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mirror of https://github.com/Jermolene/TiddlyWiki5 synced 2024-11-24 10:37:20 +00:00
TiddlyWiki5/js/Renderer.js

573 lines
15 KiB
JavaScript

/*\
title: js/Renderer.js
Renderer objects encapsulate a tree of nodes that are capable of rendering and selectively updating an
HTML representation of themselves. The following node types are defined:
* ''MacroNode'' - represents an invocation of a macro
* ''ElementNode'' - represents a single HTML element
* ''TextNode'' - represents an HTML text node
* ''EntityNode'' - represents an HTML entity node
* ''RawNode'' - represents a chunk of unparsed HTML text
These node types are implemented with prototypal inheritance from a base Node class. One
unusual convenience in the implementation is that the node constructors can be called without an explicit
`new` keyword: the constructors check for `this` not being an instance of themselves, and recursively invoke
themselves with `new` when required.
Convenience functions are provided to wrap up the construction of some common interface elements:
* ''ErrorNode''
* ''LabelNode''
* ''SplitLabelNode''
\*/
(function(){
/*jshint node: true, browser: true */
"use strict";
var utils = require("./Utils.js"),
ArgParser = require("./ArgParser.js").ArgParser,
Dependencies = require("./Dependencies.js").Dependencies,
esprima = require("esprima");
/*
Intialise the renderer object
nodes: an array of Node objects
dependencies: an optional Dependencies object
store: a reference to the WikiStore object to use for rendering these nodes
*/
var Renderer = function(nodes,dependencies,store) {
this.nodes = nodes;
this.dependencies = dependencies;
this.store = store;
};
/*
The base class for all types of renderer nodes
*/
var Node = function(children) {
if(this instanceof Node) {
this.children = children;
} else {
return new Node(children);
}
};
Node.prototype.clone = function() {
// By default we don't actually clone nodes, we just re-use them (we do clone macros and elements)
return this;
};
Node.prototype.broadcastEvent = function(event) {
return true;
};
Node.prototype.execute =
Node.prototype.render =
Node.prototype.renderInDom =
Node.prototype.refresh =
Node.prototype.refreshInDom = function() {
// All these methods are no-ops by default
};
/*
Construct a renderer node representing a macro invocation
macroName: name of the macro
srcParams: a hashmap of parameters (each can be a string, or a fn(tiddler,store,utils) for evaluated parameters)
children: optional array of child nodes
store: reference to the WikiStore associated with this macro
dependencies: optional Dependencies object representing the dependencies of this macro
Note that the dependencies will be evaluated if not provided.
*/
var MacroNode = function(macroName,srcParams,children,store,dependencies) {
if(this instanceof MacroNode) {
// Save the details
this.macroName = macroName;
this.macro = store.macros[macroName];
this.children = children;
this.store = store;
this.srcParams = typeof srcParams === "string" ? this.parseMacroParamString(srcParams) : srcParams;
// Evaluate the dependencies if required
this.dependencies = dependencies ? dependencies : this.evaluateDependencies();
} else {
return new MacroNode(macroName,srcParams,children,store,dependencies);
}
};
MacroNode.prototype = new Node();
MacroNode.prototype.constructor = MacroNode;
/*
Evaluate the dependencies of this macro invocation. If the macro provides an `evaluateDependencies` method
then it is invoked to evaluate the dependencies. Otherwise it generates the dependencies based on the
macro parameters provided
*/
MacroNode.prototype.evaluateDependencies = function() {
if(this.srcParams && this.macro) {
if(this.macro.evaluateDependencies) {
// Call the evaluateDependencies method if the macro provides it
return this.macro.evaluateDependencies.call(this);
} else {
// Figure out the dependencies from the metadata and parameters
var dependencies = new Dependencies();
if(this.macro.dependentAll) {
dependencies.dependentAll = true;
}
if(this.macro.dependentOnContextTiddler) {
dependencies.dependentOnContextTiddler = true;
}
for(var m in this.macro.params) {
var paramInfo = this.macro.params[m];
if(m in this.srcParams && paramInfo.type === "tiddler") {
if(typeof this.srcParams[m] === "function") {
dependencies.dependentAll = true;
} else {
dependencies.addDependency(this.srcParams[m],!paramInfo.skinny);
}
}
}
return dependencies;
}
}
};
MacroNode.prototype.parseMacroParamString = function(paramString) {
/*jslint evil: true */
var params = {},
args = new ArgParser(paramString,{defaultName: "anon", cascadeDefaults: this.macro.cascadeDefaults}),
self = this,
insertParam = function(name,arg) {
if(arg.evaluated) {
params[name] = eval(esprima.generate( // (function(tiddler,store,utils) {return {paramOne: 1};})
{
"type": "Program",
"body": [
{
"type": "ExpressionStatement",
"expression": {
"type": "FunctionExpression",
"id": null,
"params": [
{
"type": "Identifier",
"name": "tiddler"
},
{
"type": "Identifier",
"name": "store"
},
{
"type": "Identifier",
"name": "utils"
}
],
"body": {
"type": "BlockStatement",
"body": [
{
"type": "ReturnStatement",
"argument": esprima.parse("(" + arg.string + ")").body[0].expression
}
]
}
}
}
]
}
));
} else {
params[name] = arg.string;
}
};
for(var m in this.macro.params) {
var param = this.macro.params[m],
arg;
if("byPos" in param && args.byPos[param.byPos] && (args.byPos[param.byPos].n === "anon" || args.byPos[param.byPos].n === m)) {
arg = args.byPos[param.byPos].v;
insertParam(m,arg);
} else {
arg = args.getValueByName(m);
if(!arg && param.byName === "default") {
arg = args.getValueByName("anon");
}
if(arg) {
insertParam(m,arg);
}
}
}
return params;
};
MacroNode.prototype.hasParameter = function(name) {
return this.params.hasOwnProperty(name);
};
MacroNode.prototype.clone = function() {
return new MacroNode(this.macroName,this.srcParams,this.cloneChildren(),this.store,this.dependencies);
};
MacroNode.prototype.cloneChildren = function() {
var childClones;
if(this.children) {
childClones = [];
for(var t=0; t<this.children.length; t++) {
childClones.push(this.children[t].clone());
}
}
return childClones;
};
MacroNode.prototype.execute = function(parents,tiddlerTitle) {
// Evaluate macro parameters to get their values
this.params = {};
var tiddler = this.store.getTiddler(tiddlerTitle);
if(!tiddler) {
tiddler = {title: tiddlerTitle};
}
for(var p in this.srcParams) {
if(typeof this.srcParams[p] === "function") {
this.params[p] = this.srcParams[p](tiddler,this.store,utils);
} else {
this.params[p] = this.srcParams[p];
}
}
// Save the context tiddler
this.tiddlerTitle = tiddlerTitle;
// Save a reference to the array of parents
this.parents = parents || [];
// Render the macro to get its content
this.content = this.macro.execute.call(this);
};
MacroNode.prototype.render = function(type) {
var output = [];
for(var t=0; t<this.content.length; t++) {
output.push(this.content[t].render(type));
}
return output.join("");
};
MacroNode.prototype.renderInDom = function(parentDomNode,insertBefore) {
// Create the wrapper node for the macro
var macroContainer = document.createElement(this.macro.wrapperTag || "span");
this.domNode = macroContainer;
if(insertBefore) {
parentDomNode.insertBefore(macroContainer,insertBefore);
} else {
parentDomNode.appendChild(macroContainer);
}
// Add some debugging information to it
macroContainer.setAttribute("data-tw-macro",this.macroName);
// Add event handlers to the node
for(var e in this.macro.events) {
// Register this macro node to handle the event via the handleEvent() method
macroContainer.addEventListener(e,this,false);
}
// Render the content of the macro
for(var t=0; t<this.content.length; t++) {
this.content[t].renderInDom(macroContainer);
}
};
MacroNode.prototype.refresh = function(changes) {
var t,
self = this;
// Check if any of the dependencies of this macro node have changed
if(this.dependencies.hasChanged(changes,this.tiddlerTitle)) {
// Re-execute the macro if so
this.execute(this.parents,this.tiddlerTitle);
} else {
// Refresh any children
for(t=0; t<this.content.length; t++) {
this.content[t].refresh(changes);
}
}
};
MacroNode.prototype.refreshInDom = function(changes) {
var t,
self = this;
// Check if any of the dependencies of this macro node have changed
if(this.dependencies.hasChanged(changes,this.tiddlerTitle)) {
// Ask the macro to rerender itself if it can
if(this.macro.refreshInDom) {
this.macro.refreshInDom.call(this,changes);
} else {
// Manually reexecute and rerender this macro
while(this.domNode.hasChildNodes()) {
this.domNode.removeChild(this.domNode.firstChild);
}
this.execute(this.parents,this.tiddlerTitle);
for(t=0; t<this.content.length; t++) {
this.content[t].renderInDom(this.domNode);
}
}
} else {
// Refresh any children
for(t=0; t<this.content.length; t++) {
this.content[t].refreshInDom(changes);
}
}
};
MacroNode.prototype.handleEvent = function(event) {
return this.macro.events[event.type].call(this,event);
};
MacroNode.prototype.broadcastEvent = function(event) {
if(this.macro.events && this.macro.events.hasOwnProperty(event.type)) {
if(!this.handleEvent(event)) {
return false;
}
}
if(this.content) {
for(var t=0; t<this.content.length; t++) {
if(!this.content[t].broadcastEvent(event)) {
return false;
}
}
}
return true;
};
var ElementNode = function(type,attributes,children) {
if(this instanceof ElementNode) {
this.type = type;
this.attributes = attributes;
this.children = children;
} else {
return new ElementNode(type,attributes,children);
}
};
ElementNode.prototype = new Node();
ElementNode.prototype.constructor = ElementNode;
ElementNode.prototype.clone = function() {
var childClones;
if(this.children) {
childClones = [];
for(var t=0; t<this.children.length; t++) {
childClones.push(this.children[t].clone());
}
}
return new ElementNode(this.type,this.attributes,childClones);
};
ElementNode.prototype.execute = function(parents,tiddlerTitle) {
if(this.children) {
for(var t=0; t<this.children.length; t++) {
this.children[t].execute(parents,tiddlerTitle);
}
}
};
ElementNode.prototype.render = function(type) {
var isHtml = type === "text/html",
output = [];
if(isHtml) {
output.push("<",this.type);
if(this.attributes) {
for(var a in this.attributes) {
var v = this.attributes[a];
if(v !== undefined) {
if(v instanceof Array) {
v = v.join(" ");
} else if(typeof v === "object") {
var s = [];
for(var p in v) {
s.push(p + ":" + v[p] + ";");
}
v = s.join("");
}
output.push(" ",a,"='",utils.htmlEncode(v),"'");
}
}
}
output.push(">");
}
if(this.children) {
for(var t=0; t<this.children.length; t++) {
output.push(this.children[t].render(type));
}
if(isHtml) {
output.push("</",this.type,">");
}
}
return output.join("");
};
ElementNode.prototype.renderInDom = function(parentDomNode,insertBefore) {
var element = document.createElement(this.type);
if(this.attributes) {
for(var a in this.attributes) {
var v = this.attributes[a];
if(v !== undefined) {
if(v instanceof Array) { // Ahem, could there be arrays other than className?
element.className = v.join(" ");
} else if (typeof v === "object") { // ...or objects other than style?
for(var p in v) {
element.style[p] = v[p];
}
} else {
element.setAttribute(a,v);
}
}
}
}
if(insertBefore) {
parentDomNode.insertBefore(element,insertBefore);
} else {
parentDomNode.appendChild(element);
}
this.domNode = element;
if(this.children) {
for(var t=0; t<this.children.length; t++) {
this.children[t].renderInDom(element);
}
}
};
ElementNode.prototype.refresh = function(changes) {
if(this.children) {
for(var t=0; t<this.children.length; t++) {
this.children[t].refresh(changes);
}
}
};
ElementNode.prototype.refreshInDom = function(changes) {
if(this.children) {
for(var t=0; t<this.children.length; t++) {
this.children[t].refreshInDom(changes);
}
}
};
ElementNode.prototype.broadcastEvent = function(event) {
if(this.children) {
for(var t=0; t<this.children.length; t++) {
if(!this.children[t].broadcastEvent(event)) {
return false;
}
}
}
return true;
};
var TextNode = function(text) {
if(this instanceof TextNode) {
this.text = text;
} else {
return new TextNode(text);
}
};
TextNode.prototype = new Node();
TextNode.prototype.constructor = TextNode;
TextNode.prototype.render = function(type) {
return type === "text/html" ? utils.htmlEncode(this.text) : this.text;
};
TextNode.prototype.renderInDom = function(domNode) {
this.domNode = document.createTextNode(this.text);
domNode.appendChild(this.domNode);
};
var EntityNode = function(entity) {
if(this instanceof EntityNode) {
this.entity = entity;
} else {
return new EntityNode(entity);
}
};
EntityNode.prototype = new Node();
EntityNode.prototype.constructor = EntityNode;
EntityNode.prototype.render = function(type) {
return type === "text/html" ? this.entity : utils.entityDecode(this.entity);
};
EntityNode.prototype.renderInDom = function(domNode) {
this.domNode = document.createTextNode(utils.entityDecode(this.entity));
domNode.appendChild(this.domNode);
};
var RawNode = function(html) {
if(this instanceof RawNode) {
this.html = html;
} else {
return new RawNode(html);
}
};
RawNode.prototype = new Node();
RawNode.prototype.constructor = RawNode;
RawNode.prototype.render = function(type) {
return this.html;
};
RawNode.prototype.renderInDom = function(domNode) {
this.domNode = document.createElement("div");
this.domNode.innerHTML = this.html;
domNode.appendChild(this.domNode);
};
/*
Static method to construct an error message
*/
var ErrorNode = function(text) {
return new ElementNode("span",{
"class": ["label","label-important"]
},[
new TextNode(text)
]);
};
/*
Static method to construct a label
*/
var LabelNode = function(type,value,classes) {
classes = (classes || []).slice(0);
classes.push("label");
return new ElementNode("span",{
"class": classes,
"data-tw-label-type": type
},value);
};
/*
Static method to construct a split label
*/
var SplitLabelNode = function(type,left,right,classes) {
classes = (classes || []).slice(0);
classes.push("splitLabel");
return new ElementNode("span",{
"class": classes
},[
new ElementNode("span",{
"class": ["splitLabelLeft"],
"data-tw-label-type": type
},left),
new ElementNode("span",{
"class": ["splitLabelRight"]
},right)
]);
};
Renderer.MacroNode = MacroNode;
Renderer.ElementNode = ElementNode;
Renderer.TextNode = TextNode;
Renderer.EntityNode = EntityNode;
Renderer.ErrorNode = ErrorNode;
Renderer.LabelNode = LabelNode;
Renderer.SplitLabelNode = SplitLabelNode;
exports.Renderer = Renderer;
})();