/********************************************************************** * * * **********************************************************************/ (typeof(define)[0]=='u'?function(f){module.exports=f(require)}:define)( function(require){ var module={} // makes module AMD/node compatible... /*********************************************************************/ var args2array = require('lib/util').args2array var object = require('lib/object') /*********************************************************************/ // Actions // // Actions are an extension to the JavaScript object model tailored for // a set of specific tasks. // // Goals: // - provide a unified mechanism to define and manage user API's for // use in UI-hooks, keyboard mappings, scripting, ... etc. // - a means to generate configuration UI's // - a means to generate documentation // // // The main entities: // // Action set // - an object containing a number of actions, // - optionally, directly or indirectly inherited from MetaActions // and/or other action sets, // - the action handlers are bound relative to it (._action_handlers) // // Action // // + pre + pre + + post + post + // Action event handler: o-------x o-------x // v ^ // Actions o-------x o-------x // v ^ // Root Action o---|---x // // - a method, created by Action(..), // - calls all the shadowed/overloaded actions in the inheritance // chain in sequence implicitly, // NOTE: there is no way to prevent an action in the chain from // running, this is by design, i.e. no way to fully shadow. // - actions that do not shadow anything are called root actions. // - returns the action set by default (for call chaining), // - the base/root action can return any value. // NOTE: if undefined is returned, it will be replaced by the // action context/action set. // NOTE: there is no distinction between root and other actions // other than that root action's return values are not // ignored. // - can consist of two parts: the first is called before the // shadowed action (pre-callback) and the second after (post-callback). // - post-callback has access to the return value and can modify it // but not replace it. // - can be bound to, a-la an event, calling the handlers when it is // called, // // Action (event) handler // - a function, // - can be bound to run before and/or after the action itself, // - is local to an action set it was bound via, // - when an action is triggered from an action set, all the pre // handlers in its inheritance chain will be called before the // respective actions they are bound to and all the post handlers // are called directly after. // - pre handlers are passed the same arguments the original actions // got when it was called. // - post action handlers will get the root action result as first // argument succeeded by the action arguments. // // // // The action system main protocols: // // 1) Documentation generation and introspection (MetaActions) // // .toString() // -> code of original action function // // .getDoc() // .getDoc([, ..]) // -> dict of action-name, doc // // .a.getHandlerDocStr() // -> formated string of action handlers // // .actions // -> list of action names // // .length // -> number of actions // // // 2) Event-like callbacks for actions (MetaActions, Action) // // .on('action', function(){ ... }) // .on('action.post', function(){ ... }) // // .on('action.pre', function(){ ... }) // // // 3) A mechanism to define and extend already defined actions // This replaces / complements the standard JavaScript overloading // mechanisms (Action, Actions) // // // Actions... // var X = Actions({ // m: [function(){ console.log('m') }] // }) // var O = Actions(X, { // m: [function(){ // console.log('pre') // return function(res){ // console.log('post') // } // }] // }) // // NOTE: what is done here is similar to calling O.__proto__.m.call(..) // but is implicit, and not dependant on the original containing // object name/reference ('O'), thus enabling an action to be // referenced and called from any object and still chain correctly. // // // // Secondary action protocols: // // 1) A mechanism to manually call the pre/post stages of an action // // Pre phase... // .pre() // .pre(, [, ..]) // -> // // Post phase... // .post(, ) // -> // // This is internally used to implement the action call as well as the // chaining callbacks (see below). // // All action protocol details apply. // // NOTE: there is not reliable way to call the post phase without first // calling the pre phase due to how the pre phase is defined (i.e. // pre phase functions can return post phase functions). // // // 2) A mechanism to chain/wrap actions or an action and a function. // This enables us to call a callback or another action (inner) between // the root action's (outer) pre and post stages. // // Outer action o-------x o-------x // v ^ // Inner action/callback o---|---x // // A trivial example: // // actionSet.someAction.chainApply(actionsSet, // function(){ // // this gets run between someAction's pre and post // // stages... // }, // args) // // This is intended to implement protocols where a single action is // intended to act as a hook point (outer) and multiple different // implementations (inner) within a single action set can be used as // entry points. // // // Protocol root action (outer) definition... // protocolAction: [function(){}], // // // Implementation actions (inner)... // implementationAction1: [function(){ // return this.protocolAction.chainApply(this, function(){ // // ... // }, ..) // }] // // implementationAction2: [function(){ // return this.protocolAction.chainApply(this, function(){ // // ... // }, ..) // }] // // Now calling any of the 'implementation' actions will execute code // in the following order: // 1) pre phase of protocol action (outer) // 2) implementation action (inner) // 3) post phase of protocol action (outer) // // NOTE: this will not affect to protocol/signature of the outer action // in any way. // NOTE: both the inner and outer actions will get passed the same // arguments. // NOTE: another use-case is testing/debugging actions. // NOTE: this is effectively the inside-out of normal action overloading. // NOTE: there is intentionally no shorthand for this feature, to avoid // confusion and to discourage the use of this feature unless // really necessary. // // // 3) .__call__ action / handler // This action if defined is called for every action called. It behaves // like any other action but with a fixed signature, it always receives // the action name as first argument and a list of action arguments as // the second arguments, and as normal a result on the post phase. // // NOTE: it is not necessary to define the actual action, binding to a // handler will also work. // NOTE: one should not call actions directly from within a __call__ // handler as that will result in infinite recursion. // XXX need a way to prevent this... // NOTE: one should use this with extreme care as this will introduce // an overhead on all the actions if not done carefully. // // // /*********************************************************************/ // helpers... var normalizeTabs = function(str){ str = str.split(/\n/g) // get min number of leading tabs... var i = str.length == 2 && /^\t/.test(str[1]) ? str[1].split(/^(\t+)/)[1].length - 1 : Math.min.apply(null, str // skip first line... .slice(1) // skip empty strings... .filter(function(l){ return l.trim() != '' }) // count leading tabs... .map(function(l){ return /^\t+/.test(l) ? l.split(/^(\t+)/)[1].length : 0})) return (str[0] +'\n' + str .slice(1) // trim leading tabs... .map(function(l){ return l.slice(i) }).join('\n') // replace tabs... .replace(/\t/g, ' ')) // remove leading and trailing whitespace... .trim() } var doWithRootAction = module.doWithRootAction = function(func){ return function(){ var args = args2array(arguments) var handlers = (this.getHandlerList || MetaActions.getHandlerList) .apply(this, args) return func.apply(this, [handlers.pop()].concat(args)) } } /*********************************************************************/ // Construct an action object... // // Action function format: // // // pre event code... // function(..){ // ... // pre code // } // // // pre/post event code... // function(..){ // ... // pre code // return function(, ..){ // ... // post code // } // } // // // same as above but using a deferred instead of a callback... // function(..){ // ... // pre code // return $.Deferred() // .done(function(, ..){ // ... // post code // }) // } // // // An action is essentially a method with several additional features: // // - actions are split into two stages: // pre: the code of the method is executed before the action // event is fired // post: if the action returns a callback function or a deferred // object it will be executed after the event is fired // NOTE: the signature if the post stage is the same as the // action's with the added return value as first argument // (the rest og the arguments are shifted by 1). // // - actions automatically call the shadowed action, the pre stage is // executed down-up while the post stage is run in reverse order, // i.e. the pre is going down and the post is going up. // // - actions provide an event-like mechanism to register handlers or // callbacks. These callbacks are local to a specific object and will // be fired on action event/call starting from the current action // caller and down the inheritance chain, i.e. all event handlers // registered from the current object and up to the base action set // will be fired. // // - an action will return the deepest (root) action's return, if that // return is undefined, then the action set is returned instead. // // - action arguments are "threaded" through the action chain down and // root action return value and arguments are threaded back up the // action chain. // // NOTE: actions once defined do not depend on the inheritance hierarchy, // other than the .getHandlerList(..) method. If this method is not // found in the inheritance chain (i.e. the link to MetaActions) // was severed, then the default will be used: // MetaActions.getHandlerList(..) // This makes it possible to redefine the method if needed but // prevents the system from breaking when an action set gets // disconnected from MetaActions. This can be useful, for example, // to remove .on(..) / .off(..) handler functionality. // XXX is this correct?? // NOTE: by default an action will return 'this', i.e. the action set // object the action was called from. // // XXX add more metadata/docs: // .section // .category // ... // XXX might be a good idea to add an option to return the full results... var Action = module.Action = function Action(name, doc, ldoc, func){ // we got called without a 'new'... if(this == null || this.constructor !== Action){ // XXX using something like .apply(.., arguemnts) would be more // generel but have no time to figure out how to pass it // to new without the later complaining... return new Action(name, doc, ldoc, func) } // prevent action overloading... if(this[name] != null){ throw 'action "'+name+'" already exists.' } // create the actual instance we will be returning... //var meth = function(){ // return meth.chainApply(this, null, arguments) } var meth = function(){ return meth.chainApply(this, null, arguments) } meth.__proto__ = this.__proto__ // populate the action attributes... //meth.name = name Object.defineProperty(meth, 'name', { value: name, }) meth.doc = doc meth.long_doc = ldoc meth.func = func // make introspection be a bit better... meth.toString = func.toString.bind(func) return meth } // this will make action instances behave like real functions... Action.prototype.__proto__ = Function // The pre/post stage runners... // // .pre(context, args) // -> data // // .post(context, data) // -> result // // // NOTE: All the defaults should be handled by the pre stage, post will // process data assuming that it is correct. // // XXX revise the structure.... // ...is it a better idea to define action methods in an object // and assign that??? Action.prototype.pre = function(context, args){ args = args || [] var res = context var outer = this.name // get the handler list... var getHandlers = context.getHandlers || MetaActions.getHandlers var handlers = getHandlers.call(context, outer) // special case: see if we need to handle the call without handlers... var preActionHandler = context.preActionHandler || MetaActions.preActionHandler if(preActionHandler){ // XXX signature needs work... var res = preActionHandler.call(context, outer, handlers, args) if(res !== undefined){ return res } } var call_wrapper = outer != '__call__' ? getHandlers.call(context, '__call__') : [] // wrapper handlers: pre phase... call_wrapper = call_wrapper .map(function(a){ if(a.pre){ res = a.pre.call(context, outer, args) // if a handler returns a function or a deferred, // register is as a post handler... if(res && res !== context && (res instanceof Function || res.resolve instanceof Function)){ a.post = res } } return a }) // handlers: pre phase... handlers // NOTE: current action will get included and called by the code // above and below, so no need to explicitly call func... // NOTE: pre handlers are called FIFO, i.e. the last defined first... .map(function(a){ if(a.pre){ res = a.pre.apply(context, args) // if a handler returns a function or a deferred, // register is as a post handler... if(res && res !== context && (res instanceof Function || res.resolve instanceof Function)){ a.post = res // reset the result... res = context } } return a }) // return context if nothing specific is returned... res = res === undefined ? context : res return { arguments: args, wrapper: call_wrapper, handlers: handlers, result: res, } } Action.prototype.post = function(context, data){ var res = data.result var args = data.arguments || [] // the post handlers get the result as the first argument... args.splice(0, 0, res) var outer = this.name // handlers: post phase... data.handlers && data.handlers // NOTE: post handlers are called LIFO -- last defined last... .reverse() .forEach(function(a){ a.post && (a.post.resolve ? a.post.resolve.apply(a.post, args) : a.post.apply(context, args)) }) // wrapper handlers: post phase... data.wrapper && data.wrapper // NOTE: post handlers are called LIFO -- last defined last... .reverse() .forEach(function(a){ a.post && (a.post.resolve ? a.post.resolve.apply(a.post, res, outer, args.slice(1)) : a.post.call(context, res, outer, args.slice(1))) }) return res } // Chaining... Action.prototype.chainApply = function(context, inner, args){ args = [].slice.call(args || []) var res = context var outer = this.name var data = this.pre(context, args) // call the inner action/function if preset.... if(inner){ //res = inner instanceof Function ? inner instanceof Function ? inner.call(context, args) : inner instanceof Array && inner.length > 0 ? context[inner.pop()].chainCall(context, inner, args) : typeof(inner) == typeof('str') ? context[inner].chainCall(context, null, args) : null } return this.post(context, data) } Action.prototype.chainCall = function(context, inner){ return this.chainApply(context, inner, args2array(arguments).slice(2)) } //--------------------------------------------------------------------- // A base action-set object... // // This will define a set of action-set specific methods and helpers. // // XXX .off(...) needs more work... // XXX need a mechanism to publish specific attrs... var MetaActions = module.MetaActions = { // List actions... // get actions(){ var res = [] for(var k in this){ // avoid recursion, skip props... var cur = this var prop = Object.getOwnPropertyDescriptor(cur, k) while(!prop && cur.__proto__ != null){ var cur = cur.__proto__ var prop = Object.getOwnPropertyDescriptor(cur, k) } if(prop.get != null){ continue } //if(k == 'actions' || k == 'length'){ // continue //} // get only actions... if(this[k] instanceof Action){ res.push(k) } } return res }, // Number of defined actions... // get length(){ return this.actions.length }, // Get action documentation... // getDoc: function(actions){ var res = {} var that = this actions = actions == null ? this.actions : arguments.length > 1 ? args2array(arguments) : typeof(actions) == typeof('str') ? [actions] : actions // get the first defined set of docs in the inheritance chain... actions.forEach(function(n){ var cur = that res[n] = [] // go up the proto chain... while(cur.__proto__ != null){ if(cur[n] != null && cur[n].doc != null){ res[n] = [ cur[n].doc, cur[n].long_doc, cur[n].name ] break } cur = cur.__proto__ } }) return res }, getPath: function(actions){ var res = {} var that = this actions = actions == null ? this.actions : arguments.length > 1 ? args2array(arguments) : typeof(actions) == typeof('str') ? [actions] : actions // get the first defined set of docs in the inheritance chain... actions.forEach(function(n){ var cur = that // go up the proto chain... while(cur.__proto__ != null){ if(cur[n] != null && cur[n].doc != null){ var doc = cur[n].doc var long_doc = cur[n].long_doc break } cur = cur.__proto__ } res[(doc && doc.replace(/[\\\/]$/, '/'+n)) || n] = [n, doc, long_doc] }) return res }, // Get action handlers from the inheritance chain... // // NOTE: this collects both the event handlers (in order of hierarchy, // then order of definition) and actions (in order of hierarchy) // NOTE: this is the correct order for 'pre' calling, but is the // reverse of how the 'post' handlers must be called. // // For more docs on handler sequencing and definition see: .on(..) getHandlerList: function(name){ var handlers = [] var cur = this while(cur.__proto__ != null){ // get action "event" handlers... if(cur.hasOwnProperty('_action_handlers') && name in cur._action_handlers){ handlers.splice.apply(handlers, [handlers.length, 0].concat(cur._action_handlers[name])) } // get the overloading action... // NOTE: this will get all the handlers including the root // and the current handlers... // NOTE: this will ignore "shadows" that are not actions... if(cur.hasOwnProperty(name) && cur[name] instanceof Action){ handlers.push(cur[name].func) } cur = cur.__proto__ } return handlers }, // Get structured action handler definitions... // // Format: // [ // { // // NOTE: only one handler per level can be present, either // // .pre or .post, this does not mean that one can // // not define both, just that they are stored separately // pre|post: , // }, // ... // ] // // XXX need to get parent action or definition context for each level... // XXX is this simpler to use than the original .getHandlerList(..) // XXX rename this.... getHandlers: function(name){ return (this.getHandlerList || MetaActions.getHandlerList).call(this, name) .map(function(a){ var res = { // action doc... // XXX } if(!a.post_handler){ res.pre = a } else { res.post = a.post_handler } return res }) }, // Handler for cases when we need to avoid the pre/post handlers... // // Returns: // - undefined - handle the action normally. // - object - bypass action handlers. // // NOTE: the object result must be compatible with Action.pre(..) // return value... // NOTE: this is mostly a stub, here for documentation reasons... //preActionHandler: doWithRootAction( // function(action, name, handlers, args){ return null }), // Register an action callback... // // Register a post action callback // .on('action', [, ]) // .on('action.post', [, ]) // -> // // Register a pre action callback // .on('action.pre', [, ]) // -> // // Modes: // 'pre' - the handler is fired before the action is triggered, // and if the handler returns a deferred or a function // then that will get resolved, called resp. after // the action is done. // 'post' - the handler is fired after the action is finished. // this is the default. // // Handler Arguments: // 'pre' - the handler will get the same arguments as the main // action when called. // 'post' - the handler will get the action return value followed // by action arguments. // // The optional tag marks the handler to enable group removal via // .off(..) // // NOTE: 'post' mode is the default. // // XXX should we have multiple tags per handler??? on: function(actions, b, c){ var handler = typeof(c) == 'function' ? c : b var tag = typeof(c) == 'function' ? b : c // XXX make this split by whitespace... actions = typeof(actions) == 'string' ? actions.split(/ +/) : actions var that = this actions.forEach(function(action){ // prepare the handler... var mode = action.split('.') action = mode[0] mode = mode[1] // keep the original handler for future use... var a_handler = handler // a post handler (default)... if(mode == null || mode == 'post'){ var old_handler = a_handler a_handler = function(){ return old_handler } a_handler.post_handler = old_handler // NOTE: this is set so as to identify the handler // for removal via. .off(..) a_handler.orig_handler = old_handler.orig_handler || old_handler // not pre mode... } else if(mode != 'pre') { // XXX throw 'Unknown action mode: '+action+'.'+mode } a_handler.tag = tag // register handlers locally only... if(!that.hasOwnProperty('_action_handlers')){ that._action_handlers = {} } if(!(action in that._action_handlers)){ that._action_handlers[action] = [] } // register a handler only once... if(that._action_handlers[action].indexOf(a_handler) < 0){ // NOTE: last registered is first... that._action_handlers[action].splice(0, 0, a_handler) } }) return this }, // Remove an action callback... // // Remove all handlers from action: // .off('action') // .off('action', '*') // .off('action', 'all') // -> // // Remove specific handler from action: // .off('action', ) // -> // // Remove handlers from action by tag: // .off('action', ) // -> // // NOTE: the handler passed to .off(..) for removal must be the same // as the handler passed to .on(..) / .one(..) off: function(actions, handler){ if(this.hasOwnProperty('_action_handlers')){ actions = actions == '*' ? Object.keys(this._action_handlers) : typeof(actions) == 'string' ? actions.split(' ') : actions var that = this actions.forEach(function(action){ var mode = action.split('.') action = mode[0] mode = mode[1] // get the handlers... var h = that._action_handlers[action] || [] // remove explicit handler... if(typeof(handler) == 'function'){ var i = -1 if(mode == null || mode == 'post'){ // XXX find via e.orig_handler == handler && e.mode == 'post' h.forEach(function(e, j){ // NOTE: we will only get the first match... if(e.orig_handler === handler && i == -1){ i = j } }) } else if(mode == 'pre'){ i = h.indexOf(handler) } // NOTE: unknown modes are skipped... if(i >= 0){ h.splice(i, 1) } // remove all handlers... } else if(handler == null || handler == 'all' || handler == '*'){ h.splice(0, h.length) // remove handlers by tag... } else { // filter out everything that mathches a tag in-place... h.splice.apply(h, [0, h.length] .concat(h.filter(function(e){ return e.tag != handler }))) } }) } return this }, // Register an action callback that will only fire once per event... // // This is signature compatible with .on(..) one: function(actions, b, c){ var _handler = typeof(c) == 'function' ? c : b var tag = typeof(c) == 'function' ? b : c actions = typeof(actions) == 'string' ? actions.split(' *') : actions var that = this actions.forEach(function(action){ // NOTE: we are using both 'that' below and 'this', so as // to separate the call context and the bind context, // .off(..) must be called at the bind context while // the actual action is called from the call context // NOTE: we are not using the closure _handler below to // keep the code introspectable, and direct the user // to the original function. var handler = function(){ // remove handler... that.off(action, handler.orig_handler) // call the actual supplied handler function... return handler.orig_handler.apply(this, arguments) } handler.orig_handler = _handler that.on(action, tag, handler) }) return this }, // Apply/call a function/action "inside" an action... // // .chainApply(outer, inner) // .chainApply(outer, inner, arguments) // -> result // // .chainCall(outer, inner) // .chainCall(outer, inner, ..) // -> result // // // The inner action call is completely nested as base of the outer // action. // // Outer action o-------x o-------x // v ^ // Inner action o---|---x // // The given arguments are passed as-is to both the outer and inner // actions. // The base inner action return value is passed to the outer action // .post handlers. // // NOTE: these call the action's .chainApply(..) and .chainCall(..) // methods, thus is not compatible with non-action methods... // NOTE: .chianCall('action', ..) is equivalent to .action.chianCall(..) chainApply: function(outer, inner, args){ return this[outer].chainApply(this, inner, args) }, chainCall: function(outer, inner){ return this[outer].chainApply(this, inner, args2array(arguments).slice(2)) }, // Get mixin object in inheritance chain... // // NOTE: if pre is true this will return the chain item before the // mixin, this is useful, for example, to remove mixins, see // .mixout(..) for an example... getMixin: function(from, pre){ var cur = this var proto = this.__proto__ while(proto != null){ // we have a hit... if(proto.hasOwnProperty('__mixin_source') && proto.__mixin_source === from){ return pre ? cur : proto } // go to next item in chain... cur = proto proto = cur.__proto__ } return null }, // Mixin a set of actions into this... // // NOTE: if 'all' is set them mixin all the actions available, // otherwise only mixin local actions... // NOTE: this will override existing own attributes. inlineMmixin: function(from, all, descriptors, all_attr_types){ // defaults... descriptors = descriptors || true all_attr_types = all_attr_types || false if(all){ var keys = [] for(var k in from){ keys.push(k) } } else { var keys = Object.keys(from) } var that = this keys.forEach(function(k){ /* // XXX is this the right way to go??? // check if we are not overwriting anything... if(that.hasOwnProperty(k)){ console.warn('WARNING:', that,'already has attribute', k, '- skipping...') return } */ // properties.... var prop = Object.getOwnPropertyDescriptor(from, k) if(descriptors && prop.get != null){ // NOTE: so as to be able to delete this on mixout... prop.configurable = true Object.defineProperty(that, k, prop) // actions and other attributes... } else { var attr = from[k] if(all_attr_types || attr instanceof Action){ that[k] = attr } } }) return this }, // Same as .inlineMmixin(..) but isolates a mixin in a seporate object // in the inheritance chain... // mixin: function(from, all, descriptors, all_attr_types){ var proto = Object.create(this.__proto__) // mixinto an empty object proto.inlineMmixin(from, all, descriptors, all_attr_types) // mark the mixin for simpler removal... proto.__mixin_source = from this.__proto__ = proto return this }, // Mixin a set of local actions into an object... // // XXX this will not work on non-actions... mixinTo: function(to, all, descriptors, all_attr_types){ return this.mixin.call(to, this, all, descriptors, all_attr_types) }, // Remove mixed in actions from this... // // NOTE: this will only remove local actions, inherited actions will // not be affected... // NOTE: this will not affect event handlers, they should be removed // manually if needed... inlineMixout: function(from, all, descriptors, all_attr_types){ // defaults... descriptors = descriptors || true all_attr_types = all_attr_types || false if(all){ var keys = [] for(var k in from){ keys.push(k) } } else { var keys = Object.keys(from) } var locals = Object.keys(this) var that = this keys.forEach(function(k){ var prop = Object.getOwnPropertyDescriptor(from, k) // descriptor... if(descriptors && prop.get != null){ if(prop.get === Object.getOwnPropertyDescriptor(that, k).get){ delete that[k] } // actions and other attrs... } else { var attr = from[k] if((all_attr_types || attr instanceof Action) // remove only local attrs... && locals.indexOf(k) >= 0){ delete that[k] } } }) return this }, // This is similare in effect but different in mechanics to .inlineMixout(..) // // This will find and remove a mixin object from the inheritance chian. // // NOTE: this will remove only the first occurance of a mixin. mixout: function(from){ var o = this.getMixin(from, true) // pop the mixin off the chain... if(o != null){ o.__proto__ = o.__proto__.__proto__ } return this }, // Remove a set of local mixed in actions from object... // mixoutFrom: function(to, all, descriptors, all_attr_types){ return this.mixout.call(to, this, all, descriptors, all_attr_types) }, // Create a child object... // // NOTE: this will create a .config in the instance that inherits from // this.config... // NOTE: this will not copy/clone any data. // // XXX is this correct??? // XXX should this be an action??? clone: function(full){ var o = Object.create(this) if(this.config){ if(full){ o.config = JSON.parse(JSON.stringify(this.config)) } else { o.config = Object.create(this.config) } } return o }, // doc generators... // // XXX would be nice to make these prop of the action itself but I // do not see a way to do this properly yet -- we can't get to // the action context from the action dynamically... getHandlerDocStr: function(name){ var lst = this.getHandlers(name) var str = '' var handler = function(p){ if(lst.length == 0){ //str += p + '---' return } // indicate root action... p = lst.length == 1 ? p+'| ' : p+' ' var cur = lst.shift() if(cur.pre){ str += p + normalizeTabs(cur.pre.toString()).replace(/\n/g, p) + p } handler(p + ' |') str += p if(cur.post){ str += p + p + normalizeTabs(cur.post.toString()).replace(/\n/g, p) } } handler('\n|') return str }, getHandlerDocHTML: function(name){ var lst = this.getHandlers(name) var res = $('
') var handler = function(p){ if(lst.length == 0){ return } var cur = lst.shift() p = $('
') .appendTo(p) if(cur.pre){ p.append($('
').html(
					normalizeTabs(cur.pre.toString())
						.replace(/return/g, 'return')))
			}

			handler(p)

			if(cur.post){
				p.append($('
').html(
					normalizeTabs(cur.post.toString())))
			}
		}

		handler(res)

		return res
	},


	// This will create a .config in instances...
	// NOTE: this makes Actions compatible with lib/object.js...
	__init__: function(){
		if(this.__proto__.config && !Object.hasOwnProperty(this, 'config')){
			this.config = Object.create(this.__proto__.config)
		}
	},
}


var ActionSet =
module.ActionSet =
object.makeConstructor('ActionSet', MetaActions)



// An action set...
//
//	Actions()
//	Actions(, )
//		-> actions
//
// This will pre-process an object to setup the action mechanics.
//
// If the 'this and prototype both contain a .config attribute then this
// will make set .config.__proto__ = .config 
//
//
// The action format:
// 	{
// 		// full format...
// 		 : [
// 			,
// 			,
// 			
// 		],
//
// 		// short doc only...
// 		 : [
// 			,
// 			
// 		],
//
// 		// only the code...
// 		 : [
// 			
// 		],
// 		...
// 	}
//
//
// NOTE: the action function is always last.
// NOTE: if  is not given, MetaActions will be used as default.
//
// For more documentation see: Action(..).
//
// XXX add doc, ldoc, tags and save them to each action...
// XXX is .config processing correct here???
var Actions =
module.Actions =
function Actions(a, b){
	var obj = b == null ? a : b
	var proto = b == null ? b : a
	obj = obj || new ActionSet()

	// NOTE: this is intentionally done only for own attributes...
	Object.keys(obj).forEach(function(k){
		// NOTE: we are not getting the attrs directly (vars = obj[k])
		// 		as that will trigger the getters on an object that is
		// 		not in a consistent state...
		// NOTE: this will skip all the getters and setters, they will 
		// 		be included as-is...
		var arg = Object.getOwnPropertyDescriptor(obj, k).value

		// skip non-arrays...
		if(arg == null 
				|| arg.constructor !== Array 
				// and arrays the last element of which is not a function...
				|| !(arg[arg.length-1] instanceof Function)){
			return
		}

		var func = arg.pop()

		// create a new action...
		obj[k] = new Action(k, arg[0], arg[1], func)
	})

	if(proto != null){
		obj.__proto__ = proto

		// XXX is this the right way to go???
		if(obj.config != null && proto.config != null){
			obj.config.__proto__ = proto.config
		}
	}

	return obj
}



/*********************************************************************/

var test =
module.test =
function test(){
	// NOTE: this is needed only to add action methods to TestActions...
	var BaseActions = new ActionSet()

	var TestActions = 
	module.TestActions = 
	Actions(BaseActions, {
		testActionGen1: ['baisc test action...',
			'some extra info',
			function(){
				console.log('  test 1!')
				return function(){
					console.log('  test 2!')
				}
			}],

		testActionGen2: ['baisc 2\'nd gen test action...',
			// no extra info...
			function(){
				console.log('  test gen 2!')
				this.testActionGen1()
			}],
	})

	var TestActions2 = 
	module.TestActions2 = 
	Actions(TestActions, {
		// NOTE: this looks like an action and feels like an action but 
		// 		actually this is a callback as an action with this name 
		// 		already exists...
		testActionGen1: [
			function(){
				console.log('  pre callback!')
				return function(){
					console.log('  post callback!')
				}
			}],

		testAction2: ['this is an action',
			function(){
				console.log('testAction2 args:', arguments)
			}],

	})

	// XXX the main question here is that there is no way to know if a 
	// 		particular action is going to be a root action or an action
	// 		callback because we do not know if the action in the parent 
	// 		will be available at mix time or not, and the two models 
	// 		are different...
	// 		XXX one way to do this is to make all code a callback and 
	// 			just use the root as an event trigger...
	//
	// 			...but this effectively means we are implementing 
	// 			inheritance ourselves as the traditional name resolution
	// 			will no longer be used, and as in the case we implement
	// 			MRO why not go the whole way and implement multiple 
	// 			inheritance in the first place...
	//
	// 			...let's try and avoid this...
	/*
	var TestActionMixin =
	module.TestActionMixin = 
	ActionMixin({
		// XXX
	})
	*/


	console.log('TestActions.testActionGen1()')
	TestActions.testActionGen1()
	console.log('TestActions.testActionGen2()')
	TestActions.testActionGen2()

		
	// both of these should cet a callback...
	console.log('TestActions2.testActionGen1()')
	TestActions2.testActionGen1()
	console.log('TestActions2.testActionGen2()')
	TestActions2.testActionGen2()

	// and an event-like handler...
	TestActions2.on('testActionGen1.post', 
			function(){ console.log('  post handler! (first defined)') })
	TestActions2.on('testActionGen1', 
			function(){ console.log('  post handler! (last defined)') })

	console.log('TestActions2.testActionGen1()')
	TestActions2.testActionGen1()

	TestActions2.on('testActionGen2.pre', 
			function(){ console.log('  pre handler! (first defined)') })
	TestActions2.on('testActionGen2.pre', 
			function(){ console.log('  pre handler! (last defined)') })

	console.log('TestActions2.testActionGen2()')
	TestActions2.testActionGen2()
}



/**********************************************************************
* vim:set ts=4 sw=4 :                                                */
return module })