requested_size().unwrap();
layout: Verify that individual tiles don't get sized taller than working area
2025-02-01 10:46:52 +03:00
let requested_tile_height =
tile.tile_height_for_window_height(f64::from(requested_size.h));
let min_tile_height = f64::max(1., tile.min_size().h);
if !self.is_fullscreen
&& self.scale.round() == self.scale
&& self.working_area.size.h.round() == self.working_area.size.h
&& self.options.gaps.round() == self.options.gaps
{
let total_height = requested_tile_height + self.options.gaps * 2.;
let total_min_height = min_tile_height + self.options.gaps * 2.;
let max_height = f64::max(total_min_height, self.working_area.size.h);
assert!(
total_height <= max_height,
"each tile in a column mustn't go beyond working area height \
(tile height {total_height} > max height {max_height})"
);
}
total_height += requested_tile_height;
total_min_height += min_tile_height;
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
}
if tile_count > 1
&& self.scale.round() == self.scale
&& self.working_area.size.h.round() == self.working_area.size.h
&& self.options.gaps.round() == self.options.gaps
{
total_height += self.options.gaps * (tile_count + 1) as f64;
total_min_height += self.options.gaps * (tile_count + 1) as f64;
let max_height = f64::max(total_min_height, self.working_area.size.h);
assert!(
total_height <= max_height,
"multiple tiles in a column mustn't go beyond working area height \
(total height {total_height} > max height {max_height})"
);
}
}
}
fn compute_new_view_offset(
cur_x: f64,
view_width: f64,
new_col_x: f64,
new_col_width: f64,
gaps: f64,
) -> f64 {
// If the column is wider than the view, always left-align it.
if view_width <= new_col_width {
return 0.;
}
// Compute the padding in case it needs to be smaller due to large tile width.
let padding = ((view_width - new_col_width) / 2.).clamp(0., gaps);
// Compute the desired new X with padding.
let new_x = new_col_x - padding;
let new_right_x = new_col_x + new_col_width + padding;
// If the column is already fully visible, leave the view as is.
if cur_x <= new_x && new_right_x <= cur_x + view_width {
return -(new_col_x - cur_x);
}
// Otherwise, prefer the alignment that results in less motion from the current position.
let dist_to_left = (cur_x - new_x).abs();
let dist_to_right = ((cur_x + view_width) - new_right_x).abs();
if dist_to_left <= dist_to_right {
-padding
} else {
-(view_width - padding - new_col_width)
}
}
fn compute_working_area(
parent_area: Rectangle<f64, Logical>,
scale: f64,
struts: Struts,
) -> Rectangle<f64, Logical> {
let mut working_area = parent_area;
// Add struts.
working_area.size.w = f64::max(0., working_area.size.w - struts.left.0 - struts.right.0);
working_area.loc.x += struts.left.0;
working_area.size.h = f64::max(0., working_area.size.h - struts.top.0 - struts.bottom.0);
working_area.loc.y += struts.top.0;
// Round location to start at a physical pixel.
let loc = working_area
.loc
.to_physical_precise_ceil(scale)
.to_logical(scale);
let mut size_diff = (loc - working_area.loc).to_size();
size_diff.w = f64::min(working_area.size.w, size_diff.w);
size_diff.h = f64::min(working_area.size.h, size_diff.h);
working_area.size -= size_diff;
working_area.loc = loc;
working_area
}
fn compute_toplevel_bounds(
border_config: niri_config::Border,
working_area_size: Size<f64, Logical>,
gaps: f64,
) -> Size<i32, Logical> {
let mut border = 0.;
if !border_config.off {
border = border_config.width.0 * 2.;
}
Size::from((
f64::max(working_area_size.w - gaps * 2. - border, 1.),
f64::max(working_area_size.h - gaps * 2. - border, 1.),
))
.to_i32_floor()
}
fn cancel_resize_for_column<W: LayoutElement>(
interactive_resize: &mut Option<InteractiveResize<W>>,
column: &mut Column<W>,
) {
if let Some(resize) = interactive_resize {
if column.contains(&resize.window) {
*interactive_resize = None;
}
}
for tile in &mut column.tiles {
tile.window_mut().cancel_interactive_resize();
}
}
fn resolve_preset_size(preset: PresetSize, options: &Options, view_size: f64) -> ResolvedSize {
match preset {
PresetSize::Proportion(proportion) => {
ResolvedSize::Tile((view_size - options.gaps) * proportion - options.gaps)
}
PresetSize::Fixed(width) => ResolvedSize::Window(f64::from(width)),
}
}
#[cfg(test)]
mod tests {
use niri_config::FloatOrInt;
use super::*;
use crate::utils::round_logical_in_physical;
#[test]
fn working_area_starts_at_physical_pixel() {
let struts = Struts {
left: FloatOrInt(0.5),
right: FloatOrInt(1.),
top: FloatOrInt(0.75),
bottom: FloatOrInt(1.),
};
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
let parent_area = Rectangle::from_size(Size::from((1280., 720.)));
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
let area = compute_working_area(parent_area, 1., struts);
assert_eq!(round_logical_in_physical(1., area.loc.x), area.loc.x);
assert_eq!(round_logical_in_physical(1., area.loc.y), area.loc.y);
}
#[test]
fn large_fractional_strut() {
let struts = Struts {
left: FloatOrInt(0.),
right: FloatOrInt(0.),
top: FloatOrInt(50000.5),
bottom: FloatOrInt(0.),
};
Migrate to new Rectangle functions
2025-01-04 10:14:51 +03:00
let parent_area = Rectangle::from_size(Size::from((1280., 720.)));
layout: Extract ScrollingSpace
2024-11-30 09:18:33 +03:00
compute_working_area(parent_area, 1., struts);
}
}
Reference in New Issue Copy Permalink