gnome-shell/js/ui/magnifier.js
Georges Basile Stavracas Neto 0717f76362 Replace anchor point by translation and pivot point
Anchor point is deprecated and will eventually be removed from
Mutter's Clutter. Replace them by a combination of pivot point
and translation.

https://gitlab.gnome.org/GNOME/gnome-shell/-/merge_requests/1334
2020-06-26 21:03:57 +00:00

1973 lines
69 KiB
JavaScript

// -*- mode: js; js-indent-level: 4; indent-tabs-mode: nil -*-
const { Atspi, Clutter, GDesktopEnums,
Gio, GLib, GObject, Meta, Shell, St } = imports.gi;
const Signals = imports.signals;
const Background = imports.ui.background;
const FocusCaretTracker = imports.ui.focusCaretTracker;
const Main = imports.ui.main;
const MagnifierDBus = imports.ui.magnifierDBus;
const Params = imports.misc.params;
const PointerWatcher = imports.ui.pointerWatcher;
var CROSSHAIRS_CLIP_SIZE = [100, 100];
var NO_CHANGE = 0.0;
var POINTER_REST_TIME = 1000; // milliseconds
// Settings
const MAGNIFIER_SCHEMA = 'org.gnome.desktop.a11y.magnifier';
const SCREEN_POSITION_KEY = 'screen-position';
const MAG_FACTOR_KEY = 'mag-factor';
const INVERT_LIGHTNESS_KEY = 'invert-lightness';
const COLOR_SATURATION_KEY = 'color-saturation';
const BRIGHT_RED_KEY = 'brightness-red';
const BRIGHT_GREEN_KEY = 'brightness-green';
const BRIGHT_BLUE_KEY = 'brightness-blue';
const CONTRAST_RED_KEY = 'contrast-red';
const CONTRAST_GREEN_KEY = 'contrast-green';
const CONTRAST_BLUE_KEY = 'contrast-blue';
const LENS_MODE_KEY = 'lens-mode';
const CLAMP_MODE_KEY = 'scroll-at-edges';
const MOUSE_TRACKING_KEY = 'mouse-tracking';
const FOCUS_TRACKING_KEY = 'focus-tracking';
const CARET_TRACKING_KEY = 'caret-tracking';
const SHOW_CROSS_HAIRS_KEY = 'show-cross-hairs';
const CROSS_HAIRS_THICKNESS_KEY = 'cross-hairs-thickness';
const CROSS_HAIRS_COLOR_KEY = 'cross-hairs-color';
const CROSS_HAIRS_OPACITY_KEY = 'cross-hairs-opacity';
const CROSS_HAIRS_LENGTH_KEY = 'cross-hairs-length';
const CROSS_HAIRS_CLIP_KEY = 'cross-hairs-clip';
var MouseSpriteContent = GObject.registerClass({
Implements: [Clutter.Content],
}, class MouseSpriteContent extends GObject.Object {
_init() {
super._init();
this._texture = null;
}
vfunc_get_preferred_size() {
if (!this._texture)
return [false, 0, 0];
return [true, this._texture.get_width(), this._texture.get_height()];
}
vfunc_paint_content(actor, node, _paintContext) {
if (!this._texture)
return;
let color = Clutter.Color.get_static(Clutter.StaticColor.WHITE);
let [minFilter, magFilter] = actor.get_content_scaling_filters();
let textureNode = new Clutter.TextureNode(this._texture,
color, minFilter, magFilter);
textureNode.set_name('MouseSpriteContent');
node.add_child(textureNode);
textureNode.add_rectangle(actor.get_content_box());
}
get texture() {
return this._texture;
}
set texture(coglTexture) {
if (this._texture == coglTexture)
return;
let oldTexture = this._texture;
this._texture = coglTexture;
this.invalidate();
if (!oldTexture || !coglTexture ||
oldTexture.get_width() != coglTexture.get_width() ||
oldTexture.get_height() != coglTexture.get_height())
this.invalidate_size();
}
});
var Magnifier = class Magnifier {
constructor() {
// Magnifier is a manager of ZoomRegions.
this._zoomRegions = [];
// Create small clutter tree for the magnified mouse.
let cursorTracker = Meta.CursorTracker.get_for_display(global.display);
this._cursorTracker = cursorTracker;
this._mouseSprite = new Clutter.Actor({ request_mode: Clutter.RequestMode.CONTENT_SIZE });
this._mouseSprite.content = new MouseSpriteContent();
this._cursorRoot = new Clutter.Actor();
this._cursorRoot.add_actor(this._mouseSprite);
// Create the first ZoomRegion and initialize it according to the
// magnification settings.
[this.xMouse, this.yMouse] = global.get_pointer();
let aZoomRegion = new ZoomRegion(this, this._cursorRoot);
this._zoomRegions.push(aZoomRegion);
this._settingsInit(aZoomRegion);
aZoomRegion.scrollContentsTo(this.xMouse, this.yMouse);
St.Settings.get().connect('notify::magnifier-active', () => {
this.setActive(St.Settings.get().magnifier_active);
});
// Export to dbus.
new MagnifierDBus.ShellMagnifier();
this.setActive(St.Settings.get().magnifier_active);
}
/**
* showSystemCursor:
* Show the system mouse pointer.
*/
showSystemCursor() {
const seat = Clutter.get_default_backend().get_default_seat();
if (seat.is_unfocus_inhibited())
seat.uninhibit_unfocus();
this._cursorTracker.set_pointer_visible(true);
}
/**
* hideSystemCursor:
* Hide the system mouse pointer.
*/
hideSystemCursor() {
const seat = Clutter.get_default_backend().get_default_seat();
if (!seat.is_unfocus_inhibited())
seat.inhibit_unfocus();
this._cursorTracker.set_pointer_visible(false);
}
/**
* setActive:
* Show/hide all the zoom regions.
* @param {bool} activate: Boolean to activate or de-activate the magnifier.
*/
setActive(activate) {
let isActive = this.isActive();
this._zoomRegions.forEach(zoomRegion => {
zoomRegion.setActive(activate);
});
if (isActive != activate) {
if (activate) {
this._updateMouseSprite();
this._cursorSpriteChangedId =
this._cursorTracker.connect('cursor-changed',
this._updateMouseSprite.bind(this));
Meta.disable_unredirect_for_display(global.display);
this.startTrackingMouse();
} else {
this._cursorTracker.disconnect(this._cursorSpriteChangedId);
this._mouseSprite.content.texture = null;
Meta.enable_unredirect_for_display(global.display);
this.stopTrackingMouse();
}
}
// Make sure system mouse pointer is shown when all zoom regions are
// invisible.
if (!activate)
this.showSystemCursor();
// Notify interested parties of this change
this.emit('active-changed', activate);
}
/**
* isActive:
* @returns {bool} Whether the magnifier is active.
*/
isActive() {
// Sufficient to check one ZoomRegion since Magnifier's active
// state applies to all of them.
if (this._zoomRegions.length == 0)
return false;
else
return this._zoomRegions[0].isActive();
}
/**
* startTrackingMouse:
* Turn on mouse tracking, if not already doing so.
*/
startTrackingMouse() {
if (!this._pointerWatch) {
let interval = 1000 / Clutter.get_default_frame_rate();
this._pointerWatch = PointerWatcher.getPointerWatcher().addWatch(interval, this.scrollToMousePos.bind(this));
}
}
/**
* stopTrackingMouse:
* Turn off mouse tracking, if not already doing so.
*/
stopTrackingMouse() {
if (this._pointerWatch)
this._pointerWatch.remove();
this._pointerWatch = null;
}
/**
* isTrackingMouse:
* @returns {bool} whether the magnifier is currently tracking the mouse
*/
isTrackingMouse() {
return !!this._mouseTrackingId;
}
/**
* scrollToMousePos:
* Position all zoom regions' ROI relative to the current location of the
* system pointer.
* @returns {bool} true.
*/
scrollToMousePos() {
let [xMouse, yMouse] = global.get_pointer();
if (xMouse != this.xMouse || yMouse != this.yMouse) {
this.xMouse = xMouse;
this.yMouse = yMouse;
let sysMouseOverAny = false;
this._zoomRegions.forEach(zoomRegion => {
if (zoomRegion.scrollToMousePos())
sysMouseOverAny = true;
});
if (sysMouseOverAny)
this.hideSystemCursor();
else
this.showSystemCursor();
}
return true;
}
/**
* createZoomRegion:
* Create a ZoomRegion instance with the given properties.
* @param {number} xMagFactor:
* The power to set horizontal magnification of the ZoomRegion. A value
* of 1.0 means no magnification, a value of 2.0 doubles the size.
* @param {number} yMagFactor:
* The power to set the vertical magnification of the ZoomRegion.
* @param {{x: number, y: number, width: number, height: number}} roi:
* The reg Object that defines the region to magnify, given in
* unmagnified coordinates.
* @param {{x: number, y: number, width: number, height: number}} viewPort:
* Object that defines the position of the ZoomRegion on screen.
* @returns {ZoomRegion} the newly created ZoomRegion.
*/
createZoomRegion(xMagFactor, yMagFactor, roi, viewPort) {
let zoomRegion = new ZoomRegion(this, this._cursorRoot);
zoomRegion.setViewPort(viewPort);
// We ignore the redundant width/height on the ROI
let fixedROI = Object.create(roi);
fixedROI.width = viewPort.width / xMagFactor;
fixedROI.height = viewPort.height / yMagFactor;
zoomRegion.setROI(fixedROI);
zoomRegion.addCrosshairs(this._crossHairs);
return zoomRegion;
}
/**
* addZoomRegion:
* Append the given ZoomRegion to the list of currently defined ZoomRegions
* for this Magnifier instance.
* @param {ZoomRegion} zoomRegion: The zoomRegion to add.
*/
addZoomRegion(zoomRegion) {
if (zoomRegion) {
this._zoomRegions.push(zoomRegion);
if (!this.isTrackingMouse())
this.startTrackingMouse();
}
}
/**
* getZoomRegions:
* Return a list of ZoomRegion's for this Magnifier.
* @returns {number[]} The Magnifier's zoom region list.
*/
getZoomRegions() {
return this._zoomRegions;
}
/**
* clearAllZoomRegions:
* Remove all the zoom regions from this Magnfier's ZoomRegion list.
*/
clearAllZoomRegions() {
for (let i = 0; i < this._zoomRegions.length; i++)
this._zoomRegions[i].setActive(false);
this._zoomRegions.length = 0;
this.stopTrackingMouse();
this.showSystemCursor();
}
/**
* addCrosshairs:
* Add and show a cross hair centered on the magnified mouse.
*/
addCrosshairs() {
if (!this._crossHairs)
this._crossHairs = new Crosshairs();
let thickness = this._settings.get_int(CROSS_HAIRS_THICKNESS_KEY);
let color = this._settings.get_string(CROSS_HAIRS_COLOR_KEY);
let opacity = this._settings.get_double(CROSS_HAIRS_OPACITY_KEY);
let length = this._settings.get_int(CROSS_HAIRS_LENGTH_KEY);
let clip = this._settings.get_boolean(CROSS_HAIRS_CLIP_KEY);
this.setCrosshairsThickness(thickness);
this.setCrosshairsColor(color);
this.setCrosshairsOpacity(opacity);
this.setCrosshairsLength(length);
this.setCrosshairsClip(clip);
let theCrossHairs = this._crossHairs;
this._zoomRegions.forEach(zoomRegion => {
zoomRegion.addCrosshairs(theCrossHairs);
});
}
/**
* setCrosshairsVisible:
* Show or hide the cross hair.
* @param {bool} visible: Flag that indicates show (true) or hide (false).
*/
setCrosshairsVisible(visible) {
if (visible) {
if (!this._crossHairs)
this.addCrosshairs();
this._crossHairs.show();
} else {
// eslint-disable-next-line no-lonely-if
if (this._crossHairs)
this._crossHairs.hide();
}
}
/**
* setCrosshairsColor:
* Set the color of the crosshairs for all ZoomRegions.
* @param {string} color: The color as a string, e.g. '#ff0000ff' or 'red'.
*/
setCrosshairsColor(color) {
if (this._crossHairs) {
let [res_, clutterColor] = Clutter.Color.from_string(color);
this._crossHairs.setColor(clutterColor);
}
}
/**
* getCrosshairsColor:
* Get the color of the crosshairs.
* @returns {string} The color as a string, e.g. '#0000ffff' or 'blue'.
*/
getCrosshairsColor() {
if (this._crossHairs) {
let clutterColor = this._crossHairs.getColor();
return clutterColor.to_string();
} else {
return '#00000000';
}
}
/**
* setCrosshairsThickness:
* Set the crosshairs thickness for all ZoomRegions.
* @param {number} thickness: The width of the vertical and
* horizontal lines of the crosshairs.
*/
setCrosshairsThickness(thickness) {
if (this._crossHairs)
this._crossHairs.setThickness(thickness);
}
/**
* getCrosshairsThickness:
* Get the crosshairs thickness.
* @returns {number} The width of the vertical and horizontal
* lines of the crosshairs.
*/
getCrosshairsThickness() {
if (this._crossHairs)
return this._crossHairs.getThickness();
else
return 0;
}
/**
* setCrosshairsOpacity:
* @param {number} opacity: Value between 0.0 (transparent)
* and 1.0 (fully opaque).
*/
setCrosshairsOpacity(opacity) {
if (this._crossHairs)
this._crossHairs.setOpacity(opacity * 255);
}
/**
* getCrosshairsOpacity:
* @returns {number} Value between 0.0 (transparent) and 1.0 (fully opaque).
*/
getCrosshairsOpacity() {
if (this._crossHairs)
return this._crossHairs.getOpacity() / 255.0;
else
return 0.0;
}
/**
* setCrosshairsLength:
* Set the crosshairs length for all ZoomRegions.
* @param {number} length: The length of the vertical and horizontal
* lines making up the crosshairs.
*/
setCrosshairsLength(length) {
if (this._crossHairs) {
let scaleFactor = St.ThemeContext.get_for_stage(global.stage).scale_factor;
this._crossHairs.setLength(length / scaleFactor);
}
}
/**
* getCrosshairsLength:
* Get the crosshairs length.
* @returns {number} The length of the vertical and horizontal
* lines making up the crosshairs.
*/
getCrosshairsLength() {
if (this._crossHairs)
return this._crossHairs.getLength();
else
return 0;
}
/**
* setCrosshairsClip:
* Set whether the crosshairs are clipped at their intersection.
* @param {bool} clip: Flag to indicate whether to clip the crosshairs.
*/
setCrosshairsClip(clip) {
if (!this._crossHairs)
return;
// Setting no clipping on crosshairs means a zero sized clip rectangle.
this._crossHairs.setClip(clip ? CROSSHAIRS_CLIP_SIZE : [0, 0]);
}
/**
* getCrosshairsClip:
* Get whether the crosshairs are clipped by the mouse image.
* @returns {bool} Whether the crosshairs are clipped.
*/
getCrosshairsClip() {
if (this._crossHairs) {
let [clipWidth, clipHeight] = this._crossHairs.getClip();
return clipWidth > 0 && clipHeight > 0;
} else {
return false;
}
}
// Private methods //
_updateMouseSprite() {
this._updateSpriteTexture();
let [xHot, yHot] = this._cursorTracker.get_hot();
this._mouseSprite.set({
translation_x: -xHot,
translation_y: -yHot,
});
}
_updateSpriteTexture() {
let sprite = this._cursorTracker.get_sprite();
if (sprite) {
this._mouseSprite.content.texture = sprite;
this._mouseSprite.show();
} else {
this._mouseSprite.hide();
}
}
_settingsInit(zoomRegion) {
this._settings = new Gio.Settings({ schema_id: MAGNIFIER_SCHEMA });
this._settings.connect(`changed::${SCREEN_POSITION_KEY}`,
this._updateScreenPosition.bind(this));
this._settings.connect(`changed::${MAG_FACTOR_KEY}`,
this._updateMagFactor.bind(this));
this._settings.connect(`changed::${LENS_MODE_KEY}`,
this._updateLensMode.bind(this));
this._settings.connect(`changed::${CLAMP_MODE_KEY}`,
this._updateClampMode.bind(this));
this._settings.connect(`changed::${MOUSE_TRACKING_KEY}`,
this._updateMouseTrackingMode.bind(this));
this._settings.connect(`changed::${FOCUS_TRACKING_KEY}`,
this._updateFocusTrackingMode.bind(this));
this._settings.connect(`changed::${CARET_TRACKING_KEY}`,
this._updateCaretTrackingMode.bind(this));
this._settings.connect(`changed::${INVERT_LIGHTNESS_KEY}`,
this._updateInvertLightness.bind(this));
this._settings.connect(`changed::${COLOR_SATURATION_KEY}`,
this._updateColorSaturation.bind(this));
this._settings.connect(`changed::${BRIGHT_RED_KEY}`,
this._updateBrightness.bind(this));
this._settings.connect(`changed::${BRIGHT_GREEN_KEY}`,
this._updateBrightness.bind(this));
this._settings.connect(`changed::${BRIGHT_BLUE_KEY}`,
this._updateBrightness.bind(this));
this._settings.connect(`changed::${CONTRAST_RED_KEY}`,
this._updateContrast.bind(this));
this._settings.connect(`changed::${CONTRAST_GREEN_KEY}`,
this._updateContrast.bind(this));
this._settings.connect(`changed::${CONTRAST_BLUE_KEY}`,
this._updateContrast.bind(this));
this._settings.connect(`changed::${SHOW_CROSS_HAIRS_KEY}`, () => {
this.setCrosshairsVisible(this._settings.get_boolean(SHOW_CROSS_HAIRS_KEY));
});
this._settings.connect(`changed::${CROSS_HAIRS_THICKNESS_KEY}`, () => {
this.setCrosshairsThickness(this._settings.get_int(CROSS_HAIRS_THICKNESS_KEY));
});
this._settings.connect(`changed::${CROSS_HAIRS_COLOR_KEY}`, () => {
this.setCrosshairsColor(this._settings.get_string(CROSS_HAIRS_COLOR_KEY));
});
this._settings.connect(`changed::${CROSS_HAIRS_OPACITY_KEY}`, () => {
this.setCrosshairsOpacity(this._settings.get_double(CROSS_HAIRS_OPACITY_KEY));
});
this._settings.connect(`changed::${CROSS_HAIRS_LENGTH_KEY}`, () => {
this.setCrosshairsLength(this._settings.get_int(CROSS_HAIRS_LENGTH_KEY));
});
this._settings.connect(`changed::${CROSS_HAIRS_CLIP_KEY}`, () => {
this.setCrosshairsClip(this._settings.get_boolean(CROSS_HAIRS_CLIP_KEY));
});
if (zoomRegion) {
// Mag factor is accurate to two decimal places.
let aPref = parseFloat(this._settings.get_double(MAG_FACTOR_KEY).toFixed(2));
if (aPref != 0.0)
zoomRegion.setMagFactor(aPref, aPref);
aPref = this._settings.get_enum(SCREEN_POSITION_KEY);
if (aPref)
zoomRegion.setScreenPosition(aPref);
zoomRegion.setLensMode(this._settings.get_boolean(LENS_MODE_KEY));
zoomRegion.setClampScrollingAtEdges(!this._settings.get_boolean(CLAMP_MODE_KEY));
aPref = this._settings.get_enum(MOUSE_TRACKING_KEY);
if (aPref)
zoomRegion.setMouseTrackingMode(aPref);
aPref = this._settings.get_enum(FOCUS_TRACKING_KEY);
if (aPref)
zoomRegion.setFocusTrackingMode(aPref);
aPref = this._settings.get_enum(CARET_TRACKING_KEY);
if (aPref)
zoomRegion.setCaretTrackingMode(aPref);
aPref = this._settings.get_boolean(INVERT_LIGHTNESS_KEY);
if (aPref)
zoomRegion.setInvertLightness(aPref);
aPref = this._settings.get_double(COLOR_SATURATION_KEY);
if (aPref)
zoomRegion.setColorSaturation(aPref);
let bc = {};
bc.r = this._settings.get_double(BRIGHT_RED_KEY);
bc.g = this._settings.get_double(BRIGHT_GREEN_KEY);
bc.b = this._settings.get_double(BRIGHT_BLUE_KEY);
zoomRegion.setBrightness(bc);
bc.r = this._settings.get_double(CONTRAST_RED_KEY);
bc.g = this._settings.get_double(CONTRAST_GREEN_KEY);
bc.b = this._settings.get_double(CONTRAST_BLUE_KEY);
zoomRegion.setContrast(bc);
}
let showCrosshairs = this._settings.get_boolean(SHOW_CROSS_HAIRS_KEY);
this.addCrosshairs();
this.setCrosshairsVisible(showCrosshairs);
}
_updateScreenPosition() {
// Applies only to the first zoom region.
if (this._zoomRegions.length) {
let position = this._settings.get_enum(SCREEN_POSITION_KEY);
this._zoomRegions[0].setScreenPosition(position);
if (position != GDesktopEnums.MagnifierScreenPosition.FULL_SCREEN)
this._updateLensMode();
}
}
_updateMagFactor() {
// Applies only to the first zoom region.
if (this._zoomRegions.length) {
// Mag factor is accurate to two decimal places.
let magFactor = parseFloat(this._settings.get_double(MAG_FACTOR_KEY).toFixed(2));
this._zoomRegions[0].setMagFactor(magFactor, magFactor);
}
}
_updateLensMode() {
// Applies only to the first zoom region.
if (this._zoomRegions.length)
this._zoomRegions[0].setLensMode(this._settings.get_boolean(LENS_MODE_KEY));
}
_updateClampMode() {
// Applies only to the first zoom region.
if (this._zoomRegions.length) {
this._zoomRegions[0].setClampScrollingAtEdges(
!this._settings.get_boolean(CLAMP_MODE_KEY));
}
}
_updateMouseTrackingMode() {
// Applies only to the first zoom region.
if (this._zoomRegions.length) {
this._zoomRegions[0].setMouseTrackingMode(
this._settings.get_enum(MOUSE_TRACKING_KEY));
}
}
_updateFocusTrackingMode() {
// Applies only to the first zoom region.
if (this._zoomRegions.length) {
this._zoomRegions[0].setFocusTrackingMode(
this._settings.get_enum(FOCUS_TRACKING_KEY));
}
}
_updateCaretTrackingMode() {
// Applies only to the first zoom region.
if (this._zoomRegions.length) {
this._zoomRegions[0].setCaretTrackingMode(
this._settings.get_enum(CARET_TRACKING_KEY));
}
}
_updateInvertLightness() {
// Applies only to the first zoom region.
if (this._zoomRegions.length) {
this._zoomRegions[0].setInvertLightness(
this._settings.get_boolean(INVERT_LIGHTNESS_KEY));
}
}
_updateColorSaturation() {
// Applies only to the first zoom region.
if (this._zoomRegions.length) {
this._zoomRegions[0].setColorSaturation(
this._settings.get_double(COLOR_SATURATION_KEY));
}
}
_updateBrightness() {
// Applies only to the first zoom region.
if (this._zoomRegions.length) {
let brightness = {};
brightness.r = this._settings.get_double(BRIGHT_RED_KEY);
brightness.g = this._settings.get_double(BRIGHT_GREEN_KEY);
brightness.b = this._settings.get_double(BRIGHT_BLUE_KEY);
this._zoomRegions[0].setBrightness(brightness);
}
}
_updateContrast() {
// Applies only to the first zoom region.
if (this._zoomRegions.length) {
let contrast = {};
contrast.r = this._settings.get_double(CONTRAST_RED_KEY);
contrast.g = this._settings.get_double(CONTRAST_GREEN_KEY);
contrast.b = this._settings.get_double(CONTRAST_BLUE_KEY);
this._zoomRegions[0].setContrast(contrast);
}
}
};
Signals.addSignalMethods(Magnifier.prototype);
var ZoomRegion = class ZoomRegion {
constructor(magnifier, mouseSourceActor) {
this._magnifier = magnifier;
this._focusCaretTracker = new FocusCaretTracker.FocusCaretTracker();
this._mouseTrackingMode = GDesktopEnums.MagnifierMouseTrackingMode.NONE;
this._focusTrackingMode = GDesktopEnums.MagnifierFocusTrackingMode.NONE;
this._caretTrackingMode = GDesktopEnums.MagnifierCaretTrackingMode.NONE;
this._clampScrollingAtEdges = false;
this._lensMode = false;
this._screenPosition = GDesktopEnums.MagnifierScreenPosition.FULL_SCREEN;
this._invertLightness = false;
this._colorSaturation = 1.0;
this._brightness = { r: NO_CHANGE, g: NO_CHANGE, b: NO_CHANGE };
this._contrast = { r: NO_CHANGE, g: NO_CHANGE, b: NO_CHANGE };
this._magView = null;
this._background = null;
this._uiGroupClone = null;
this._mouseSourceActor = mouseSourceActor;
this._mouseActor = null;
this._crossHairs = null;
this._crossHairsActor = null;
this._viewPortX = 0;
this._viewPortY = 0;
this._viewPortWidth = global.screen_width;
this._viewPortHeight = global.screen_height;
this._xCenter = this._viewPortWidth / 2;
this._yCenter = this._viewPortHeight / 2;
this._xMagFactor = 1;
this._yMagFactor = 1;
this._followingCursor = false;
this._xFocus = 0;
this._yFocus = 0;
this._xCaret = 0;
this._yCaret = 0;
this._pointerIdleMonitor = Meta.IdleMonitor.get_core();
this._scrollContentsTimerId = 0;
}
_connectSignals() {
if (this._signalConnections)
return;
this._signalConnections = [];
let id = Main.layoutManager.connect('monitors-changed',
this._monitorsChanged.bind(this));
this._signalConnections.push([Main.layoutManager, id]);
id = this._focusCaretTracker.connect('caret-moved', this._updateCaret.bind(this));
this._signalConnections.push([this._focusCaretTracker, id]);
id = this._focusCaretTracker.connect('focus-changed', this._updateFocus.bind(this));
this._signalConnections.push([this._focusCaretTracker, id]);
}
_disconnectSignals() {
for (let [obj, id] of this._signalConnections)
obj.disconnect(id);
delete this._signalConnections;
}
_updateScreenPosition() {
if (this._screenPosition == GDesktopEnums.MagnifierScreenPosition.NONE) {
this._setViewPort({
x: this._viewPortX,
y: this._viewPortY,
width: this._viewPortWidth,
height: this._viewPortHeight,
});
} else {
this.setScreenPosition(this._screenPosition);
}
}
_updateFocus(caller, event) {
let component = event.source.get_component_iface();
if (!component || event.detail1 != 1)
return;
let extents;
try {
extents = component.get_extents(Atspi.CoordType.SCREEN);
} catch (e) {
log(`Failed to read extents of focused component: ${e.message}`);
return;
}
let scaleFactor = St.ThemeContext.get_for_stage(global.stage).scale_factor;
let [xFocus, yFocus] = [(extents.x + (extents.width / 2)) * scaleFactor,
(extents.y + (extents.height / 2)) * scaleFactor];
if (this._xFocus !== xFocus || this._yFocus !== yFocus) {
[this._xFocus, this._yFocus] = [xFocus, yFocus];
this._centerFromFocusPosition();
}
}
_updateCaret(caller, event) {
let text = event.source.get_text_iface();
if (!text)
return;
let extents;
try {
extents = text.get_character_extents(text.get_caret_offset(), 0);
} catch (e) {
log(`Failed to read extents of text caret: ${e.message}`);
return;
}
let scaleFactor = St.ThemeContext.get_for_stage(global.stage).scale_factor;
let [xCaret, yCaret] = [extents.x * scaleFactor, extents.y * scaleFactor];
if (this._xCaret !== xCaret || this._yCaret !== yCaret) {
[this._xCaret, this._yCaret] = [xCaret, yCaret];
this._centerFromCaretPosition();
}
}
/**
* setActive:
* @param {bool} activate: Boolean to show/hide the ZoomRegion.
*/
setActive(activate) {
if (activate == this.isActive())
return;
if (activate) {
this._createActors();
if (this._isMouseOverRegion())
this._magnifier.hideSystemCursor();
this._updateScreenPosition();
this._updateMagViewGeometry();
this._updateCloneGeometry();
this._updateMousePosition();
this._connectSignals();
} else {
this._disconnectSignals();
this._destroyActors();
}
this._syncCaretTracking();
this._syncFocusTracking();
}
/**
* isActive:
* @returns {bool} Whether this ZoomRegion is active
*/
isActive() {
return this._magView != null;
}
/**
* setMagFactor:
* @param {number} xMagFactor: The power to set the horizontal
* magnification factor to of the magnified view. A value of 1.0
* means no magnification. A value of 2.0 doubles the size.
* @param {number} yMagFactor: The power to set the vertical
* magnification factor to of the magnified view.
*/
setMagFactor(xMagFactor, yMagFactor) {
this._changeROI({ xMagFactor,
yMagFactor,
redoCursorTracking: this._followingCursor,
animate: true });
}
/**
* getMagFactor:
* @returns {number[]} an array, [xMagFactor, yMagFactor], containing
* the horizontal and vertical magnification powers. A value of
* 1.0 means no magnification. A value of 2.0 means the contents
* are doubled in size, and so on.
*/
getMagFactor() {
return [this._xMagFactor, this._yMagFactor];
}
/**
* setMouseTrackingMode
* @param {GDesktopEnums.MagnifierMouseTrackingMode} mode: the new mode
*/
setMouseTrackingMode(mode) {
if (mode >= GDesktopEnums.MagnifierMouseTrackingMode.NONE &&
mode <= GDesktopEnums.MagnifierMouseTrackingMode.PUSH)
this._mouseTrackingMode = mode;
}
/**
* getMouseTrackingMode
* @returns {GDesktopEnums.MagnifierMouseTrackingMode} the current mode
*/
getMouseTrackingMode() {
return this._mouseTrackingMode;
}
/**
* setFocusTrackingMode
* @param {GDesktopEnums.MagnifierFocusTrackingMode} mode: the new mode
*/
setFocusTrackingMode(mode) {
this._focusTrackingMode = mode;
this._syncFocusTracking();
}
/**
* setCaretTrackingMode
* @param {GDesktopEnums.MagnifierCaretTrackingMode} mode: the new mode
*/
setCaretTrackingMode(mode) {
this._caretTrackingMode = mode;
this._syncCaretTracking();
}
_syncFocusTracking() {
let enabled = this._focusTrackingMode != GDesktopEnums.MagnifierFocusTrackingMode.NONE &&
this.isActive();
if (enabled)
this._focusCaretTracker.registerFocusListener();
else
this._focusCaretTracker.deregisterFocusListener();
}
_syncCaretTracking() {
let enabled = this._caretTrackingMode != GDesktopEnums.MagnifierCaretTrackingMode.NONE &&
this.isActive();
if (enabled)
this._focusCaretTracker.registerCaretListener();
else
this._focusCaretTracker.deregisterCaretListener();
}
/**
* setViewPort
* Sets the position and size of the ZoomRegion on screen.
* @param {{x: number, y: number, width: number, height: number}} viewPort:
* Object defining the position and size of the view port.
* The values are in stage coordinate space.
*/
setViewPort(viewPort) {
this._setViewPort(viewPort);
this._screenPosition = GDesktopEnums.MagnifierScreenPosition.NONE;
}
/**
* setROI
* Sets the "region of interest" that the ZoomRegion is magnifying.
* @param {{x: number, y: number, width: number, height: number}} roi:
* Object that defines the region of the screen to magnify.
* The values are in screen (unmagnified) coordinate space.
*/
setROI(roi) {
if (roi.width <= 0 || roi.height <= 0)
return;
this._followingCursor = false;
this._changeROI({ xMagFactor: this._viewPortWidth / roi.width,
yMagFactor: this._viewPortHeight / roi.height,
xCenter: roi.x + roi.width / 2,
yCenter: roi.y + roi.height / 2 });
}
/**
* getROI:
* Retrieves the "region of interest" -- the rectangular bounds of that part
* of the desktop that the magnified view is showing (x, y, width, height).
* The bounds are given in non-magnified coordinates.
* @returns {number[]} an array, [x, y, width, height], representing
* the bounding rectangle of what is shown in the magnified view.
*/
getROI() {
let roiWidth = this._viewPortWidth / this._xMagFactor;
let roiHeight = this._viewPortHeight / this._yMagFactor;
return [this._xCenter - roiWidth / 2,
this._yCenter - roiHeight / 2,
roiWidth, roiHeight];
}
/**
* setLensMode:
* Turn lens mode on/off. In full screen mode, lens mode does nothing since
* a lens the size of the screen is pointless.
* @param {bool} lensMode: Whether lensMode should be active
*/
setLensMode(lensMode) {
this._lensMode = lensMode;
if (!this._lensMode)
this.setScreenPosition(this._screenPosition);
}
/**
* isLensMode:
* Is lens mode on or off?
* @returns {bool} The lens mode state.
*/
isLensMode() {
return this._lensMode;
}
/**
* setClampScrollingAtEdges:
* Stop vs. allow scrolling of the magnified contents when it scroll beyond
* the edges of the screen.
* @param {bool} clamp: Boolean to turn on/off clamping.
*/
setClampScrollingAtEdges(clamp) {
this._clampScrollingAtEdges = clamp;
if (clamp)
this._changeROI();
}
/**
* setTopHalf:
* Magnifier view occupies the top half of the screen.
*/
setTopHalf() {
let viewPort = {};
viewPort.x = 0;
viewPort.y = 0;
viewPort.width = global.screen_width;
viewPort.height = global.screen_height / 2;
this._setViewPort(viewPort);
this._screenPosition = GDesktopEnums.MagnifierScreenPosition.TOP_HALF;
}
/**
* setBottomHalf:
* Magnifier view occupies the bottom half of the screen.
*/
setBottomHalf() {
let viewPort = {};
viewPort.x = 0;
viewPort.y = global.screen_height / 2;
viewPort.width = global.screen_width;
viewPort.height = global.screen_height / 2;
this._setViewPort(viewPort);
this._screenPosition = GDesktopEnums.MagnifierScreenPosition.BOTTOM_HALF;
}
/**
* setLeftHalf:
* Magnifier view occupies the left half of the screen.
*/
setLeftHalf() {
let viewPort = {};
viewPort.x = 0;
viewPort.y = 0;
viewPort.width = global.screen_width / 2;
viewPort.height = global.screen_height;
this._setViewPort(viewPort);
this._screenPosition = GDesktopEnums.MagnifierScreenPosition.LEFT_HALF;
}
/**
* setRightHalf:
* Magnifier view occupies the right half of the screen.
*/
setRightHalf() {
let viewPort = {};
viewPort.x = global.screen_width / 2;
viewPort.y = 0;
viewPort.width = global.screen_width / 2;
viewPort.height = global.screen_height;
this._setViewPort(viewPort);
this._screenPosition = GDesktopEnums.MagnifierScreenPosition.RIGHT_HALF;
}
/**
* setFullScreenMode:
* Set the ZoomRegion to full-screen mode.
* Note: disallows lens mode.
*/
setFullScreenMode() {
let viewPort = {};
viewPort.x = 0;
viewPort.y = 0;
viewPort.width = global.screen_width;
viewPort.height = global.screen_height;
this.setViewPort(viewPort);
this._screenPosition = GDesktopEnums.MagnifierScreenPosition.FULL_SCREEN;
}
/**
* setScreenPosition:
* Positions the zoom region to one of the enumerated positions on the
* screen.
* @param {GDesktopEnums.MagnifierScreenPosition} inPosition: the position
*/
setScreenPosition(inPosition) {
switch (inPosition) {
case GDesktopEnums.MagnifierScreenPosition.FULL_SCREEN:
this.setFullScreenMode();
break;
case GDesktopEnums.MagnifierScreenPosition.TOP_HALF:
this.setTopHalf();
break;
case GDesktopEnums.MagnifierScreenPosition.BOTTOM_HALF:
this.setBottomHalf();
break;
case GDesktopEnums.MagnifierScreenPosition.LEFT_HALF:
this.setLeftHalf();
break;
case GDesktopEnums.MagnifierScreenPosition.RIGHT_HALF:
this.setRightHalf();
break;
}
}
/**
* getScreenPosition:
* Tell the outside world what the current mode is -- magnifiying the
* top half, bottom half, etc.
* @returns {GDesktopEnums.MagnifierScreenPosition}: the current position.
*/
getScreenPosition() {
return this._screenPosition;
}
_clearScrollContentsTimer() {
if (this._scrollContentsTimerId !== 0) {
GLib.source_remove(this._scrollContentsTimerId);
this._scrollContentsTimerId = 0;
}
}
/**
* scrollToMousePos:
* Set the region of interest based on the position of the system pointer.
* @returns {bool}: Whether the system mouse pointer is over the
* magnified view.
*/
scrollToMousePos() {
this._followingCursor = true;
if (this._mouseTrackingMode != GDesktopEnums.MagnifierMouseTrackingMode.NONE)
this._changeROI({ redoCursorTracking: true });
else
this._updateMousePosition();
this._clearScrollContentsTimer();
this._scrollContentsTimerId = GLib.timeout_add(GLib.PRIORITY_DEFAULT, POINTER_REST_TIME, () => {
this._followingCursor = false;
if (this._xDelayed !== null && this._yDelayed !== null) {
this._scrollContentsToDelayed(this._xDelayed, this._yDelayed);
this._xDelayed = null;
this._yDelayed = null;
}
return GLib.SOURCE_REMOVE;
});
// Determine whether the system mouse pointer is over this zoom region.
return this._isMouseOverRegion();
}
_scrollContentsToDelayed(x, y) {
if (this._followingCursor) {
this._xDelayed = x;
this._yDelayed = y;
} else {
this.scrollContentsTo(x, y);
}
}
/**
* scrollContentsTo:
* Shift the contents of the magnified view such it is centered on the given
* coordinate.
* @param {number} x: The x-coord of the point to center on.
* @param {number} y: The y-coord of the point to center on.
*/
scrollContentsTo(x, y) {
if (x < 0 || x > global.screen_width ||
y < 0 || y > global.screen_height)
return;
this._clearScrollContentsTimer();
this._followingCursor = false;
this._changeROI({ xCenter: x,
yCenter: y,
animate: true });
}
/**
* addCrosshairs:
* Add crosshairs centered on the magnified mouse.
* @param {Crosshairs} crossHairs: Crosshairs instance
*/
addCrosshairs(crossHairs) {
this._crossHairs = crossHairs;
// If the crossHairs is not already within a larger container, add it
// to this zoom region. Otherwise, add a clone.
if (crossHairs && this.isActive())
this._crossHairsActor = crossHairs.addToZoomRegion(this, this._mouseActor);
}
/**
* setInvertLightness:
* Set whether to invert the lightness of the magnified view.
* @param {bool} flag: whether brightness should be inverted
*/
setInvertLightness(flag) {
this._invertLightness = flag;
if (this._magShaderEffects)
this._magShaderEffects.setInvertLightness(this._invertLightness);
}
/**
* getInvertLightness:
* Retrieve whether the lightness is inverted.
* @returns {bool} whether brightness should be inverted
*/
getInvertLightness() {
return this._invertLightness;
}
/**
* setColorSaturation:
* Set the color saturation of the magnified view.
* @param {number} saturation: A value from 0.0 to 1.0 that defines
* the color saturation, with 0.0 defining no color (grayscale),
* and 1.0 defining full color.
*/
setColorSaturation(saturation) {
this._colorSaturation = saturation;
if (this._magShaderEffects)
this._magShaderEffects.setColorSaturation(this._colorSaturation);
}
/**
* getColorSaturation:
* Retrieve the color saturation of the magnified view.
* @returns {number} the color saturation
*/
getColorSaturation() {
return this._colorSaturation;
}
/**
* setBrightness:
* Alter the brightness of the magnified view.
* @param {Object} brightness: Object containing the contrast for the
* red, green, and blue channels. Values of 0.0 represent "standard"
* brightness (no change), whereas values less or greater than
* 0.0 indicate decreased or incresaed brightness, respectively.
*
* {number} brightness.r - the red component
* {number} brightness.g - the green component
* {number} brightness.b - the blue component
*/
setBrightness(brightness) {
this._brightness.r = brightness.r;
this._brightness.g = brightness.g;
this._brightness.b = brightness.b;
if (this._magShaderEffects)
this._magShaderEffects.setBrightness(this._brightness);
}
/**
* setContrast:
* Alter the contrast of the magnified view.
* @param {Object} contrast: Object containing the contrast for the
* red, green, and blue channels. Values of 0.0 represent "standard"
* contrast (no change), whereas values less or greater than
* 0.0 indicate decreased or incresaed contrast, respectively.
*
* {number} contrast.r - the red component
* {number} contrast.g - the green component
* {number} contrast.b - the blue component
*/
setContrast(contrast) {
this._contrast.r = contrast.r;
this._contrast.g = contrast.g;
this._contrast.b = contrast.b;
if (this._magShaderEffects)
this._magShaderEffects.setContrast(this._contrast);
}
/**
* getContrast:
* Retrieve the contrast of the magnified view.
* @returns {{r: number, g: number, b: number}}: Object containing
* the contrast for the red, green, and blue channels.
*/
getContrast() {
let contrast = {};
contrast.r = this._contrast.r;
contrast.g = this._contrast.g;
contrast.b = this._contrast.b;
return contrast;
}
// Private methods //
_createActors() {
// The root actor for the zoom region
this._magView = new St.Bin({ style_class: 'magnifier-zoom-region' });
global.stage.add_actor(this._magView);
// hide the magnified region from CLUTTER_PICK_ALL
Shell.util_set_hidden_from_pick(this._magView, true);
// Add a group to clip the contents of the magnified view.
let mainGroup = new Clutter.Actor({ clip_to_allocation: true });
this._magView.set_child(mainGroup);
// Add a background for when the magnified uiGroup is scrolled
// out of view (don't want to see desktop showing through).
this._background = new Background.SystemBackground();
mainGroup.add_actor(this._background);
// Clone the group that contains all of UI on the screen. This is the
// chrome, the windows, etc.
this._uiGroupClone = new Clutter.Clone({ source: Main.uiGroup,
clip_to_allocation: true });
mainGroup.add_actor(this._uiGroupClone);
// Add either the given mouseSourceActor to the ZoomRegion, or a clone of
// it.
if (this._mouseSourceActor.get_parent() != null)
this._mouseActor = new Clutter.Clone({ source: this._mouseSourceActor });
else
this._mouseActor = this._mouseSourceActor;
mainGroup.add_actor(this._mouseActor);
if (this._crossHairs)
this._crossHairsActor = this._crossHairs.addToZoomRegion(this, this._mouseActor);
else
this._crossHairsActor = null;
// Contrast and brightness effects.
this._magShaderEffects = new MagShaderEffects(mainGroup);
this._magShaderEffects.setColorSaturation(this._colorSaturation);
this._magShaderEffects.setInvertLightness(this._invertLightness);
this._magShaderEffects.setBrightness(this._brightness);
this._magShaderEffects.setContrast(this._contrast);
}
_destroyActors() {
if (this._mouseActor == this._mouseSourceActor)
this._mouseActor.get_parent().remove_actor(this._mouseActor);
if (this._crossHairs)
this._crossHairs.removeFromParent(this._crossHairsActor);
this._magShaderEffects.destroyEffects();
this._magShaderEffects = null;
this._magView.destroy();
this._magView = null;
this._background = null;
this._uiGroupClone = null;
this._mouseActor = null;
this._crossHairsActor = null;
}
_setViewPort(viewPort, fromROIUpdate) {
// Sets the position of the zoom region on the screen
let width = Math.round(Math.min(viewPort.width, global.screen_width));
let height = Math.round(Math.min(viewPort.height, global.screen_height));
let x = Math.max(viewPort.x, 0);
let y = Math.max(viewPort.y, 0);
x = Math.round(Math.min(x, global.screen_width - width));
y = Math.round(Math.min(y, global.screen_height - height));
this._viewPortX = x;
this._viewPortY = y;
this._viewPortWidth = width;
this._viewPortHeight = height;
this._updateMagViewGeometry();
if (!fromROIUpdate)
this._changeROI({ redoCursorTracking: this._followingCursor }); // will update mouse
if (this.isActive() && this._isMouseOverRegion())
this._magnifier.hideSystemCursor();
}
_changeROI(params) {
// Updates the area we are viewing; the magnification factors
// and center can be set explicitly, or we can recompute
// the position based on the mouse cursor position
params = Params.parse(params, { xMagFactor: this._xMagFactor,
yMagFactor: this._yMagFactor,
xCenter: this._xCenter,
yCenter: this._yCenter,
redoCursorTracking: false,
animate: false });
if (params.xMagFactor <= 0)
params.xMagFactor = this._xMagFactor;
if (params.yMagFactor <= 0)
params.yMagFactor = this._yMagFactor;
this._xMagFactor = params.xMagFactor;
this._yMagFactor = params.yMagFactor;
if (params.redoCursorTracking &&
this._mouseTrackingMode != GDesktopEnums.MagnifierMouseTrackingMode.NONE) {
// This depends on this.xMagFactor/yMagFactor already being updated
[params.xCenter, params.yCenter] = this._centerFromMousePosition();
}
if (this._clampScrollingAtEdges) {
let roiWidth = this._viewPortWidth / this._xMagFactor;
let roiHeight = this._viewPortHeight / this._yMagFactor;
params.xCenter = Math.min(params.xCenter, global.screen_width - roiWidth / 2);
params.xCenter = Math.max(params.xCenter, roiWidth / 2);
params.yCenter = Math.min(params.yCenter, global.screen_height - roiHeight / 2);
params.yCenter = Math.max(params.yCenter, roiHeight / 2);
}
this._xCenter = params.xCenter;
this._yCenter = params.yCenter;
// If in lens mode, move the magnified view such that it is centered
// over the actual mouse. However, in full screen mode, the "lens" is
// the size of the screen -- pointless to move such a large lens around.
if (this._lensMode && !this._isFullScreen()) {
this._setViewPort({ x: this._xCenter - this._viewPortWidth / 2,
y: this._yCenter - this._viewPortHeight / 2,
width: this._viewPortWidth,
height: this._viewPortHeight }, true);
}
this._updateCloneGeometry(params.animate);
}
_isMouseOverRegion() {
// Return whether the system mouse sprite is over this ZoomRegion. If the
// mouse's position is not given, then it is fetched.
let mouseIsOver = false;
if (this.isActive()) {
let xMouse = this._magnifier.xMouse;
let yMouse = this._magnifier.yMouse;
mouseIsOver =
xMouse >= this._viewPortX && xMouse < (this._viewPortX + this._viewPortWidth) &&
yMouse >= this._viewPortY && yMouse < (this._viewPortY + this._viewPortHeight);
}
return mouseIsOver;
}
_isFullScreen() {
// Does the magnified view occupy the whole screen? Note that this
// doesn't necessarily imply
// this._screenPosition = GDesktopEnums.MagnifierScreenPosition.FULL_SCREEN;
if (this._viewPortX != 0 || this._viewPortY != 0)
return false;
if (this._viewPortWidth != global.screen_width ||
this._viewPortHeight != global.screen_height)
return false;
return true;
}
_centerFromMousePosition() {
// Determines where the center should be given the current cursor
// position and mouse tracking mode
let xMouse = this._magnifier.xMouse;
let yMouse = this._magnifier.yMouse;
if (this._mouseTrackingMode == GDesktopEnums.MagnifierMouseTrackingMode.PROPORTIONAL)
return this._centerFromPointProportional(xMouse, yMouse);
else if (this._mouseTrackingMode == GDesktopEnums.MagnifierMouseTrackingMode.PUSH)
return this._centerFromPointPush(xMouse, yMouse);
else if (this._mouseTrackingMode == GDesktopEnums.MagnifierMouseTrackingMode.CENTERED)
return this._centerFromPointCentered(xMouse, yMouse);
return null; // Should never be hit
}
_centerFromCaretPosition() {
let xCaret = this._xCaret;
let yCaret = this._yCaret;
if (this._caretTrackingMode == GDesktopEnums.MagnifierCaretTrackingMode.PROPORTIONAL)
[xCaret, yCaret] = this._centerFromPointProportional(xCaret, yCaret);
else if (this._caretTrackingMode == GDesktopEnums.MagnifierCaretTrackingMode.PUSH)
[xCaret, yCaret] = this._centerFromPointPush(xCaret, yCaret);
else if (this._caretTrackingMode == GDesktopEnums.MagnifierCaretTrackingMode.CENTERED)
[xCaret, yCaret] = this._centerFromPointCentered(xCaret, yCaret);
this._scrollContentsToDelayed(xCaret, yCaret);
}
_centerFromFocusPosition() {
let xFocus = this._xFocus;
let yFocus = this._yFocus;
if (this._focusTrackingMode == GDesktopEnums.MagnifierFocusTrackingMode.PROPORTIONAL)
[xFocus, yFocus] = this._centerFromPointProportional(xFocus, yFocus);
else if (this._focusTrackingMode == GDesktopEnums.MagnifierFocusTrackingMode.PUSH)
[xFocus, yFocus] = this._centerFromPointPush(xFocus, yFocus);
else if (this._focusTrackingMode == GDesktopEnums.MagnifierFocusTrackingMode.CENTERED)
[xFocus, yFocus] = this._centerFromPointCentered(xFocus, yFocus);
this._scrollContentsToDelayed(xFocus, yFocus);
}
_centerFromPointPush(xPoint, yPoint) {
let [xRoi, yRoi, widthRoi, heightRoi] = this.getROI();
let [cursorWidth, cursorHeight] = this._mouseSourceActor.get_size();
let xPos = xRoi + widthRoi / 2;
let yPos = yRoi + heightRoi / 2;
let xRoiRight = xRoi + widthRoi - cursorWidth;
let yRoiBottom = yRoi + heightRoi - cursorHeight;
if (xPoint < xRoi)
xPos -= xRoi - xPoint;
else if (xPoint > xRoiRight)
xPos += xPoint - xRoiRight;
if (yPoint < yRoi)
yPos -= yRoi - yPoint;
else if (yPoint > yRoiBottom)
yPos += yPoint - yRoiBottom;
return [xPos, yPos];
}
_centerFromPointProportional(xPoint, yPoint) {
let [xRoi_, yRoi_, widthRoi, heightRoi] = this.getROI();
let halfScreenWidth = global.screen_width / 2;
let halfScreenHeight = global.screen_height / 2;
// We want to pad with a constant distance after zooming, so divide
// by the magnification factor.
let unscaledPadding = Math.min(this._viewPortWidth, this._viewPortHeight) / 5;
let xPadding = unscaledPadding / this._xMagFactor;
let yPadding = unscaledPadding / this._yMagFactor;
let xProportion = (xPoint - halfScreenWidth) / halfScreenWidth; // -1 ... 1
let yProportion = (yPoint - halfScreenHeight) / halfScreenHeight; // -1 ... 1
let xPos = xPoint - xProportion * (widthRoi / 2 - xPadding);
let yPos = yPoint - yProportion * (heightRoi / 2 - yPadding);
return [xPos, yPos];
}
_centerFromPointCentered(xPoint, yPoint) {
return [xPoint, yPoint];
}
_screenToViewPort(screenX, screenY) {
// Converts coordinates relative to the (unmagnified) screen to coordinates
// relative to the origin of this._magView
return [this._viewPortWidth / 2 + (screenX - this._xCenter) * this._xMagFactor,
this._viewPortHeight / 2 + (screenY - this._yCenter) * this._yMagFactor];
}
_updateMagViewGeometry() {
if (!this.isActive())
return;
if (this._isFullScreen())
this._magView.add_style_class_name('full-screen');
else
this._magView.remove_style_class_name('full-screen');
this._magView.set_size(this._viewPortWidth, this._viewPortHeight);
this._magView.set_position(this._viewPortX, this._viewPortY);
}
_updateCloneGeometry(animate = false) {
if (!this.isActive())
return;
let [x, y] = this._screenToViewPort(0, 0);
this._uiGroupClone.ease({
x: Math.round(x),
y: Math.round(y),
scale_x: this._xMagFactor,
scale_y: this._yMagFactor,
mode: Clutter.AnimationMode.EASE_OUT_QUAD,
duration: animate ? 100 : 0,
});
let [mouseX, mouseY] = this._getMousePosition();
this._mouseActor.ease({
x: mouseX,
y: mouseY,
scale_x: this._xMagFactor,
scale_y: this._yMagFactor,
mode: Clutter.AnimationMode.EASE_OUT_QUAD,
duration: animate ? 100 : 0,
});
if (this._crossHairsActor) {
let [crossX, crossY] = this._getCrossHairsPosition();
this._crossHairsActor.ease({
x: crossX,
y: crossY,
mode: Clutter.AnimationMode.EASE_OUT_QUAD,
duration: animate ? 100 : 0,
});
}
}
_updateMousePosition() {
let [xMagMouse, yMagMouse] = this._getMousePosition();
this._mouseActor.set_position(xMagMouse, yMagMouse);
if (this._crossHairsActor) {
let [crossX, crossY] = this._getCrossHairsPosition();
this._crossHairsActor.set_position(crossX, crossY);
}
}
_getMousePosition() {
let [xMagMouse, yMagMouse] = this._screenToViewPort(
this._magnifier.xMouse, this._magnifier.yMouse);
return [Math.round(xMagMouse), Math.round(yMagMouse)];
}
_getCrossHairsPosition() {
let [xMagMouse, yMagMouse] = this._getMousePosition();
let [groupWidth, groupHeight] = this._crossHairsActor.get_size();
return [xMagMouse - groupWidth / 2, yMagMouse - groupHeight / 2];
}
_monitorsChanged() {
this._background.set_size(global.screen_width, global.screen_height);
this._updateScreenPosition();
}
};
var Crosshairs = GObject.registerClass(
class Crosshairs extends Clutter.Actor {
_init() {
// Set the group containing the crosshairs to three times the desktop
// size in case the crosshairs need to appear to be infinite in
// length (i.e., extend beyond the edges of the view they appear in).
let groupWidth = global.screen_width * 3;
let groupHeight = global.screen_height * 3;
super._init({
clip_to_allocation: false,
width: groupWidth,
height: groupHeight,
});
this._horizLeftHair = new Clutter.Actor();
this._horizRightHair = new Clutter.Actor();
this._vertTopHair = new Clutter.Actor();
this._vertBottomHair = new Clutter.Actor();
this.add_actor(this._horizLeftHair);
this.add_actor(this._horizRightHair);
this.add_actor(this._vertTopHair);
this.add_actor(this._vertBottomHair);
this._clipSize = [0, 0];
this._clones = [];
this.reCenter();
Main.layoutManager.connect('monitors-changed',
this._monitorsChanged.bind(this));
}
_monitorsChanged() {
this.set_size(global.screen_width * 3, global.screen_height * 3);
this.reCenter();
}
/**
* addToZoomRegion
* Either add the crosshairs actor to the given ZoomRegion, or, if it is
* already part of some other ZoomRegion, create a clone of the crosshairs
* actor, and add the clone instead. Returns either the original or the
* clone.
* @param {ZoomRegion} zoomRegion: The container to add the crosshairs
* group to.
* @param {Clutter.Actor} magnifiedMouse: The mouse actor for the
* zoom region -- used to position the crosshairs and properly
* layer them below the mouse.
* @returns {Clutter.Actor} The crosshairs actor, or its clone.
*/
addToZoomRegion(zoomRegion, magnifiedMouse) {
let crosshairsActor = null;
if (zoomRegion && magnifiedMouse) {
let container = magnifiedMouse.get_parent();
if (container) {
crosshairsActor = this;
if (this.get_parent() != null) {
crosshairsActor = new Clutter.Clone({ source: this });
this._clones.push(crosshairsActor);
// Clones don't share visibility.
this.bind_property('visible', crosshairsActor, 'visible',
GObject.BindingFlags.SYNC_CREATE);
}
container.add_actor(crosshairsActor);
container.set_child_above_sibling(magnifiedMouse, crosshairsActor);
let [xMouse, yMouse] = magnifiedMouse.get_position();
let [crosshairsWidth, crosshairsHeight] = crosshairsActor.get_size();
crosshairsActor.set_position(xMouse - crosshairsWidth / 2, yMouse - crosshairsHeight / 2);
}
}
return crosshairsActor;
}
/**
* removeFromParent:
* @param {Clutter.Actor} childActor: the actor returned from
* addToZoomRegion
* Remove the crosshairs actor from its parent container, or destroy the
* child actor if it was just a clone of the crosshairs actor.
*/
removeFromParent(childActor) {
if (childActor == this)
childActor.get_parent().remove_actor(childActor);
else
childActor.destroy();
}
/**
* setColor:
* Set the color of the crosshairs.
* @param {Clutter.Color} clutterColor: The color
*/
setColor(clutterColor) {
this._horizLeftHair.background_color = clutterColor;
this._horizRightHair.background_color = clutterColor;
this._vertTopHair.background_color = clutterColor;
this._vertBottomHair.background_color = clutterColor;
}
/**
* getColor:
* Get the color of the crosshairs.
* @returns {ClutterColor} the crosshairs color
*/
getColor() {
return this._horizLeftHair.get_color();
}
/**
* setThickness:
* Set the width of the vertical and horizontal lines of the crosshairs.
* @param {number} thickness: the new thickness value
*/
setThickness(thickness) {
this._horizLeftHair.set_height(thickness);
this._horizRightHair.set_height(thickness);
this._vertTopHair.set_width(thickness);
this._vertBottomHair.set_width(thickness);
this.reCenter();
}
/**
* getThickness:
* Get the width of the vertical and horizontal lines of the crosshairs.
* @returns {number} The thickness of the crosshairs.
*/
getThickness() {
return this._horizLeftHair.get_height();
}
/**
* setOpacity:
* Set how opaque the crosshairs are.
* @param {number} opacity: Value between 0 (fully transparent)
* and 255 (full opaque).
*/
setOpacity(opacity) {
// set_opacity() throws an exception for values outside the range
// [0, 255].
if (opacity < 0)
opacity = 0;
else if (opacity > 255)
opacity = 255;
this._horizLeftHair.set_opacity(opacity);
this._horizRightHair.set_opacity(opacity);
this._vertTopHair.set_opacity(opacity);
this._vertBottomHair.set_opacity(opacity);
}
/**
* setLength:
* Set the length of the vertical and horizontal lines in the crosshairs.
* @param {number} length: The length of the crosshairs.
*/
setLength(length) {
this._horizLeftHair.set_width(length);
this._horizRightHair.set_width(length);
this._vertTopHair.set_height(length);
this._vertBottomHair.set_height(length);
this.reCenter();
}
/**
* getLength:
* Get the length of the vertical and horizontal lines in the crosshairs.
* @returns {number} The length of the crosshairs.
*/
getLength() {
return this._horizLeftHair.get_width();
}
/**
* setClip:
* Set the width and height of the rectangle that clips the crosshairs at
* their intersection
* @param {number[]} size: Array of [width, height] defining the size
* of the clip rectangle.
*/
setClip(size) {
if (size) {
// Take a chunk out of the crosshairs where it intersects the
// mouse.
this._clipSize = size;
this.reCenter();
} else {
// Restore the missing chunk.
this._clipSize = [0, 0];
this.reCenter();
}
}
/**
* reCenter:
* Reposition the horizontal and vertical hairs such that they cross at
* the center of crosshairs group. If called with the dimensions of
* the clip rectangle, these are used to update the size of the clip.
* @param {number[]=} clipSize: If present, the clip's [width, height].
*/
reCenter(clipSize) {
let [groupWidth, groupHeight] = this.get_size();
let leftLength = this._horizLeftHair.get_width();
let topLength = this._vertTopHair.get_height();
let thickness = this._horizLeftHair.get_height();
// Deal with clip rectangle.
if (clipSize)
this._clipSize = clipSize;
let clipWidth = this._clipSize[0];
let clipHeight = this._clipSize[1];
let left = groupWidth / 2 - clipWidth / 2 - leftLength - thickness / 2;
let right = groupWidth / 2 + clipWidth / 2 + thickness / 2;
let top = groupHeight / 2 - clipHeight / 2 - topLength - thickness / 2;
let bottom = groupHeight / 2 + clipHeight / 2 + thickness / 2;
this._horizLeftHair.set_position(left, (groupHeight - thickness) / 2);
this._horizRightHair.set_position(right, (groupHeight - thickness) / 2);
this._vertTopHair.set_position((groupWidth - thickness) / 2, top);
this._vertBottomHair.set_position((groupWidth - thickness) / 2, bottom);
}
});
var MagShaderEffects = class MagShaderEffects {
constructor(uiGroupClone) {
this._inverse = new Shell.InvertLightnessEffect();
this._brightnessContrast = new Clutter.BrightnessContrastEffect();
this._colorDesaturation = new Clutter.DesaturateEffect();
this._inverse.set_enabled(false);
this._brightnessContrast.set_enabled(false);
this._magView = uiGroupClone;
this._magView.add_effect(this._inverse);
this._magView.add_effect(this._brightnessContrast);
this._magView.add_effect(this._colorDesaturation);
}
/**
* destroyEffects:
* Remove contrast and brightness effects from the magnified view, and
* lose the reference to the actor they were applied to. Don't use this
* object after calling this.
*/
destroyEffects() {
this._magView.clear_effects();
this._colorDesaturation = null;
this._brightnessContrast = null;
this._inverse = null;
this._magView = null;
}
/**
* setInvertLightness:
* Enable/disable invert lightness effect.
* @param {bool} invertFlag: Enabled flag.
*/
setInvertLightness(invertFlag) {
this._inverse.set_enabled(invertFlag);
}
setColorSaturation(factor) {
this._colorDesaturation.set_factor(1.0 - factor);
}
/**
* setBrightness:
* Set the brightness of the magnified view.
* @param {Object} brightness: Object containing the contrast for the
* red, green, and blue channels. Values of 0.0 represent "standard"
* brightness (no change), whereas values less or greater than
* 0.0 indicate decreased or incresaed brightness, respectively.
*
* {number} brightness.r - the red component
* {number} brightness.g - the green component
* {number} brightness.b - the blue component
*/
setBrightness(brightness) {
let bRed = brightness.r;
let bGreen = brightness.g;
let bBlue = brightness.b;
this._brightnessContrast.set_brightness_full(bRed, bGreen, bBlue);
// Enable the effect if the brightness OR contrast change are such that
// it modifies the brightness and/or contrast.
let [cRed, cGreen, cBlue] = this._brightnessContrast.get_contrast();
this._brightnessContrast.set_enabled(
bRed !== NO_CHANGE || bGreen !== NO_CHANGE || bBlue !== NO_CHANGE ||
cRed !== NO_CHANGE || cGreen !== NO_CHANGE || cBlue !== NO_CHANGE);
}
/**
* Set the contrast of the magnified view.
* @param {Object} contrast: Object containing the contrast for the
* red, green, and blue channels. Values of 0.0 represent "standard"
* contrast (no change), whereas values less or greater than
* 0.0 indicate decreased or incresaed contrast, respectively.
*
* {number} contrast.r - the red component
* {number} contrast.g - the green component
* {number} contrast.b - the blue component
*/
setContrast(contrast) {
let cRed = contrast.r;
let cGreen = contrast.g;
let cBlue = contrast.b;
this._brightnessContrast.set_contrast_full(cRed, cGreen, cBlue);
// Enable the effect if the contrast OR brightness change are such that
// it modifies the brightness and/or contrast.
// should be able to use Clutter.color_equal(), but that complains of
// a null first argument.
let [bRed, bGreen, bBlue] = this._brightnessContrast.get_brightness();
this._brightnessContrast.set_enabled(
cRed !== NO_CHANGE || cGreen !== NO_CHANGE || cBlue !== NO_CHANGE ||
bRed !== NO_CHANGE || bGreen !== NO_CHANGE || bBlue !== NO_CHANGE);
}
};