Oreon-Lime-R2/dash-to-panel/dash-to-panel-44/utils.js

1040 lines
30 KiB
JavaScript

/*
* This file is part of the Dash-To-Panel extension for Gnome 3
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*
* Credits:
* This file is based on code from the Dash to Dock extension by micheleg
* and code from the Taskbar extension by Zorin OS
* Some code was also adapted from the upstream Gnome Shell source code.
*/
const Clutter = imports.gi.Clutter;
const Config = imports.misc.config;
const GdkPixbuf = imports.gi.GdkPixbuf;
const Gi = imports._gi;
const Gio = imports.gi.Gio;
const GLib = imports.gi.GLib;
const GObject = imports.gi.GObject;
const Gtk = imports.gi.Gtk;
const Meta = imports.gi.Meta;
const Shell = imports.gi.Shell;
const St = imports.gi.St;
const Mainloop = imports.mainloop;
const Main = imports.ui.main;
const MessageTray = imports.ui.messageTray;
const Util = imports.misc.util;
var TRANSLATION_DOMAIN = imports.misc.extensionUtils.getCurrentExtension().metadata['gettext-domain'];
var SCROLL_TIME = Util.SCROLL_TIME / (Util.SCROLL_TIME > 1 ? 1000 : 1);
//Clutter implicit animations are available since 3.34
//prefer those over Tweener if available
if (Config.PACKAGE_VERSION < '3.34') {
var Tweener = imports.ui.tweener;
}
var defineClass = function (classDef) {
let parentProto = classDef.Extends ? classDef.Extends.prototype : null;
if (Config.PACKAGE_VERSION < '3.31.9') {
if (parentProto && (classDef.Extends.name || classDef.Extends.toString()).indexOf('DashToPanel.') < 0) {
classDef.callParent = function() {
let args = Array.prototype.slice.call(arguments);
let func = args.shift();
classDef.Extends.prototype[func].apply(this, args);
};
}
return new imports.lang.Class(classDef);
}
let isGObject = parentProto instanceof GObject.Object;
let needsSuper = parentProto && !isGObject;
let getParentArgs = function(args) {
let parentArgs = [];
(classDef.ParentConstrParams || parentArgs).forEach(p => {
if (p.constructor === Array) {
let param = args[p[0]];
parentArgs.push(p[1] ? param[p[1]] : param);
} else {
parentArgs.push(p);
}
});
return parentArgs;
};
let C = eval(
'(class C ' + (needsSuper ? 'extends Object' : '') + ' { ' +
' constructor(...args) { ' +
(needsSuper ? 'super(...getParentArgs(args));' : '') +
(needsSuper || !parentProto ? 'this._init(...args);' : '') +
' }' +
' callParent(...args) { ' +
' let func = args.shift(); ' +
' if (!(func === \'_init\' && needsSuper))' +
' super[func](...args); ' +
' }' +
'})'
);
if (parentProto) {
Object.setPrototypeOf(C.prototype, parentProto);
Object.setPrototypeOf(C, classDef.Extends);
}
Object.defineProperty(C, 'name', { value: classDef.Name });
Object.keys(classDef)
.filter(k => classDef.hasOwnProperty(k) && classDef[k] instanceof Function)
.forEach(k => C.prototype[k] = classDef[k]);
if (isGObject) {
C = GObject.registerClass({ Signals: classDef.Signals || {} }, C);
}
return C;
};
// simplify global signals and function injections handling
// abstract class
var BasicHandler = defineClass({
Name: 'DashToPanel.BasicHandler',
_init: function(){
this._storage = new Object();
},
add: function(/*unlimited 3-long array arguments*/){
// convert arguments object to array, concatenate with generic
let args = [].concat('generic', [].slice.call(arguments));
// call addWithLabel with ags as if they were passed arguments
this.addWithLabel.apply(this, args);
},
destroy: function() {
for( let label in this._storage )
this.removeWithLabel(label);
},
addWithLabel: function( label /* plus unlimited 3-long array arguments*/) {
if(this._storage[label] == undefined)
this._storage[label] = new Array();
// skip first element of the arguments
for( let i = 1; i < arguments.length; i++ ) {
let item = this._storage[label];
let handlers = this._create(arguments[i]);
for (let j = 0, l = handlers.length; j < l; ++j) {
item.push(handlers[j]);
}
}
},
removeWithLabel: function(label){
if(this._storage[label]) {
for( let i = 0; i < this._storage[label].length; i++ ) {
this._remove(this._storage[label][i]);
}
delete this._storage[label];
}
},
/* Virtual methods to be implemented by subclass */
// create single element to be stored in the storage structure
_create: function(item){
throw new Error('no implementation of _create in ' + this);
},
// correctly delete single element
_remove: function(item){
throw new Error('no implementation of _remove in ' + this);
}
});
// Manage global signals
var GlobalSignalsHandler = defineClass({
Name: 'DashToPanel.GlobalSignalsHandler',
Extends: BasicHandler,
_create: function(item) {
let handlers = [];
item[1] = [].concat(item[1]);
for (let i = 0, l = item[1].length; i < l; ++i) {
let object = item[0];
let event = item[1][i];
let callback = item[2]
try {
let id = object.connect(event, callback);
handlers.push([object, id]);
} catch (e)
{
}
}
return handlers;
},
_remove: function(item){
item[0].disconnect(item[1]);
}
});
/**
* Manage function injection: both instances and prototype can be overridden
* and restored
*/
var InjectionsHandler = defineClass({
Name: 'DashToPanel.InjectionsHandler',
Extends: BasicHandler,
_create: function(item) {
let object = item[0];
let name = item[1];
let injectedFunction = item[2];
let original = object[name];
object[name] = injectedFunction;
return [[object, name, injectedFunction, original]];
},
_remove: function(item) {
let object = item[0];
let name = item[1];
let original = item[3];
object[name] = original;
}
});
/**
* Manage timeouts: the added timeouts have their id reset on completion
*/
var TimeoutsHandler = defineClass({
Name: 'DashToPanel.TimeoutsHandler',
Extends: BasicHandler,
_create: function(item) {
let name = item[0];
let delay = item[1];
let timeoutHandler = item[2];
this._remove(item);
this[name] = Mainloop.timeout_add(delay, () => {
this[name] = 0;
timeoutHandler();
});
return [[name]];
},
remove: function(name) {
this._remove([name])
},
_remove: function(item) {
let name = item[0];
if (this[name]) {
Mainloop.source_remove(this[name]);
this[name] = 0;
}
},
getId: function(name) {
return this[name] ? this[name] : 0;
}
});
// This is wrapper to maintain compatibility with GNOME-Shell 3.30+ as well as
// previous versions.
var DisplayWrapper = {
getScreen: function() {
return global.screen || global.display;
},
getWorkspaceManager: function() {
return global.screen || global.workspace_manager;
},
getMonitorManager: function() {
return global.screen || Meta.MonitorManager.get();
}
};
var getCurrentWorkspace = function() {
return DisplayWrapper.getWorkspaceManager().get_active_workspace();
};
var getWorkspaceByIndex = function(index) {
return DisplayWrapper.getWorkspaceManager().get_workspace_by_index(index);
};
var getWorkspaceCount = function() {
return DisplayWrapper.getWorkspaceManager().n_workspaces;
};
var getStageTheme = function() {
return St.ThemeContext.get_for_stage(global.stage);
};
var getScaleFactor = function() {
return getStageTheme().scale_factor || 1;
};
var getAppDisplayViews = function() {
//gnome-shell 3.38 only has one view and it is now the appDisplay
return imports.ui.appDisplay._views || [{ view: imports.ui.appDisplay }];
};
var findIndex = function(array, predicate) {
if (Array.prototype.findIndex) {
return array.findIndex(predicate);
}
for (let i = 0, l = array.length; i < l; ++i) {
if (predicate(array[i])) {
return i;
}
}
return -1;
};
var find = function(array, predicate) {
let index = findIndex(array, predicate);
if (index > -1) {
return array[index];
}
};
var mergeObjects = function(main, bck) {
for (var prop in bck) {
if (!main.hasOwnProperty(prop) && bck.hasOwnProperty(prop)) {
main[prop] = bck[prop];
}
}
return main;
};
var hookVfunc = function(proto, symbol, func) {
if (Gi.hook_up_vfunc_symbol && func) {
//gjs > 1.53.3
proto[Gi.hook_up_vfunc_symbol](symbol, func);
} else {
//On older gjs, this is how to hook vfunc. It is buggy and can't be used reliably to replace
//already hooked functions. Since it's our only use for it, disabled for now (and probably forever)
//Gi.hook_up_vfunc(proto, symbol, func);
}
};
var wrapActor = function(actor) {
if (actor) {
Object.defineProperty(actor, 'actor', {
value: actor instanceof Clutter.Actor ? actor : actor.actor
});
}
};
var getTransformedAllocation = function(actor) {
if (Config.PACKAGE_VERSION < '3.37') {
return Shell.util_get_transformed_allocation(actor);
}
let extents = actor.get_transformed_extents();
let topLeft = extents.get_top_left();
let bottomRight = extents.get_bottom_right();
return { x1: topLeft.x, x2: bottomRight.x, y1: topLeft.y, y2: bottomRight.y };
};
var allocate = function(actor, box, flags, useParent) {
let allocateObj = useParent ? actor.__proto__ : actor;
allocateObj.allocate.apply(actor, getAllocationParams(box, flags));
};
var setAllocation = function(actor, box, flags) {
actor.set_allocation.apply(actor, getAllocationParams(box, flags));
};
var getAllocationParams = function(box, flags) {
let params = [box];
if (Config.PACKAGE_VERSION < '3.37') {
params.push(flags);
}
return params;
};
var setClip = function(actor, x, y, width, height) {
actor.set_clip(0, 0, width, height);
actor.set_position(x, y);
actor.set_size(width, height);
};
var addKeybinding = function(key, settings, handler, modes) {
if (!Main.wm._allowedKeybindings[key]) {
Main.wm.addKeybinding(
key,
settings,
Meta.KeyBindingFlags.NONE,
modes || (Shell.ActionMode.NORMAL | Shell.ActionMode.OVERVIEW),
handler
);
}
};
var removeKeybinding = function(key) {
if (Main.wm._allowedKeybindings[key]) {
Main.wm.removeKeybinding(key);
}
};
var getrgbColor = function(color) {
color = typeof color === 'string' ? Clutter.color_from_string(color)[1] : color;
return { red: color.red, green: color.green, blue: color.blue };
};
var getrgbaColor = function(color, alpha, offset) {
if (alpha <= 0) {
return 'transparent; ';
}
let rgb = getrgbColor(color);
if (offset) {
['red', 'green', 'blue'].forEach(k => {
rgb[k] = Math.min(255, Math.max(0, rgb[k] + offset));
if (rgb[k] == color[k]) {
rgb[k] = Math.min(255, Math.max(0, rgb[k] - offset));
}
});
}
return 'rgba(' + rgb.red + ',' + rgb.green + ',' + rgb.blue + ',' + (Math.floor(alpha * 100) * 0.01) + '); ' ;
};
var checkIfColorIsBright = function(color) {
let rgb = getrgbColor(color);
let brightness = 0.2126 * rgb.red + 0.7152 * rgb.green + 0.0722 * rgb.blue;
return brightness > 128;
};
var getMouseScrollDirection = function(event) {
let direction;
switch (event.get_scroll_direction()) {
case Clutter.ScrollDirection.UP:
case Clutter.ScrollDirection.LEFT:
direction = 'up';
break;
case Clutter.ScrollDirection.DOWN:
case Clutter.ScrollDirection.RIGHT:
direction = 'down';
break;
}
return direction;
};
var checkIfWindowHasTransient = function(window) {
let hasTransient;
window.foreach_transient(t => !(hasTransient = true));
return hasTransient;
};
var activateSiblingWindow = function(windows, direction, startWindow) {
let windowIndex = windows.indexOf(global.display.focus_window);
let nextWindowIndex = windowIndex < 0 ?
startWindow ? windows.indexOf(startWindow) : 0 :
windowIndex + (direction == 'up' ? 1 : -1);
if (nextWindowIndex == windows.length) {
nextWindowIndex = 0;
} else if (nextWindowIndex < 0) {
nextWindowIndex = windows.length - 1;
}
if (windowIndex != nextWindowIndex) {
Main.activateWindow(windows[nextWindowIndex]);
}
};
var animateWindowOpacity = function(window, tweenOpts) {
//there currently is a mutter bug with the windowactor opacity, starting with 3.34
//https://gitlab.gnome.org/GNOME/mutter/issues/836
if (Config.PACKAGE_VERSION > '3.35') {
//on 3.36, a workaround is to use the windowactor's child for the fade animation
//this leaves a "shadow" on the desktop, so the windowactor needs to be hidden
//when the animation is complete
let visible = tweenOpts.opacity > 0;
let windowActor = window;
window = windowActor.get_first_child() || windowActor;
if (!windowActor.visible && visible) {
window.opacity = 0;
windowActor.visible = visible;
}
if (!visible) {
let initialOpacity = window.opacity;
tweenOpts.onComplete = () => {
windowActor.visible = visible;
window.opacity = initialOpacity;
};
}
} else if (Config.PACKAGE_VERSION > '3.33') {
//the workaround only works on 3.35+, so on 3.34, let's just hide the
//window without animation
return window.visible = (tweenOpts.opacity == 255);
}
animate(window, tweenOpts);
};
var animate = function(actor, options) {
if (Tweener) {
return Tweener.addTween(actor, options);
}
//to support both Tweener and Clutter animations, we use Tweener "time"
//and "delay" properties defined in seconds, as opposed to Clutter animations
//"duration" and "delay" which are defined in milliseconds
if (options.delay) {
options.delay = options.delay * 1000;
}
options.duration = options.time * 1000;
delete options.time;
if (options.transition) {
//map Tweener easing equations to Clutter animation modes
options.mode = {
'easeInCubic': Clutter.AnimationMode.EASE_IN_CUBIC,
'easeInOutCubic': Clutter.AnimationMode.EASE_IN_OUT_CUBIC,
'easeInOutQuad': Clutter.AnimationMode.EASE_IN_OUT_QUAD,
'easeOutQuad': Clutter.AnimationMode.EASE_OUT_QUAD
}[options.transition] || Clutter.AnimationMode.LINEAR;
delete options.transition;
}
let params = [options];
if ('value' in options && actor instanceof St.Adjustment) {
params.unshift(options.value);
delete options.value;
}
actor.ease.apply(actor, params);
}
var isAnimating = function(actor, prop) {
if (Tweener) {
return Tweener.isTweening(actor);
}
return !!actor.get_transition(prop);
}
var stopAnimations = function(actor) {
if (Tweener) {
return Tweener.removeTweens(actor);
}
actor.remove_all_transitions();
}
var getIndicators = function(delegate) {
if (delegate instanceof St.BoxLayout) {
return delegate;
}
return delegate.indicators;
}
var getPoint = function(coords) {
if (Config.PACKAGE_VERSION > '3.35.1') {
return new imports.gi.Graphene.Point(coords);
}
return new Clutter.Point(coords);
}
var getPanelGhost = function() {
if (!Main.overview._panelGhost) {
return Main.overview._overview.get_first_child();
}
return Main.overview._panelGhost;
}
var notify = function(text, iconName, action, isTransient) {
let source = new MessageTray.SystemNotificationSource();
let notification = new MessageTray.Notification(source, 'Dash to Panel', text);
let notifyFunc = source.showNotification || source.notify;
if (iconName) {
source.createIcon = function() {
return new St.Icon({ icon_name: iconName });
};
}
if (action) {
if (!(action instanceof Array)) {
action = [action];
}
action.forEach(a => notification.addAction(a.text, a.func));
}
Main.messageTray.add(source);
notification.setTransient(isTransient);
notifyFunc.call(source, notification);
};
/*
* This is a copy of the same function in utils.js, but also adjust horizontal scrolling
* and perform few further cheks on the current value to avoid changing the values when
* it would be clamp to the current one in any case.
* Return the amount of shift applied
*/
var ensureActorVisibleInScrollView = function(scrollView, actor, fadeSize, onComplete) {
let vadjustment = scrollView.vscroll.adjustment;
let hadjustment = scrollView.hscroll.adjustment;
let [vvalue, vlower, vupper, vstepIncrement, vpageIncrement, vpageSize] = vadjustment.get_values();
let [hvalue, hlower, hupper, hstepIncrement, hpageIncrement, hpageSize] = hadjustment.get_values();
let [hvalue0, vvalue0] = [hvalue, vvalue];
let voffset = fadeSize;
let hoffset = fadeSize;
let box = actor.get_allocation_box();
let y1 = box.y1, y2 = box.y2, x1 = box.x1, x2 = box.x2;
let parent = actor.get_parent();
while (parent != scrollView) {
if (!parent)
throw new Error("actor not in scroll view");
let box = parent.get_allocation_box();
y1 += box.y1;
y2 += box.y1;
x1 += box.x1;
x2 += box.x1;
parent = parent.get_parent();
}
if (y1 < vvalue + voffset)
vvalue = Math.max(0, y1 - voffset);
else if (vvalue < vupper - vpageSize && y2 > vvalue + vpageSize - voffset)
vvalue = Math.min(vupper -vpageSize, y2 + voffset - vpageSize);
if (x1 < hvalue + hoffset)
hvalue = Math.max(0, x1 - hoffset);
else if (hvalue < hupper - hpageSize && x2 > hvalue + hpageSize - hoffset)
hvalue = Math.min(hupper - hpageSize, x2 + hoffset - hpageSize);
let tweenOpts = {
time: SCROLL_TIME,
onComplete: onComplete || (() => {}),
transition: 'easeOutQuad'
};
if (vvalue !== vvalue0) {
animate(vadjustment, mergeObjects(tweenOpts, { value: vvalue }));
}
if (hvalue !== hvalue0) {
animate(hadjustment, mergeObjects(tweenOpts, { value: hvalue }));
}
return [hvalue- hvalue0, vvalue - vvalue0];
}
/**
* ColorUtils is adapted from https://github.com/micheleg/dash-to-dock
*/
var ColorUtils = {
colorLuminance: function(r, g, b, dlum) {
// Darken or brighten color by a fraction dlum
// Each rgb value is modified by the same fraction.
// Return "#rrggbb" strin
let rgbString = '#';
rgbString += ColorUtils._decimalToHex(Math.round(Math.min(Math.max(r*(1+dlum), 0), 255)), 2);
rgbString += ColorUtils._decimalToHex(Math.round(Math.min(Math.max(g*(1+dlum), 0), 255)), 2);
rgbString += ColorUtils._decimalToHex(Math.round(Math.min(Math.max(b*(1+dlum), 0), 255)), 2);
return rgbString;
},
_decimalToHex: function(d, padding) {
// Convert decimal to an hexadecimal string adding the desired padding
let hex = d.toString(16);
while (hex.length < padding)
hex = '0'+ hex;
return hex;
},
HSVtoRGB: function(h, s, v) {
// Convert hsv ([0-1, 0-1, 0-1]) to rgb ([0-255, 0-255, 0-255]).
// Following algorithm in https://en.wikipedia.org/wiki/HSL_and_HSV
// here with h = [0,1] instead of [0, 360]
// Accept either (h,s,v) independently or {h:h, s:s, v:v} object.
// Return {r:r, g:g, b:b} object.
if (arguments.length === 1) {
s = h.s;
v = h.v;
h = h.h;
}
let r,g,b;
let c = v*s;
let h1 = h*6;
let x = c*(1 - Math.abs(h1 % 2 - 1));
let m = v - c;
if (h1 <=1)
r = c + m, g = x + m, b = m;
else if (h1 <=2)
r = x + m, g = c + m, b = m;
else if (h1 <=3)
r = m, g = c + m, b = x + m;
else if (h1 <=4)
r = m, g = x + m, b = c + m;
else if (h1 <=5)
r = x + m, g = m, b = c + m;
else
r = c + m, g = m, b = x + m;
return {
r: Math.round(r * 255),
g: Math.round(g * 255),
b: Math.round(b * 255)
};
},
RGBtoHSV: function(r, g, b) {
// Convert rgb ([0-255, 0-255, 0-255]) to hsv ([0-1, 0-1, 0-1]).
// Following algorithm in https://en.wikipedia.org/wiki/HSL_and_HSV
// here with h = [0,1] instead of [0, 360]
// Accept either (r,g,b) independently or {r:r, g:g, b:b} object.
// Return {h:h, s:s, v:v} object.
if (arguments.length === 1) {
r = r.r;
g = r.g;
b = r.b;
}
let h,s,v;
let M = Math.max(r, g, b);
let m = Math.min(r, g, b);
let c = M - m;
if (c == 0)
h = 0;
else if (M == r)
h = ((g-b)/c) % 6;
else if (M == g)
h = (b-r)/c + 2;
else
h = (r-g)/c + 4;
h = h/6;
v = M/255;
if (M !== 0)
s = c/M;
else
s = 0;
return {h: h, s: s, v: v};
}
};
/**
* DominantColorExtractor is adapted from https://github.com/micheleg/dash-to-dock
*/
let themeLoader = null;
let iconCacheMap = new Map();
const MAX_CACHED_ITEMS = 1000;
const BATCH_SIZE_TO_DELETE = 50;
const DOMINANT_COLOR_ICON_SIZE = 64;
var DominantColorExtractor = defineClass({
Name: 'DashToPanel.DominantColorExtractor',
_init: function(app){
this._app = app;
},
/**
* Try to get the pixel buffer for the current icon, if not fail gracefully
*/
_getIconPixBuf: function() {
let iconTexture = this._app.create_icon_texture(16);
if (themeLoader === null) {
let ifaceSettings = new Gio.Settings({ schema: "org.gnome.desktop.interface" });
themeLoader = new Gtk.IconTheme(),
themeLoader.set_custom_theme(ifaceSettings.get_string('icon-theme')); // Make sure the correct theme is loaded
}
// Unable to load the icon texture, use fallback
if (iconTexture instanceof St.Icon === false) {
return null;
}
iconTexture = iconTexture.get_gicon();
// Unable to load the icon texture, use fallback
if (iconTexture === null) {
return null;
}
if (iconTexture instanceof Gio.FileIcon) {
// Use GdkPixBuf to load the pixel buffer from the provided file path
return GdkPixbuf.Pixbuf.new_from_file(iconTexture.get_file().get_path());
}
// Get the pixel buffer from the icon theme
let icon_info = themeLoader.lookup_icon(iconTexture.get_names()[0], DOMINANT_COLOR_ICON_SIZE, 0);
if (icon_info !== null)
return icon_info.load_icon();
else
return null;
},
/**
* The backlight color choosing algorithm was mostly ported to javascript from the
* Unity7 C++ source of Canonicals:
* https://bazaar.launchpad.net/~unity-team/unity/trunk/view/head:/launcher/LauncherIcon.cpp
* so it more or less works the same way.
*/
_getColorPalette: function() {
if (iconCacheMap.get(this._app.get_id())) {
// We already know the answer
return iconCacheMap.get(this._app.get_id());
}
let pixBuf = this._getIconPixBuf();
if (pixBuf == null)
return null;
let pixels = pixBuf.get_pixels(),
offset = 0;
let total = 0,
rTotal = 0,
gTotal = 0,
bTotal = 0;
let resample_y = 1,
resample_x = 1;
// Resampling of large icons
// We resample icons larger than twice the desired size, as the resampling
// to a size s
// DOMINANT_COLOR_ICON_SIZE < s < 2*DOMINANT_COLOR_ICON_SIZE,
// most of the case exactly DOMINANT_COLOR_ICON_SIZE as the icon size is tipycally
// a multiple of it.
let width = pixBuf.get_width();
let height = pixBuf.get_height();
// Resample
if (height >= 2* DOMINANT_COLOR_ICON_SIZE)
resample_y = Math.floor(height/DOMINANT_COLOR_ICON_SIZE);
if (width >= 2* DOMINANT_COLOR_ICON_SIZE)
resample_x = Math.floor(width/DOMINANT_COLOR_ICON_SIZE);
if (resample_x !==1 || resample_y !== 1)
pixels = this._resamplePixels(pixels, resample_x, resample_y);
// computing the limit outside the for (where it would be repeated at each iteration)
// for performance reasons
let limit = pixels.length;
for (let offset = 0; offset < limit; offset+=4) {
let r = pixels[offset],
g = pixels[offset + 1],
b = pixels[offset + 2],
a = pixels[offset + 3];
let saturation = (Math.max(r,g, b) - Math.min(r,g, b));
let relevance = 0.1 * 255 * 255 + 0.9 * a * saturation;
rTotal += r * relevance;
gTotal += g * relevance;
bTotal += b * relevance;
total += relevance;
}
total = total * 255;
let r = rTotal / total,
g = gTotal / total,
b = bTotal / total;
let hsv = ColorUtils.RGBtoHSV(r * 255, g * 255, b * 255);
if (hsv.s > 0.15)
hsv.s = 0.65;
hsv.v = 0.90;
let rgb = ColorUtils.HSVtoRGB(hsv.h, hsv.s, hsv.v);
// Cache the result.
let backgroundColor = {
lighter: ColorUtils.colorLuminance(rgb.r, rgb.g, rgb.b, 0.2),
original: ColorUtils.colorLuminance(rgb.r, rgb.g, rgb.b, 0),
darker: ColorUtils.colorLuminance(rgb.r, rgb.g, rgb.b, -0.5)
};
if (iconCacheMap.size >= MAX_CACHED_ITEMS) {
//delete oldest cached values (which are in order of insertions)
let ctr=0;
for (let key of iconCacheMap.keys()) {
if (++ctr > BATCH_SIZE_TO_DELETE)
break;
iconCacheMap.delete(key);
}
}
iconCacheMap.set(this._app.get_id(), backgroundColor);
return backgroundColor;
},
/**
* Downsample large icons before scanning for the backlight color to
* improve performance.
*
* @param pixBuf
* @param pixels
* @param resampleX
* @param resampleY
*
* @return [];
*/
_resamplePixels: function (pixels, resampleX, resampleY) {
let resampledPixels = [];
// computing the limit outside the for (where it would be repeated at each iteration)
// for performance reasons
let limit = pixels.length / (resampleX * resampleY) / 4;
for (let i = 0; i < limit; i++) {
let pixel = i * resampleX * resampleY;
resampledPixels.push(pixels[pixel * 4]);
resampledPixels.push(pixels[pixel * 4 + 1]);
resampledPixels.push(pixels[pixel * 4 + 2]);
resampledPixels.push(pixels[pixel * 4 + 3]);
}
return resampledPixels;
}
});
var drawRoundedLine = function(cr, x, y, width, height, isRoundLeft, isRoundRight, stroke, fill) {
if (height > width) {
y += Math.floor((height - width) / 2.0);
height = width;
}
height = 2.0 * Math.floor(height / 2.0);
var leftRadius = isRoundLeft ? height / 2.0 : 0.0;
var rightRadius = isRoundRight ? height / 2.0 : 0.0;
cr.moveTo(x + width - rightRadius, y);
cr.lineTo(x + leftRadius, y);
if (isRoundLeft)
cr.arcNegative(x + leftRadius, y + leftRadius, leftRadius, -Math.PI/2, Math.PI/2);
else
cr.lineTo(x, y + height);
cr.lineTo(x + width - rightRadius, y + height);
if (isRoundRight)
cr.arcNegative(x + width - rightRadius, y + rightRadius, rightRadius, Math.PI/2, -Math.PI/2);
else
cr.lineTo(x + width, y);
cr.closePath();
if (fill != null) {
cr.setSource(fill);
cr.fillPreserve();
}
if (stroke != null)
cr.setSource(stroke);
cr.stroke();
}
/**
* Check if an app exists in the system.
*/
var checkedCommandsMap = new Map();
function checkIfCommandExists(app) {
let answer = checkedCommandsMap.get(app);
if (answer === undefined) {
// Command is a shell built in, use shell to call it.
// Quotes around app value are important. They let command operate
// on the whole value, instead of having shell interpret it.
let cmd = "sh -c 'command -v \"" + app + "\"'";
try {
let out = GLib.spawn_command_line_sync(cmd);
// out contains 1: stdout, 2: stderr, 3: exit code
answer = out[3] == 0;
} catch (ex) {
answer = false;
}
checkedCommandsMap.set(app, answer);
}
return answer;
}