gnome-shell/js/ui/workspace.js

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/* -*- mode: js2; js2-basic-offset: 4; indent-tabs-mode: nil -*- */
const Big = imports.gi.Big;
const Clutter = imports.gi.Clutter;
const GdkPixbuf = imports.gi.GdkPixbuf;
const Gdk = imports.gi.Gdk;
const Gtk = imports.gi.Gtk;
const Lang = imports.lang;
const Mainloop = imports.mainloop;
const Meta = imports.gi.Meta;
const Pango = imports.gi.Pango;
const Shell = imports.gi.Shell;
const St = imports.gi.St;
const Signals = imports.signals;
const DND = imports.ui.dnd;
const Lightbox = imports.ui.lightbox;
const Main = imports.ui.main;
const Overview = imports.ui.overview;
const Panel = imports.ui.panel;
const Tweener = imports.ui.tweener;
const FOCUS_ANIMATION_TIME = 0.15;
const WINDOW_DND_SIZE = 256;
const FRAME_COLOR = new Clutter.Color();
FRAME_COLOR.from_pixel(0xffffffff);
const SCROLL_SCALE_AMOUNT = 100 / 5;
const ZOOM_OVERLAY_FADE_TIME = 0.15;
const DRAGGING_WINDOW_OPACITY = 100;
// Define a layout scheme for small window counts. For larger
// counts we fall back to an algorithm. We need more schemes here
// unless we have a really good algorithm.
// Each triplet is [xCenter, yCenter, scale] where the scale
// is relative to the width of the workspace.
const POSITIONS = {
1: [[0.5, 0.5, 0.95]],
2: [[0.25, 0.5, 0.48], [0.75, 0.5, 0.48]],
3: [[0.25, 0.25, 0.48], [0.75, 0.25, 0.48], [0.5, 0.75, 0.48]],
4: [[0.25, 0.25, 0.47], [0.75, 0.25, 0.47], [0.75, 0.75, 0.47], [0.25, 0.75, 0.47]],
5: [[0.165, 0.25, 0.32], [0.495, 0.25, 0.32], [0.825, 0.25, 0.32], [0.25, 0.75, 0.32], [0.75, 0.75, 0.32]]
};
// Used in _orderWindowsPermutations, 5! = 120 which is probably the highest we can go
const POSITIONING_PERMUTATIONS_MAX = 5;
function _interpolate(start, end, step) {
return start + (end - start) * step;
}
function _clamp(value, min, max) {
return Math.max(min, Math.min(max, value));
}
// Spacing between workspaces. At the moment, the same spacing is used
// in both zoomed-in and zoomed-out views; this is slightly
// metaphor-breaking, but the alternatives are also weird.
const GRID_SPACING = 15;
const FRAME_SIZE = GRID_SPACING / 3;
function ScaledPoint(x, y, scaleX, scaleY) {
[this.x, this.y, this.scaleX, this.scaleY] = arguments;
}
ScaledPoint.prototype = {
getPosition : function() {
return [this.x, this.y];
},
getScale : function() {
return [this.scaleX, this.scaleY];
},
setPosition : function(x, y) {
[this.x, this.y] = arguments;
},
setScale : function(scaleX, scaleY) {
[this.scaleX, this.scaleY] = arguments;
},
interpPosition : function(other, step) {
return [_interpolate(this.x, other.x, step),
_interpolate(this.y, other.y, step)];
},
interpScale : function(other, step) {
return [_interpolate(this.scaleX, other.scaleX, step),
_interpolate(this.scaleY, other.scaleY, step)];
}
};
function WindowClone(realWindow) {
this._init(realWindow);
}
WindowClone.prototype = {
_init : function(realWindow) {
this.actor = new Clutter.Clone({ source: realWindow.get_texture(),
reactive: true,
x: realWindow.x,
y: realWindow.y });
this.actor._delegate = this;
this.realWindow = realWindow;
this.metaWindow = realWindow.meta_window;
this.metaWindow._delegate = this;
this.origX = realWindow.x;
this.origY = realWindow.y;
this._stackAbove = null;
this.actor.connect('button-release-event',
Lang.bind(this, this._onButtonRelease));
this.actor.connect('scroll-event',
Lang.bind(this, this._onScroll));
this.actor.connect('destroy', Lang.bind(this, this._onDestroy));
this.actor.connect('enter-event',
Lang.bind(this, this._onEnter));
this.actor.connect('leave-event',
Lang.bind(this, this._onLeave));
this._havePointer = false;
this._draggable = DND.makeDraggable(this.actor);
this._draggable.connect('drag-begin', Lang.bind(this, this._onDragBegin));
this._draggable.connect('drag-end', Lang.bind(this, this._onDragEnd));
this._inDrag = false;
this._zooming = false;
this._selected = false;
},
getDragActorSource: function() {
return this.actor;
},
getDragActor: function(x, y) {
// We want to shrink the window down to at most THUMBNAIL_SIZE in one direction,
// but animate that transition. The way we do this is to compute our final
// width/height, and set that on the Clone. The clone itself will then scale
// the source. But to animate, we need to compute a scale which will get us
// back to the original size, and then animate down to a scale of 1.
let scale = Math.min(WINDOW_DND_SIZE / this.realWindow.width, WINDOW_DND_SIZE / this.realWindow.height);
let [transformedX, transformedY] = this.actor.get_transformed_position();
let [transformedWidth, transformedHeight] = this.actor.get_transformed_size();
let xOffset = (x - transformedX) * scale;
let yOffset = (y - transformedY) * scale;
let targetWidth = this.realWindow.width * scale;
let targetHeight = this.realWindow.height * scale;
let inverseScale;
if (targetWidth < transformedWidth)
inverseScale = transformedWidth / targetWidth;
else
inverseScale = 1;
let actor = new Clutter.Clone({ source: this.realWindow,
width: targetWidth,
height: targetHeight,
opacity: DRAGGING_WINDOW_OPACITY });
actor.set_scale_full(inverseScale, inverseScale, xOffset, yOffset);
Tweener.addTween(actor, { time: Overview.ANIMATION_TIME,
transition: "easeOutQuad",
scale_x: 1,
scale_y: 1 });
actor._delegate = this;
return actor;
},
setStackAbove: function (actor) {
this._stackAbove = actor;
if (this._inDrag || this._zooming)
// We'll fix up the stack after the drag/zooming
return;
this.actor.raise(this._stackAbove);
},
destroy: function () {
this.actor.destroy();
},
zoomFromOverview: function() {
if (this._zooming) {
// If the user clicked on the zoomed window, or we are
// returning there anyways, then we can zoom right to the
// window, but if we are going to some other window, then
// we need to cancel the zoom before animating, or it
// will look funny.
if (!this._selected &&
this.metaWindow != global.screen.get_display().focus_window)
this._zoomEnd();
}
},
_onDestroy: function() {
this.metaWindow._delegate = null;
this.actor._delegate = null;
if (this._zoomLightbox)
this._zoomLightbox.destroy();
if (this._inDrag) {
this.emit('drag-end');
this._inDrag = false;
}
this.disconnectAll();
},
_onEnter: function (actor, event) {
// If the user drags faster than we can follow, he'll end up
// leaving the window temporarily and then re-entering it
if (this._inDrag)
return;
this._havePointer = true;
},
_onLeave: function (actor, event) {
// If the user drags faster than we can follow, he'll end up
// leaving the window temporarily and then re-entering it
if (this._inDrag)
return;
this._havePointer = false;
if (this._zoomStep)
this._zoomEnd();
},
_onScroll : function (actor, event) {
let direction = event.get_scroll_direction();
if (direction == Clutter.ScrollDirection.UP) {
if (this._zoomStep == undefined)
this._zoomStart();
if (this._zoomStep < 100) {
this._zoomStep += SCROLL_SCALE_AMOUNT;
this._zoomUpdate();
}
} else if (direction == Clutter.ScrollDirection.DOWN) {
if (this._zoomStep > 0) {
this._zoomStep -= SCROLL_SCALE_AMOUNT;
this._zoomStep = Math.max(0, this._zoomStep);
this._zoomUpdate();
}
if (this._zoomStep <= 0.0)
this._zoomEnd();
}
},
_zoomUpdate : function () {
[this.actor.x, this.actor.y] = this._zoomGlobalOrig.interpPosition(this._zoomTarget, this._zoomStep / 100);
[this.actor.scale_x, this.actor.scale_y] = this._zoomGlobalOrig.interpScale(this._zoomTarget, this._zoomStep / 100);
let [width, height] = this.actor.get_transformed_size();
this.actor.x = _clamp(this.actor.x, 0, global.screen_width - width);
this.actor.y = _clamp(this.actor.y, Panel.PANEL_HEIGHT, global.screen_height - height);
},
_zoomStart : function () {
this._zooming = true;
this.emit('zoom-start');
this._zoomLightbox = new Lightbox.Lightbox(global.stage, false);
this._zoomLocalOrig = new ScaledPoint(this.actor.x, this.actor.y, this.actor.scale_x, this.actor.scale_y);
this._zoomGlobalOrig = new ScaledPoint();
let parent = this._origParent = this.actor.get_parent();
2009-09-25 22:48:34 +00:00
let [width, height] = this.actor.get_transformed_size();
this._zoomGlobalOrig.setPosition.apply(this._zoomGlobalOrig, this.actor.get_transformed_position());
this._zoomGlobalOrig.setScale(width / this.actor.width, height / this.actor.height);
this.actor.reparent(global.stage);
this._zoomLightbox.highlight(this.actor);
[this.actor.x, this.actor.y] = this._zoomGlobalOrig.getPosition();
[this.actor.scale_x, this.actor.scale_y] = this._zoomGlobalOrig.getScale();
this.actor.raise_top();
this._zoomTarget = new ScaledPoint(0, 0, 1.0, 1.0);
this._zoomTarget.setPosition(this.actor.x - (this.actor.width - width) / 2, this.actor.y - (this.actor.height - height) / 2);
this._zoomStep = 0;
this._zoomUpdate();
},
_zoomEnd : function () {
this._zooming = false;
this.emit('zoom-end');
this.actor.reparent(this._origParent);
// If the workspace has been destroyed while we were reparented to
// the stage, _stackAbove will be unparented and we can't raise our
// actor above it - as we are bound to be destroyed anyway in that
// case, we can skip that step
if (this._stackAbove && this._stackAbove.get_parent())
this.actor.raise(this._stackAbove);
[this.actor.x, this.actor.y] = this._zoomLocalOrig.getPosition();
[this.actor.scale_x, this.actor.scale_y] = this._zoomLocalOrig.getScale();
this._zoomLightbox.destroy();
this._zoomLocalPosition = undefined;
this._zoomLocalScale = undefined;
this._zoomGlobalPosition = undefined;
this._zoomGlobalScale = undefined;
this._zoomTargetPosition = undefined;
this._zoomStep = undefined;
this._zoomLightbox = undefined;
},
_onButtonRelease : function (actor, event) {
this._selected = true;
this.emit('selected', event.get_time());
},
_onDragBegin : function (draggable, time) {
this.actor.hide();
this._inDrag = true;
this.emit('drag-begin');
},
_onDragEnd : function (draggable, time, snapback) {
this._inDrag = false;
this.actor.show();
// Most likely, the clone is going to move away from the
// pointer now. But that won't cause a leave-event, so
// do this by hand. Of course, if the window only snaps
// back a short distance, this might be wrong, but it's
// better to have the label mysteriously missing than
// mysteriously present
this._havePointer = false;
// We may not have a parent if DnD completed successfully, in
// which case our clone will shortly be destroyed and replaced
// with a new one on the target workspace.
if (this.actor.get_parent() != null)
this.actor.raise(this._stackAbove);
this.emit('drag-end');
}
};
Signals.addSignalMethods(WindowClone.prototype);
function DesktopClone(window) {
this._init(window);
}
DesktopClone.prototype = {
_init : function(window) {
this.actor = new Clutter.Group({ reactive: true });
let background = new Clutter.Clone({ source: Main.background.source });
this.actor.add_actor(background);
if (window) {
this._desktop = new Clutter.Clone({ source: window.get_texture() });
this.actor.add_actor(this._desktop);
this._desktop.hide();
} else {
this._desktop = null;
}
this.actor.connect('button-release-event',
Lang.bind(this, this._onButtonRelease));
},
zoomFromOverview: function(fadeInIcons) {
if (this._desktop == null)
return;
if (fadeInIcons) {
this._desktop.opacity = 0;
this._desktop.show();
Tweener.addTween(this._desktop,
{ opacity: 255,
time: Overview.ANIMATION_TIME,
transition: "easeOutQuad" });
}
},
zoomToOverview: function(fadeOutIcons) {
if (this._desktop == null)
return;
if (fadeOutIcons) {
this._desktop.opacity = 255;
this._desktop.show();
Tweener.addTween(this._desktop,
{ opacity: 0,
time: Overview.ANIMATION_TIME,
transition: "easeOutQuad",
onComplete: Lang.bind(this,
function() {
this._desktop.hide();
})
});
} else {
this._desktop.hide();
}
},
_onButtonRelease : function (actor, event) {
this.emit('selected', event.get_time());
}
};
Signals.addSignalMethods(DesktopClone.prototype);
/**
* @windowClone: Corresponding window clone
* @parentActor: The actor which will be the parent of all overlay items
* such as app icon and window caption
*/
function WindowOverlay(windowClone, parentActor) {
this._init(windowClone, parentActor);
}
WindowOverlay.prototype = {
_init : function(windowClone, parentActor) {
let metaWindow = windowClone.metaWindow;
this._windowClone = windowClone;
this._parentActor = parentActor;
let title = new St.Label({ style_class: "window-caption",
text: metaWindow.title });
title.clutter_text.ellipsize = Pango.EllipsizeMode.END;
title._spacing = 0;
this._updateCaptionId = metaWindow.connect('notify::title',
Lang.bind(this, function(w) {
this.title.text = w.title;
}));
let button = new St.Button({ style_class: "window-close" });
button._overlap = 0;
this._idleToggleCloseId = 0;
button.connect('clicked', Lang.bind(this, this._closeWindow));
windowClone.actor.connect('destroy', Lang.bind(this, this._onDestroy));
windowClone.actor.connect('enter-event',
Lang.bind(this, this._onEnter));
windowClone.actor.connect('leave-event',
Lang.bind(this, this._onLeave));
this._windowAddedId = 0;
windowClone.connect('zoom-start', Lang.bind(this, this.hide));
windowClone.connect('zoom-end', Lang.bind(this, this.show));
button.hide();
this.title = title;
this.closeButton = button;
parentActor.add_actor(this.title);
parentActor.add_actor(this.closeButton);
title.connect('style-changed',
Lang.bind(this, this._onStyleChanged));
button.connect('style-changed',
Lang.bind(this, this._onStyleChanged));
// force a style change if we are already on a stage - otherwise
// the signal will be emitted normally when we are added
if (parentActor.get_stage())
this._onStyleChanged();
},
hide: function() {
this.closeButton.hide();
this.title.hide();
},
show: function() {
let [child, x, y, mask] = Gdk.Screen.get_default().get_root_window().get_pointer();
let actor = global.stage.get_actor_at_pos(Clutter.PickMode.REACTIVE,
x, y);
if (actor == this._windowClone.actor) {
this.closeButton.show();
}
this.title.show();
},
fadeIn: function() {
this.title.opacity = 0;
this.title.show();
this._parentActor.raise_top();
Tweener.addTween(this.title,
{ opacity: 255,
time: Overview.ANIMATION_TIME,
transition: "easeOutQuad" });
},
chromeWidth: function () {
return this.closeButton.width - this.closeButton._overlap;
},
chromeHeights: function () {
return [this.closeButton.height - this.closeButton._overlap,
this.title.height + this.title._spacing];
},
/**
* @cloneX: x position of windowClone
* @cloneY: y position of windowClone
* @cloneWidth: width of windowClone
* @cloneHeight height of windowClone
*/
// These parameters are not the values retrieved with
// get_transformed_position() and get_transformed_size(),
// as windowClone might be moving.
// See Workspace._fadeInWindowOverlay
updatePositions: function(cloneX, cloneY, cloneWidth, cloneHeight) {
let button = this.closeButton;
let title = this.title;
let buttonX = cloneX + cloneWidth - button._overlap;
let buttonY = cloneY - button.height + button._overlap;
button.set_position(Math.floor(buttonX), Math.floor(buttonY));
if (!title.fullWidth)
title.fullWidth = title.width;
title.width = Math.min(title.fullWidth, cloneWidth);
let titleX = cloneX + (cloneWidth - title.width) / 2;
let titleY = cloneY + cloneHeight + title._spacing;
title.set_position(Math.floor(titleX), Math.floor(titleY));
},
_closeWindow: function(actor) {
let metaWindow = this._windowClone.metaWindow;
this._workspace = metaWindow.get_workspace();
this._windowAddedId = this._workspace.connect('window-added',
Lang.bind(this,
this._onWindowAdded));
metaWindow.delete(global.get_current_time());
},
_onWindowAdded: function(workspace, win) {
let metaWindow = this._windowClone.metaWindow;
if (win.get_transient_for() == metaWindow) {
workspace.disconnect(this._windowAddedId);
this._windowAddedId = 0;
// use an idle handler to avoid mapping problems -
// see comment in Workspace._windowAdded
Mainloop.idle_add(Lang.bind(this,
function() {
this._windowClone.emit('selected');
return false;
}));
}
},
_onDestroy: function() {
if (this._windowAddedId > 0) {
this._workspace.disconnect(this._windowAddedId);
this._windowAddedId = 0;
}
if (this._idleToggleCloseId > 0) {
Mainloop.source_remove(this._idleToggleCloseId);
this._idleToggleCloseId = 0;
}
this._windowClone.metaWindow.disconnect(this._updateCaptionId);
this.title.destroy();
this.closeButton.destroy();
},
_onEnter: function() {
this._parentActor.raise_top();
this.closeButton.show();
this.emit('show-close-button');
},
_onLeave: function() {
if (this._idleToggleCloseId == 0)
this._idleToggleCloseId = Mainloop.timeout_add(750, Lang.bind(this, this._idleToggleCloseButton));
},
_idleToggleCloseButton: function() {
this._idleToggleCloseId = 0;
let [child, x, y, mask] = Gdk.Screen.get_default().get_root_window().get_pointer();
let actor = global.stage.get_actor_at_pos(Clutter.PickMode.REACTIVE,
x, y);
if (actor != this._windowClone.actor && actor != this.closeButton) {
this.closeButton.hide();
}
return false;
},
hideCloseButton: function() {
if (this._idleToggleCloseId > 0) {
Mainloop.source_remove(this._idleToggleCloseId);
this._idleToggleCloseId = 0;
}
this.closeButton.hide();
},
_onStyleChanged: function() {
let titleNode = this.title.get_theme_node();
let [success, len] = titleNode.get_length('-shell-caption-spacing',
false);
if (success)
this.title._spacing = len;
let closeNode = this.closeButton.get_theme_node();
[success, len] = closeNode.get_length('-shell-close-overlap',
false);
if (success)
this.closeButton._overlap = len;
this._parentActor.queue_relayout();
}
};
Signals.addSignalMethods(WindowOverlay.prototype);
const WindowPositionFlags = {
ZOOM: 1 << 0,
ANIMATE: 1 << 1
};
/**
* @metaWorkspace: a #Meta.Workspace
*/
function Workspace(metaWorkspace) {
this._init(metaWorkspace);
}
Workspace.prototype = {
_init : function(metaWorkspace) {
// When dragging a window, we use this slot for reserve space.
this._reservedSlot = null;
this.metaWorkspace = metaWorkspace;
this._windowOverlaysGroup = new Clutter.Group();
// Without this the drop area will be overlapped.
this._windowOverlaysGroup.set_size(0, 0);
this.actor = new Clutter.Group();
this.actor._delegate = this;
this.actor.connect('destroy', Lang.bind(this, this._onDestroy));
// Items in _windowOverlaysGroup should not be scaled, so we don't
// add them to this.actor, but to its parent whenever it changes
this.actor.connect('parent-set', Lang.bind(this, this._onParentSet));
// Auto-sizing is unreliable in the presence of ClutterClone, so rather than
// implicitly counting on the workspace actor to be sized to the size of the
// included desktop actor clone, set the size explicitly to the screen size.
// See http://bugzilla.openedhand.com/show_bug.cgi?id=1755
this.actor.width = global.screen_width;
this.actor.height = global.screen_height;
this.scale = 1.0;
let windows = global.get_windows().filter(this._isMyWindow, this);
// Find the desktop window
for (let i = 0; i < windows.length; i++) {
if (windows[i].get_window_type() == Meta.WindowType.DESKTOP) {
this._desktop = new DesktopClone(windows[i]);
break;
}
}
// If there wasn't one, fake it
if (!this._desktop)
this._desktop = new DesktopClone();
this._desktop.connect('selected',
Lang.bind(this,
function(clone, time) {
// Only switch to the workspace when one window is open
// We check for "2" here because the Desktop does not really count
// as a window in this context.
if (this._windows.length <= 2) {
this.metaWorkspace.activate(time);
Main.overview.hide();
}
}));
this.actor.add_actor(this._desktop.actor);
// Create clones for remaining windows that should be
// visible in the Overview
this._windows = [this._desktop];
this._windowOverlays = [ null ];
for (let i = 0; i < windows.length; i++) {
if (this._isOverviewWindow(windows[i])) {
this._addWindowClone(windows[i]);
}
}
// A filter for what windows we display
this._showOnlyWindows = null;
// Track window changes
this._windowAddedId = this.metaWorkspace.connect('window-added',
Lang.bind(this, this._windowAdded));
this._windowRemovedId = this.metaWorkspace.connect('window-removed',
Lang.bind(this, this._windowRemoved));
this._repositionWindowsId = 0;
this._visible = false;
this._frame = null;
this.leavingOverview = false;
},
_lookupIndex: function (metaWindow) {
for (let i = 0; i < this._windows.length; i++) {
if (this._windows[i].metaWindow == metaWindow) {
return i;
}
}
return -1;
},
_onParentSet: function(actor, old_parent) {
let new_parent = this.actor.get_parent();
if (new_parent == null)
return;
if (old_parent)
this._windowOverlaysGroup.reparent(new_parent);
else
new_parent.add_actor(this._windowOverlaysGroup);
},
/**
* lookupCloneForMetaWindow:
* @metaWindow: A #MetaWindow
*
* Given a #MetaWindow instance, find the WindowClone object
* which represents it in the workspaces display.
*/
lookupCloneForMetaWindow: function (metaWindow) {
let index = this._lookupIndex (metaWindow);
return index < 0 ? null : this._windows[index];
},
containsMetaWindow: function (metaWindow) {
return this._lookupIndex(metaWindow) >= 0;
},
setShowOnlyWindows: function(showOnlyWindows, reposition) {
this._showOnlyWindows = showOnlyWindows;
this._resetCloneVisibility();
if (reposition)
this.positionWindows(WindowPositionFlags.ANIMATE);
},
/**
* setLightboxMode:
* @showLightbox: If true, dim background and allow highlighting a specific window
*
* This function also resets the highlighted window state.
*/
setLightboxMode: function (showLightbox) {
if (showLightbox) {
this._lightbox = new Lightbox.Lightbox(this.actor, false);
} else {
this._lightbox.destroy();
this._lightbox = null;
}
if (this._frame) {
this._frame.set_opacity(showLightbox ? 150 : 255);
}
},
/**
* setHighlightWindow:
* @metaWindow: A #MetaWindow
*
* Draw the user's attention to the given window @metaWindow.
*/
setHighlightWindow: function (metaWindow) {
let actor;
if (metaWindow != null) {
let clone = this.lookupCloneForMetaWindow(metaWindow);
actor = clone.actor;
}
this._lightbox.highlight(actor);
},
// Mark the workspace selected/not-selected
setSelected : function(selected) {
// Don't draw a frame if we only have one workspace
if (selected && global.screen.n_workspaces > 1) {
if (this._frame)
return;
// FIXME: do something cooler-looking using clutter-cairo
this._frame = new Clutter.Rectangle({ color: FRAME_COLOR });
this.actor.add_actor(this._frame);
this._frame.set_position(this._desktop.actor.x - FRAME_SIZE / this.actor.scale_x,
this._desktop.actor.y - FRAME_SIZE / this.actor.scale_y);
this._frame.set_size(this._desktop.actor.width + 2 * FRAME_SIZE / this.actor.scale_x,
this._desktop.actor.height + 2 * FRAME_SIZE / this.actor.scale_y);
this._frame.lower_bottom();
this._framePosHandler = this.actor.connect('notify::scale-x', Lang.bind(this, this._updateFramePosition));
} else {
if (!this._frame)
return;
this.actor.disconnect(this._framePosHandler);
this._frame.destroy();
this._frame = null;
}
},
/**
* setReactive:
* @reactive: %true iff the workspace should be reactive
*
* Set the workspace (desktop) reactive
**/
setReactive: function(reactive) {
this._desktop.actor.reactive = reactive;
},
_updateFramePosition : function() {
this._frame.set_position(this._desktop.actor.x - FRAME_SIZE / this.actor.scale_x,
this._desktop.actor.y - FRAME_SIZE / this.actor.scale_y);
this._frame.set_size(this._desktop.actor.width + 2 * FRAME_SIZE / this.actor.scale_x,
this._desktop.actor.height + 2 * FRAME_SIZE / this.actor.scale_y);
},
_isCloneVisible: function(clone) {
return this._showOnlyWindows == null || (clone.metaWindow in this._showOnlyWindows);
},
/**
* _getVisibleClones:
*
* Returns a list WindowClone objects where the clone isn't filtered
* out by any application filter. The clone for the desktop is excluded.
* The returned array will always be newly allocated; it is not in any
* defined order, and thus it's convenient to call .sort() with your
* choice of sorting function.
*/
_getVisibleClones: function() {
let visible = [];
for (let i = 1; i < this._windows.length; i++) {
let clone = this._windows[i];
if (!this._isCloneVisible(clone))
continue;
visible.push(clone);
}
return visible;
},
_resetCloneVisibility: function () {
for (let i = 1; i < this._windows.length; i++) {
let clone = this._windows[i];
let overlay = this._windowOverlays[i];
if (!this._isCloneVisible(clone)) {
clone.actor.hide();
overlay.hide();
} else {
clone.actor.show();
}
}
},
// Only use this for n <= 20 say
_factorial: function(n) {
let result = 1;
for (let i = 2; i <= n; i++)
result *= i;
return result;
},
/**
* _permutation:
* @permutationIndex: An integer from [0, list.length!)
* @list: (inout): Array of objects to permute; will be modified in place
*
* Given an integer between 0 and length of array, re-order the array in-place
* into a permutation denoted by the index.
*/
_permutation: function(permutationIndex, list) {
for (let j = 2; j <= list.length; j++) {
let firstIndex = (permutationIndex % j);
let secondIndex = j - 1;
// Swap
let tmp = list[firstIndex];
list[firstIndex] = list[secondIndex];
list[secondIndex] = tmp;
permutationIndex = Math.floor(permutationIndex / j);
}
},
/**
* _forEachPermutations:
* @list: Array
* @func: Function which takes a single array argument
*
* Call @func with each permutation of @list as an argument.
*/
_forEachPermutations: function(list, func) {
let nCombinations = this._factorial(list.length);
for (let i = 0; i < nCombinations; i++) {
let listCopy = list.concat();
this._permutation(i, listCopy);
func(listCopy);
}
},
/**
* _computeWindowMotion:
* @actor: A #WindowClone's #ClutterActor
* @slot: An element of #POSITIONS
* @slotGeometry: Layout of @slot
*
* Returns a number corresponding to how much perceived motion
* would be involved in moving the window to the given slot.
* Currently this is the square of the distance between the
* centers.
*/
_computeWindowMotion: function (actor, slot) {
let [xCenter, yCenter, fraction] = slot;
let xDelta, yDelta, distanceSquared;
let actorWidth, actorHeight;
actorWidth = actor.width * actor.scale_x;
actorHeight = actor.height * actor.scale_y;
xDelta = actor.x + actorWidth / 2.0 - xCenter * global.screen_width;
yDelta = actor.y + actorHeight / 2.0 - yCenter * global.screen_height;
distanceSquared = xDelta * xDelta + yDelta * yDelta;
return distanceSquared;
},
/**
* _orderWindowsPermutations:
*
* Iterate over all permutations of the windows, and determine the
* permutation which has the least total motion.
*/
_orderWindowsPermutations: function (clones, slots) {
let minimumMotionPermutation = null;
let minimumMotion = -1;
let permIndex = 0;
this._forEachPermutations(clones, Lang.bind(this, function (permutation) {
let motion = 0;
for (let i = 0; i < permutation.length; i++) {
let cloneActor = permutation[i].actor;
let slot = slots[i];
let delta = this._computeWindowMotion(cloneActor, slot);
motion += delta;
}
if (minimumMotionPermutation == null || motion < minimumMotion) {
minimumMotionPermutation = permutation;
minimumMotion = motion;
}
permIndex++;
}));
return minimumMotionPermutation;
},
/**
* _orderWindowsGreedy:
*
* Iterate over available slots in order, placing into each one the window
* we find with the smallest motion to that slot.
*/
_orderWindowsGreedy: function(clones, slots) {
let result = [];
let slotIndex = 0;
// Copy since we mutate below
let clonesCopy = clones.concat();
for (let i = 0; i < slots.length; i++) {
let slot = slots[i];
let minimumMotionIndex = -1;
let minimumMotion = -1;
for (let j = 0; j < clonesCopy.length; j++) {
let cloneActor = clonesCopy[j].actor;
let delta = this._computeWindowMotion(cloneActor, slot);
if (minimumMotionIndex == -1 || delta < minimumMotion) {
minimumMotionIndex = j;
minimumMotion = delta;
}
}
result.push(clonesCopy[minimumMotionIndex]);
clonesCopy.splice(minimumMotionIndex, 1);
}
return result;
},
/**
* _orderWindowsByMotionAndStartup:
* @windows: Array of #MetaWindow
* @slots: Array of slots
*
* Returns a copy of @windows, ordered in such a way that they require least motion
* to move to the final screen coordinates of @slots. Ties are broken in a stable
* fashion by the order in which the windows were created.
*/
_orderWindowsByMotionAndStartup: function(clones, slots) {
clones.sort(function(w1, w2) {
return w2.metaWindow.get_stable_sequence() - w1.metaWindow.get_stable_sequence();
});
if (clones.length <= POSITIONING_PERMUTATIONS_MAX)
return this._orderWindowsPermutations(clones, slots);
else
return this._orderWindowsGreedy(clones, slots);
},
/**
* _getSlotRelativeGeometry:
* @slot: A layout slot
*
* Returns: the workspace-relative [x, y, width, height]
* of a given window layout slot.
*/
_getSlotRelativeGeometry: function(slot) {
let [xCenter, yCenter, fraction] = slot;
let width = global.screen_width * fraction;
let height = global.screen_height * fraction;
let x = xCenter * global.screen_width - width / 2;
let y = yCenter * global.screen_height - height / 2;
return [x, y, width, height];
},
/**
* _computeWindowRelativeLayout:
* @metaWindow: A #MetaWindow
* @slot: A layout slot
*
* Given a window and slot to fit it in, compute its
* workspace-relative [x, y, scale] where scale applies
* to both X and Y directions.
*/
_computeWindowRelativeLayout: function(metaWindow, slot) {
let [xCenter, yCenter, fraction] = slot;
let [x, y, width, height] = this._getSlotRelativeGeometry(slot);
xCenter = xCenter * global.screen_width;
let rect = new Meta.Rectangle();
metaWindow.get_outer_rect(rect);
let buttonOuterHeight, captionHeight;
let buttonOuterWidth = 0;
if (this._windowOverlays[1]) {
[buttonOuterHeight, captionHeight] = this._windowOverlays[1].chromeHeights();
buttonOuterWidth = this._windowOverlays[1].chromeWidth() / this.scale;
} else
[buttonOuterHeight, captionHeight] = [0, 0];
buttonOuterHeight /= this.scale;
captionHeight /= this.scale;
let desiredWidth = global.screen_width * fraction;
let desiredHeight = global.screen_height * fraction;
let scale = Math.min((desiredWidth - buttonOuterWidth) / rect.width,
(desiredHeight - buttonOuterHeight - captionHeight) / rect.height,
1.0 / this.scale);
x = xCenter - 0.5 * scale * rect.width;
y = y + height - rect.height * scale - captionHeight;
return [x, y, scale];
},
setReservedSlot: function(clone) {
if (clone && this.containsMetaWindow(clone.metaWindow)) {
this._reservedSlot = null;
this.positionWindows(WindowPositionFlags.ANIMATE);
return;
}
if (clone)
this._reservedSlot = clone;
else
this._reservedSlot = null;
this.positionWindows(WindowPositionFlags.ANIMATE);
},
/**
* positionWindows:
* @flags:
* ZOOM - workspace is moving at the same time and we need to take that into account.
* ANIMATE - Indicates that we need animate changing position.
*/
positionWindows : function(flags) {
if (this._repositionWindowsId > 0) {
Mainloop.source_remove(this._repositionWindowsId);
this._repositionWindowsId = 0;
}
let totalVisible = 0;
let visibleClones = this._getVisibleClones();
if (this._reservedSlot)
visibleClones.push(this._reservedSlot);
let workspaceZooming = flags & WindowPositionFlags.ZOOM;
let animate = flags & WindowPositionFlags.ANIMATE;
// Start the animations
let slots = this._computeAllWindowSlots(visibleClones.length);
visibleClones = this._orderWindowsByMotionAndStartup(visibleClones, slots);
for (let i = 0; i < visibleClones.length; i++) {
let slot = slots[i];
let clone = visibleClones[i];
let metaWindow = clone.metaWindow;
let mainIndex = this._lookupIndex(metaWindow);
let overlay = this._windowOverlays[mainIndex];
let [x, y, scale] = this._computeWindowRelativeLayout(metaWindow, slot);
if (overlay)
overlay.hide();
if (animate) {
if (!metaWindow.showing_on_its_workspace()) {
/* Hidden windows should fade in and grow
* therefore we need to resize them now so they
* can be scaled up later */
if (workspaceZooming) {
clone.actor.opacity = 0;
clone.actor.scale_x = 0;
clone.actor.scale_y = 0;
clone.actor.x = x;
clone.actor.y = y;
}
// Make the window slightly transparent to indicate it's hidden
Tweener.addTween(clone.actor,
{ opacity: 255,
time: Overview.ANIMATION_TIME,
transition: "easeInQuad"
});
}
Tweener.addTween(clone.actor,
{ x: x,
y: y,
scale_x: scale,
scale_y: scale,
workspace_relative: workspaceZooming ? this : null,
time: Overview.ANIMATION_TIME,
transition: "easeOutQuad",
onComplete: Lang.bind(this, function() {
this._fadeInWindowOverlay(clone, overlay);
})
});
} else {
clone.actor.set_position(x, y);
clone.actor.set_scale(scale, scale);
this._fadeInWindowOverlay(clone, overlay);
}
}
},
syncStacking: function(stackIndices) {
let desktopClone = this._windows[0];
let visibleClones = this._getVisibleClones();
visibleClones.sort(function (a, b) { return stackIndices[a.metaWindow.get_stable_sequence()] - stackIndices[b.metaWindow.get_stable_sequence()]; });
for (let i = 0; i < visibleClones.length; i++) {
let clone = visibleClones[i];
let metaWindow = clone.metaWindow;
if (i == 0) {
clone.setStackAbove(desktopClone.actor);
} else {
let previousClone = visibleClones[i - 1];
clone.setStackAbove(previousClone.actor);
}
}
},
_fadeInWindowOverlay: function(clone, overlay) {
// This is a little messy and complicated because when we
// start the fade-in we may not have done the final positioning
// of the workspaces. (Tweener doesn't necessarily finish
// all animations before calling onComplete callbacks.)
// So we need to manually compute where the window will
// be after the workspace animation finishes.
let [cloneX, cloneY] = clone.actor.get_position();
let [cloneWidth, cloneHeight] = clone.actor.get_size();
cloneX = this.gridX + this.scale * cloneX;
cloneY = this.gridY + this.scale * cloneY;
cloneWidth = this.scale * clone.actor.scale_x * cloneWidth;
cloneHeight = this.scale * clone.actor.scale_y * cloneHeight;
if (!this._windowOverlaysGroup.visible)
this._windowOverlaysGroup.show();
if (overlay) {
overlay.updatePositions(cloneX, cloneY, cloneWidth, cloneHeight);
overlay.fadeIn();
}
},
_fadeInAllOverlays: function() {
for (let i = 1; i < this._windows.length; i++) {
let clone = this._windows[i];
let overlay = this._windowOverlays[i];
if (this._showOnlyWindows != null && !(clone.metaWindow in this._showOnlyWindows))
continue;
this._fadeInWindowOverlay(clone, overlay);
}
},
_hideAllOverlays: function() {
for (let i = 1; i< this._windows.length; i++) {
let overlay = this._windowOverlays[i];
overlay.hide();
}
},
_delayedWindowRepositioning: function() {
let [child, x, y, mask] =
Gdk.Screen.get_default().get_root_window().get_pointer();
let wsWidth = this.actor.width * this.scale;
let wsHeight = this.actor.height * this.scale;
let pointerHasMoved = (this._cursorX != x && this._cursorY != y);
let inWorkspace = (this.gridX < x && x < this.gridX + wsWidth &&
this.gridY < y && y < this.gridY + wsHeight);
if (pointerHasMoved && inWorkspace) {
// store current cursor position
this._cursorX = x;
this._cursorY = y;
return true;
}
this.positionWindows(WindowPositionFlags.ANIMATE);
return false;
},
showWindowsOverlays: function() {
this._windowOverlaysGroup.show();
this._fadeInAllOverlays();
},
hideWindowsOverlays: function() {
this._windowOverlaysGroup.hide();
},
_windowRemoved : function(metaWorkspace, metaWin) {
let win = metaWin.get_compositor_private();
// find the position of the window in our list
let index = this._lookupIndex (metaWin);
if (index == -1)
return;
let clone = this._windows[index];
this._windows.splice(index, 1);
this._windowOverlays.splice(index, 1);
// If metaWin.get_compositor_private() returned non-NULL, that
// means the window still exists (and is just being moved to
// another workspace or something), so set its overviewHint
// accordingly. (If it returned NULL, then the window is being
// destroyed; we'd like to animate this, but it's too late at
// this point.)
if (win) {
let [stageX, stageY] = clone.actor.get_transformed_position();
let [stageWidth, stageHeight] = clone.actor.get_transformed_size();
win._overviewHint = {
x: stageX,
y: stageY,
scale: stageWidth / clone.actor.width
};
}
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
// remove old handler
if (this._repositionWindowsId > 0) {
Mainloop.source_remove(this._repositionWindowsId);
this._repositionWindowsId = 0;
}
// setup new handler
let [child, x, y, mask] =
Gdk.Screen.get_default().get_root_window().get_pointer();
this._cursorX = x;
this._cursorY = y;
this._repositionWindowsId = Mainloop.timeout_add(750,
Lang.bind(this, this._delayedWindowRepositioning));
},
_windowAdded : function(metaWorkspace, metaWin) {
if (this.leavingOverview)
return;
let win = metaWin.get_compositor_private();
if (!win) {
// Newly-created windows are added to a workspace before
// the compositor finds out about them...
Mainloop.idle_add(Lang.bind(this,
function () {
if (this.actor && metaWin.get_compositor_private())
this._windowAdded(metaWorkspace, metaWin);
return false;
}));
return;
}
if (!this._isOverviewWindow(win))
return;
let clone = this._addWindowClone(win);
if (win._overviewHint) {
let x = (win._overviewHint.x - this.actor.x) / this.scale;
let y = (win._overviewHint.y - this.actor.y) / this.scale;
let scale = win._overviewHint.scale / this.scale;
delete win._overviewHint;
clone.actor.set_position (x, y);
clone.actor.set_scale (scale, scale);
}
this.positionWindows(WindowPositionFlags.ANIMATE);
},
// check for maximized windows on the workspace
_haveMaximizedWindows: function() {
for (let i = 1; 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;
},
// Animate the full-screen to Overview transition.
zoomToOverview : function() {
this.actor.set_position(this.gridX, this.gridY);
this.actor.set_scale(this.scale, this.scale);
// Position and scale the windows.
if (Main.overview.animationInProgress)
this.positionWindows(WindowPositionFlags.ANIMATE | WindowPositionFlags.ZOOM);
else
this.positionWindows(WindowPositionFlags.ZOOM);
let active = global.screen.get_active_workspace();
let fadeInIcons = (Main.overview.animationInProgress &&
active == this.metaWorkspace &&
!this._haveMaximizedWindows());
this._desktop.zoomToOverview(fadeInIcons);
this._visible = true;
},
// Animates the return from Overview mode
zoomFromOverview : function() {
this.leavingOverview = true;
this._hideAllOverlays();
if (this._repositionWindowsId > 0) {
Mainloop.source_remove(this._repositionWindowsId);
this._repositionWindowsId = 0;
}
this._overviewHiddenId = Main.overview.connect('hidden', Lang.bind(this,
this._doneLeavingOverview));
// Position and scale the windows.
for (let i = 1; i < this._windows.length; i++) {
let clone = this._windows[i];
clone.zoomFromOverview();
if (clone.metaWindow.showing_on_its_workspace()) {
Tweener.addTween(clone.actor,
{ x: clone.origX,
y: clone.origY,
scale_x: 1.0,
scale_y: 1.0,
workspace_relative: this,
time: Overview.ANIMATION_TIME,
opacity: 255,
transition: "easeOutQuad"
});
} else {
// The window is hidden, make it shrink and fade it out
Tweener.addTween(clone.actor,
{ scale_x: 0,
scale_y: 0,
opacity: 0,
workspace_relative: this,
time: Overview.ANIMATION_TIME,
transition: "easeOutQuad"
});
}
}
let active = global.screen.get_active_workspace();
let fadeOutIcons = (active == this.metaWorkspace &&
!this._haveMaximizedWindows());
this._desktop.zoomFromOverview(fadeOutIcons);
this._visible = false;
},
// Animates grid shrinking/expanding when a row or column
// of workspaces is added or removed
resizeToGrid : function (oldScale) {
this._hideAllOverlays();
Tweener.addTween(this.actor,
{ x: this.gridX,
y: this.gridY,
scale_x: this.scale,
scale_y: this.scale,
time: Overview.ANIMATION_TIME,
transition: "easeOutQuad",
onComplete: Lang.bind(this, this._fadeInAllOverlays)
});
},
// Animates the addition of a new (empty) workspace
slideIn : function(oldScale) {
if (this.gridCol > this.gridRow) {
this.actor.set_position(global.screen_width, this.gridY);
this.actor.set_scale(oldScale, oldScale);
} else {
this.actor.set_position(this.gridX, global.screen_height);
this.actor.set_scale(this.scale, this.scale);
}
Tweener.addTween(this.actor,
{ x: this.gridX,
y: this.gridY,
scale_x: this.scale,
scale_y: this.scale,
time: Overview.ANIMATION_TIME,
transition: "easeOutQuad"
});
this._visible = true;
},
// Animates the removal of a workspace
slideOut : function(onComplete) {
let destX = this.actor.x, destY = this.actor.y;
this._hideAllOverlays();
if (this.gridCol > this.gridRow)
destX = global.screen_width;
else
destY = global.screen_height;
Tweener.addTween(this.actor,
{ x: destX,
y: destY,
scale_x: this.scale,
scale_y: this.scale,
time: Overview.ANIMATION_TIME,
transition: "easeOutQuad",
onComplete: onComplete
});
this._visible = false;
// Don't let the user try to select this workspace as it's
// making its exit.
this._desktop.reactive = false;
},
destroy : function() {
this.actor.destroy();
},
_onDestroy: function(actor) {
if (this._overviewHiddenId) {
Main.overview.disconnect(this._overviewHiddenId);
this._overviewHiddenId = 0;
}
Tweener.removeTweens(actor);
this.metaWorkspace.disconnect(this._windowAddedId);
this.metaWorkspace.disconnect(this._windowRemovedId);
if (this._repositionWindowsId > 0)
Mainloop.source_remove(this._repositionWindowsId);
// Usually, the windows will be destroyed automatically with
// their parent (this.actor), but we might have a zoomed window
// which has been reparented to the stage - _windows[0] holds
// the desktop window, which is never reparented
for (let w = 1; w < this._windows.length; w++)
this._windows[w].destroy();
this._windows = [];
},
// Sets this.leavingOverview flag to false.
_doneLeavingOverview : function() {
this.leavingOverview = false;
},
// Tests if @win belongs to this workspaces
_isMyWindow : function (win) {
return win.get_workspace() == this.metaWorkspace.index() ||
(win.get_meta_window() && win.get_meta_window().is_on_all_workspaces());
},
// Tests if @win should be shown in the Overview
_isOverviewWindow : function (win) {
let tracker = Shell.WindowTracker.get_default();
return tracker.is_window_interesting(win.get_meta_window());
},
// Create a clone of a (non-desktop) window and add it to the window list
_addWindowClone : function(win) {
let clone = new WindowClone(win);
let overlay = new WindowOverlay(clone, this._windowOverlaysGroup);
clone.connect('selected',
Lang.bind(this, this._onCloneSelected));
clone.connect('drag-begin',
Lang.bind(this, function(clone) {
this.emit('window-drag-begin', clone.actor);
overlay.hide();
}));
clone.connect('drag-end',
Lang.bind(this, function(clone) {
this.emit('window-drag-end', clone.actor);
overlay.show();
}));
this.actor.add_actor(clone.actor);
overlay.connect('show-close-button', Lang.bind(this, this._onShowOverlayClose));
this._windows.push(clone);
this._windowOverlays.push(overlay);
return clone;
},
_onShowOverlayClose: function (windowOverlay) {
for (let i = 1; i < this._windowOverlays.length; i++) {
let overlay = this._windowOverlays[i];
if (overlay == windowOverlay)
continue;
overlay.hideCloseButton();
}
},
_computeWindowSlot : function(windowIndex, numberOfWindows) {
if (numberOfWindows in POSITIONS)
return POSITIONS[numberOfWindows][windowIndex];
// If we don't have a predefined scheme for this window count,
// arrange the windows in a grid pattern.
let gridWidth = Math.ceil(Math.sqrt(numberOfWindows));
let gridHeight = Math.ceil(numberOfWindows / gridWidth);
let fraction = 0.95 * (1. / gridWidth);
let xCenter = (.5 / gridWidth) + ((windowIndex) % gridWidth) / gridWidth;
let yCenter = (.5 / gridHeight) + Math.floor((windowIndex / gridWidth)) / gridHeight;
return [xCenter, yCenter, fraction];
},
_computeAllWindowSlots: function(totalWindows) {
let slots = [];
for (let i = 0; i < totalWindows; i++) {
slots.push(this._computeWindowSlot(i, totalWindows));
}
return slots;
},
_onCloneSelected : function (clone, time) {
Main.activateWindow(clone.metaWindow, time,
this.metaWorkspace.index());
},
_removeSelf : function(actor, event) {
screen.remove_workspace(this.metaWorkspace, event.get_time());
return true;
},
// Draggable target interface
acceptDrop : function(source, actor, x, y, time) {
if (source instanceof WindowClone) {
let win = source.realWindow;
if (this._isMyWindow(win))
return false;
// Set a hint on the Mutter.Window so its initial position
// in the new workspace will be correct
win._overviewHint = {
x: actor.x,
y: actor.y,
scale: actor.scale_x
};
let metaWindow = win.get_meta_window();
metaWindow.change_workspace_by_index(this.metaWorkspace.index(),
false, // don't create workspace
time);
return true;
} else if (source.shellWorkspaceLaunch) {
this.metaWorkspace.activate(time);
source.shellWorkspaceLaunch();
return true;
}
return false;
}
};
Signals.addSignalMethods(Workspace.prototype);
// Create a SpecialPropertyModifier to let us move windows in a
// straight line on the screen even though their containing workspace
// is also moving.
Tweener.registerSpecialPropertyModifier('workspace_relative', _workspaceRelativeModifier, _workspaceRelativeGet);
function _workspaceRelativeModifier(workspace) {
let [startX, startY] = Main.overview.getPosition();
let overviewPosX, overviewPosY, overviewScale;
if (!workspace)
return [];
if (workspace.leavingOverview) {
let [zoomedInX, zoomedInY] = Main.overview.getZoomedInPosition();
overviewPosX = { begin: startX, end: zoomedInX };
overviewPosY = { begin: startY, end: zoomedInY };
overviewScale = { begin: Main.overview.getScale(),
end: Main.overview.getZoomedInScale() };
} else {
overviewPosX = { begin: startX, end: 0 };
overviewPosY = { begin: startY, end: 0 };
overviewScale = { begin: Main.overview.getScale(), end: 1 };
}
return [ { name: 'x',
parameters: { workspacePos: workspace.gridX,
overviewPos: overviewPosX,
overviewScale: overviewScale } },
{ name: 'y',
parameters: { workspacePos: workspace.gridY,
overviewPos: overviewPosY,
overviewScale: overviewScale } }
];
}
function _workspaceRelativeGet(begin, end, time, params) {
let curOverviewPos = (1 - time) * params.overviewPos.begin +
time * params.overviewPos.end;
let curOverviewScale = (1 - time) * params.overviewScale.begin +
time * params.overviewScale.end;
// Calculate the screen position of the window.
let screen = (1 - time) *
((begin + params.workspacePos) * params.overviewScale.begin +
params.overviewPos.begin) +
time *
((end + params.workspacePos) * params.overviewScale.end +
params.overviewPos.end);
// Return the workspace coordinates.
return (screen - curOverviewPos) / curOverviewScale - params.workspacePos;
}