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<!DOCTYPE html>
<title>DOM Parts: Basic object structure, imperative API</title>
<meta name="author" href="mailto:masonf@chromium.org">
<script src="/resources/testharness.js"></script>
<script src="/resources/testharnessreport.js"></script>
<script src="./resources/domparts-utils.js"></script>
<body>
<template id=imperative>
<div>
<div id=target1 style="display:none">
Imperative test element
<span id=a>A</span><span id=b>B
<span id=sub>B-sub1</span>
<span id=sub>B-sub2</span>
</span><span id=c>C</span></div>
</div>
<span id=direct_child_1></span>
<span id=direct_child_2></span>
</template>
<script>
const template = document.getElementById('imperative');
function addCleanup(t, part) {
t.add_cleanup(() => part.disconnect());
return part;
}
[false,true].forEach(useTemplate => {
const doc = useTemplate ? template.content : document;
let target,wrapper,directChildren;
if (useTemplate) {
target = doc.querySelector('#target1');
directChildren = [doc.querySelector('#direct_child_1'),doc.querySelector('#direct_child_2')];
} else {
wrapper = document.body.appendChild(document.createElement('div'));
wrapper.appendChild(template.content.cloneNode(true));
target = wrapper.querySelector('#target1');
directChildren = [doc.documentElement,doc.documentElement];
}
const a = target.querySelector('#a');
const b = target.querySelector('#b');
const c = target.querySelector('#c');
assert_true(!!(doc && target && target.parentElement && a && b && c));
const description = useTemplate ? "DocumentFragment" : "Document";
test((t) => {
const root = doc.getPartRoot();
assert_true(root instanceof DocumentPartRoot);
const parts = root.getParts();
assert_equals(parts.length,0,'getParts() should start out empty');
assert_true(root.rootContainer instanceof (useTemplate ? DocumentFragment : Document));
const nodePart = addCleanup(t,new NodePart(root,target,{metadata: ['foo']}));
assertEqualParts([nodePart],[{type:'NodePart',metadata:['foo']}],0,'Basic NodePart');
assert_equals(nodePart.node,target);
assert_equals(nodePart.root,root);
let runningPartsExpectation = [{type:'NodePart',metadata:['foo']}];
assertEqualParts(root.getParts(),runningPartsExpectation,[nodePart],'getParts() for the root should now have this nodePart');
assert_equals(parts.length,0,'Return value of getParts() is not live');
assert_throws_js(TypeError,() => new NodePart(nodePart,target.children[0]),'Constructing a Part with a NodePart as the PartRoot should throw');
const attributePart = addCleanup(t,new AttributePart(root,target,'attributename',/*automatic*/false,{metadata: ['attribute-non-auto']}));
assertEqualParts([attributePart],[{type:'AttributePart',metadata:['attribute-non-auto']}],0,'Basic AttributePart');
assert_equals(attributePart.node,target);
assert_equals(attributePart.root,root);
assert_equals(attributePart.localName,'attributename');
assert_equals(attributePart.automatic,false);
runningPartsExpectation.push({type:'AttributePart',metadata:['attribute-non-auto']});
assertEqualParts(root.getParts(),runningPartsExpectation,[nodePart,attributePart],'getParts() for the root should now have this attributePart');
assert_equals(parts.length,0,'Return value of getParts() is not live');
const attributePartAuto = addCleanup(t,new AttributePart(root,target,'attributename',/*automatic*/true,{metadata: ['attribute-auto']}));
assertEqualParts([attributePartAuto],[{type:'AttributePart',metadata:['attribute-auto']}],0,'Basic automatic AttributePart');
assert_equals(attributePartAuto.node,target);
assert_equals(attributePartAuto.root,root);
assert_equals(attributePartAuto.localName,'attributename');
assert_equals(attributePartAuto.automatic,true);
assertEqualParts(root.getParts(),runningPartsExpectation,[nodePart,attributePart],'automatic AttributePart should not get included in getParts()');
const childNodePart = addCleanup(t,new ChildNodePart(root,target.children[0], target.children[2],{metadata:['bar','baz']}));
assertEqualParts([childNodePart],[{type:'ChildNodePart',metadata:['bar','baz']}],0,'Basic ChildNodePart');
assert_equals(childNodePart.root,root);
assert_equals(childNodePart.previousSibling,target.children[0]);
assert_equals(childNodePart.nextSibling,target.children[2]);
assert_equals(childNodePart.getParts().length,0,'childNodePart.getParts() should start out empty');
runningPartsExpectation.push({type:'ChildNodePart',metadata:['bar','baz']});
assertEqualParts(root.getParts(),runningPartsExpectation,[nodePart,attributePart,childNodePart],'getParts() for the root should now have this childNodePart');
const nodeBefore = target.previousSibling || target.parentNode;
const nodePartBefore = addCleanup(t,new NodePart(root,nodeBefore));
runningPartsExpectation.push({type:'NodePart',metadata:[]});
assertEqualParts(root.getParts(),runningPartsExpectation,[nodePart,attributePart,childNodePart,nodePartBefore],'getParts() for the root should now have this nodePart, in construction order');
const nodePart2 = addCleanup(t,new NodePart(childNodePart,target.children[2],{metadata:['blah']}));
assert_equals(nodePart2.root,childNodePart);
assertEqualParts(root.getParts(),runningPartsExpectation,[nodePart,attributePart,childNodePart,nodePartBefore],'getParts() for the root DocumentPartRoot shouldn\'t change');
assertEqualParts(childNodePart.getParts(),[{type:'NodePart',metadata:['blah']}],[nodePart2],'getParts() for the childNodePart should have it');
nodePart2.disconnect();
assert_equals(nodePart2.root,null,'root should be null after disconnect');
assert_equals(nodePart2.node,null,'node should be null after disconnect');
assert_equals(childNodePart.getParts().length,0,'calling disconnect() should remove the part from root.getParts()');
assertEqualParts(root.getParts(),runningPartsExpectation,[nodePart,attributePart,childNodePart,nodePartBefore],'getParts() for the root DocumentPartRoot still shouldn\'t change');
nodePart2.disconnect(); // Calling twice should be ok.
childNodePart.disconnect();
assert_equals(childNodePart.root,null,'root should be null after disconnect');
assert_equals(childNodePart.previousSibling,null,'previousSibling should be null after disconnect');
assert_equals(childNodePart.nextSibling,null,'nextSibling should be null after disconnect');
assert_array_equals(root.getParts(),[nodePartBefore,nodePart,attributePart]);
}, `Basic imperative DOM Parts object construction (${description})`);
function cloneRange(parent,previousSibling,nextSibling) {
const clone = parent.cloneNode(false);
let node = previousSibling;
while (node) {
clone.appendChild(node.cloneNode(true));
if (node == nextSibling) {
break;
}
node = node.nextSibling;
}
return clone;
}
test((t) => {
const root = doc.getPartRoot();
const nodePart = addCleanup(t,new NodePart(root,target,{metadata:['node1']}));
const attributePart = addCleanup(t,new AttributePart(root,target,'attributeName',/*automatic*/false,{metadata: ['attribute']}));
const nonTrackedAttributePart = addCleanup(t,new AttributePart(root,target,'attributeName',/*automatic*/true,{metadata: ['attribute-auto']}));
const childNodePart = addCleanup(t,new ChildNodePart(root,target.children[0], target.children[2],{metadata:['child']}));
const nodePart3 = addCleanup(t,new NodePart(childNodePart,target.children[1].firstChild,{metadata: ['node 3']}));
const nodePart2 = addCleanup(t,new NodePart(childNodePart,target.children[1].firstChild,{metadata: ['node 2']}));
const childNodePart2 = addCleanup(t,new ChildNodePart(childNodePart,target.children[1].firstElementChild,target.children[1].firstElementChild.nextSibling,{metadata: ['childnodepart2']}));
let rootExpectations = [{type:'NodePart',metadata:['node1']},{type:'AttributePart',metadata:['attribute']},{type:'ChildNodePart',metadata:['child']}];
assertEqualParts(root.getParts(),rootExpectations,[nodePart,attributePart,childNodePart],'setup');
let childExpectations = [{type:'NodePart',metadata:['node 3']},{type:'NodePart',metadata:['node 2']},{type:'ChildNodePart',metadata:['childnodepart2']}];
assertEqualParts(childNodePart.getParts(),childExpectations,[nodePart3,nodePart2,childNodePart2],'setup');
assert_array_equals(childNodePart2.getParts(),[]);
// Test cloning of the entire DocumentPartRoot.
const clonedPartRoot = root.clone();
assertEqualParts(root.getParts(),rootExpectations,[nodePart,attributePart,childNodePart],'cloning a part root should not change the original');
const clonedContainer = clonedPartRoot.rootContainer;
assert_true(clonedPartRoot instanceof DocumentPartRoot);
assert_true(clonedContainer instanceof (useTemplate ? DocumentFragment : Document));
assert_not_equals(clonedPartRoot,root);
assert_not_equals(clonedContainer,doc);
assert_equals(doc.innerHTML,clonedContainer.innerHTML);
assertEqualParts(clonedPartRoot.getParts(),rootExpectations,0,'cloned PartRoot should contain identical parts');
assert_true(!clonedPartRoot.getParts().includes(nodePart),'Original parts should not be retained');
assert_true(!clonedPartRoot.getParts().includes(childNodePart));
const newNodePart = clonedPartRoot.getParts()[0];
const newAttributePart = clonedPartRoot.getParts()[1];
const newChildNodePart = clonedPartRoot.getParts()[2];
assert_not_equals(newNodePart.node,target,'Node references should not point to original nodes');
assert_equals(newNodePart.node.id,target.id,'New parts should point to cloned nodes');
assert_not_equals(newAttributePart.node,target,'Node references should not point to original nodes');
assert_equals(newAttributePart.node.id,target.id,'New parts should point to cloned nodes');
assert_equals(newAttributePart.localName,attributePart.localName,'New attribute parts should carry over localName');
assert_equals(newAttributePart.automatic,attributePart.automatic,'New attribute parts should carry over automatic');
assert_not_equals(newChildNodePart.previousSibling,a,'Node references should not point to original nodes');
assert_equals(newChildNodePart.previousSibling.id,'a');
assert_not_equals(newChildNodePart.nextSibling,c,'Node references should not point to original nodes');
assert_equals(newChildNodePart.nextSibling.id,'c');
assertEqualParts(newChildNodePart.getParts(),childExpectations,0,'cloned PartRoot should contain identical parts');
// Test cloning of ChildNodeParts.
const clonedChildNodePartRoot = childNodePart.clone();
const clonedChildContainer = clonedChildNodePartRoot.rootContainer;
assert_true(clonedChildNodePartRoot instanceof ChildNodePart);
assert_true(clonedChildContainer instanceof Element);
assert_not_equals(clonedChildContainer,target);
assert_equals(clonedChildContainer.outerHTML,cloneRange(target,a,c).outerHTML);
assertEqualParts(clonedChildNodePartRoot.getParts(),childExpectations,0,'clone of childNodePart should match');
}, `Cloning (${description})`);
['Element','Text','Comment'].forEach(nodeType => {
test((t) => {
const root = doc.getPartRoot();
assert_equals(root.getParts().length,0);
let node;
switch (nodeType) {
case 'Element' : node = document.createElement('div'); break;
case 'Text' : node = document.createTextNode('hello'); break;
case 'Comment': node = document.createComment('comment'); break;
}
t.add_cleanup(() => node.remove());
doc.firstElementChild.append(node);
// NodePart
const nodePart = addCleanup(t,new NodePart(root,node,{metadata:['foobar']}));
assert_true(!!nodePart);
const clone = root.clone();
assert_equals(clone.getParts().length,1);
assertEqualParts(clone.getParts(),[{type:'NodePart',metadata:['foobar']}],0,'getParts');
assert_true(clone.getParts()[0].node instanceof window[nodeType]);
// ChildNodePart
const node2 = node.cloneNode(false);
node.parentElement.appendChild(node2);
const childNodePart = addCleanup(t,new ChildNodePart(root,node,node2,{metadata:['baz']}));
assert_true(!!childNodePart);
const clone2 = root.clone();
assert_equals(clone2.getParts().length,2);
assertEqualParts(clone2.getParts(),[{type:'NodePart',metadata:['foobar']},{type:'ChildNodePart',metadata:['baz']}],0,'getParts2');
assert_true(clone2.getParts()[1].previousSibling instanceof window[nodeType]);
}, `Cloning ${nodeType} (${description})`);
});
test((t) => {
const root = doc.getPartRoot();
assert_equals(root.getParts().length,0,'Test harness check: tests should clean up parts');
const nodePartB = addCleanup(t,new NodePart(root,b));
const nodePartA = addCleanup(t,new NodePart(root,a));
const nodePartC = addCleanup(t,new NodePart(root,c));
assert_array_equals(root.getParts(),[nodePartB,nodePartA,nodePartC],'Parts can be out of order, if added out of order');
b.remove();
assert_array_equals(root.getParts(),[nodePartB,nodePartA,nodePartC],'Removals are not tracked');
target.parentElement.insertBefore(b,target);
assert_array_equals(root.getParts(),[nodePartB,nodePartA,nodePartC],'Insertions are not tracked');
target.insertBefore(b,c);
assert_array_equals(root.getParts(),[nodePartB,nodePartA,nodePartC],'Nothing is tracked');
nodePartA.disconnect();
nodePartB.disconnect();
nodePartC.disconnect();
assert_array_equals(root.getParts(),[],'disconnections are tracked');
const childPartAC = addCleanup(t,new ChildNodePart(root,a,c));
assert_array_equals(root.getParts(),[childPartAC]);
a.remove();
assert_array_equals(root.getParts(),[],'Removing endpoints invalidates the part');
target.insertBefore(a,b); // Restore
assert_array_equals(root.getParts(),[],'Insertions are not tracked');
target.insertBefore(c,a);
assert_array_equals(root.getParts(),[],'Endpoints out of order');
target.appendChild(c); // Restore
assert_array_equals(root.getParts(),[],'Insertions are not tracked');
document.body.appendChild(c);
assert_array_equals(root.getParts(),[],'Parts are\'t invalidated when endpoints have different parents');
target.appendChild(c); // Restore
assert_array_equals(root.getParts(),[],'Insertions are not tracked');
const oldParent = target.parentElement;
target.remove();
assert_array_equals(root.getParts(),[],'Parts are\'t invalidated when disconnected');
oldParent.appendChild(target); // Restore
assert_array_equals(root.getParts(),[]);
}, `DOM mutations are not tracked (${description})`);
test((t) => {
const root = doc.getPartRoot();
assert_equals(root.getParts().length,0,'Test harness check: tests should clean up parts');
const otherNode = document.createElement('div');
const childPartAA = addCleanup(t,new ChildNodePart(root,a,a));
const childPartAB = addCleanup(t,new ChildNodePart(root,a,b));
const childPartAC = addCleanup(t,new ChildNodePart(root,a,c));
assert_throws_dom('InvalidStateError',() => childPartAA.replaceChildren(otherNode),'Can\'t replace children if part is invalid');
assert_array_equals(childPartAA.children,[],'Invalid parts should return empty children');
assert_array_equals(childPartAB.children,[],'Children should not include endpoints');
assert_array_equals(childPartAC.children,[b],'Children should not include endpoints');
childPartAB.replaceChildren(otherNode);
assert_array_equals(childPartAB.children,[otherNode],'Replacechildren should work');
assert_array_equals(childPartAC.children,[otherNode,b],'replaceChildren should leave endpoints alone');
childPartAC.replaceChildren(otherNode);
assert_array_equals(childPartAC.children,[otherNode],'Replacechildren with existing children should work');
assert_array_equals(childPartAB.children,[]);
childPartAC.replaceChildren(b);
assert_array_equals(target.children,[a,b,c]);
}, `ChildNodePart children manipulation (${description})`);
test((t) => {
const root = doc.getPartRoot();
// Make sure no crashes occur for parts with mismatched endpoint nodes.
const cornerCasePartsInvalid = [
addCleanup(t,new ChildNodePart(root,target, target.children[2],{metadata: ['different parents']})),
addCleanup(t,new ChildNodePart(root,target.children[0], target,{metadata: ['different parents']})),
addCleanup(t,new ChildNodePart(root,target.children[2], target.children[0],{metadata: ['reversed endpoints']})),
];
const cornerCasePartsValid = [];
if (directChildren[0] !== directChildren[1]) {
cornerCasePartsValid.push(addCleanup(t,new ChildNodePart(root,directChildren[0], directChildren[1],{metadata: ['direct parent of the root container']})));
}
assert_array_equals(root.getParts(),cornerCasePartsValid);
assert_equals(root.clone().getParts().length,cornerCasePartsValid.length);
}, `Corner case ChildNodePart construction and cloning (${description})`);
wrapper?.remove(); // Cleanup
});
</script>
|