setup-dotnet/node_modules/xmlbuilder/lib/XMLNode.js

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2019-09-10 00:27:23 +07:00
// Generated by CoffeeScript 2.4.1
(function() {
var DocumentPosition, NodeType, XMLCData, XMLComment, XMLDeclaration, XMLDocType, XMLDummy, XMLElement, XMLNamedNodeMap, XMLNode, XMLNodeList, XMLProcessingInstruction, XMLRaw, XMLText, getValue, isEmpty, isFunction, isObject,
hasProp = {}.hasOwnProperty,
splice = [].splice;
({isObject, isFunction, isEmpty, getValue} = require('./Utility'));
XMLElement = null;
XMLCData = null;
XMLComment = null;
XMLDeclaration = null;
XMLDocType = null;
XMLRaw = null;
XMLText = null;
XMLProcessingInstruction = null;
XMLDummy = null;
NodeType = null;
XMLNodeList = null;
XMLNamedNodeMap = null;
DocumentPosition = null;
// Represents a generic XMl element
module.exports = XMLNode = (function() {
class XMLNode {
// Initializes a new instance of `XMLNode`
// `parent` the parent node
constructor(parent1) {
this.parent = parent1;
if (this.parent) {
this.options = this.parent.options;
this.stringify = this.parent.stringify;
}
this.value = null;
this.children = [];
this.baseURI = null;
// first execution, load dependencies that are otherwise
// circular (so we can't load them at the top)
if (!XMLElement) {
XMLElement = require('./XMLElement');
XMLCData = require('./XMLCData');
XMLComment = require('./XMLComment');
XMLDeclaration = require('./XMLDeclaration');
XMLDocType = require('./XMLDocType');
XMLRaw = require('./XMLRaw');
XMLText = require('./XMLText');
XMLProcessingInstruction = require('./XMLProcessingInstruction');
XMLDummy = require('./XMLDummy');
NodeType = require('./NodeType');
XMLNodeList = require('./XMLNodeList');
XMLNamedNodeMap = require('./XMLNamedNodeMap');
DocumentPosition = require('./DocumentPosition');
}
}
// Sets the parent node of this node and its children recursively
// `parent` the parent node
setParent(parent) {
var child, j, len, ref1, results;
this.parent = parent;
if (parent) {
this.options = parent.options;
this.stringify = parent.stringify;
}
ref1 = this.children;
results = [];
for (j = 0, len = ref1.length; j < len; j++) {
child = ref1[j];
results.push(child.setParent(this));
}
return results;
}
// Creates a child element node
// `name` node name or an object describing the XML tree
// `attributes` an object containing name/value pairs of attributes
// `text` element text
element(name, attributes, text) {
var childNode, item, j, k, key, lastChild, len, len1, val;
lastChild = null;
if (attributes === null && (text == null)) {
[attributes, text] = [{}, null];
}
if (attributes == null) {
attributes = {};
}
attributes = getValue(attributes);
// swap argument order: text <-> attributes
if (!isObject(attributes)) {
[text, attributes] = [attributes, text];
}
if (name != null) {
name = getValue(name);
}
// expand if array
if (Array.isArray(name)) {
for (j = 0, len = name.length; j < len; j++) {
item = name[j];
lastChild = this.element(item);
}
// evaluate if function
} else if (isFunction(name)) {
lastChild = this.element(name.apply());
// expand if object
} else if (isObject(name)) {
for (key in name) {
if (!hasProp.call(name, key)) continue;
val = name[key];
if (isFunction(val)) {
// evaluate if function
val = val.apply();
}
// assign attributes
if (!this.options.ignoreDecorators && this.stringify.convertAttKey && key.indexOf(this.stringify.convertAttKey) === 0) {
lastChild = this.attribute(key.substr(this.stringify.convertAttKey.length), val);
// skip empty arrays
} else if (!this.options.separateArrayItems && Array.isArray(val) && isEmpty(val)) {
lastChild = this.dummy();
// empty objects produce one node
} else if (isObject(val) && isEmpty(val)) {
lastChild = this.element(key);
// skip null and undefined nodes
} else if (!this.options.keepNullNodes && (val == null)) {
lastChild = this.dummy();
// expand list by creating child nodes
} else if (!this.options.separateArrayItems && Array.isArray(val)) {
for (k = 0, len1 = val.length; k < len1; k++) {
item = val[k];
childNode = {};
childNode[key] = item;
lastChild = this.element(childNode);
}
// expand child nodes under parent
} else if (isObject(val)) {
// if the key is #text expand child nodes under this node to support mixed content
if (!this.options.ignoreDecorators && this.stringify.convertTextKey && key.indexOf(this.stringify.convertTextKey) === 0) {
lastChild = this.element(val);
} else {
lastChild = this.element(key);
lastChild.element(val);
}
} else {
// text node
lastChild = this.element(key, val);
}
}
// skip null nodes
} else if (!this.options.keepNullNodes && text === null) {
lastChild = this.dummy();
} else {
// text node
if (!this.options.ignoreDecorators && this.stringify.convertTextKey && name.indexOf(this.stringify.convertTextKey) === 0) {
lastChild = this.text(text);
// cdata node
} else if (!this.options.ignoreDecorators && this.stringify.convertCDataKey && name.indexOf(this.stringify.convertCDataKey) === 0) {
lastChild = this.cdata(text);
// comment node
} else if (!this.options.ignoreDecorators && this.stringify.convertCommentKey && name.indexOf(this.stringify.convertCommentKey) === 0) {
lastChild = this.comment(text);
// raw text node
} else if (!this.options.ignoreDecorators && this.stringify.convertRawKey && name.indexOf(this.stringify.convertRawKey) === 0) {
lastChild = this.raw(text);
// processing instruction
} else if (!this.options.ignoreDecorators && this.stringify.convertPIKey && name.indexOf(this.stringify.convertPIKey) === 0) {
lastChild = this.instruction(name.substr(this.stringify.convertPIKey.length), text);
} else {
// element node
lastChild = this.node(name, attributes, text);
}
}
if (lastChild == null) {
throw new Error("Could not create any elements with: " + name + ". " + this.debugInfo());
}
return lastChild;
}
// Creates a child element node before the current node
// `name` node name or an object describing the XML tree
// `attributes` an object containing name/value pairs of attributes
// `text` element text
insertBefore(name, attributes, text) {
var child, i, newChild, refChild, removed;
// DOM level 1
// insertBefore(newChild, refChild) inserts the child node newChild before refChild
if (name != null ? name.type : void 0) {
newChild = name;
refChild = attributes;
newChild.setParent(this);
if (refChild) {
// temporarily remove children starting *with* refChild
i = children.indexOf(refChild);
removed = children.splice(i);
// add the new child
children.push(newChild);
// add back removed children after new child
Array.prototype.push.apply(children, removed);
} else {
children.push(newChild);
}
return newChild;
} else {
if (this.isRoot) {
throw new Error("Cannot insert elements at root level. " + this.debugInfo(name));
}
// temporarily remove children starting *with* this
i = this.parent.children.indexOf(this);
removed = this.parent.children.splice(i);
// add the new child
child = this.parent.element(name, attributes, text);
// add back removed children after new child
Array.prototype.push.apply(this.parent.children, removed);
return child;
}
}
// Creates a child element node after the current node
// `name` node name or an object describing the XML tree
// `attributes` an object containing name/value pairs of attributes
// `text` element text
insertAfter(name, attributes, text) {
var child, i, removed;
if (this.isRoot) {
throw new Error("Cannot insert elements at root level. " + this.debugInfo(name));
}
// temporarily remove children starting *after* this
i = this.parent.children.indexOf(this);
removed = this.parent.children.splice(i + 1);
// add the new child
child = this.parent.element(name, attributes, text);
// add back removed children after new child
Array.prototype.push.apply(this.parent.children, removed);
return child;
}
// Deletes a child element node
remove() {
var i, ref1;
if (this.isRoot) {
throw new Error("Cannot remove the root element. " + this.debugInfo());
}
i = this.parent.children.indexOf(this);
splice.apply(this.parent.children, [i, i - i + 1].concat(ref1 = [])), ref1;
return this.parent;
}
// Creates a node
// `name` name of the node
// `attributes` an object containing name/value pairs of attributes
// `text` element text
node(name, attributes, text) {
var child;
if (name != null) {
name = getValue(name);
}
attributes || (attributes = {});
attributes = getValue(attributes);
// swap argument order: text <-> attributes
if (!isObject(attributes)) {
[text, attributes] = [attributes, text];
}
child = new XMLElement(this, name, attributes);
if (text != null) {
child.text(text);
}
this.children.push(child);
return child;
}
// Creates a text node
// `value` element text
text(value) {
var child;
if (isObject(value)) {
this.element(value);
}
child = new XMLText(this, value);
this.children.push(child);
return this;
}
// Creates a CDATA node
// `value` element text without CDATA delimiters
cdata(value) {
var child;
child = new XMLCData(this, value);
this.children.push(child);
return this;
}
// Creates a comment node
// `value` comment text
comment(value) {
var child;
child = new XMLComment(this, value);
this.children.push(child);
return this;
}
// Creates a comment node before the current node
// `value` comment text
commentBefore(value) {
var child, i, removed;
// temporarily remove children starting *with* this
i = this.parent.children.indexOf(this);
removed = this.parent.children.splice(i);
// add the new child
child = this.parent.comment(value);
// add back removed children after new child
Array.prototype.push.apply(this.parent.children, removed);
return this;
}
// Creates a comment node after the current node
// `value` comment text
commentAfter(value) {
var child, i, removed;
// temporarily remove children starting *after* this
i = this.parent.children.indexOf(this);
removed = this.parent.children.splice(i + 1);
// add the new child
child = this.parent.comment(value);
// add back removed children after new child
Array.prototype.push.apply(this.parent.children, removed);
return this;
}
// Adds unescaped raw text
// `value` text
raw(value) {
var child;
child = new XMLRaw(this, value);
this.children.push(child);
return this;
}
// Adds a dummy node
dummy() {
var child;
child = new XMLDummy(this);
// Normally when a new node is created it is added to the child node collection.
// However, dummy nodes are never added to the XML tree. They are created while
// converting JS objects to XML nodes in order not to break the recursive function
// chain. They can be thought of as invisible nodes. They can be traversed through
// by using prev(), next(), up(), etc. functions but they do not exists in the tree.
// @children.push child
return child;
}
// Adds a processing instruction
// `target` instruction target
// `value` instruction value
instruction(target, value) {
var insTarget, insValue, instruction, j, len;
if (target != null) {
target = getValue(target);
}
if (value != null) {
value = getValue(value);
}
if (Array.isArray(target)) { // expand if array
for (j = 0, len = target.length; j < len; j++) {
insTarget = target[j];
this.instruction(insTarget);
}
} else if (isObject(target)) { // expand if object
for (insTarget in target) {
if (!hasProp.call(target, insTarget)) continue;
insValue = target[insTarget];
this.instruction(insTarget, insValue);
}
} else {
if (isFunction(value)) {
value = value.apply();
}
instruction = new XMLProcessingInstruction(this, target, value);
this.children.push(instruction);
}
return this;
}
// Creates a processing instruction node before the current node
// `target` instruction target
// `value` instruction value
instructionBefore(target, value) {
var child, i, removed;
// temporarily remove children starting *with* this
i = this.parent.children.indexOf(this);
removed = this.parent.children.splice(i);
// add the new child
child = this.parent.instruction(target, value);
// add back removed children after new child
Array.prototype.push.apply(this.parent.children, removed);
return this;
}
// Creates a processing instruction node after the current node
// `target` instruction target
// `value` instruction value
instructionAfter(target, value) {
var child, i, removed;
// temporarily remove children starting *after* this
i = this.parent.children.indexOf(this);
removed = this.parent.children.splice(i + 1);
// add the new child
child = this.parent.instruction(target, value);
// add back removed children after new child
Array.prototype.push.apply(this.parent.children, removed);
return this;
}
// Creates the xml declaration
// `version` A version number string, e.g. 1.0
// `encoding` Encoding declaration, e.g. UTF-8
// `standalone` standalone document declaration: true or false
declaration(version, encoding, standalone) {
var doc, xmldec;
doc = this.document();
xmldec = new XMLDeclaration(doc, version, encoding, standalone);
// Replace XML declaration if exists, otherwise insert at top
if (doc.children.length === 0) {
doc.children.unshift(xmldec);
} else if (doc.children[0].type === NodeType.Declaration) {
doc.children[0] = xmldec;
} else {
doc.children.unshift(xmldec);
}
return doc.root() || doc;
}
// Creates the document type declaration
// `pubID` the public identifier of the external subset
// `sysID` the system identifier of the external subset
dtd(pubID, sysID) {
var child, doc, doctype, i, j, k, len, len1, ref1, ref2;
doc = this.document();
doctype = new XMLDocType(doc, pubID, sysID);
ref1 = doc.children;
// Replace DTD if exists
for (i = j = 0, len = ref1.length; j < len; i = ++j) {
child = ref1[i];
if (child.type === NodeType.DocType) {
doc.children[i] = doctype;
return doctype;
}
}
ref2 = doc.children;
// insert before root node if the root node exists
for (i = k = 0, len1 = ref2.length; k < len1; i = ++k) {
child = ref2[i];
if (child.isRoot) {
doc.children.splice(i, 0, doctype);
return doctype;
}
}
// otherwise append to end
doc.children.push(doctype);
return doctype;
}
// Gets the parent node
up() {
if (this.isRoot) {
throw new Error("The root node has no parent. Use doc() if you need to get the document object.");
}
return this.parent;
}
// Gets the root node
root() {
var node;
node = this;
while (node) {
if (node.type === NodeType.Document) {
return node.rootObject;
} else if (node.isRoot) {
return node;
} else {
node = node.parent;
}
}
}
// Gets the node representing the XML document
document() {
var node;
node = this;
while (node) {
if (node.type === NodeType.Document) {
return node;
} else {
node = node.parent;
}
}
}
// Ends the document and converts string
end(options) {
return this.document().end(options);
}
// Gets the previous node
prev() {
var i;
i = this.parent.children.indexOf(this);
if (i < 1) {
throw new Error("Already at the first node. " + this.debugInfo());
}
return this.parent.children[i - 1];
}
// Gets the next node
next() {
var i;
i = this.parent.children.indexOf(this);
if (i === -1 || i === this.parent.children.length - 1) {
throw new Error("Already at the last node. " + this.debugInfo());
}
return this.parent.children[i + 1];
}
// Imports cloned root from another XML document
// `doc` the XML document to insert nodes from
importDocument(doc) {
var child, clonedRoot, j, len, ref1;
clonedRoot = doc.root().clone();
clonedRoot.parent = this;
clonedRoot.isRoot = false;
this.children.push(clonedRoot);
// set properties if imported element becomes the root node
if (this.type === NodeType.Document) {
clonedRoot.isRoot = true;
clonedRoot.documentObject = this;
this.rootObject = clonedRoot;
// set dtd name
if (this.children) {
ref1 = this.children;
for (j = 0, len = ref1.length; j < len; j++) {
child = ref1[j];
if (child.type === NodeType.DocType) {
child.name = clonedRoot.name;
break;
}
}
}
}
return this;
}
// Returns debug string for this node
debugInfo(name) {
var ref1, ref2;
name = name || this.name;
if ((name == null) && !((ref1 = this.parent) != null ? ref1.name : void 0)) {
return "";
} else if (name == null) {
return "parent: <" + this.parent.name + ">";
} else if (!((ref2 = this.parent) != null ? ref2.name : void 0)) {
return "node: <" + name + ">";
} else {
return "node: <" + name + ">, parent: <" + this.parent.name + ">";
}
}
// Aliases
ele(name, attributes, text) {
return this.element(name, attributes, text);
}
nod(name, attributes, text) {
return this.node(name, attributes, text);
}
txt(value) {
return this.text(value);
}
dat(value) {
return this.cdata(value);
}
com(value) {
return this.comment(value);
}
ins(target, value) {
return this.instruction(target, value);
}
doc() {
return this.document();
}
dec(version, encoding, standalone) {
return this.declaration(version, encoding, standalone);
}
e(name, attributes, text) {
return this.element(name, attributes, text);
}
n(name, attributes, text) {
return this.node(name, attributes, text);
}
t(value) {
return this.text(value);
}
d(value) {
return this.cdata(value);
}
c(value) {
return this.comment(value);
}
r(value) {
return this.raw(value);
}
i(target, value) {
return this.instruction(target, value);
}
u() {
return this.up();
}
// can be deprecated in a future release
importXMLBuilder(doc) {
return this.importDocument(doc);
}
// Adds or modifies an attribute.
// `name` attribute name
// `value` attribute value
attribute(name, value) {
throw new Error("attribute() applies to element nodes only.");
}
att(name, value) {
return this.attribute(name, value);
}
a(name, value) {
return this.attribute(name, value);
}
// Removes an attribute
// `name` attribute name
removeAttribute(name) {
throw new Error("attribute() applies to element nodes only.");
}
// DOM level 1 functions to be implemented later
replaceChild(newChild, oldChild) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
removeChild(oldChild) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
appendChild(newChild) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
hasChildNodes() {
return this.children.length !== 0;
}
cloneNode(deep) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
normalize() {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
// DOM level 2
isSupported(feature, version) {
return true;
}
hasAttributes() {
return this.attribs.length !== 0;
}
// DOM level 3 functions to be implemented later
compareDocumentPosition(other) {
var ref, res;
ref = this;
if (ref === other) {
return 0;
} else if (this.document() !== other.document()) {
res = DocumentPosition.Disconnected | DocumentPosition.ImplementationSpecific;
if (Math.random() < 0.5) {
res |= DocumentPosition.Preceding;
} else {
res |= DocumentPosition.Following;
}
return res;
} else if (ref.isAncestor(other)) {
return DocumentPosition.Contains | DocumentPosition.Preceding;
} else if (ref.isDescendant(other)) {
return DocumentPosition.Contains | DocumentPosition.Following;
} else if (ref.isPreceding(other)) {
return DocumentPosition.Preceding;
} else {
return DocumentPosition.Following;
}
}
isSameNode(other) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
lookupPrefix(namespaceURI) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
isDefaultNamespace(namespaceURI) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
lookupNamespaceURI(prefix) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
isEqualNode(node) {
var i, j, ref1;
if (node.nodeType !== this.nodeType) {
return false;
}
if (node.children.length !== this.children.length) {
return false;
}
for (i = j = 0, ref1 = this.children.length - 1; (0 <= ref1 ? j <= ref1 : j >= ref1); i = 0 <= ref1 ? ++j : --j) {
if (!this.children[i].isEqualNode(node.children[i])) {
return false;
}
}
return true;
}
getFeature(feature, version) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
setUserData(key, data, handler) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
getUserData(key) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
// Returns true if other is an inclusive descendant of node,
// and false otherwise.
contains(other) {
if (!other) {
return false;
}
return other === this || this.isDescendant(other);
}
// An object A is called a descendant of an object B, if either A is
// a child of B or A is a child of an object C that is a descendant of B.
isDescendant(node) {
var child, isDescendantChild, j, len, ref1;
ref1 = this.children;
for (j = 0, len = ref1.length; j < len; j++) {
child = ref1[j];
if (node === child) {
return true;
}
isDescendantChild = child.isDescendant(node);
if (isDescendantChild) {
return true;
}
}
return false;
}
// An object A is called an ancestor of an object B if and only if
// B is a descendant of A.
isAncestor(node) {
return node.isDescendant(this);
}
// An object A is preceding an object B if A and B are in the
// same tree and A comes before B in tree order.
isPreceding(node) {
var nodePos, thisPos;
nodePos = this.treePosition(node);
thisPos = this.treePosition(this);
if (nodePos === -1 || thisPos === -1) {
return false;
} else {
return nodePos < thisPos;
}
}
// An object A is folllowing an object B if A and B are in the
// same tree and A comes after B in tree order.
isFollowing(node) {
var nodePos, thisPos;
nodePos = this.treePosition(node);
thisPos = this.treePosition(this);
if (nodePos === -1 || thisPos === -1) {
return false;
} else {
return nodePos > thisPos;
}
}
// Returns the preorder position of the given node in the tree, or -1
// if the node is not in the tree.
treePosition(node) {
var found, pos;
pos = 0;
found = false;
this.foreachTreeNode(this.document(), function(childNode) {
pos++;
if (!found && childNode === node) {
return found = true;
}
});
if (found) {
return pos;
} else {
return -1;
}
}
// Depth-first preorder traversal through the XML tree
foreachTreeNode(node, func) {
var child, j, len, ref1, res;
node || (node = this.document());
ref1 = node.children;
for (j = 0, len = ref1.length; j < len; j++) {
child = ref1[j];
if (res = func(child)) {
return res;
} else {
res = this.foreachTreeNode(child, func);
if (res) {
return res;
}
}
}
}
};
// DOM level 1
Object.defineProperty(XMLNode.prototype, 'nodeName', {
get: function() {
return this.name;
}
});
Object.defineProperty(XMLNode.prototype, 'nodeType', {
get: function() {
return this.type;
}
});
Object.defineProperty(XMLNode.prototype, 'nodeValue', {
get: function() {
return this.value;
}
});
Object.defineProperty(XMLNode.prototype, 'parentNode', {
get: function() {
return this.parent;
}
});
Object.defineProperty(XMLNode.prototype, 'childNodes', {
get: function() {
if (!this.childNodeList || !this.childNodeList.nodes) {
this.childNodeList = new XMLNodeList(this.children);
}
return this.childNodeList;
}
});
Object.defineProperty(XMLNode.prototype, 'firstChild', {
get: function() {
return this.children[0] || null;
}
});
Object.defineProperty(XMLNode.prototype, 'lastChild', {
get: function() {
return this.children[this.children.length - 1] || null;
}
});
Object.defineProperty(XMLNode.prototype, 'previousSibling', {
get: function() {
var i;
i = this.parent.children.indexOf(this);
return this.parent.children[i - 1] || null;
}
});
Object.defineProperty(XMLNode.prototype, 'nextSibling', {
get: function() {
var i;
i = this.parent.children.indexOf(this);
return this.parent.children[i + 1] || null;
}
});
Object.defineProperty(XMLNode.prototype, 'ownerDocument', {
get: function() {
return this.document() || null;
}
});
// DOM level 3
Object.defineProperty(XMLNode.prototype, 'textContent', {
get: function() {
var child, j, len, ref1, str;
if (this.nodeType === NodeType.Element || this.nodeType === NodeType.DocumentFragment) {
str = '';
ref1 = this.children;
for (j = 0, len = ref1.length; j < len; j++) {
child = ref1[j];
if (child.textContent) {
str += child.textContent;
}
}
return str;
} else {
return null;
}
},
set: function(value) {
throw new Error("This DOM method is not implemented." + this.debugInfo());
}
});
return XMLNode;
}).call(this);
}).call(this);