blob: 5f76e61b419430553b18338a97984b0c02510ab2 [file] [log] [blame]
<!DOCTYPE HTML>
<html>
<!--
Test cases for Touch Events v1 Recommendation
http://www.w3.org/TR/touch-events/
These tests are based on Matt Bruebeck's single-touch tests.
There are NO multi-touch tests in this document.
This document references Test Assertions (abbrev TA below) written by Cathy Chan
http://www.w3.org/2010/webevents/wiki/TestAssertions
-->
<head>
<title>Touch Events Single Touch Tests</title>
<meta name="viewport" content="width=device-width">
<script src="/resources/testharness.js"></script>
<script>
setup({explicit_done: true});
// Check a Touch object's atttributes for existence and correct type
// TA: 1.1.2, 1.1.3
function check_Touch_object (t) {
test(function() {
assert_equals(Object.prototype.toString.call(t), "[object Touch]", name + " attribute of type TouchList");
}, "touch point is a Touch object");
[
["long", "identifier"],
["EventTarget", "target"],
["long", "screenX"],
["long", "screenY"],
["long", "clientX"],
["long", "clientY"],
["long", "pageX"],
["long", "pageY"],
].forEach(function(attr) {
var type = attr[0];
var name = attr[1];
// existence check
test(function() {
assert_true(name in t, name + " attribute in Touch object");
}, "Touch." + name + " attribute exists");
// type check
switch(type) {
case "long":
test(function() {
assert_equals(typeof t[name], "number", name + " attribute of type long");
}, "Touch." + name + " attribute is of type number (long)");
break;
case "EventTarget":
// An event target is some type of Element
test(function() {
assert_true(t[name] instanceof Element, "EventTarget must be an Element.");
}, "Touch." + name + " attribute is of type Element");
break;
default:
break;
}
});
}
// Check a TouchList object's attributes and methods for existence and proper type
// Also make sure all of the members of the list are Touch objects
// TA: 1.2.1, 1.2.2, 1.2.5
function check_TouchList_object (tl) {
test(function() {
assert_equals(Object.prototype.toString.call(tl), "[object TouchList]", name + " attribute of type TouchList");
}, "touch list is a TouchList object");
[
["unsigned long", "length"],
["function", "item"],
].forEach(function(attr) {
var type = attr[0];
var name = attr[1];
// existence check
test(function() {
assert_true(name in tl, name + " attribute in TouchList");
}, "TouchList." + name + " attribute exists");
// type check
switch(type) {
case "unsigned long":
test(function() {
assert_equals(typeof tl[name], "number", name + " attribute of type long");
}, "TouchList." + name + " attribute is of type number (unsigned long)");
break;
case "function":
test(function() {
assert_equals(typeof tl[name], "function", name + " attribute of type function");
}, "TouchList." + name + " attribute is of type function");
break;
default:
break;
}
});
// Each member of tl should be a proper Touch object
for (var i=0; i < tl.length; i++) {
check_Touch_object(tl.item(i));
}
}
// Check a TouchEvent event's attributes for existence and proper type
// Also check that each of the event's TouchList objects are valid
// TA: 1.{3,4,5}.1.1, 1.{3,4,5}.1.2
function check_TouchEvent(ev) {
test(function() {
assert_true(ev instanceof TouchEvent, "event is a TouchEvent event");
}, ev.type + " event is a TouchEvent event");
[
["TouchList", "touches"],
["TouchList", "targetTouches"],
["TouchList", "changedTouches"],
["boolean", "altKey"],
["boolean", "metaKey"],
["boolean", "ctrlKey"],
["boolean", "shiftKey"],
].forEach(function(attr) {
var type = attr[0];
var name = attr[1];
// existence check
test(function() {
assert_true(name in ev, name + " attribute in " + ev.type + " event");
}, ev.type + "." + name + " attribute exists");
// type check
switch(type) {
case "boolean":
test(function() {
assert_equals(typeof ev[name], "boolean", name + " attribute of type boolean");
}, ev.type + "." + name + " attribute is of type boolean");
break;
case "TouchList":
test(function() {
assert_equals(Object.prototype.toString.call(ev[name]), "[object TouchList]", name + " attribute of type TouchList");
}, ev.type + "." + name + " attribute is of type TouchList");
// Now check the validity of the TouchList
check_TouchList_object(ev[name]);
break;
default:
break;
}
});
}
function is_touch_over_element(touch, element) {
var bounds = element.getBoundingClientRect();
return touch.pageX >= bounds.left && touch.pageX <= bounds.right &&
touch.pageY >= bounds.top && touch.pageY <= bounds.bottom;
}
function check_touch_clientXY(touch) {
assert_equals(touch.clientX, touch.pageX - window.pageXOffset, "touch.clientX is touch.pageX - window.pageXOffset.");
assert_equals(touch.clientY, touch.pageY - window.pageYOffset, "touch.clientY is touch.pageY - window.pageYOffset.");
}
function check_screenXY_clientXY_pageXY(touch) {
assert_greater_than_equal(touch.screenX, 0, "touch.screenX is no less than 0");
assert_greater_than_equal(touch.screenY, 0, "touch.screenY is no less than 0");
assert_greater_than_equal(touch.clientX, 0, "touch.clientX is no less than 0");
assert_greater_than_equal(touch.clientY, 0, "touch.clientY is no less than 0");
assert_greater_than_equal(touch.pageX, 0, "touch.pageX is no less than 0");
assert_greater_than_equal(touch.pageY, 0, "touch.pageY is no less than 0");
}
function run() {
var target0 = document.getElementById("target0");
var target1 = document.getElementById("target1");
var test_touchstart = async_test("touchstart event received");
var test_touchmove = async_test("touchmove event received");
var test_touchend = async_test("touchend event received");
var test_mousedown = async_test("Interaction with mouse events");
var touchstart_received = false;
var touchmove_received = false;
var touchend_received = false;
var invalid_touchmove_received = false;
var touchstart_identifier;
on_event(target0, "touchstart", function onTouchStart(ev) {
ev.preventDefault();
// Check event ordering TA: 1.6.2
test_touchstart.step(function() {
assert_false(touchstart_received, "duplicate touchstart event");
assert_false(touchmove_received, "touchstart precedes touchmove");
assert_false(touchend_received, "touchstart precedes touchend");
});
test_touchstart.done();
if (touchstart_received)
return;
touchstart_received = true;
test_mousedown.done(); // If we got here, then the mouse event test is not needed.
check_TouchEvent(ev);
// TA: 1.3.2.1, 1.3.3.1, 1.3.4.1
test(function() {
assert_equals(ev.touches.length, 1, "One touch point.");
assert_equals(ev.changedTouches.length, 1, "One changed touch point.");
assert_equals(ev.targetTouches.length, 1, "One target touch point.");
}, "touchstart: all TouchList lengths are correct");
var t = ev.touches[0];
var ct = ev.changedTouches[0];
var tt = ev.targetTouches[0];
touchstart_identifier = t.identifier;
// TA: 1.3.3.3, 1.3.2.3, 1.3.3.4 (indirect (transitive))
test(function() {
assert_equals(ct.identifier, touchstart_identifier, "changedTouches identifier matches.");
assert_equals(tt.identifier, touchstart_identifier, "targetTouches identifier matches.");
}, "touchstart: all TouchList identifiers are consistent");
// TA: 1.3.3.9
test(function() {
assert_equals(tt.target, ev.target, "event target same as targetTouches target.");
}, "touchstart: event target same as targetTouches target");
test(function() {
assert_true(is_touch_over_element(t, target0), "touch.pageX/pageY is over target0.");
}, "touchstart: touch pageX/pageY inside of target element");
test(function() {
check_touch_clientXY(t);
}, "touchstart: touch clientX/clientY is consistent with pageX/pageY");
// Note we don't bother testing screenX/screenY values - there's no reliable way to
// verify they are consistent with clientX/clientY (due to unknown amount of window
// chrome), and also various forms of scaling mean they are in different units.
test(function() {
check_screenXY_clientXY_pageXY(t);
}, "touchstart: touch screenX/screenY pageX/pageY and clientX/clientY values are no less than 0");
});
on_event(target0, "touchmove", function onTouchMove(ev) {
ev.preventDefault();
if (touchmove_received)
return;
touchmove_received = true;
test_touchmove.step(function() {
assert_true(touchstart_received, "touchmove follows touchstart");
assert_false(touchend_received, "touchmove precedes touchend");
});
test_touchmove.done();
check_TouchEvent(ev);
// TA: 1.4.2.1, 1.4.3.1
test(function() {
assert_equals(ev.touches.length, 1, "One touch point.");
assert_equals(ev.changedTouches.length, 1, "One changed touch point.");
assert_equals(ev.targetTouches.length, 1, "One target touch point.");
}, "touchmove: all TouchList lengths are correct");
// 1.4.2.3, 1.4.3.3, 1.4.3.5, 1.4.4.3
test(function() {
assert_equals(ev.touches[0].identifier, touchstart_identifier, "Touch identifier matches.");
assert_equals(ev.changedTouches[0].identifier, touchstart_identifier, "Changed touch identifier matches.");
assert_equals(ev.targetTouches[0].identifier, touchstart_identifier, "Target touch identifier matches.");
}, "touchmove: all TouchList identifiers matches touchstart identifier");
// TA: 1.4.3.8
var tt = ev.targetTouches[0];
test(function() {
assert_equals(tt.target, ev.target, "event target same as targetTouches target.");
}, "touchmove: event target same as targetTouches target");
test(function() {
assert_true(is_touch_over_element(tt, target0) || is_touch_over_element(tt, target1),
"touch.pageX/pageY is over one of the targets.");
}, "touchmove: touch pageX/pageY inside of one of the target elements");
test(function() {
check_touch_clientXY(tt);
}, "touchmove: touch clientX/clientY is consistent with pageX/pageY");
test(function() {
check_screenXY_clientXY_pageXY(tt);
}, "touchmove: touch screenX/screenY pageX/pageY and clientX/clientY values are no less than 0");
});
on_event(target1, "touchmove", function onTouchMove(ev) {
invalid_touchmove_received = true;
});
on_event(window, "touchend", function onTouchEnd(ev) {
touchend_received = true;
test_touchend.step(function() {
assert_equals(ev.target, target0, "touchend is dispatched to the original target");
assert_true(touchstart_received, "touchend follows touchstart");
assert_true(touchmove_received, "touchend follows touchmove");
assert_false(invalid_touchmove_received, "touchmove dispatched to correct target");
});
test_touchend.done();
check_TouchEvent(ev);
// TA: 1.5.1.2, 1.5.3.1, 1.5.4.1
test(function() {
assert_equals(ev.touches.length, 0, "Zero touch points.");
assert_equals(ev.changedTouches.length, 1, "One changed touch point.");
assert_equals(ev.targetTouches.length, 0, "Zero target touch points.");
}, "touchend: all TouchList lengths are correct");
var t = ev.changedTouches[0];
// TA: 1.5.2.6, 1.5.2.3
test(function() {
assert_equals(t.identifier, touchstart_identifier, "changedTouches identifier matches.");
}, "touchend: touches identifier matches changedTouches identifier");
test(function() {
assert_true(is_touch_over_element(t, target1),
"touch.pageX/pageY is over target1.");
}, "touchend: touch pageX/pageY inside expected element");
test(function() {
check_touch_clientXY(t);
}, "touchend: touch clientX/clientY is consistent with pageX/pageY");
test(function() {
check_screenXY_clientXY_pageXY(t);
}, "touchend: touch screenX/screenY pageX/pageY and clientX/clientY values are no less than 0");
done();
});
on_event(target0, "mousedown", function onMouseDown(ev) {
test_mousedown.step(function() {
assert_true(touchstart_received,
"The touchstart event must be dispatched before any mouse " +
"events. (If this fails, it might mean that the user agent does " +
"not implement W3C touch events at all.)"
);
});
test_mousedown.done();
if (!touchstart_received) {
// Abort the tests. If touch events are not supported, then most of
// the other event handlers will never be called, and the test will
// time out with misleading results.
done();
}
});
}
</script>
<style>
div {
margin: 0em;
padding: 2em;
}
#target0 {
background: yellow;
border: 1px solid orange;
}
#target1 {
background: lightblue;
border: 1px solid blue;
}
</style>
</head>
<body onload="run()">
<h1>Touch Events: single-touch tests</h1>
<div id="target0">
Touch this box with one finger (or other pointing device)...
</div>
<div id="target1">
...then drag to this box and lift your finger.
</div>
<div id="log"></div>
</body>
</html>