"use strict";
const conversions = require("webidl-conversions");
const utils = require("./utils.js");
const convertGetRootNodeOptions = require("./GetRootNodeOptions.js").convert;
const impl = utils.implSymbol;
const EventTarget = require("./EventTarget.js");
class Node extends EventTarget.interface {
constructor() {
throw new TypeError("Illegal constructor");
}
getRootNode() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
const args = [];
{
let curArg = arguments[0];
curArg = convertGetRootNodeOptions(curArg, { context: "Failed to execute 'getRootNode' on 'Node': parameter 1" });
args.push(curArg);
}
return utils.tryWrapperForImpl(this[impl].getRootNode(...args));
}
hasChildNodes() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return this[impl].hasChildNodes();
}
normalize() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return this[impl].normalize();
}
cloneNode() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
const args = [];
{
let curArg = arguments[0];
if (curArg !== undefined) {
curArg = conversions["boolean"](curArg, { context: "Failed to execute 'cloneNode' on 'Node': parameter 1" });
} else {
curArg = false;
}
args.push(curArg);
}
return utils.tryWrapperForImpl(this[impl].cloneNode(...args));
}
isEqualNode(otherNode) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 1) {
throw new TypeError(
"Failed to execute 'isEqualNode' on 'Node': 1 argument required, but only " + arguments.length + " present."
);
}
const args = [];
{
let curArg = arguments[0];
if (curArg === null || curArg === undefined) {
curArg = null;
} else {
curArg = module.exports.convert(curArg, { context: "Failed to execute 'isEqualNode' on 'Node': parameter 1" });
}
args.push(curArg);
}
return this[impl].isEqualNode(...args);
}
isSameNode(otherNode) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 1) {
throw new TypeError(
"Failed to execute 'isSameNode' on 'Node': 1 argument required, but only " + arguments.length + " present."
);
}
const args = [];
{
let curArg = arguments[0];
if (curArg === null || curArg === undefined) {
curArg = null;
} else {
curArg = module.exports.convert(curArg, { context: "Failed to execute 'isSameNode' on 'Node': parameter 1" });
}
args.push(curArg);
}
return this[impl].isSameNode(...args);
}
compareDocumentPosition(other) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 1) {
throw new TypeError(
"Failed to execute 'compareDocumentPosition' on 'Node': 1 argument required, but only " +
arguments.length +
" present."
);
}
const args = [];
{
let curArg = arguments[0];
curArg = module.exports.convert(curArg, {
context: "Failed to execute 'compareDocumentPosition' on 'Node': parameter 1"
});
args.push(curArg);
}
return this[impl].compareDocumentPosition(...args);
}
contains(other) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 1) {
throw new TypeError(
"Failed to execute 'contains' on 'Node': 1 argument required, but only " + arguments.length + " present."
);
}
const args = [];
{
let curArg = arguments[0];
if (curArg === null || curArg === undefined) {
curArg = null;
} else {
curArg = module.exports.convert(curArg, { context: "Failed to execute 'contains' on 'Node': parameter 1" });
}
args.push(curArg);
}
return this[impl].contains(...args);
}
lookupPrefix(namespace) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 1) {
throw new TypeError(
"Failed to execute 'lookupPrefix' on 'Node': 1 argument required, but only " + arguments.length + " present."
);
}
const args = [];
{
let curArg = arguments[0];
if (curArg === null || curArg === undefined) {
curArg = null;
} else {
curArg = conversions["DOMString"](curArg, {
context: "Failed to execute 'lookupPrefix' on 'Node': parameter 1"
});
}
args.push(curArg);
}
return this[impl].lookupPrefix(...args);
}
lookupNamespaceURI(prefix) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 1) {
throw new TypeError(
"Failed to execute 'lookupNamespaceURI' on 'Node': 1 argument required, but only " +
arguments.length +
" present."
);
}
const args = [];
{
let curArg = arguments[0];
if (curArg === null || curArg === undefined) {
curArg = null;
} else {
curArg = conversions["DOMString"](curArg, {
context: "Failed to execute 'lookupNamespaceURI' on 'Node': parameter 1"
});
}
args.push(curArg);
}
return this[impl].lookupNamespaceURI(...args);
}
isDefaultNamespace(namespace) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 1) {
throw new TypeError(
"Failed to execute 'isDefaultNamespace' on 'Node': 1 argument required, but only " +
arguments.length +
" present."
);
}
const args = [];
{
let curArg = arguments[0];
if (curArg === null || curArg === undefined) {
curArg = null;
} else {
curArg = conversions["DOMString"](curArg, {
context: "Failed to execute 'isDefaultNamespace' on 'Node': parameter 1"
});
}
args.push(curArg);
}
return this[impl].isDefaultNamespace(...args);
}
insertBefore(node, child) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 2) {
throw new TypeError(
"Failed to execute 'insertBefore' on 'Node': 2 arguments required, but only " + arguments.length + " present."
);
}
const args = [];
{
let curArg = arguments[0];
curArg = module.exports.convert(curArg, { context: "Failed to execute 'insertBefore' on 'Node': parameter 1" });
args.push(curArg);
}
{
let curArg = arguments[1];
if (curArg === null || curArg === undefined) {
curArg = null;
} else {
curArg = module.exports.convert(curArg, { context: "Failed to execute 'insertBefore' on 'Node': parameter 2" });
}
args.push(curArg);
}
return utils.tryWrapperForImpl(this[impl].insertBefore(...args));
}
appendChild(node) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 1) {
throw new TypeError(
"Failed to execute 'appendChild' on 'Node': 1 argument required, but only " + arguments.length + " present."
);
}
const args = [];
{
let curArg = arguments[0];
curArg = module.exports.convert(curArg, { context: "Failed to execute 'appendChild' on 'Node': parameter 1" });
args.push(curArg);
}
return utils.tryWrapperForImpl(this[impl].appendChild(...args));
}
replaceChild(node, child) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 2) {
throw new TypeError(
"Failed to execute 'replaceChild' on 'Node': 2 arguments required, but only " + arguments.length + " present."
);
}
const args = [];
{
let curArg = arguments[0];
curArg = module.exports.convert(curArg, { context: "Failed to execute 'replaceChild' on 'Node': parameter 1" });
args.push(curArg);
}
{
let curArg = arguments[1];
curArg = module.exports.convert(curArg, { context: "Failed to execute 'replaceChild' on 'Node': parameter 2" });
args.push(curArg);
}
return utils.tryWrapperForImpl(this[impl].replaceChild(...args));
}
removeChild(child) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (arguments.length < 1) {
throw new TypeError(
"Failed to execute 'removeChild' on 'Node': 1 argument required, but only " + arguments.length + " present."
);
}
const args = [];
{
let curArg = arguments[0];
curArg = module.exports.convert(curArg, { context: "Failed to execute 'removeChild' on 'Node': parameter 1" });
args.push(curArg);
}
return utils.tryWrapperForImpl(this[impl].removeChild(...args));
}
get nodeType() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return this[impl]["nodeType"];
}
get nodeName() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return this[impl]["nodeName"];
}
get baseURI() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return this[impl]["baseURI"];
}
get isConnected() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return this[impl]["isConnected"];
}
get ownerDocument() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return utils.tryWrapperForImpl(this[impl]["ownerDocument"]);
}
get parentNode() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return utils.tryWrapperForImpl(this[impl]["parentNode"]);
}
get parentElement() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return utils.tryWrapperForImpl(this[impl]["parentElement"]);
}
get childNodes() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return utils.getSameObject(this, "childNodes", () => {
return utils.tryWrapperForImpl(this[impl]["childNodes"]);
});
}
get firstChild() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return utils.tryWrapperForImpl(this[impl]["firstChild"]);
}
get lastChild() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return utils.tryWrapperForImpl(this[impl]["lastChild"]);
}
get previousSibling() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return utils.tryWrapperForImpl(this[impl]["previousSibling"]);
}
get nextSibling() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return utils.tryWrapperForImpl(this[impl]["nextSibling"]);
}
get nodeValue() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return this[impl]["nodeValue"];
}
set nodeValue(V) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (V === null || V === undefined) {
V = null;
} else {
V = conversions["DOMString"](V, {
context: "Failed to set the 'nodeValue' property on 'Node': The provided value"
});
}
this[impl]["nodeValue"] = V;
}
get textContent() {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
return this[impl]["textContent"];
}
set textContent(V) {
if (!this || !module.exports.is(this)) {
throw new TypeError("Illegal invocation");
}
if (V === null || V === undefined) {
V = null;
} else {
V = conversions["DOMString"](V, {
context: "Failed to set the 'textContent' property on 'Node': The provided value"
});
}
this[impl]["textContent"] = V;
}
}
Object.defineProperties(Node.prototype, {
getRootNode: { enumerable: true },
hasChildNodes: { enumerable: true },
normalize: { enumerable: true },
cloneNode: { enumerable: true },
isEqualNode: { enumerable: true },
isSameNode: { enumerable: true },
compareDocumentPosition: { enumerable: true },
contains: { enumerable: true },
lookupPrefix: { enumerable: true },
lookupNamespaceURI: { enumerable: true },
isDefaultNamespace: { enumerable: true },
insertBefore: { enumerable: true },
appendChild: { enumerable: true },
replaceChild: { enumerable: true },
removeChild: { enumerable: true },
nodeType: { enumerable: true },
nodeName: { enumerable: true },
baseURI: { enumerable: true },
isConnected: { enumerable: true },
ownerDocument: { enumerable: true },
parentNode: { enumerable: true },
parentElement: { enumerable: true },
childNodes: { enumerable: true },
firstChild: { enumerable: true },
lastChild: { enumerable: true },
previousSibling: { enumerable: true },
nextSibling: { enumerable: true },
nodeValue: { enumerable: true },
textContent: { enumerable: true },
[Symbol.toStringTag]: { value: "Node", configurable: true },
ELEMENT_NODE: { value: 1, enumerable: true },
ATTRIBUTE_NODE: { value: 2, enumerable: true },
TEXT_NODE: { value: 3, enumerable: true },
CDATA_SECTION_NODE: { value: 4, enumerable: true },
ENTITY_REFERENCE_NODE: { value: 5, enumerable: true },
ENTITY_NODE: { value: 6, enumerable: true },
PROCESSING_INSTRUCTION_NODE: { value: 7, enumerable: true },
COMMENT_NODE: { value: 8, enumerable: true },
DOCUMENT_NODE: { value: 9, enumerable: true },
DOCUMENT_TYPE_NODE: { value: 10, enumerable: true },
DOCUMENT_FRAGMENT_NODE: { value: 11, enumerable: true },
NOTATION_NODE: { value: 12, enumerable: true },
DOCUMENT_POSITION_DISCONNECTED: { value: 0x01, enumerable: true },
DOCUMENT_POSITION_PRECEDING: { value: 0x02, enumerable: true },
DOCUMENT_POSITION_FOLLOWING: { value: 0x04, enumerable: true },
DOCUMENT_POSITION_CONTAINS: { value: 0x08, enumerable: true },
DOCUMENT_POSITION_CONTAINED_BY: { value: 0x10, enumerable: true },
DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC: { value: 0x20, enumerable: true }
});
Object.defineProperties(Node, {
ELEMENT_NODE: { value: 1, enumerable: true },
ATTRIBUTE_NODE: { value: 2, enumerable: true },
TEXT_NODE: { value: 3, enumerable: true },
CDATA_SECTION_NODE: { value: 4, enumerable: true },
ENTITY_REFERENCE_NODE: { value: 5, enumerable: true },
ENTITY_NODE: { value: 6, enumerable: true },
PROCESSING_INSTRUCTION_NODE: { value: 7, enumerable: true },
COMMENT_NODE: { value: 8, enumerable: true },
DOCUMENT_NODE: { value: 9, enumerable: true },
DOCUMENT_TYPE_NODE: { value: 10, enumerable: true },
DOCUMENT_FRAGMENT_NODE: { value: 11, enumerable: true },
NOTATION_NODE: { value: 12, enumerable: true },
DOCUMENT_POSITION_DISCONNECTED: { value: 0x01, enumerable: true },
DOCUMENT_POSITION_PRECEDING: { value: 0x02, enumerable: true },
DOCUMENT_POSITION_FOLLOWING: { value: 0x04, enumerable: true },
DOCUMENT_POSITION_CONTAINS: { value: 0x08, enumerable: true },
DOCUMENT_POSITION_CONTAINED_BY: { value: 0x10, enumerable: true },
DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC: { value: 0x20, enumerable: true }
});
const iface = {
// When an interface-module that implements this interface as a mixin is loaded, it will append its own `.is()`
// method into this array. It allows objects that directly implements *those* interfaces to be recognized as
// implementing this mixin interface.
_mixedIntoPredicates: [],
is(obj) {
if (obj) {
if (utils.hasOwn(obj, impl) && obj[impl] instanceof Impl.implementation) {
return true;
}
for (const isMixedInto of module.exports._mixedIntoPredicates) {
if (isMixedInto(obj)) {
return true;
}
}
}
return false;
},
isImpl(obj) {
if (obj) {
if (obj instanceof Impl.implementation) {
return true;
}
const wrapper = utils.wrapperForImpl(obj);
for (const isMixedInto of module.exports._mixedIntoPredicates) {
if (isMixedInto(wrapper)) {
return true;
}
}
}
return false;
},
convert(obj, { context = "The provided value" } = {}) {
if (module.exports.is(obj)) {
return utils.implForWrapper(obj);
}
throw new TypeError(`${context} is not of type 'Node'.`);
},
create(constructorArgs, privateData) {
let obj = Object.create(Node.prototype);
obj = this.setup(obj, constructorArgs, privateData);
return obj;
},
createImpl(constructorArgs, privateData) {
let obj = Object.create(Node.prototype);
obj = this.setup(obj, constructorArgs, privateData);
return utils.implForWrapper(obj);
},
_internalSetup(obj) {
EventTarget._internalSetup(obj);
},
setup(obj, constructorArgs, privateData) {
if (!privateData) privateData = {};
privateData.wrapper = obj;
this._internalSetup(obj);
Object.defineProperty(obj, impl, {
value: new Impl.implementation(constructorArgs, privateData),
configurable: true
});
obj[impl][utils.wrapperSymbol] = obj;
if (Impl.init) {
Impl.init(obj[impl], privateData);
}
return obj;
},
interface: Node,
expose: {
Window: { Node }
}
}; // iface
module.exports = iface;
const Impl = require("../nodes/Node-impl.js");