gnome-shell/js/ui/magnifierDBus.js
Marco Trevisan (Treviño) dbf993300a js: use ES6 template strings for dbus interfaces
Use multiline template strings for dbus interfaces as they're easier to maintain
2018-08-27 19:23:00 +02:00

427 lines
14 KiB
JavaScript

// -*- mode: js; js-indent-level: 4; indent-tabs-mode: nil -*-
const Gio = imports.gi.Gio;
const Lang = imports.lang;
const Main = imports.ui.main;
const MAG_SERVICE_PATH = '/org/gnome/Magnifier';
const ZOOM_SERVICE_PATH = '/org/gnome/Magnifier/ZoomRegion';
// Subset of gnome-mag's Magnifier dbus interface -- to be expanded. See:
// http://git.gnome.org/browse/gnome-mag/tree/xml/...Magnifier.xml
const MagnifierIface = `
<node>
<interface name="org.gnome.Magnifier">
<method name="setActive">
<arg type="b" direction="in" />
</method>
<method name="isActive">
<arg type="b" direction="out" />
</method>
<method name="showCursor" />
<method name="hideCursor" />
<method name="createZoomRegion">
<arg type="d" direction="in" />
<arg type="d" direction="in" />
<arg type="ai" direction="in" />
<arg type="ai" direction="in" />
<arg type="o" direction="out" />
</method>
<method name="addZoomRegion">
<arg type="o" direction="in" />
<arg type="b" direction="out" />
</method>
<method name="getZoomRegions">
<arg type="ao" direction="out" />
</method>
<method name="clearAllZoomRegions" />
<method name="fullScreenCapable">
<arg type="b" direction="out" />
</method>
<method name="setCrosswireSize">
<arg type="i" direction="in" />
</method>
<method name="getCrosswireSize">
<arg type="i" direction="out" />
</method>
<method name="setCrosswireLength">
<arg type="i" direction="in" />
</method>
<method name="getCrosswireLength">
<arg type="i" direction="out" />
</method>
<method name="setCrosswireClip">
<arg type="b" direction="in" />
</method>
<method name="getCrosswireClip">
<arg type="b" direction="out" />
</method>
<method name="setCrosswireColor">
<arg type="u" direction="in" />
</method>
<method name="getCrosswireColor">
<arg type="u" direction="out" />
</method>
</interface>
</node>`;
// Subset of gnome-mag's ZoomRegion dbus interface -- to be expanded. See:
// http://git.gnome.org/browse/gnome-mag/tree/xml/...ZoomRegion.xml
const ZoomRegionIface = `
<node>
<interface name="org.gnome.Magnifier.ZoomRegion">
<method name="setMagFactor">
<arg type="d" direction="in" />
<arg type="d" direction="in" />
</method>
<method name="getMagFactor">
<arg type="d" direction="out" />
<arg type="d" direction="out" />
</method>
<method name="setRoi">
<arg type="ai" direction="in" />
</method>
<method name="getRoi">
<arg type="ai" direction="out" />
</method>
<method name="shiftContentsTo">
<arg type="i" direction="in" />
<arg type="i" direction="in" />
<arg type="b" direction="out" />
</method>
<method name="moveResize">
<arg type="ai" direction="in" />
</method>
</interface>
</node>`;
// For making unique ZoomRegion DBus proxy object paths of the form:
// '/org/gnome/Magnifier/ZoomRegion/zoomer0',
// '/org/gnome/Magnifier/ZoomRegion/zoomer1', etc.
let _zoomRegionInstanceCount = 0;
var ShellMagnifier = new Lang.Class({
Name: 'ShellMagnifier',
_init() {
this._zoomers = {};
this._dbusImpl = Gio.DBusExportedObject.wrapJSObject(MagnifierIface, this);
this._dbusImpl.export(Gio.DBus.session, MAG_SERVICE_PATH);
},
/**
* setActive:
* @activate: Boolean to activate or de-activate the magnifier.
*/
setActive(activate) {
Main.magnifier.setActive(activate);
},
/**
* isActive:
* @return Whether the magnifier is active (boolean).
*/
isActive() {
return Main.magnifier.isActive();
},
/**
* showCursor:
* Show the system mouse pointer.
*/
showCursor() {
Main.magnifier.showSystemCursor();
},
/**
* hideCursor:
* Hide the system mouse pointer.
*/
hideCursor() {
Main.magnifier.hideSystemCursor();
},
/**
* createZoomRegion:
* Create a new ZoomRegion and return its object path.
* @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.
* @yMagFactor: The power to set the vertical magnification of the
* ZoomRegion.
* @roi Array of integers defining the region of the
* screen/desktop to magnify. The array has the form
* [left, top, right, bottom].
* @viewPort Array of integers, [left, top, right, bottom] that defines
* the position of the ZoomRegion on screen.
*
* FIXME: The arguments here are redundant, since the width and height of
* the ROI are determined by the viewport and magnification factors.
* We ignore the passed in width and height.
*
* @return The newly created ZoomRegion.
*/
createZoomRegion(xMagFactor, yMagFactor, roi, viewPort) {
let ROI = { x: roi[0], y: roi[1], width: roi[2] - roi[0], height: roi[3] - roi[1] };
let viewBox = { x: viewPort[0], y: viewPort[1], width: viewPort[2] - viewPort[0], height: viewPort[3] - viewPort[1] };
let realZoomRegion = Main.magnifier.createZoomRegion(xMagFactor, yMagFactor, ROI, viewBox);
let objectPath = ZOOM_SERVICE_PATH + '/zoomer' + _zoomRegionInstanceCount;
_zoomRegionInstanceCount++;
let zoomRegionProxy = new ShellMagnifierZoomRegion(objectPath, realZoomRegion);
let proxyAndZoomRegion = {};
proxyAndZoomRegion.proxy = zoomRegionProxy;
proxyAndZoomRegion.zoomRegion = realZoomRegion;
this._zoomers[objectPath] = proxyAndZoomRegion;
return objectPath;
},
/**
* addZoomRegion:
* Append the given ZoomRegion to the magnifier's list of ZoomRegions.
* @zoomerObjectPath: The object path for the zoom region proxy.
*/
addZoomRegion(zoomerObjectPath) {
let proxyAndZoomRegion = this._zoomers[zoomerObjectPath];
if (proxyAndZoomRegion && proxyAndZoomRegion.zoomRegion) {
Main.magnifier.addZoomRegion(proxyAndZoomRegion.zoomRegion);
return true;
}
else
return false;
},
/**
* getZoomRegions:
* Return a list of ZoomRegion object paths for this Magnifier.
* @return: The Magnifier's zoom region list as an array of DBus object
* paths.
*/
getZoomRegions() {
// There may be more ZoomRegions in the magnifier itself than have
// been added through dbus. Make sure all of them are associated with
// an object path and proxy.
let zoomRegions = Main.magnifier.getZoomRegions();
let objectPaths = [];
let thoseZoomers = this._zoomers;
zoomRegions.forEach ((aZoomRegion, index, array) => {
let found = false;
for (let objectPath in thoseZoomers) {
let proxyAndZoomRegion = thoseZoomers[objectPath];
if (proxyAndZoomRegion.zoomRegion === aZoomRegion) {
objectPaths.push(objectPath);
found = true;
break;
}
}
if (!found) {
// Got a ZoomRegion with no DBus proxy, make one.
let newPath = ZOOM_SERVICE_PATH + '/zoomer' + _zoomRegionInstanceCount;
_zoomRegionInstanceCount++;
let zoomRegionProxy = new ShellMagnifierZoomRegion(newPath, aZoomRegion);
let proxyAndZoomer = {};
proxyAndZoomer.proxy = zoomRegionProxy;
proxyAndZoomer.zoomRegion = aZoomRegion;
thoseZoomers[newPath] = proxyAndZoomer;
objectPaths.push(newPath);
}
});
return objectPaths;
},
/**
* clearAllZoomRegions:
* Remove all the zoom regions from this Magnfier's ZoomRegion list.
*/
clearAllZoomRegions() {
Main.magnifier.clearAllZoomRegions();
for (let objectPath in this._zoomers) {
let proxyAndZoomer = this._zoomers[objectPath];
proxyAndZoomer.proxy.destroy();
proxyAndZoomer.proxy = null;
proxyAndZoomer.zoomRegion = null;
delete this._zoomers[objectPath];
}
this._zoomers = {};
},
/**
* fullScreenCapable:
* Consult if the Magnifier can magnify in full-screen mode.
* @return Always return true.
*/
fullScreenCapable() {
return true;
},
/**
* setCrosswireSize:
* Set the crosswire size of all ZoomRegions.
* @size: The thickness of each line in the cross wire.
*/
setCrosswireSize(size) {
Main.magnifier.setCrosshairsThickness(size);
},
/**
* getCrosswireSize:
* Get the crosswire size of all ZoomRegions.
* @return: The thickness of each line in the cross wire.
*/
getCrosswireSize() {
return Main.magnifier.getCrosshairsThickness();
},
/**
* setCrosswireLength:
* Set the crosswire length of all zoom-regions..
* @size: The length of each line in the cross wire.
*/
setCrosswireLength(length) {
Main.magnifier.setCrosshairsLength(length);
},
/**
* setCrosswireSize:
* Set the crosswire size of all zoom-regions.
* @size: The thickness of each line in the cross wire.
*/
getCrosswireLength() {
return Main.magnifier.getCrosshairsLength();
},
/**
* setCrosswireClip:
* Set if the crosswire will be clipped by the cursor image..
* @clip: Flag to indicate whether to clip the crosswire.
*/
setCrosswireClip(clip) {
Main.magnifier.setCrosshairsClip(clip);
},
/**
* getCrosswireClip:
* Get the crosswire clip value.
* @return: Whether the crosswire is clipped by the cursor image.
*/
getCrosswireClip() {
return Main.magnifier.getCrosshairsClip();
},
/**
* setCrosswireColor:
* Set the crosswire color of all ZoomRegions.
* @color: Unsigned int of the form rrggbbaa.
*/
setCrosswireColor(color) {
Main.magnifier.setCrosshairsColor('#%08x'.format(color));
},
/**
* getCrosswireClip:
* Get the crosswire color of all ZoomRegions.
* @return: The crosswire color as an unsigned int in the form rrggbbaa.
*/
getCrosswireColor() {
let colorString = Main.magnifier.getCrosshairsColor();
// Drop the leading '#'.
return parseInt(colorString.slice(1), 16);
}
});
/**
* ShellMagnifierZoomRegion:
* Object that implements the DBus ZoomRegion interface.
* @zoomerObjectPath: String that is the path to a DBus ZoomRegion.
* @zoomRegion: The actual zoom region associated with the object path.
*/
var ShellMagnifierZoomRegion = new Lang.Class({
Name: 'ShellMagnifierZoomRegion',
_init(zoomerObjectPath, zoomRegion) {
this._zoomRegion = zoomRegion;
this._dbusImpl = Gio.DBusExportedObject.wrapJSObject(ZoomRegionIface, this);
this._dbusImpl.export(Gio.DBus.session, zoomerObjectPath);
},
/**
* setMagFactor:
* @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.
* @yMagFactor: The power to set the vertical magnification factor to
* of the magnified view.
*/
setMagFactor(xMagFactor, yMagFactor) {
this._zoomRegion.setMagFactor(xMagFactor, yMagFactor);
},
/**
* getMagFactor:
* @return 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._zoomRegion.getMagFactor();
},
/**
* setRoi:
* Sets the "region of interest" that the ZoomRegion is magnifying.
* @roi Array, [left, top, right, bottom], defining the region of the
* screen to magnify. The values are in screen (unmagnified)
* coordinate space.
*/
setRoi(roi) {
let roiObject = { x: roi[0], y: roi[1], width: roi[2] - roi[0], height: roi[3] - roi[1] };
this._zoomRegion.setROI(roiObject);
},
/**
* 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.
* @return an array, [left, top, right, bottom], representing the bounding
* rectangle of what is shown in the magnified view.
*/
getRoi() {
let roi = this._zoomRegion.getROI();
roi[2] += roi[0];
roi[3] += roi[1];
return roi;
},
/**
* Set the "region of interest" by centering the given screen coordinate
* within the zoom region.
* @x The x-coord of the point to place at the center of the zoom region.
* @y The y-coord.
* @return Whether the shift was successful (for GS-mag, this is always
* true).
*/
shiftContentsTo(x, y) {
this._zoomRegion.scrollContentsTo(x, y);
return true;
},
/**
* moveResize
* Sets the position and size of the ZoomRegion on screen.
* @viewPort Array, [left, top, right, bottom], defining the position and
* size on screen to place the zoom region.
*/
moveResize(viewPort) {
let viewRect = { x: viewPort[0], y: viewPort[1], width: viewPort[2] - viewPort[0], height: viewPort[3] - viewPort[1] };
this._zoomRegion.setViewPort(viewRect);
},
destroy() {
this._dbusImpl.unexport();
}
});