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Test Info:
- This WPT test may be referenced by the following Test IDs:
- /shadow-dom/imperative-slot-api.html - WPT Dashboard Interop Dashboard
<!DOCTYPE html>
<title>Shadow DOM: Imperative Slot API</title>
<meta name="author" title="Yu Han" href="mailto:yuzhehan@chromium.org">
<script src="/resources/testharness.js"></script>
<script src="/resources/testharnessreport.js"></script>
<script src="resources/shadow-dom.js"></script>
<div id="test_basic">
<div id="host1"></div>
<div id="host2"></div>
<div id="host3"></div>
</div>
<script>
test(() => {
let tTree = createTestTree(test_basic);
const shadow1 = tTree.host1.attachShadow({ mode: 'open', slotAssignment: 'manual'});
assert_not_equals(shadow1, null, 'slot assignment manual should work');
assert_equals(shadow1.slotAssignment, "manual", 'slotAssignment should return "manual"');
const shadow2 = tTree.host2.attachShadow({ mode: 'open', slotAssignment: 'named'});
assert_not_equals(shadow2, null, 'slot assignment named should work');
assert_equals(shadow2.slotAssignment, "named", 'slotAssignment should return "named"');
assert_throws_js(TypeError, () => {
tTree.host3.attachShadow({ mode: 'open', slotAssignment: 'exceptional' })},
'others should throw exception');
}, 'attachShadow can take slotAssignment parameter.');
</script>
<div id="test_assign">
<div id="host">
<template id="shadow_root" data-mode="open" data-slot-assignment="manual">
<slot id="s1"></slot>
<slot id="s2"></slot>
<slot id="s3"></slot>
</template>
<div id="c1"></div>
<div id="c2"></div>
<div id="c3"></div>
<div id="nested">
<div id="ns1"></div>
</div>
</div>
<div id="c4"></div>
<div id="host4">
<template id="shadow_root4" data-mode="open" data-slot-assignment="manual">
<slot id="s4" name="s4"></slot>
</template>
</div>
</div>
<script>
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(c1,c2); // Should work
assert_throws_js(TypeError, () => {
tTree.s1.assign([c1,c2])
}, 'sequence not allowed');
assert_throws_js(TypeError, () => {
tTree.s1.assign([])
}, 'including empty sequences');
}, 'slot.attach() should take variadic not sequence.');
test(() => {
let tTree = createTestTree(test_assign);
assert_array_equals(tTree.s2.assignedElements(), []);
assert_equals(tTree.c1.assignedSlot, null);
tTree.s1.assign(tTree.c1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
tTree.s2.assign(tTree.c2, tTree.c3);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1]);
assert_array_equals(tTree.s2.assignedNodes(), [tTree.c2, tTree.c3]);
}, 'Imperative slot API can assign nodes in manual slot assignment.');
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(tTree.c2, tTree.c3, tTree.c1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c2, tTree.c3, tTree.c1]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
assert_equals(tTree.c2.assignedSlot, tTree.s1);
assert_equals(tTree.c3.assignedSlot, tTree.s1);
tTree.s1.assign(tTree.c1, tTree.c2);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
assert_equals(tTree.c2.assignedSlot, tTree.s1);
assert_equals(tTree.c3.assignedSlot, null);
tTree.s1.assign(tTree.c3, tTree.c2, tTree.c1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c3, tTree.c2, tTree.c1]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
assert_equals(tTree.c2.assignedSlot, tTree.s1);
assert_equals(tTree.c3.assignedSlot, tTree.s1);
}, 'Order of slottables is preserved in manual slot assignment.');
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(tTree.c2, tTree.c3, tTree.c1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c2, tTree.c3, tTree.c1]);
tTree.s2.assign(tTree.c2);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c3, tTree.c1]);
assert_array_equals(tTree.s2.assignedNodes(), [tTree.c2]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
assert_equals(tTree.c2.assignedSlot, tTree.s2);
assert_equals(tTree.c3.assignedSlot, tTree.s1);
tTree.s3.assign(tTree.c3);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1]);
assert_array_equals(tTree.s2.assignedNodes(), [tTree.c2]);
assert_array_equals(tTree.s3.assignedNodes(), [tTree.c3]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
assert_equals(tTree.c2.assignedSlot, tTree.s2);
assert_equals(tTree.c3.assignedSlot, tTree.s3);
}, 'Previously assigned slottable is moved to new slot when it\'s reassigned.');
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(tTree.c1);
tTree.s2.assign(tTree.c2, tTree.c1);
tTree.s3.assign(tTree.c1, tTree.c3);
assert_array_equals(tTree.s1.assignedNodes(), []);
assert_array_equals(tTree.s2.assignedNodes(), [tTree.c2]);
assert_array_equals(tTree.s3.assignedNodes(), [tTree.c1, tTree.c3]);
assert_equals(tTree.c1.assignedSlot, tTree.s3);
assert_equals(tTree.c2.assignedSlot, tTree.s2);
assert_equals(tTree.c3.assignedSlot, tTree.s3);
}, 'Order and assignment of nodes are preserved during multiple assignment in a row.');
test(() => {
let tTree = createTestTree(test_assign);
// tTree.c4 is invalid for tTree.host slot assignment.
// No exception should be thrown here.
tTree.s1.assign(tTree.c1, tTree.c4, tTree.c2);
// All observable assignments should skip c4.
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
assert_equals(tTree.c2.assignedSlot, tTree.s1);
assert_equals(tTree.c4.assignedSlot, null);
// Moving c4 into place should reveal the assignment.
tTree.host.append(tTree.c4);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c4, tTree.c2]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
assert_equals(tTree.c2.assignedSlot, tTree.s1);
assert_equals(tTree.c4.assignedSlot, tTree.s1);
// Moving c4 into a different shadow host and back should
// also not break the assignment.
tTree.host4.append(tTree.c4)
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2]);
assert_equals(tTree.c4.assignedSlot, null);
tTree.host.append(tTree.c4);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c4, tTree.c2]);
assert_equals(tTree.c4.assignedSlot, tTree.s1);
}, 'Assigning invalid nodes should be allowed.');
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(tTree.c1, tTree.c2, tTree.c3);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2, tTree.c3]);
tTree.host4.append(tTree.s1);
assert_array_equals(tTree.s1.assignedNodes(), []);
}, 'Moving a slot to a new host, the slot loses its previously assigned slottables.');
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(tTree.c1, tTree.c2, tTree.c3);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2, tTree.c3]);
tTree.shadow_root.insertBefore(tTree.s2, tTree.s1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2, tTree.c3]);
assert_array_equals(tTree.s2.assignedNodes(), []);
tTree.shadow_root.insertBefore(tTree.s4, tTree.s1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2, tTree.c3]);
assert_array_equals(tTree.s4.assignedNodes(), []);
tTree.ns1.append(tTree.s1);
assert_array_equals(tTree.s1.assignedNodes(), []);
}, 'Moving a slot\'s tree order position within a shadow host has no impact on its assigned slottables.');
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(tTree.c1, tTree.c2, tTree.c3);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2, tTree.c3]);
tTree.host4.append(tTree.c1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c2, tTree.c3]);
assert_array_equals(tTree.s4.assignedNodes(), []);
assert_equals(tTree.c1.assignedSlot, null);
tTree.s4.assign(tTree.c1);
assert_array_equals(tTree.s4.assignedNodes(), [tTree.c1]);
assert_equals(tTree.c1.assignedSlot, tTree.s4);
}, 'Appending slottable to different host, it loses slot assignment. It can be re-assigned within a new host.');
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(tTree.c1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1]);
tTree.shadow_root4.insertBefore(tTree.s1, tTree.s4);
assert_array_equals(tTree.s1.assignedNodes(), []);
// Trigger slot assignment on previous shadow root.
assert_array_equals(tTree.s2.assignedNodes(), []);
tTree.shadow_root.insertBefore(tTree.s1, tTree.s2);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1]);
}, 'Previously assigned node should not be assigned if slot moved to a new shadow root. The node is re-assigned when moved back.');
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(tTree.c1, tTree.c1, tTree.c1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1]);
tTree.s1.assign(tTree.c1, tTree.c1, tTree.c2, tTree.c2, tTree.c1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2]);
}, 'Assignment with the same node in parameters should be ignored, first one wins.');
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(tTree.c1, tTree.c2, tTree.c3);
tTree.s1.remove();
assert_equals(tTree.c1.assignedSlot, null);
assert_equals(tTree.c2.assignedSlot, null);
assert_equals(tTree.c3.assignedSlot, null);
}, 'Removing a slot from DOM resets its slottable\'s slot assignment.');
test(() => {
let tTree = createTestTree(test_assign);
const isolatedDocNode = document.implementation.createHTMLDocument("").body;
isolatedDocNode.appendChild(tTree.c1);
const isolatedDocNode2 = document.implementation.createHTMLDocument("").body;
isolatedDocNode2.appendChild(tTree.s1);
tTree.s1.assign(tTree.c1, tTree.c2);
assert_array_equals(tTree.s1.assignedNodes(), [], 's1 not inside shadow root');
assert_equals(tTree.c1.assignedSlot, null);
assert_equals(tTree.c2.assignedSlot, null);
tTree.shadow_root.appendChild(tTree.s1);
tTree.host.appendChild(tTree.c1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
assert_equals(tTree.c2.assignedSlot, tTree.s1);
}, 'Nodes can be assigned even if slots or nodes aren\'t in the same tree.');
test(() => {
let tTree = createTestTree(test_assign);
tTree.s1.assign(tTree.c1, tTree.c2);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
assert_equals(tTree.c2.assignedSlot, tTree.s1);
const isolatedDocNode = document.implementation.createHTMLDocument("").body;
isolatedDocNode.appendChild(tTree.c1);
const isolatedDocNode2 = document.implementation.createHTMLDocument("").body;
isolatedDocNode2.appendChild(tTree.s1);
assert_array_equals(tTree.s1.assignedNodes(), [], 's1 not inside shadow root');
assert_equals(tTree.c1.assignedSlot, null);
assert_equals(tTree.c2.assignedSlot, null);
tTree.shadow_root.appendChild(tTree.s1);
tTree.host.appendChild(tTree.c1);
assert_array_equals(tTree.s1.assignedNodes(), [tTree.c1, tTree.c2]);
assert_equals(tTree.c1.assignedSlot, tTree.s1);
assert_equals(tTree.c2.assignedSlot, tTree.s1);
}, 'Removing a node from the document does not break manually assigned slot linkage.');
test(() => {
const inputValues = [
['Attr', document.createAttribute('bar')],
['Comment', document.createComment('bar')],
['DocumentFragment', document.createDocumentFragment()],
['DocumentType', document.implementation.createDocumentType('html', '', '')]
];
for (const [label, input] of inputValues) {
assert_throws_js(TypeError, () => {
const slot = document.createElement('slot');
slot.assign(input);
}, label);
}
}, 'throw TypeError if the passed values are neither Element nor Text');
</script>