LayoutTests/pointerevents/utils.js - WebKit - Git at Google


 function target_test(...args)
 {
     if (args.length !== 2 && args.length !== 3) {
         console.error(`target_test expected 2 or 3 arguments but got ${args.length}.`);
         return;
     }

     const impliedOptions = args.length == 2;

     let options = impliedOptions ? { } : args[0];
     let continutation = args[impliedOptions ? 0 : 1];
     let description = args[impliedOptions ? 1 : 2];

     options.name = options.name || "div";
     options.x = options.x || 0;
     options.y = options.y || 0;
     options.width = options.width || "100%";
     options.height = options.height || "100%";

     async_test(test => {
         continutation(makeTarget(test, options), test);
     }, description);
 }

 function makeTarget(test, options)
 {
     const target = document.body.appendChild(document.createElement(options.name));
     target.setAttribute("style", `
         position: absolute;
         left: ${options.x};
         top: ${options.y};
         width: ${options.width};
         height: ${options.height};
     `);
     test.add_cleanup(() => target.remove());
     return target;
 }

 class EventTracker
 {
     constructor(target, eventNames)
     {
         this.target = target;
         this.events = [];
         this.pointerIdToTouchIdMap = {};

         for (let eventName of eventNames)
             target.addEventListener(eventName, this);
     }

     clear()
     {
         this.events = [];
     }

     handleEvent(event)
     {
         if (event instanceof PointerEvent)
             this._handlePointerEvent(event);
         else if (event instanceof MouseEvent)
             this._handleMouseEvent(event);
         else if (event instanceof TouchEvent)
             this._handleTouchEvent(event);
     }

     _handlePointerEvent(event)
     {
         if (!this.pointerIdToTouchIdMap[event.pointerId])
             this.pointerIdToTouchIdMap[event.pointerId] = Object.keys(this.pointerIdToTouchIdMap).length + 1;

         this.events.push({
             id: this.pointerIdToTouchIdMap[event.pointerId],
             type: event.type,
             x: event.clientX,
             y: event.clientY,
             pressure: event.pressure,
             isPrimary: event.isPrimary,
             isTrusted: event.isTrusted,
             button: event.button,
             buttons: event.buttons
         });
     }

     _handleMouseEvent(event)
     {
         this.events.push({
             type: event.type,
             x: event.clientX,
             y: event.clientY,
         });
     }

     _handleTouchEvent(event)
     {
         this.events.push({ type: event.type });
     }

     assertMatchesEvents(expectedEvents)
     {
         assert_true(!!this.events.length, "Event tracker saw some events.");
         assert_equals(this.events.length, expectedEvents.length, "Expected events and actual events have the same length.");
         for (let i = 0; i < expectedEvents.length; ++i) {
             const expectedEvent = expectedEvents[i];
             const actualEvent = this.events[i];
             for (let property of Object.getOwnPropertyNames(expectedEvent))
                 assert_equals(actualEvent[property], expectedEvent[property], `Property ${property} matches for event at index ${i}.`);
         }
     }
 }

 const ui = new (class UIController {

     constructor()
     {
         this.fingers = {};
     }

     finger()
     {
         const id = Object.keys(this.fingers).length + 1;
         return this.fingers[id] = new Finger(id);
     }

     swipe(from, to)
     {
         const durationInSeconds = 0.1;
         return new Promise(resolve => this._run('dragFromPointToPoint', `${from.x}, ${from.y}, ${to.x}, ${to.y}, ${durationInSeconds}`).then(() =>
             setTimeout(resolve, durationInSeconds * 1000)
         ));
     }

     tap(options)
     {
         return this._run('singleTapAtPoint', `${options.x}, ${options.y}`);
     }

     doubleTap(options)
     {
         return this._run('doubleTapAtPoint', `${options.x}, ${options.y}, 0`);
     }

     doubleTapToZoom(options)
     {
         const durationInSeconds = 0.35;
         return new Promise(resolve => this._run('doubleTapAtPoint', `${options.x}, ${options.y}, 0`).then(() =>
             setTimeout(resolve, durationInSeconds * 1000)
         ));
     }

     pinchOut(options)
     {
         options.x = options.x || 0;
         options.y = options.y || 0;

         const startPoint = { x: options.x + options.width, y: options.y + options.height };
         const endPoint = { x: options.x + options.width * options.scale, y: options.y + options.height * options.scale };

         function step(factor)
         {
             return {
                 x: endPoint.x + (startPoint.x - endPoint.x) * (1 - factor),
                 y: endPoint.y + (startPoint.y - endPoint.y) * (1 - factor)
             };
         }

         const one = this.finger();
         const two = this.finger();
         return this.sequence([
             one.begin({ x: options.x, y: options.y }),
             two.begin(step(0)),
             two.move(step(0.2)),
             two.move(step(0.4)),
             two.move(step(0.6)),
             two.move(step(0.8)),
             two.move(step(1)),
             one.end(),
             two.end()
         ]);
     }

     sequence(touches)
     {
         const activeFingers = {};

         return this._runEvents(touches.map((touches, index) => {
             if (!Array.isArray(touches))
                 touches = [touches];

             const processedIDs = {};

             // Update the list of active touches.
             touches.forEach(touch => {
                 processedIDs[touch.id] = true;
                 if (touch.phase === "ended")
                     delete activeFingers[touch.id];
                 else
                     activeFingers[touch.id] = { x: touch.x, y: touch.y };
             });

             // Now go through the active touches and check that they're all listed in the new touches.
             for (let id in activeFingers) {
                 if (!processedIDs[id])
                     touches.push(this.fingers[id].stationary(activeFingers[id]));
             }

             return {
                 inputType : "hand",
                 timeOffset : index * 0.05,
                 coordinateSpace : "content",
                 touches : touches
             }
         }));
     }

     tapStylus(options)
     {
         options.azimuthAngle = options.azimuthAngle || 0;
         options.altitudeAngle = options.altitudeAngle || 0;
         options.pressure = options.pressure || 0;
         return this._run('stylusTapAtPoint', `${options.x}, ${options.y}, ${options.azimuthAngle}, ${options.altitudeAngle}, ${options.pressure}`);
     }

     _runEvents(events)
     {
         return this._run('sendEventStream', `'${JSON.stringify({ events })}'`);
     }

     _run(command, args)
     {
         const script = `uiController.${command}(${args}, () => uiController.uiScriptComplete());`;
         return new Promise(resolve => testRunner.runUIScript(script, resolve));
     }

 })();

 class Finger
 {

     constructor(id)
     {
         this.id = id;
     }

     begin(options)
     {
         return this._action("began", options.x || 0, options.y || 0);
     }

     move(options)
     {
         return this._action("moved", options.x || 0, options.y || 0);
     }

     end(options)
     {
         return this._action("ended", this._lastX, this._lastY);
     }

     stationary(options)
     {
         return this._action("stationary", options.x || this._lastX, options.y || this._lastY, options.pressure || 0);
     }

     _action(phase, x, y, pressure = 0)
     {
         this._lastX = x;
         this._lastY = y;
         return { inputType: "finger", id: this.id, phase, x, y, pressure };
     }

 }

	function target_test(...args)
	{
	if (args.length !== 2 && args.length !== 3) {
	console.error(`target_test expected 2 or 3 arguments but got ${args.length}.`);
	return;
	}

	const impliedOptions = args.length == 2;

	let options = impliedOptions ? { } : args[0];
	let continutation = args[impliedOptions ? 0 : 1];
	let description = args[impliedOptions ? 1 : 2];

	options.name = options.name \|\| "div";
	options.x = options.x \|\| 0;
	options.y = options.y \|\| 0;
	options.width = options.width \|\| "100%";
	options.height = options.height \|\| "100%";

	async_test(test => {
	continutation(makeTarget(test, options), test);
	}, description);
	}

	function makeTarget(test, options)
	{
	const target = document.body.appendChild(document.createElement(options.name));
	target.setAttribute("style", `
	position: absolute;
	left: ${options.x};
	top: ${options.y};
	width: ${options.width};
	height: ${options.height};
	`);
	test.add_cleanup(() => target.remove());
	return target;
	}

	class EventTracker
	{
	constructor(target, eventNames)
	{
	this.target = target;
	this.events = [];
	this.pointerIdToTouchIdMap = {};

	for (let eventName of eventNames)
	target.addEventListener(eventName, this);
	}

	clear()
	{
	this.events = [];
	}

	handleEvent(event)
	{
	if (event instanceof PointerEvent)
	this._handlePointerEvent(event);
	else if (event instanceof MouseEvent)
	this._handleMouseEvent(event);
	else if (event instanceof TouchEvent)
	this._handleTouchEvent(event);
	}

	_handlePointerEvent(event)
	{
	if (!this.pointerIdToTouchIdMap[event.pointerId])
	this.pointerIdToTouchIdMap[event.pointerId] = Object.keys(this.pointerIdToTouchIdMap).length + 1;

	this.events.push({
	id: this.pointerIdToTouchIdMap[event.pointerId],
	type: event.type,
	x: event.clientX,
	y: event.clientY,
	pressure: event.pressure,
	isPrimary: event.isPrimary,
	isTrusted: event.isTrusted,
	button: event.button,
	buttons: event.buttons
	});
	}

	_handleMouseEvent(event)
	{
	this.events.push({
	type: event.type,
	x: event.clientX,
	y: event.clientY,
	});
	}

	_handleTouchEvent(event)
	{
	this.events.push({ type: event.type });
	}

	assertMatchesEvents(expectedEvents)
	{
	assert_true(!!this.events.length, "Event tracker saw some events.");
	assert_equals(this.events.length, expectedEvents.length, "Expected events and actual events have the same length.");
	for (let i = 0; i < expectedEvents.length; ++i) {
	const expectedEvent = expectedEvents[i];
	const actualEvent = this.events[i];
	for (let property of Object.getOwnPropertyNames(expectedEvent))
	assert_equals(actualEvent[property], expectedEvent[property], `Property ${property} matches for event at index ${i}.`);
	}
	}
	}

	const ui = new (class UIController {

	constructor()
	{
	this.fingers = {};
	}

	finger()
	{
	const id = Object.keys(this.fingers).length + 1;
	return this.fingers[id] = new Finger(id);
	}

	swipe(from, to)
	{
	const durationInSeconds = 0.1;
	return new Promise(resolve => this._run('dragFromPointToPoint', `${from.x}, ${from.y}, ${to.x}, ${to.y}, ${durationInSeconds}`).then(() =>
	setTimeout(resolve, durationInSeconds * 1000)
	));
	}

	tap(options)
	{
	return this._run('singleTapAtPoint', `${options.x}, ${options.y}`);
	}

	doubleTap(options)
	{
	return this._run('doubleTapAtPoint', `${options.x}, ${options.y}, 0`);
	}

	doubleTapToZoom(options)
	{
	const durationInSeconds = 0.35;
	return new Promise(resolve => this._run('doubleTapAtPoint', `${options.x}, ${options.y}, 0`).then(() =>
	setTimeout(resolve, durationInSeconds * 1000)
	));
	}

	pinchOut(options)
	{
	options.x = options.x \|\| 0;
	options.y = options.y \|\| 0;

	const startPoint = { x: options.x + options.width, y: options.y + options.height };
	const endPoint = { x: options.x + options.width * options.scale, y: options.y + options.height * options.scale };

	function step(factor)
	{
	return {
	x: endPoint.x + (startPoint.x - endPoint.x) * (1 - factor),
	y: endPoint.y + (startPoint.y - endPoint.y) * (1 - factor)
	};
	}

	const one = this.finger();
	const two = this.finger();
	return this.sequence([
	one.begin({ x: options.x, y: options.y }),
	two.begin(step(0)),
	two.move(step(0.2)),
	two.move(step(0.4)),
	two.move(step(0.6)),
	two.move(step(0.8)),
	two.move(step(1)),
	one.end(),
	two.end()
	]);
	}

	sequence(touches)
	{
	const activeFingers = {};

	return this._runEvents(touches.map((touches, index) => {
	if (!Array.isArray(touches))
	touches = [touches];

	const processedIDs = {};

	// Update the list of active touches.
	touches.forEach(touch => {
	processedIDs[touch.id] = true;
	if (touch.phase === "ended")
	delete activeFingers[touch.id];
	else
	activeFingers[touch.id] = { x: touch.x, y: touch.y };
	});

	// Now go through the active touches and check that they're all listed in the new touches.
	for (let id in activeFingers) {
	if (!processedIDs[id])
	touches.push(this.fingers[id].stationary(activeFingers[id]));
	}

	return {
	inputType : "hand",
	timeOffset : index * 0.05,
	coordinateSpace : "content",
	touches : touches
	}
	}));
	}

	tapStylus(options)
	{
	options.azimuthAngle = options.azimuthAngle \|\| 0;
	options.altitudeAngle = options.altitudeAngle \|\| 0;
	options.pressure = options.pressure \|\| 0;
	return this._run('stylusTapAtPoint', `${options.x}, ${options.y}, ${options.azimuthAngle}, ${options.altitudeAngle}, ${options.pressure}`);
	}

	_runEvents(events)
	{
	return this._run('sendEventStream', `'${JSON.stringify({ events })}'`);
	}

	_run(command, args)
	{
	const script = `uiController.${command}(${args}, () => uiController.uiScriptComplete());`;
	return new Promise(resolve => testRunner.runUIScript(script, resolve));
	}

	})();

	class Finger
	{

	constructor(id)
	{
	this.id = id;
	}

	begin(options)
	{
	return this._action("began", options.x \|\| 0, options.y \|\| 0);
	}

	move(options)
	{
	return this._action("moved", options.x \|\| 0, options.y \|\| 0);
	}

	end(options)
	{
	return this._action("ended", this._lastX, this._lastY);
	}

	stationary(options)
	{
	return this._action("stationary", options.x \|\| this._lastX, options.y \|\| this._lastY, options.pressure \|\| 0);
	}

	_action(phase, x, y, pressure = 0)
	{
	this._lastX = x;
	this._lastY = y;
	return { inputType: "finger", id: this.id, phase, x, y, pressure };
	}

	}