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/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */
/* vim: set ft=javascript ts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
"use strict";
const Cu = Components.utils;
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
Cu.import("resource:///modules/devtools/ViewHelpers.jsm");
Cu.import("resource://gre/modules/devtools/event-emitter.js");
XPCOMUtils.defineLazyModuleGetter(this, "console", "resource://gre/modules/devtools/Console.jsm");
this.EXPORTED_SYMBOLS = ["AbstractTreeItem"];
/**
* A very generic and low-level tree view implementation. It is not intended
* to be used alone, but as a base class that you can extend to build your
* own custom implementation.
*
* Language:
* - An "item" is an instance of an AbstractTreeItem.
* - An "element" or "node" is an nsIDOMNode.
*
* The following events are emitted by this tree, always from the root item,
* with the first argument pointing to the affected child item:
* - "expand": when an item is expanded in the tree
* - "collapse": when an item is collapsed in the tree
* - "focus": when an item is selected in the tree
*
* For example, you can extend this abstract class like this:
*
* function MyCustomTreeItem(dataSrc, properties) {
* AbstractTreeItem.call(this, properties);
* this.itemDataSrc = dataSrc;
* }
*
* MyCustomTreeItem.prototype = Heritage.extend(AbstractTreeItem.prototype, {
* _displaySelf: function(document, arrowNode) {
* let node = document.createElement("hbox");
* ...
* // Append the provided arrow node wherever you want.
* node.appendChild(arrowNode);
* ...
* // Use `this.itemDataSrc` to customize the tree item and
* // `this.level` to calculate the indentation.
* node.MozMarginStart = (this.level * 10) + "px";
* node.appendChild(document.createTextNode(this.itemDataSrc.label));
* ...
* return node;
* },
* _populateSelf: function(children) {
* ...
* // Use `this.itemDataSrc` to get the data source for the child items.
* let someChildDataSrc = this.itemDataSrc.children[0];
* ...
* children.push(new MyCustomTreeItem(someChildDataSrc, {
* parent: this,
* level: this.level + 1
* }));
* ...
* }
* });
*
* And then you could use it like this:
*
* let dataSrc = {
* label: "root",
* children: [{
* label: "foo",
* children: []
* }, {
* label: "bar",
* children: [{
* label: "baz",
* children: []
* }]
* }]
* };
* let root = new MyCustomTreeItem(dataSrc, { parent: null });
* root.attachTo(nsIDOMNode);
* root.expand();
*
* The following tree view will be generated (after expanding all nodes):
* ▼ root
* ▶ foo
* ▼ bar
* ▶ baz
*
* The way the data source is implemented is completely up to you. There's
* no assumptions made and you can use it however you like inside the
* `_displaySelf` and `populateSelf` methods. If you need to add children to a
* node at a later date, you just need to modify the data source:
*
* dataSrc[...path-to-foo...].children.push({
* label: "lazily-added-node"
* children: []
* });
*
* The existing tree view will be modified like so (after expanding `foo`):
* ▼ root
* ▼ foo
* ▶ lazily-added-node
* ▼ bar
* ▶ baz
*
* Everything else is taken care of automagically!
*
* @param AbstractTreeItem parent
* The parent tree item. Should be null for root items.
* @param number level
* The indentation level in the tree. The root item is at level 0.
*/
function AbstractTreeItem({ parent, level }) {
this._rootItem = parent ? parent._rootItem : this;
this._parentItem = parent;
this._level = level || 0;
this._childTreeItems = [];
this._onArrowClick = this._onArrowClick.bind(this);
this._onClick = this._onClick.bind(this);
this._onDoubleClick = this._onDoubleClick.bind(this);
this._onKeyPress = this._onKeyPress.bind(this);
this._onFocus = this._onFocus.bind(this);
EventEmitter.decorate(this);
}
AbstractTreeItem.prototype = {
_containerNode: null,
_targetNode: null,
_arrowNode: null,
_constructed: false,
_populated: false,
_expanded: false,
/**
* Optionally, trees may be allowed to automatically expand a few levels deep
* to avoid initially displaying a completely collapsed tree.
*/
autoExpandDepth: 0,
/**
* Creates the view for this tree item. Implement this method in the
* inheriting classes to create the child node displayed in the tree.
* Use `this.level` and the provided `arrowNode` as you see fit.
*
* @param nsIDOMNode document
* @param nsIDOMNode arrowNode
* @return nsIDOMNode
*/
_displaySelf: function(document, arrowNode) {
throw "This method needs to be implemented by inheriting classes.";
},
/**
* Populates this tree item with child items, whenever it's expanded.
* Implement this method in the inheriting classes to fill the provided
* `children` array with AbstractTreeItem instances, which will then be
* magically handled by this tree item.
*
* @param array:AbstractTreeItem children
*/
_populateSelf: function(children) {
throw "This method needs to be implemented by inheriting classes.";
},
/**
* Gets the root item of this tree.
* @return AbstractTreeItem
*/
get root() {
return this._rootItem;
},
/**
* Gets the parent of this tree item.
* @return AbstractTreeItem
*/
get parent() {
return this._parentItem;
},
/**
* Gets the indentation level of this tree item.
*/
get level() {
return this._level;
},
/**
* Gets the element displaying this tree item.
*/
get target() {
return this._targetNode;
},
/**
* Gets the element containing all tree items.
* @return nsIDOMNode
*/
get container() {
return this._containerNode;
},
/**
* Returns whether or not this item is populated in the tree.
* Collapsed items can still be populated.
* @return boolean
*/
get populated() {
return this._populated;
},
/**
* Returns whether or not this item is expanded in the tree.
* Expanded items with no children aren't consudered `populated`.
* @return boolean
*/
get expanded() {
return this._expanded;
},
/**
* Creates and appends this tree item to the specified parent element.
*
* @param nsIDOMNode containerNode
* The parent element for this tree item (and every other tree item).
* @param nsIDOMNode beforeNode
* The child element which should succeed this tree item.
*/
attachTo: function(containerNode, beforeNode = null) {
this._containerNode = containerNode;
this._constructTargetNode();
containerNode.insertBefore(this._targetNode, beforeNode);
if (this._level < this.autoExpandDepth) {
this.expand();
}
},
/**
* Permanently removes this tree item (and all subsequent children) from the
* parent container.
*/
remove: function() {
this._targetNode.remove();
this._hideChildren();
this._childTreeItems.length = 0;
},
/**
* Focuses this item in the tree.
*/
focus: function() {
this._targetNode.focus();
},
/**
* Expands this item in the tree.
*/
expand: function() {
if (this._expanded) {
return;
}
this._expanded = true;
this._arrowNode.setAttribute("open", "");
this._toggleChildren(true);
this._rootItem.emit("expand", this);
},
/**
* Collapses this item in the tree.
*/
collapse: function() {
if (!this._expanded) {
return;
}
this._expanded = false;
this._arrowNode.removeAttribute("open");
this._toggleChildren(false);
this._rootItem.emit("collapse", this);
},
/**
* Returns the child item at the specified index.
*
* @param number index
* @return AbstractTreeItem
*/
getChild: function(index = 0) {
return this._childTreeItems[index];
},
/**
* Shows or hides all the children of this item in the tree. If neessary,
* populates this item with children.
*
* @param boolean visible
* True if the children should be visible, false otherwise.
*/
_toggleChildren: function(visible) {
if (visible) {
if (!this._populated) {
this._populateSelf(this._childTreeItems);
this._populated = this._childTreeItems.length > 0;
}
this._showChildren();
} else {
this._hideChildren();
}
},
/**
* Shows all children of this item in the tree.
*/
_showChildren: function() {
let childTreeItems = this._childTreeItems;
let expandedChildTreeItems = childTreeItems.filter(e => e._expanded);
let nextNode = this._getSiblingAtDelta(1);
// First append the child items, and afterwards append any descendants.
// Otherwise, the tree will become garbled and nodes will intertwine.
for (let item of childTreeItems) {
item.attachTo(this._containerNode, nextNode);
}
for (let item of expandedChildTreeItems) {
item._showChildren();
}
},
/**
* Hides all children of this item in the tree.
*/
_hideChildren: function() {
for (let item of this._childTreeItems) {
item._targetNode.remove();
item._hideChildren();
}
},
/**
* Constructs and stores the target node displaying this tree item.
*/
_constructTargetNode: function() {
if (this._constructed) {
return;
}
let document = this._containerNode.ownerDocument;
let arrowNode = this._arrowNode = document.createElement("hbox");
arrowNode.className = "arrow theme-twisty";
arrowNode.addEventListener("mousedown", this._onArrowClick);
let targetNode = this._targetNode = this._displaySelf(document, arrowNode);
targetNode.style.MozUserFocus = "normal";
targetNode.addEventListener("mousedown", this._onClick);
targetNode.addEventListener("dblclick", this._onDoubleClick);
targetNode.addEventListener("keypress", this._onKeyPress);
targetNode.addEventListener("focus", this._onFocus);
this._constructed = true;
},
/**
* Gets the element displaying an item in the tree at the specified offset
* relative to this item.
*
* @param number delta
* The offset from this item to the target item.
* @return nsIDOMNode
* The element displaying the target item at the specified offset.
*/
_getSiblingAtDelta: function(delta) {
let childNodes = this._containerNode.childNodes;
let indexOfSelf = Array.indexOf(childNodes, this._targetNode);
return childNodes[indexOfSelf + delta];
},
/**
* Focuses the next item in this tree.
*/
_focusNextNode: function() {
let nextElement = this._getSiblingAtDelta(1);
if (nextElement) nextElement.focus(); // nsIDOMNode
},
/**
* Focuses the previous item in this tree.
*/
_focusPrevNode: function() {
let prevElement = this._getSiblingAtDelta(-1);
if (prevElement) prevElement.focus(); // nsIDOMNode
},
/**
* Focuses the parent item in this tree.
*
* The parent item is not always the previous item, because any tree item
* may have multiple children.
*/
_focusParentNode: function() {
let parentItem = this._parentItem;
if (parentItem) parentItem.focus(); // AbstractTreeItem
},
/**
* Handler for the "click" event on the arrow node of this tree item.
*/
_onArrowClick: function(e) {
if (!this._expanded) {
this.expand();
} else {
this.collapse();
}
},
/**
* Handler for the "click" event on the element displaying this tree item.
*/
_onClick: function(e) {
e.preventDefault();
e.stopPropagation();
this.focus();
},
/**
* Handler for the "dblclick" event on the element displaying this tree item.
*/
_onDoubleClick: function(e) {
// Ignore dblclick on the arrow as it has already recived and handled two
// click events.
if (!e.target.classList.contains("arrow")) {
this._onArrowClick(e);
}
this.focus();
},
/**
* Handler for the "keypress" event on the element displaying this tree item.
*/
_onKeyPress: function(e) {
// Prevent scrolling when pressing navigation keys.
ViewHelpers.preventScrolling(e);
switch (e.keyCode) {
case e.DOM_VK_UP:
this._focusPrevNode();
return;
case e.DOM_VK_DOWN:
this._focusNextNode();
return;
case e.DOM_VK_LEFT:
if (this._expanded && this._populated) {
this.collapse();
} else {
this._focusParentNode();
}
return;
case e.DOM_VK_RIGHT:
if (!this._expanded) {
this.expand();
} else {
this._focusNextNode();
}
return;
}
},
/**
* Handler for the "focus" event on the element displaying this tree item.
*/
_onFocus: function(e) {
this._rootItem.emit("focus", this);
}
};
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