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|
// -*- mode: js; js-indent-level: 4; indent-tabs-mode: nil -*-
/* exported Workspace */
const { Clutter, GLib, GObject, St } = imports.gi;
const DND = imports.ui.dnd;
const Main = imports.ui.main;
const Overview = imports.ui.overview;
const { WindowPreview } = imports.ui.windowPreview;
var WINDOW_PREVIEW_MAXIMUM_SCALE = 1.0;
var WINDOW_REPOSITIONING_DELAY = 750;
// When calculating a layout, we calculate the scale of windows and the percent
// of the available area the new layout uses. If the values for the new layout,
// when weighted with the values as below, are worse than the previous layout's,
// we stop looking for a new layout and use the previous layout.
// Otherwise, we keep looking for a new layout.
var LAYOUT_SCALE_WEIGHT = 1;
var LAYOUT_SPACE_WEIGHT = 0.1;
var WINDOW_ANIMATION_MAX_NUMBER_BLENDING = 3;
function _interpolate(start, end, step) {
return start + (end - start) * step;
}
// Window Thumbnail Layout Algorithm
// =================================
//
// General overview
// ----------------
//
// The window thumbnail layout algorithm calculates some optimal layout
// by computing layouts with some number of rows, calculating how good
// each layout is, and stopping iterating when it finds one that is worse
// than the previous layout. A layout consists of which windows are in
// which rows, row sizes and other general state tracking that would make
// calculating window positions from this information fairly easy.
//
// After a layout is computed that's considered the best layout, we
// compute the layout scale to fit it in the area, and then compute
// slots (sizes and positions) for each thumbnail.
//
// Layout generation
// -----------------
//
// Layout generation is naive and simple: we simply add windows to a row
// until we've added too many windows to a row, and then make a new row,
// until we have our required N rows. The potential issue with this strategy
// is that we may have too many windows at the bottom in some pathological
// cases, which tends to make the thumbnails have the shape of a pile of
// sand with a peak, with one window at the top.
//
// Scaling factors
// ---------------
//
// Thumbnail position is mostly straightforward -- the main issue is
// computing an optimal scale for each window that fits the constraints,
// and doesn't make the thumbnail too small to see. There are two factors
// involved in thumbnail scale to make sure that these two goals are met:
// the window scale (calculated by _computeWindowScale) and the layout
// scale (calculated by computeSizeAndScale).
//
// The calculation logic becomes slightly more complicated because row
// and column spacing are not scaled, they're constant, so we can't
// simply generate a bunch of window positions and then scale it. In
// practice, it's not too bad -- we can simply try to fit the layout
// in the input area minus whatever spacing we have, and then add
// it back afterwards.
//
// The window scale is constant for the window's size regardless of the
// input area or the layout scale or rows or anything else, and right
// now just enlarges the window if it's too small. The fact that this
// factor is stable makes it easy to calculate, so there's no sense
// in not applying it in most calculations.
//
// The layout scale depends on the input area, the rows, etc, but is the
// same for the entire layout, rather than being per-window. After
// generating the rows of windows, we basically do some basic math to
// fit the full, unscaled layout to the input area, as described above.
//
// With these two factors combined, the final scale of each thumbnail is
// simply windowScale * layoutScale... almost.
//
// There's one additional constraint: the thumbnail scale must never be
// larger than WINDOW_PREVIEW_MAXIMUM_SCALE, which means that the inequality:
//
// windowScale * layoutScale <= WINDOW_PREVIEW_MAXIMUM_SCALE
//
// must always be true. This is for each individual window -- while we
// could adjust layoutScale to make the largest thumbnail smaller than
// WINDOW_PREVIEW_MAXIMUM_SCALE, it would shrink windows which are already
// under the inequality. To solve this, we simply cheat: we simply keep
// each window's "cell" area to be the same, but we shrink the thumbnail
// and center it horizontally, and align it to the bottom vertically.
var LayoutStrategy = class {
constructor(monitor, rowSpacing, columnSpacing) {
if (this.constructor === LayoutStrategy)
throw new TypeError(`Cannot instantiate abstract type ${this.constructor.name}`);
this._monitor = monitor;
this._rowSpacing = rowSpacing;
this._columnSpacing = columnSpacing;
}
_newRow() {
// Row properties:
//
// * x, y are the position of row, relative to area
//
// * width, height are the scaled versions of fullWidth, fullHeight
//
// * width also has the spacing in between windows. It's not in
// fullWidth, as the spacing is constant, whereas fullWidth is
// meant to be scaled
//
// * neither height/fullHeight have any sort of spacing or padding
return { x: 0, y: 0,
width: 0, height: 0,
fullWidth: 0, fullHeight: 0,
windows: [] };
}
// Computes and returns an individual scaling factor for @window,
// to be applied in addition to the overall layout scale.
_computeWindowScale(window) {
// Since we align windows next to each other, the height of the
// thumbnails is much more important to preserve than the width of
// them, so two windows with equal height, but maybe differering
// widths line up.
let ratio = window.boundingBox.height / this._monitor.height;
// The purpose of this manipulation here is to prevent windows
// from getting too small. For something like a calculator window,
// we need to bump up the size just a bit to make sure it looks
// good. We'll use a multiplier of 1.5 for this.
// Map from [0, 1] to [1.5, 1]
return _interpolate(1.5, 1, ratio);
}
// Compute the size of each row, by assigning to the properties
// row.width, row.height, row.fullWidth, row.fullHeight, and
// (optionally) for each row in @layout.rows. This method is
// intended to be called by subclasses.
_computeRowSizes(_layout) {
throw new GObject.NotImplementedError(`_computeRowSizes in ${this.constructor.name}`);
}
// Compute strategy-specific window slots for each window in
// @windows, given the @layout. The strategy may also use @layout
// as strategy-specific storage.
//
// This must calculate:
// * maxColumns - The maximum number of columns used by the layout.
// * gridWidth - The total width used by the grid, unscaled, unspaced.
// * gridHeight - The totial height used by the grid, unscaled, unspaced.
// * rows - A list of rows, which should be instantiated by _newRow.
computeLayout(_windows, _layout) {
throw new GObject.NotImplementedError(`computeLayout in ${this.constructor.name}`);
}
// Given @layout, compute the overall scale and space of the layout.
// The scale is the individual, non-fancy scale of each window, and
// the space is the percentage of the available area eventually
// used by the layout.
// This method does not return anything, but instead installs
// the properties "scale" and "space" on @layout directly.
//
// Make sure to call this methods before calling computeWindowSlots(),
// as it depends on the scale property installed in @layout here.
computeScaleAndSpace(layout) {
let area = layout.area;
let hspacing = (layout.maxColumns - 1) * this._columnSpacing;
let vspacing = (layout.numRows - 1) * this._rowSpacing;
let spacedWidth = area.width - hspacing;
let spacedHeight = area.height - vspacing;
let horizontalScale = spacedWidth / layout.gridWidth;
let verticalScale = spacedHeight / layout.gridHeight;
// Thumbnails should be less than 70% of the original size
let scale = Math.min(
horizontalScale, verticalScale, WINDOW_PREVIEW_MAXIMUM_SCALE);
let scaledLayoutWidth = layout.gridWidth * scale + hspacing;
let scaledLayoutHeight = layout.gridHeight * scale + vspacing;
let space = (scaledLayoutWidth * scaledLayoutHeight) / (area.width * area.height);
layout.scale = scale;
layout.space = space;
}
computeWindowSlots(layout, area) {
this._computeRowSizes(layout);
let { rows, scale } = layout;
let slots = [];
// Do this in three parts.
let heightWithoutSpacing = 0;
for (let i = 0; i < rows.length; i++) {
let row = rows[i];
heightWithoutSpacing += row.height;
}
let verticalSpacing = (rows.length - 1) * this._rowSpacing;
let additionalVerticalScale = Math.min(1, (area.height - verticalSpacing) / heightWithoutSpacing);
// keep track how much smaller the grid becomes due to scaling
// so it can be centered again
let compensation = 0;
let y = 0;
for (let i = 0; i < rows.length; i++) {
let row = rows[i];
// If this window layout row doesn't fit in the actual
// geometry, then apply an additional scale to it.
let horizontalSpacing = (row.windows.length - 1) * this._columnSpacing;
let widthWithoutSpacing = row.width - horizontalSpacing;
let additionalHorizontalScale = Math.min(1, (area.width - horizontalSpacing) / widthWithoutSpacing);
if (additionalHorizontalScale < additionalVerticalScale) {
row.additionalScale = additionalHorizontalScale;
// Only consider the scaling in addition to the vertical scaling for centering.
compensation += (additionalVerticalScale - additionalHorizontalScale) * row.height;
} else {
row.additionalScale = additionalVerticalScale;
// No compensation when scaling vertically since centering based on a too large
// height would undo what vertical scaling is trying to achieve.
}
row.x = area.x + (Math.max(area.width - (widthWithoutSpacing * row.additionalScale + horizontalSpacing), 0) / 2);
row.y = area.y + (Math.max(area.height - (heightWithoutSpacing + verticalSpacing), 0) / 2) + y;
y += row.height * row.additionalScale + this._rowSpacing;
}
compensation /= 2;
for (let i = 0; i < rows.length; i++) {
let row = rows[i];
let x = row.x;
for (let j = 0; j < row.windows.length; j++) {
let window = row.windows[j];
let s = scale * this._computeWindowScale(window) * row.additionalScale;
let cellWidth = window.boundingBox.width * s;
let cellHeight = window.boundingBox.height * s;
s = Math.min(s, WINDOW_PREVIEW_MAXIMUM_SCALE);
let cloneWidth = window.boundingBox.width * s;
const cloneHeight = window.boundingBox.height * s;
let cloneX = x + (cellWidth - cloneWidth) / 2;
let cloneY = row.y + row.height * row.additionalScale - cellHeight + compensation;
// Align with the pixel grid to prevent blurry windows at scale = 1
cloneX = Math.floor(cloneX);
cloneY = Math.floor(cloneY);
slots.push([cloneX, cloneY, cloneWidth, cloneHeight, window]);
x += cellWidth + this._columnSpacing;
}
}
return slots;
}
};
var UnalignedLayoutStrategy = class extends LayoutStrategy {
_computeRowSizes(layout) {
let { rows, scale } = layout;
for (let i = 0; i < rows.length; i++) {
let row = rows[i];
row.width = row.fullWidth * scale + (row.windows.length - 1) * this._columnSpacing;
row.height = row.fullHeight * scale;
}
}
_keepSameRow(row, window, width, idealRowWidth) {
if (row.fullWidth + width <= idealRowWidth)
return true;
let oldRatio = row.fullWidth / idealRowWidth;
let newRatio = (row.fullWidth + width) / idealRowWidth;
if (Math.abs(1 - newRatio) < Math.abs(1 - oldRatio))
return true;
return false;
}
_sortRow(row) {
// Sort windows horizontally to minimize travel distance.
// This affects in what order the windows end up in a row.
row.windows.sort((a, b) => a.windowCenter.x - b.windowCenter.x);
}
computeLayout(windows, layout) {
let numRows = layout.numRows;
let rows = [];
let totalWidth = 0;
for (let i = 0; i < windows.length; i++) {
let window = windows[i];
let s = this._computeWindowScale(window);
totalWidth += window.boundingBox.width * s;
}
let idealRowWidth = totalWidth / numRows;
// Sort windows vertically to minimize travel distance.
// This affects what rows the windows get placed in.
let sortedWindows = windows.slice();
sortedWindows.sort((a, b) => a.windowCenter.y - b.windowCenter.y);
let windowIdx = 0;
for (let i = 0; i < numRows; i++) {
let row = this._newRow();
rows.push(row);
for (; windowIdx < sortedWindows.length; windowIdx++) {
let window = sortedWindows[windowIdx];
let s = this._computeWindowScale(window);
let width = window.boundingBox.width * s;
let height = window.boundingBox.height * s;
row.fullHeight = Math.max(row.fullHeight, height);
// either new width is < idealWidth or new width is nearer from idealWidth then oldWidth
if (this._keepSameRow(row, window, width, idealRowWidth) || (i == numRows - 1)) {
row.windows.push(window);
row.fullWidth += width;
} else {
break;
}
}
}
let gridHeight = 0;
let maxRow;
for (let i = 0; i < numRows; i++) {
let row = rows[i];
this._sortRow(row);
if (!maxRow || row.fullWidth > maxRow.fullWidth)
maxRow = row;
gridHeight += row.fullHeight;
}
layout.rows = rows;
layout.maxColumns = maxRow.windows.length;
layout.gridWidth = maxRow.fullWidth;
layout.gridHeight = gridHeight;
}
};
function animateAllocation(actor, box) {
if (actor.allocation.equal(box) ||
actor.allocation.get_width() === 0 ||
actor.allocation.get_height() === 0) {
actor.allocate(box);
return null;
}
actor.save_easing_state();
actor.set_easing_mode(Clutter.AnimationMode.EASE_OUT_QUAD);
actor.set_easing_duration(200);
actor.allocate(box);
actor.restore_easing_state();
return actor.get_transition('allocation');
}
var WorkspaceLayout = GObject.registerClass({
Properties: {
'spacing': GObject.ParamSpec.double(
'spacing', 'Spacing', 'Spacing',
GObject.ParamFlags.READWRITE,
0, Infinity, 20),
'layout-frozen': GObject.ParamSpec.boolean(
'layout-frozen', 'Layout frozen', 'Layout frozen',
GObject.ParamFlags.READWRITE,
false),
},
}, class WorkspaceLayout extends Clutter.LayoutManager {
_init(metaWorkspace, monitorIndex) {
super._init();
this._spacing = 20;
this._layoutFrozen = false;
this._monitorIndex = monitorIndex;
this._workarea = metaWorkspace
? metaWorkspace.get_work_area_for_monitor(this._monitorIndex)
: Main.layoutManager.getWorkAreaForMonitor(this._monitorIndex);
this._container = null;
this._windows = new Map();
this._sortedWindows = [];
this._lastBox = null;
this._windowSlots = [];
this._layout = null;
this._stateAdjustment = new St.Adjustment({
value: 0,
lower: 0,
upper: 1,
});
this._stateAdjustment.connect('notify::value', () => {
[...this._windows.keys()].forEach(
preview => this._syncOverlay(preview));
this.layout_changed();
});
}
_isBetterLayout(oldLayout, newLayout) {
if (oldLayout.scale === undefined)
return true;
let spacePower = (newLayout.space - oldLayout.space) * LAYOUT_SPACE_WEIGHT;
let scalePower = (newLayout.scale - oldLayout.scale) * LAYOUT_SCALE_WEIGHT;
if (newLayout.scale > oldLayout.scale && newLayout.space > oldLayout.space) {
// Win win -- better scale and better space
return true;
} else if (newLayout.scale > oldLayout.scale && newLayout.space <= oldLayout.space) {
// Keep new layout only if scale gain outweighs aspect space loss
return scalePower > spacePower;
} else if (newLayout.scale <= oldLayout.scale && newLayout.space > oldLayout.space) {
// Keep new layout only if aspect space gain outweighs scale loss
return spacePower > scalePower;
} else {
// Lose -- worse scale and space
return false;
}
}
_adjustSpacingAndPadding(rowSpacing, colSpacing, containerBox) {
if (this._sortedWindows.length === 0)
return [colSpacing, rowSpacing, containerBox];
// All of the overlays have the same chrome sizes,
// so just pick the first one.
const window = this._sortedWindows[0];
const [topOversize, bottomOversize] = window.chromeHeights();
const [leftOversize, rightOversize] = window.chromeWidths();
if (rowSpacing)
rowSpacing += Math.max(topOversize, bottomOversize);
if (colSpacing)
colSpacing += Math.max(leftOversize, rightOversize);
if (containerBox) {
containerBox.x1 += leftOversize;
containerBox.x2 -= rightOversize;
containerBox.y1 += topOversize;
containerBox.y2 -= bottomOversize;
}
return [rowSpacing, colSpacing, containerBox];
}
_createBestLayout(area) {
const [rowSpacing, colSpacing] =
this._adjustSpacingAndPadding(this._spacing, this._spacing, null);
// We look for the largest scale that allows us to fit the
// largest row/tallest column on the workspace.
const strategy = new UnalignedLayoutStrategy(
Main.layoutManager.monitors[this._monitorIndex],
rowSpacing,
colSpacing);
let lastLayout = {};
for (let numRows = 1; ; numRows++) {
let numColumns = Math.ceil(this._sortedWindows.length / numRows);
// If adding a new row does not change column count just stop
// (for instance: 9 windows, with 3 rows -> 3 columns, 4 rows ->
// 3 columns as well => just use 3 rows then)
if (numColumns === lastLayout.numColumns)
break;
let layout = { area, strategy, numRows, numColumns };
strategy.computeLayout(this._sortedWindows, layout);
strategy.computeScaleAndSpace(layout);
if (!this._isBetterLayout(lastLayout, layout))
break;
lastLayout = layout;
}
return lastLayout;
}
_getWindowSlots(containerBox) {
[, , containerBox] =
this._adjustSpacingAndPadding(null, null, containerBox);
const availArea = {
x: parseInt(containerBox.x1),
y: parseInt(containerBox.y1),
width: parseInt(containerBox.get_width()),
height: parseInt(containerBox.get_height()),
};
return this._layout.strategy.computeWindowSlots(this._layout, availArea);
}
_getAdjustedWorkarea(container) {
const workarea = this._workarea.copy();
if (container instanceof St.Widget) {
const themeNode = container.get_theme_node();
workarea.width -= themeNode.get_horizontal_padding();
workarea.height -= themeNode.get_vertical_padding();
}
return workarea;
}
vfunc_set_container(container) {
this._container = container;
this._stateAdjustment.actor = container;
}
vfunc_get_preferred_width(container, forHeight) {
const workarea = this._getAdjustedWorkarea(container);
if (forHeight === -1)
return [0, workarea.width];
const workAreaAspectRatio = workarea.width / workarea.height;
const widthPreservingAspectRatio = forHeight * workAreaAspectRatio;
return [0, widthPreservingAspectRatio];
}
vfunc_get_preferred_height(container, forWidth) {
const workarea = this._getAdjustedWorkarea(container);
if (forWidth === -1)
return [0, workarea.height];
const workAreaAspectRatio = workarea.width / workarea.height;
const heightPreservingAspectRatio = forWidth / workAreaAspectRatio;
return [0, heightPreservingAspectRatio];
}
vfunc_allocate(container, box) {
const containerBox = container.allocation;
const containerAllocationChanged =
this._lastBox === null || !this._lastBox.equal(containerBox);
this._lastBox = containerBox.copy();
// If the containers size changed, we can no longer keep around
// the old windowSlots, so we must unfreeze the layout.
//
// However, if the overview animation is in progress, don't unfreeze
// the layout. This is needed to prevent windows "snapping" to their
// new positions during the overview closing animation when the
// allocation subtly expands every frame.
if (this._layoutFrozen && containerAllocationChanged && !Main.overview.animationInProgress) {
this._layoutFrozen = false;
this.notify('layout-frozen');
}
let layoutChanged = false;
if (!this._layoutFrozen) {
if (this._layout === null) {
this._layout = this._createBestLayout(this._workarea);
layoutChanged = true;
}
if (layoutChanged || containerAllocationChanged)
this._windowSlots = this._getWindowSlots(box.copy());
}
const allocationScale = containerBox.get_width() / this._workarea.width;
const workspaceBox = new Clutter.ActorBox();
const layoutBox = new Clutter.ActorBox();
let childBox = new Clutter.ActorBox();
for (const child of container) {
if (!child.visible)
continue;
// The fifth element in the slot array is the WindowPreview
const index = this._windowSlots.findIndex(s => s[4] === child);
if (index === -1) {
log('Couldn\'t find child %s in window slots'.format(child));
child.allocate(childBox);
continue;
}
const [x, y, width, height] = this._windowSlots[index];
const windowInfo = this._windows.get(child);
if (windowInfo.metaWindow.showing_on_its_workspace()) {
workspaceBox.x1 = child.boundingBox.x - this._workarea.x;
workspaceBox.x2 = workspaceBox.x1 + child.boundingBox.width;
workspaceBox.y1 = child.boundingBox.y - this._workarea.y;
workspaceBox.y2 = workspaceBox.y1 + child.boundingBox.height;
} else {
workspaceBox.set_origin(this._workarea.x, this._workarea.y);
workspaceBox.set_size(0, 0);
child.opacity = this._stateAdjustment.value * 255;
}
workspaceBox.scale(allocationScale);
// don't allow the scaled floating size to drop below
// the target layout size
workspaceBox.set_size(
Math.max(workspaceBox.get_width(), width),
Math.max(workspaceBox.get_height(), height));
layoutBox.x1 = x;
layoutBox.x2 = layoutBox.x1 + width;
layoutBox.y1 = y;
layoutBox.y2 = layoutBox.y1 + height;
childBox = workspaceBox.interpolate(layoutBox,
this._stateAdjustment.value);
if (windowInfo.currentTransition) {
windowInfo.currentTransition.get_interval().set_final(childBox);
// The timeline of the transition might not have been updated
// before this allocation cycle, so make sure the child
// still updates needs_allocation to FALSE.
// Unfortunately, this relies on the fast paths in
// clutter_actor_allocate(), otherwise we'd start a new
// transition on the child, replacing the current one.
child.allocate(child.allocation);
continue;
}
// We want layout changes (ie. larger changes to the layout like
// reshuffling the window order) to be animated, but small changes
// like changes to the container size to happen immediately (for
// example if the container height is being animated, we want to
// avoid animating the children allocations to make sure they
// don't "lag behind" the other animation).
if (layoutChanged && !Main.overview.animationInProgress) {
const transition = animateAllocation(child, childBox);
if (transition) {
windowInfo.currentTransition = transition;
windowInfo.currentTransition.connect('stopped', () => {
windowInfo.currentTransition = null;
});
}
} else {
child.allocate(childBox);
}
}
}
_syncOverlay(preview) {
preview.overlay_enabled = this._stateAdjustment.value === 1;
}
/**
* addWindow:
* @param {WindowPreview} window: the window to add
* @param {Meta.Window} metaWindow: the MetaWindow of the window
*
* Adds @window to the workspace, it will be shown immediately if
* the layout isn't frozen using the layout-frozen property.
*
* If @window is already part of the workspace, nothing will happen.
*/
addWindow(window, metaWindow) {
if (this._windows.has(window))
return;
this._windows.set(window, {
metaWindow,
sizeChangedId: metaWindow.connect('size-changed', () => {
this._layout = null;
this.layout_changed();
}),
destroyId: window.connect('destroy', () =>
this.removeWindow(window)),
currentTransition: null,
});
this._sortedWindows.push(window);
this._sortedWindows.sort((a, b) => {
const winA = this._windows.get(a).metaWindow;
const winB = this._windows.get(b).metaWindow;
return winA.get_stable_sequence() - winB.get_stable_sequence();
});
this._syncOverlay(window);
this._container.add_child(window);
this._layout = null;
this.layout_changed();
}
/**
* removeWindow:
* @param {WindowPreview} window: the window to remove
*
* Removes @window from the workspace if @window is a part of the
* workspace. If the layout-frozen property is set to true, the
* window will still be visible until the property is set to false.
*/
removeWindow(window) {
const windowInfo = this._windows.get(window);
if (!windowInfo)
return;
windowInfo.metaWindow.disconnect(windowInfo.sizeChangedId);
window.disconnect(windowInfo.destroyId);
if (windowInfo.currentTransition)
window.remove_transition('allocation');
this._windows.delete(window);
this._sortedWindows.splice(this._sortedWindows.indexOf(window), 1);
// The layout might be frozen and we might not update the windowSlots
// on the next allocation, so remove the slot now already
const index = this._windowSlots.findIndex(s => s[4] === window);
if (index !== -1)
this._windowSlots.splice(index, 1);
// The window might have been reparented by DND
if (window.get_parent() === this._container)
this._container.remove_child(window);
this._layout = null;
this.layout_changed();
}
syncStacking(stackIndices) {
const windows = [...this._windows.keys()];
windows.sort((a, b) => {
const seqA = this._windows.get(a).metaWindow.get_stable_sequence();
const seqB = this._windows.get(b).metaWindow.get_stable_sequence();
return stackIndices[seqA] - stackIndices[seqB];
});
let lastWindow = null;
for (const window of windows) {
window.setStackAbove(lastWindow);
lastWindow = window;
}
this._layout = null;
this.layout_changed();
}
/**
* getFocusChain:
*
* Gets the focus chain of the workspace. This function will return
* an empty array if the floating window layout is used.
*
* @returns {Array} an array of {Clutter.Actor}s
*/
getFocusChain() {
if (this._stateAdjustment.value === 0)
return [];
// The fifth element in the slot array is the WindowPreview
return this._windowSlots.map(s => s[4]);
}
/**
* An StAdjustment for controlling and transitioning between
* the alignment of windows using the layout strategy and the
* floating window layout.
*
* A value of 0 of the adjustment completely uses the floating
* window layout while a value of 1 completely aligns windows using
* the layout strategy.
*
* @type {St.Adjustment}
*/
get stateAdjustment() {
return this._stateAdjustment;
}
get spacing() {
return this._spacing;
}
set spacing(s) {
if (this._spacing === s)
return;
this._spacing = s;
this._layout = null;
this.notify('spacing');
this.layout_changed();
}
// eslint-disable-next-line camelcase
get layout_frozen() {
return this._layoutFrozen;
}
// eslint-disable-next-line camelcase
set layout_frozen(f) {
if (this._layoutFrozen === f)
return;
this._layoutFrozen = f;
this.notify('layout-frozen');
if (!this._layoutFrozen)
this.layout_changed();
}
});
/**
* @metaWorkspace: a #Meta.Workspace, or null
*/
var Workspace = GObject.registerClass(
class Workspace extends St.Widget {
_init(metaWorkspace, monitorIndex) {
super._init({
style_class: 'window-picker',
layout_manager: new WorkspaceLayout(metaWorkspace, monitorIndex),
});
this.metaWorkspace = metaWorkspace;
this.monitorIndex = monitorIndex;
this._monitor = Main.layoutManager.monitors[this.monitorIndex];
if (monitorIndex != Main.layoutManager.primaryIndex)
this.add_style_class_name('external-monitor');
this.connect('style-changed', this._onStyleChanged.bind(this));
this.connect('destroy', this._onDestroy.bind(this));
const windows = global.get_window_actors().map(a => a.meta_window)
.filter(this._isMyWindow, this);
// Create clones for windows that should be
// visible in the Overview
this._windows = [];
for (let i = 0; i < windows.length; i++) {
if (this._isOverviewWindow(windows[i]))
this._addWindowClone(windows[i]);
}
// Track window changes
if (this.metaWorkspace) {
this._windowAddedId = this.metaWorkspace.connect('window-added',
this._windowAdded.bind(this));
this._windowRemovedId = this.metaWorkspace.connect('window-removed',
this._windowRemoved.bind(this));
}
this._windowEnteredMonitorId = global.display.connect('window-entered-monitor',
this._windowEnteredMonitor.bind(this));
this._windowLeftMonitorId = global.display.connect('window-left-monitor',
this._windowLeftMonitor.bind(this));
this._layoutFrozenId = 0;
// DND requires this to be set
this._delegate = this;
}
vfunc_get_focus_chain() {
return this.layout_manager.getFocusChain();
}
_lookupIndex(metaWindow) {
return this._windows.findIndex(w => w.metaWindow == metaWindow);
}
containsMetaWindow(metaWindow) {
return this._lookupIndex(metaWindow) >= 0;
}
isEmpty() {
return this._windows.length == 0;
}
syncStacking(stackIndices) {
this.layout_manager.syncStacking(stackIndices);
}
_doRemoveWindow(metaWin) {
let clone = this._removeWindowClone(metaWin);
if (!clone)
return;
clone.destroy();
// We need to reposition the windows; to avoid shuffling windows
// around while the user is interacting with the workspace, we delay
// the positioning until the pointer remains still for at least 750 ms
// or is moved outside the workspace
this.layout_manager.layout_frozen = true;
if (this._layoutFrozenId > 0) {
GLib.source_remove(this._layoutFrozenId);
this._layoutFrozenId = 0;
}
let [oldX, oldY] = global.get_pointer();
this._layoutFrozenId = GLib.timeout_add(
GLib.PRIORITY_DEFAULT,
WINDOW_REPOSITIONING_DELAY,
() => {
const [newX, newY] = global.get_pointer();
const pointerHasMoved = oldX !== newX || oldY !== newY;
const actorUnderPointer = global.stage.get_actor_at_pos(
Clutter.PickMode.REACTIVE, newX, newY);
if ((pointerHasMoved && this.contains(actorUnderPointer)) ||
this._windows.some(w => w.contains(actorUnderPointer))) {
oldX = newX;
oldY = newY;
return GLib.SOURCE_CONTINUE;
}
this.layout_manager.layout_frozen = false;
this._layoutFrozenId = 0;
return GLib.SOURCE_REMOVE;
});
GLib.Source.set_name_by_id(this._layoutFrozenId,
'[gnome-shell] this._layoutFrozenId');
}
_doAddWindow(metaWin) {
let win = metaWin.get_compositor_private();
if (!win) {
// Newly-created windows are added to a workspace before
// the compositor finds out about them...
let id = GLib.idle_add(GLib.PRIORITY_DEFAULT, () => {
if (metaWin.get_compositor_private() &&
metaWin.get_workspace() == this.metaWorkspace)
this._doAddWindow(metaWin);
return GLib.SOURCE_REMOVE;
});
GLib.Source.set_name_by_id(id, '[gnome-shell] this._doAddWindow');
return;
}
// We might have the window in our list already if it was on all workspaces and
// now was moved to this workspace
if (this._lookupIndex(metaWin) != -1)
return;
if (!this._isMyWindow(metaWin))
return;
if (!this._isOverviewWindow(metaWin)) {
if (metaWin.get_transient_for() == null)
return;
// Let the top-most ancestor handle all transients
let parent = metaWin.find_root_ancestor();
let clone = this._windows.find(c => c.metaWindow == parent);
// If no clone was found, the parent hasn't been created yet
// and will take care of the dialog when added
if (clone)
clone.addDialog(metaWin);
return;
}
const clone = this._addWindowClone(metaWin);
clone.set_pivot_point(0.5, 0.5);
clone.scale_x = 0;
clone.scale_y = 0;
clone.ease({
scale_x: 1,
scale_y: 1,
duration: 250,
onStopped: () => clone.set_pivot_point(0, 0),
});
if (this._layoutFrozenId > 0) {
// If a window was closed before, unfreeze the layout to ensure
// the new window is immediately shown
this.layout_manager.layout_frozen = false;
GLib.source_remove(this._layoutFrozenId);
this._layoutFrozenId = 0;
}
}
_windowAdded(metaWorkspace, metaWin) {
this._doAddWindow(metaWin);
}
_windowRemoved(metaWorkspace, metaWin) {
this._doRemoveWindow(metaWin);
}
_windowEnteredMonitor(metaDisplay, monitorIndex, metaWin) {
if (monitorIndex == this.monitorIndex)
this._doAddWindow(metaWin);
}
_windowLeftMonitor(metaDisplay, monitorIndex, metaWin) {
if (monitorIndex == this.monitorIndex)
this._doRemoveWindow(metaWin);
}
// check for maximized windows on the workspace
hasMaximizedWindows() {
for (let i = 0; i < this._windows.length; i++) {
let metaWindow = this._windows[i].metaWindow;
if (metaWindow.showing_on_its_workspace() &&
metaWindow.maximized_horizontally &&
metaWindow.maximized_vertically)
return true;
}
return false;
}
fadeToOverview() {
// We don't want to reposition windows while animating in this way.
this.layout_manager.layout_frozen = true;
this._overviewShownId = Main.overview.connect('shown', this._doneShowingOverview.bind(this));
if (this._windows.length == 0)
return;
if (this.metaWorkspace !== null && !this.metaWorkspace.active)
return;
this.layout_manager.stateAdjustment.value = 0;
// Special case maximized windows, since it doesn't make sense
// to animate windows below in the stack
let topMaximizedWindow;
// It is ok to treat the case where there is no maximized
// window as if the bottom-most window was maximized given that
// it won't affect the result of the animation
for (topMaximizedWindow = this._windows.length - 1; topMaximizedWindow > 0; topMaximizedWindow--) {
let metaWindow = this._windows[topMaximizedWindow].metaWindow;
if (metaWindow.maximized_horizontally && metaWindow.maximized_vertically)
break;
}
let nTimeSlots = Math.min(WINDOW_ANIMATION_MAX_NUMBER_BLENDING + 1, this._windows.length - topMaximizedWindow);
let windowBaseTime = Overview.ANIMATION_TIME / nTimeSlots;
let topIndex = this._windows.length - 1;
for (let i = 0; i < this._windows.length; i++) {
if (i < topMaximizedWindow) {
// below top-most maximized window, don't animate
this._windows[i].hideOverlay(false);
this._windows[i].opacity = 0;
} else {
let fromTop = topIndex - i;
let time;
if (fromTop < nTimeSlots) // animate top-most windows gradually
time = windowBaseTime * (nTimeSlots - fromTop);
else
time = windowBaseTime;
this._windows[i].opacity = 255;
this._fadeWindow(i, time, 0);
}
}
}
fadeFromOverview() {
this.layout_manager.layout_frozen = true;
this._overviewHiddenId = Main.overview.connect('hidden', this._doneLeavingOverview.bind(this));
if (this._windows.length == 0)
return;
for (let i = 0; i < this._windows.length; i++)
this._windows[i].remove_all_transitions();
if (this._layoutFrozenId > 0) {
GLib.source_remove(this._layoutFrozenId);
this._layoutFrozenId = 0;
}
if (this.metaWorkspace !== null && !this.metaWorkspace.active)
return;
this.layout_manager.stateAdjustment.value = 0;
// Special case maximized windows, since it doesn't make sense
// to animate windows below in the stack
let topMaximizedWindow;
// It is ok to treat the case where there is no maximized
// window as if the bottom-most window was maximized given that
// it won't affect the result of the animation
for (topMaximizedWindow = this._windows.length - 1; topMaximizedWindow > 0; topMaximizedWindow--) {
let metaWindow = this._windows[topMaximizedWindow].metaWindow;
if (metaWindow.maximized_horizontally && metaWindow.maximized_vertically)
break;
}
let nTimeSlots = Math.min(WINDOW_ANIMATION_MAX_NUMBER_BLENDING + 1, this._windows.length - topMaximizedWindow);
let windowBaseTime = Overview.ANIMATION_TIME / nTimeSlots;
let topIndex = this._windows.length - 1;
for (let i = 0; i < this._windows.length; i++) {
if (i < topMaximizedWindow) {
// below top-most maximized window, don't animate
this._windows[i].hideOverlay(false);
this._windows[i].opacity = 0;
} else {
let fromTop = topIndex - i;
let time;
if (fromTop < nTimeSlots) // animate top-most windows gradually
time = windowBaseTime * (fromTop + 1);
else
time = windowBaseTime * nTimeSlots;
this._windows[i].opacity = 0;
this._fadeWindow(i, time, 255);
}
}
}
_fadeWindow(index, duration, opacity) {
let clone = this._windows[index];
clone.hideOverlay(false);
if (clone.metaWindow.showing_on_its_workspace()) {
clone.ease({
opacity,
duration,
mode: Clutter.AnimationMode.EASE_OUT_QUAD,
});
} else {
// The window is hidden
clone.opacity = 0;
}
}
zoomToOverview() {
const animate =
this.metaWorkspace === null || this.metaWorkspace.active;
const adj = this.layout_manager.stateAdjustment;
adj.ease(1, {
duration: animate ? Overview.ANIMATION_TIME : 0,
mode: Clutter.AnimationMode.EASE_OUT_QUAD,
});
}
zoomFromOverview() {
for (let i = 0; i < this._windows.length; i++)
this._windows[i].remove_all_transitions();
if (this._layoutFrozenId > 0) {
GLib.source_remove(this._layoutFrozenId);
this._layoutFrozenId = 0;
}
this.layout_manager.layout_frozen = true;
this._overviewHiddenId = Main.overview.connect('hidden', this._doneLeavingOverview.bind(this));
if (this.metaWorkspace !== null && !this.metaWorkspace.active)
return;
this.layout_manager.stateAdjustment.ease(0, {
duration: Overview.ANIMATION_TIME,
mode: Clutter.AnimationMode.EASE_OUT_QUAD,
});
}
_onDestroy() {
if (this._overviewHiddenId) {
Main.overview.disconnect(this._overviewHiddenId);
this._overviewHiddenId = 0;
}
if (this._overviewShownId) {
Main.overview.disconnect(this._overviewShownId);
this._overviewShownId = 0;
}
if (this.metaWorkspace) {
this.metaWorkspace.disconnect(this._windowAddedId);
this.metaWorkspace.disconnect(this._windowRemovedId);
}
global.display.disconnect(this._windowEnteredMonitorId);
global.display.disconnect(this._windowLeftMonitorId);
if (this._layoutFrozenId > 0) {
GLib.source_remove(this._layoutFrozenId);
this._layoutFrozenId = 0;
}
this._windows = [];
}
_doneLeavingOverview() {
this.layout_manager.layout_frozen = false;
this.layout_manager.stateAdjustment.value = 0;
this._windows.forEach(w => (w.opacity = 255));
}
_doneShowingOverview() {
this.layout_manager.layout_frozen = false;
this.layout_manager.stateAdjustment.value = 1;
this._windows.forEach(w => (w.opacity = 255));
}
_isMyWindow(window) {
const isOnWorkspace = this.metaWorkspace === null ||
window.located_on_workspace(this.metaWorkspace);
const isOnMonitor = window.get_monitor() === this.monitorIndex;
return isOnWorkspace && isOnMonitor;
}
_isOverviewWindow(window) {
return !window.skip_taskbar;
}
// Create a clone of a (non-desktop) window and add it to the window list
_addWindowClone(metaWindow) {
let clone = new WindowPreview(metaWindow, this);
clone.connect('selected',
this._onCloneSelected.bind(this));
clone.connect('drag-begin', () => {
Main.overview.beginWindowDrag(metaWindow);
});
clone.connect('drag-cancelled', () => {
Main.overview.cancelledWindowDrag(metaWindow);
});
clone.connect('drag-end', () => {
Main.overview.endWindowDrag(metaWindow);
});
clone.connect('show-chrome', () => {
let focus = global.stage.key_focus;
if (focus == null || this.contains(focus))
clone.grab_key_focus();
this._windows.forEach(c => {
if (c !== clone)
c.hideOverlay(true);
});
});
clone.connect('destroy', () => {
this._doRemoveWindow(metaWindow);
});
this.layout_manager.addWindow(clone, metaWindow);
if (this._windows.length == 0)
clone.setStackAbove(null);
else
clone.setStackAbove(this._windows[this._windows.length - 1]);
this._windows.push(clone);
return clone;
}
_removeWindowClone(metaWin) {
// find the position of the window in our list
let index = this._lookupIndex(metaWin);
if (index == -1)
return null;
this.layout_manager.removeWindow(this._windows[index]);
return this._windows.splice(index, 1).pop();
}
_onStyleChanged() {
const themeNode = this.get_theme_node();
this.layout_manager.spacing = themeNode.get_length('spacing');
}
_onCloneSelected(clone, time) {
let wsIndex;
if (this.metaWorkspace)
wsIndex = this.metaWorkspace.index();
Main.activateWindow(clone.metaWindow, time, wsIndex);
}
// Draggable target interface
handleDragOver(source, _actor, _x, _y, _time) {
if (source.metaWindow && !this._isMyWindow(source.metaWindow))
return DND.DragMotionResult.MOVE_DROP;
if (source.app && source.app.can_open_new_window())
return DND.DragMotionResult.COPY_DROP;
if (!source.app && source.shellWorkspaceLaunch)
return DND.DragMotionResult.COPY_DROP;
return DND.DragMotionResult.CONTINUE;
}
acceptDrop(source, actor, x, y, time) {
let workspaceManager = global.workspace_manager;
let workspaceIndex = this.metaWorkspace
? this.metaWorkspace.index()
: workspaceManager.get_active_workspace_index();
if (source.metaWindow) {
const window = source.metaWindow;
if (this._isMyWindow(window))
return false;
// We need to move the window before changing the workspace, because
// the move itself could cause a workspace change if the window enters
// the primary monitor
if (window.get_monitor() != this.monitorIndex)
window.move_to_monitor(this.monitorIndex);
window.change_workspace_by_index(workspaceIndex, false);
return true;
} else if (source.app && source.app.can_open_new_window()) {
if (source.animateLaunchAtPos)
source.animateLaunchAtPos(actor.x, actor.y);
source.app.open_new_window(workspaceIndex);
return true;
} else if (!source.app && source.shellWorkspaceLaunch) {
// While unused in our own drag sources, shellWorkspaceLaunch allows
// extensions to define custom actions for their drag sources.
source.shellWorkspaceLaunch({ workspace: workspaceIndex,
timestamp: time });
return true;
}
return false;
}
});
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