/** * Token transformation managers with a (mostly) abstract * TokenTransformManager base class and AsyncTokenTransformManager and * SyncTokenTransformManager implementation subclasses. Individual * transformations register for the token types they are interested in and are * called on each matching token. * * Async token transformations are supported by the TokenAccumulator class, * that manages as-early-as-possible and in-order return of tokens including * buffering. * * See * https://www.mediawiki.org/wiki/Future/Parser_development/Token_stream_transformations * for more documentation. * * @author Gabriel Wicke */ var events = require('events'); /** * Base class for token transform managers * * @class * @constructor * @param {Function} callback, a callback function accepting a token list as * its only argument. */ function TokenTransformManager( ) { // Separate the constructor, so that we can call it from subclasses. this._construct(); } // Inherit from EventEmitter TokenTransformManager.prototype = new events.EventEmitter(); TokenTransformManager.prototype.constructor = TokenTransformManager; TokenTransformManager.prototype._construct = function () { this.transformers = { tag: {}, // for TAG, ENDTAG, SELFCLOSINGTAG, keyed on name text: [], newline: [], comment: [], end: [], // eof martian: [], // none of the above (unknown token type) any: [] // all tokens, before more specific handlers are run }; }; /** * Register to a token source, normally the tokenizer. * The event emitter emits a 'chunk' event with a chunk of tokens, * and signals the end of tokens by triggering the 'end' event. * XXX: Perform registration directly in the constructor? * * @method * @param {Object} EventEmitter token even emitter. */ TokenTransformManager.prototype.listenForTokensFrom = function ( tokenEmitter ) { tokenEmitter.addListener('chunk', this.onChunk.bind( this ) ); tokenEmitter.addListener('end', this.onEndEvent.bind( this ) ); }; /** * Add a transform registration. * * @method * @param {Function} transform. * @param {Number} rank, [0,3) with [0,1) in-order on input token stream, * [1,2) out-of-order and [2,3) in-order on output token stream * @param {String} type, one of 'tag', 'text', 'newline', 'comment', 'end', * 'martian' (unknown token), 'any' (any token, matched before other matches). * @param {String} tag name for tags, omitted for non-tags */ TokenTransformManager.prototype.addTransform = function ( transformation, rank, type, name ) { var transArr, transformer = { transform: transformation, rank: rank }; if ( type === 'tag' ) { name = name.toLowerCase(); transArr = this.transformers.tag[name]; if ( ! transArr ) { transArr = this.transformers.tag[name] = []; } } else { transArr = this.transformers[type]; } transArr.push(transformer); // sort ascending by rank transArr.sort( this._cmpTransformations ); }; /** * Remove a transform registration * * @method * @param {Function} transform. * @param {Number} rank, [0,3) with [0,1) in-order on input token stream, * [1,2) out-of-order and [2,3) in-order on output token stream * @param {String} type, one of 'tag', 'text', 'newline', 'comment', 'end', * 'martian' (unknown token), 'any' (any token, matched before other matches). * @param {String} tag name for tags, omitted for non-tags */ TokenTransformManager.prototype.removeTransform = function ( rank, type, name ) { var i = -1, ts; function rankUnEqual ( i ) { return i.rank !== rank; } if ( type === 'tag' ) { name = name.toLowerCase(); var maybeTransArr = this.transformers.tag.name; if ( maybeTransArr ) { this.transformers.tag.name = maybeTransArr.filter( rankUnEqual ); } } else { this.transformers[type] = this.transformers[type].filter( rankUnEqual ) ; } }; /** * Enforce separation between phases when token types or tag names have * changed, or when multiple tokens were returned. Processing will restart * with the new rank. * * XXX: This should also be moved to the subclass (actually partially implicit if * _transformTagToken and _transformToken are subclassed and set the rank when * fully processed). The token type change case still needs to be covered * though. */ TokenTransformManager.prototype._resetTokenRank = function ( res, transformer ) { if ( res.token ) { // reset rank after type or name change // Convert String literal to String object if ( res.token.constructor === String && res.token.rank === undefined ) { res.token = new String( res.token ); } if ( transformer.rank < 1 ) { res.token.rank = 0; } else { res.token.rank = 1; } } else if ( res.tokens && transformer.rank > 2 ) { for ( var i = 0; i < res.tokens.length; i++ ) { var token = res.tokens[i]; // convert string literal to string object if ( token.constructor === String && token.rank === undefined ) { res.tokens[i] = new String( token ); } if ( res.tokens[i].rank === undefined ) { // Do not run phase 0 on newly created tokens from // phase 1. res.tokens[i].rank = 2; } } } }; TokenTransformManager.prototype.setTokensRank = function ( tokens, rank ) { for ( var i = 0, l = tokens.length; i < l; i++ ) { var token = tokens[i]; // convert string literal to string object if ( token.constructor === String && token.rank === undefined ) { tokens[i] = new String( token ); token = tokens[i]; } token.rank = rank; } }; /** * Comparison for sorting transformations by ascending rank. */ TokenTransformManager.prototype._cmpTransformations = function ( a, b ) { return a.rank - b.rank; }; /* Call all transformers on a tag. * XXX: Move to subclasses and use a different signature? * * @method * @param {Object} The current token. * @param {Function} Completion callback for async processing. * @param {Number} Rank of phase end, both key for transforms and rank for * processed tokens. * @returns {Object} Token(s) and async indication. */ TokenTransformManager.prototype._transformTagToken = function ( token, phaseEndRank, cbOrPrevToken ) { // prepend 'any' transformers var ts = this.transformers.any, res = { token: token }, transform, l, i, aborted = false, tName = token.name.toLowerCase(), tagts = this.transformers.tag[tName]; if ( tagts && tagts.length ) { // could cache this per tag type to avoid re-sorting each time ts = ts.concat(tagts); ts.sort( this._cmpTransformations ); } //console.warn(JSON.stringify(ts, null, 2)); if ( ts ) { for ( i = 0, l = ts.length; i < l; i++ ) { transformer = ts[i]; if ( res.token.rank && transformer.rank < res.token.rank ) { //console.warn( 'SKIPPING' + JSON.stringify( token, null, 2 ) + // '\ntransform:\n' + JSON.stringify( transformer, null, 2 ) ); // skip transformation, was already applied. continue; } // Transform token with side effects res = transformer.transform( res.token, this, cbOrPrevToken ); // XXX: Sync transform: // res = transformer.transform( res.token, this, this.prevToken ); // XXX: Async transform: // res = transformer.transform( res.token, this, cb ); // if multiple tokens or null token: process returned tokens (in parent) if ( !res.token || // async implies tokens instead of token, so no // need to check explicitly res.token.type !== token.type || res.token.name !== token.name ) { this._resetTokenRank ( res, transformer ); aborted = true; break; } // track progress on token if ( res.token.rank === undefined && res.token.constructor === String ) { res.token = new String ( res.token ); } res.token.rank = transformer.rank; } if ( ! aborted ) { // Mark token as fully processed. if ( res.token.rank === undefined && res.token.constructor === String ) { res.token = new String ( res.token ); } res.token.rank = phaseEndRank; } } return res; }; /* Call all transformers on non-tag token types. * XXX: different signature for sync vs. async, move to subclass? * * @method * @param {Object} The current token. * @param {Function} Completion callback for async processing. * @param {Number} Rank of phase end, both key for transforms and rank for * processed tokens. * @param {Array} ts List of token transformers for this token type. * @returns {Object} Token(s) and async indication. */ TokenTransformManager.prototype._transformToken = function ( token, phaseEndRank, ts, cbOrPrevToken ) { // prepend 'any' transformers //this.env.dp('_transformToken', token); var anyTrans = this.transformers.any; if ( anyTrans.length ) { ts = this.transformers.any.concat(ts); ts.sort( this._cmpTransformations ); } var transformer, res = { token: token }, aborted = false; if ( ts ) { for (var i = 0, l = ts.length; i < l; i++ ) { transformer = ts[i]; if ( res.token.rank && transformer.rank <= res.token.rank ) { // skip transformation, was already applied. //console.warn( 'skipping transform'); continue; } // Transform the token. // XXX: consider moving the rank out of the token itself to avoid // transformations messing with it in broken ways. Not sure if // some transformations need to manipulate it though. gwicke res = transformer.transform( res.token, this, cbOrPrevToken ); if ( !res.token || res.token.type !== token.type ) { this._resetTokenRank ( res, transformer ); aborted = true; break; } // XXX: factor the conversion to String out into a generic _setRank // method? Would need to add to the string prototype for that.. if ( res.token.rank === undefined && res.token.constructor === String ) { res.token = new String ( res.token ); } res.token.rank = transformer.rank; } if ( ! aborted ) { // mark token as completely processed if ( res.token.rank === undefined && res.token.constructor === String ) { res.token = new String ( res.token ); } res.token.rank = phaseEndRank; // need phase passed in! } //else { // this.env.dp( '_transformToken aborted', res ); //} } return res; }; /******************** Async token transforms: Phase 2 **********************/ /** * Asynchronous and potentially out-of-order token transformations, used in phase 2. * * return protocol for individual transforms: * { tokens: [tokens], async: true }: async expansion -> outstanding++ in parent * { tokens: [tokens] }: fully expanded, tokens will be reprocessed * { token: token }: single-token return * * @class * @constructor * @param {Function} childFactory: A function that can be used to create a * new, nested transform manager: * nestedAsyncTokenTransformManager = manager.newChildPipeline( inputType, args ); * @param {Object} args, the argument map for templates * @param {Object} env, the environment. */ function AsyncTokenTransformManager ( childFactories, args, env, inputType ) { // Factory function for new AsyncTokenTransformManager creation with // default transforms enabled // Also sets up a tokenizer and phase-1-transform depending on the input format // nestedAsyncTokenTransformManager = manager.newChildPipeline( inputType, args ); this.inputType = inputType; this.childFactories = childFactories; this._construct(); this._reset( args, env ); // FIXME: pass actual title? this.loopAndDepthCheck = new LoopAndDepthCheck( null ); } // Inherit from TokenTransformManager, and thus also from EventEmitter. AsyncTokenTransformManager.prototype = new TokenTransformManager(); AsyncTokenTransformManager.prototype.constructor = AsyncTokenTransformManager; /** * Create a new child pipeline. * * @method * @param {String} Input type, currently only support 'text/wiki'. * @param {Object} Template arguments * @returns {Object} Pipeline, which is an object with 'first' pointing to the * first stage of the pipeline, and 'last' pointing to the last stage. */ AsyncTokenTransformManager.prototype.newChildPipeline = function ( inputType, args, title ) { //console.warn( 'newChildPipeline: ' + JSON.stringify( args ) ); var pipe = this.childFactories.input( inputType, args ); // now set up a few things on the child AsyncTokenTransformManager. var child = pipe.last; // We assume that the title was already checked against this.loopAndDepthCheck // before! child.loopAndDepthCheck = new LoopAndDepthCheck ( this.loopAndDepthCheck, this.env.normalizeTitle( this.env.tokensToString ( title ) ) ); child.title = title; return pipe; }; /** * Create a pipeline for attribute transformations. * * @method * @param {String} Input type, currently only support 'text/wiki'. * @param {Object} Template arguments * @returns {Object} Pipeline, which is an object with 'first' pointing to the * first stage of the pipeline, and 'last' pointing to the last stage. */ AsyncTokenTransformManager.prototype.getAttributePipeline = function ( inputType, args ) { var pipe = this.childFactories.attributes( inputType, args ); var child = pipe.last; child.title = this.title; child.loopAndDepthCheck = new LoopAndDepthCheck ( this.loopAndDepthCheck, '' ); return pipe; }; /** * Reset the internal token and outstanding-callback state of the * TokenTransformManager, but keep registrations untouched. * * @method * @param {Object} args, template arguments * @param {Object} The environment. */ AsyncTokenTransformManager.prototype._reset = function ( args, env ) { // Note: Much of this is frame-like. this.tailAccumulator = undefined; // eventize: bend to event emitter callback this.tokenCB = this._returnTokens.bind( this ); this.prevToken = undefined; //console.warn( 'AsyncTokenTransformManager args ' + JSON.stringify( args ) ); if ( ! args ) { this.args = {}; // no arguments at the top level } else { this.args = args; } if ( ! env ) { if ( !this.env ) { throw "AsyncTokenTransformManager: environment needed!" + env; } } else { this.env = env; } }; /** * Simplified wrapper that processes all tokens passed in */ AsyncTokenTransformManager.prototype.process = function ( tokens ) { if ( ! $.isArray ( tokens ) ) { tokens = [tokens]; } this.onChunk( tokens ); this.onEndEvent(); }; /** * Transform and expand tokens. Transformed token chunks will be emitted in * the 'chunk' event. * * @method * @param {Array} chunk of tokens */ AsyncTokenTransformManager.prototype.onChunk = function ( tokens ) { // Set top-level callback to next transform phase var res = this.transformTokens ( tokens, this.tokenCB ); this.env.dp( 'AsyncTokenTransformManager onChunk res.async=', res.async, ' tokens=', tokens ); if ( ! this.tailAccumulator ) { this.emit( 'chunk', res.tokens ); } else { this.tailAccumulator.append( res.tokens ); } if ( res.async ) { this.tailAccumulator = res.async; this.tokenCB = res.async.getParentCB ( 'sibling' ); } //this.phase2TailCB( tokens, true ); // The next processed chunk should call back as a sibling to last // accumulator, if any. if ( res.async ) { } }; /** * Run transformations from phases 0 and 1. This includes starting and * managing asynchronous transformations. * */ AsyncTokenTransformManager.prototype.transformTokens = function ( tokens, parentCB ) { //console.warn('AsyncTokenTransformManager.transformTokens: ' + JSON.stringify(tokens) ); var res, phaseEndRank = 2, // XXX: parametrize! // Prepare a new accumulator, to be used by async children (if any) localAccum = [], accum = new TokenAccumulator( this, parentCB ), cb = accum.getParentCB( 'child' ), activeAccum = null, tokensLength = tokens.length, token, ts = this.transformers; for ( var i = 0; i < tokensLength; i++ ) { token = tokens[i]; switch ( token.constructor ) { case String: res = this._transformToken( token, phaseEndRank, ts.text, cb ); break; case NlTk: res = this._transformToken( token, phaseEndRank, ts.newline, cb ); break; case TagTk: case EndTagTk: case SelfclosingTagTk: res = this._transformTagToken( token, phaseEndRank, cb ); break; default: switch( token.type ) { case 'COMMENT': res = this._transformToken( token, phaseEndRank, ts.comment, cb ); break; case 'END': res = this._transformToken( token, phaseEndRank, ts.end, cb ); break; default: res = this._transformToken( token, phaseEndRank, ts.martian, cb ); break; } break; } if( res.tokens ) { // Splice in the returned tokens (while replacing the original // token), and process them next. [].splice.apply( tokens, [i, 1].concat(res.tokens) ); tokensLength = tokens.length; i--; // continue at first inserted token } else if ( res.token ) { if ( res.token.rank === 2 ) { // token is done. if ( activeAccum ) { // push to accumulator activeAccum.push( res.token ); } else { // If there is no accumulator yet, then directly return the // token to the parent. Collect them in localAccum for this // purpose. localAccum.push( res.token ); } } else { // re-process token. tokens[i] = res.token; i--; } } else if ( res.async ) { //console.warn( 'tokens returned' ); // The child now switched to activeAccum, we have to create a new // accumulator for the next potential child. activeAccum = accum; accum = new TokenAccumulator( this, activeAccum.getParentCB( 'sibling' ) ); cb = accum.getParentCB( 'child' ); } } // Return finished tokens directly to caller, and indicate if further // async actions are outstanding. The caller needs to point a sibling to // the returned accumulator, or call .siblingDone() to mark the end of a // chain. return { tokens: localAccum, async: activeAccum }; }; /** * Callback from tokens fully processed for phase 0 and 1, which are now ready * for synchronous and globally in-order phase 2 processing. Thus each async * transform is responsible for fully processing its returned tokens to the * end of phase2. * * @method * @param {Array} chunk of tokens * @param {Mixed} Either a falsy value if this is the last callback * (everything is done), or a truish value if not yet done. */ AsyncTokenTransformManager.prototype._returnTokens = function ( tokens, notYetDone ) { //tokens = this._transformPhase2( this.frame, tokens, this.parentCB ); //if ( tokens.length && tokens[tokens.length - 1].type === 'END' ) { // this.env.dp( 'AsyncTokenTransformManager, stripping end ' ); // tokens.pop(); //} this.env.dp( 'AsyncTokenTransformManager._returnTokens, emitting chunk: ', tokens ); this.emit( 'chunk', tokens ); if ( ! notYetDone ) { //console.warn('AsyncTokenTransformManager._returnTokens done. tokens:' + // JSON.stringify( tokens, null, 2 ) + ', listeners: ' + // JSON.stringify( this.listeners( 'chunk' ), null, 2 ) ); // signal our done-ness to consumers. //if ( this.atTopLevel ) { // this.emit( 'chunk', [{type: 'END'}]); //} this.emit( 'end' ); // and reset internal state. this._reset(); } }; /** * Callback for the end event emitted from the tokenizer. * Either signals the end of input to the tail of an ongoing asynchronous * processing pipeline, or directly emits 'end' if the processing was fully * synchronous. */ AsyncTokenTransformManager.prototype.onEndEvent = function () { if ( this.tailAccumulator ) { this.env.dp( 'AsyncTokenTransformManager.onEndEvent: calling siblingDone', this.loopAndDepthCheck ); this.tailAccumulator.siblingDone(); } else { // nothing was asynchronous, so we'll have to emit end here. this.env.dp( 'AsyncTokenTransformManager.onEndEvent: synchronous done', this.loopAndDepthCheck ); this.emit('end'); this._reset(); } }; /*************** In-order, synchronous transformer (phase 1 and 3) ***************/ /** * Subclass for phase 3, in-order and synchronous processing. * * @class * @constructor * @param {Object} environment. */ function SyncTokenTransformManager ( env, phaseEndRank, inputType ) { // both inherited this._construct(); this.phaseEndRank = phaseEndRank; this.args = {}; // no arguments at the top level this.env = env; this.inputType = inputType; } // Inherit from TokenTransformManager, and thus also from EventEmitter. SyncTokenTransformManager.prototype = new TokenTransformManager(); SyncTokenTransformManager.prototype.constructor = SyncTokenTransformManager; SyncTokenTransformManager.prototype.process = function ( tokens ) { if ( ! $.isArray ( tokens ) ) { tokens = [tokens]; } this.onChunk( tokens ); this.onEndEvent(); }; /** * Global in-order and synchronous traversal on token stream. Emits * transformed chunks of tokens in the 'chunk' event. * * @method * @param {Array} Token chunk. */ SyncTokenTransformManager.prototype.onChunk = function ( tokens ) { this.env.dp( 'SyncTokenTransformManager.onChunk, input: ', tokens ); var res, localAccum = [], localAccumLength = 0, tokensLength = tokens.length, cb, // XXX: not meaningful for purely synchronous processing! token, // Top-level frame only in phase 3, as everything is already expanded. ts = this.transformers; for ( var i = 0; i < tokensLength; i++ ) { token = tokens[i]; switch( token.constructor ) { case String: res = this._transformToken( token, this.phaseEndRank, ts.text, this.prevToken ); break; case NlTk: res = this._transformToken( token, this.phaseEndRank, ts.newline, this.prevToken ); break; case TagTk: case EndTagTk: case SelfclosingTagTk: res = this._transformTagToken( token, this.phaseEndRank, this.prevToken ); break; default: switch( token.type ) { case 'COMMENT': res = this._transformToken( token, this.phaseEndRank, ts.comment, this.prevToken ); break; case 'END': res = this._transformToken( token, this.phaseEndRank, ts.end, this.prevToken ); break; default: res = this._transformToken( token, this.phaseEndRank, ts.martian, this.prevToken ); break; } } if( res.tokens ) { // Splice in the returned tokens (while replacing the original // token), and process them next. [].splice.apply( tokens, [i, 1].concat(res.tokens) ); tokensLength = tokens.length; i--; // continue at first inserted token } else if ( res.token ) { if ( res.token.rank === this.phaseEndRank ) { // token is done. localAccum.push(res.token); this.prevToken = res.token; } else { // re-process token. tokens[i] = res.token; i--; } } } this.env.dp( 'SyncTokenTransformManager.onChunk: emitting ', localAccum ); this.emit( 'chunk', localAccum ); }; /** * Callback for the end event emitted from the tokenizer. * Either signals the end of input to the tail of an ongoing asynchronous * processing pipeline, or directly emits 'end' if the processing was fully * synchronous. */ SyncTokenTransformManager.prototype.onEndEvent = function () { // This phase is fully synchronous, so just pass the end along and prepare // for the next round. this.emit('end'); }; /********************** AttributeTransformManager *************************/ /** * Utility transformation manager for attributes, using an attribute * transformation pipeline (normally phase1 SyncTokenTransformManager and * phase2 AsyncTokenTransformManager). This pipeline needs to be independent * of the containing TokenTransformManager to isolate transforms from each * other. The AttributeTransformManager returns its result by calling the * supplied callback. * * @class * @constructor * @param {Object} Containing TokenTransformManager */ function AttributeTransformManager ( manager, callback ) { this.manager = manager; this.callback = callback; this.outstanding = 1; this.kvs = []; //this.pipe = manager.getAttributePipeline( manager.args ); } AttributeTransformManager.prototype.process = function ( attributes ) { // Potentially need to use multiple pipelines to support concurrent async expansion //this.pipe.process( var pipe, ref; //console.warn( 'AttributeTransformManager.process: ' + JSON.stringify( attributes ) ); // transform each argument (key and value), and handle asynchronous returns for ( var i = 0, l = attributes.length; i < l; i++ ) { var kv = { key: [], value: [] }; this.kvs.push( kv ); var cur = attributes[i]; if ( ! cur ) { console.warn( JSON.stringify( attributes ) ); console.trace(); continue; } if ( cur.k.constructor !== String ) { // Assume that the return is async, will be decremented in callback this.outstanding++; // transform the key pipe = this.manager.getAttributePipeline( this.manager.inputType, this.manager.args ); pipe.on( 'chunk', this.onChunk.bind( this, this._returnAttributeKey.bind( this, i ) ) ); pipe.on( 'end', this.onEnd.bind( this, this._returnAttributeKey.bind( this, i ) ) ); pipe.process( attributes[i].k.concat([{type:'END'}]) ); } else { kv.key = cur.k; } if ( cur.v.constructor !== String ) { // Assume that the return is async, will be decremented in callback this.outstanding++; // transform the value pipe = this.manager.getAttributePipeline( this.manager.inputType, this.manager.args ); pipe.on( 'chunk', this.onChunk.bind( this, this._returnAttributeValue.bind( this, i ) ) ); pipe.on( 'end', this.onEnd.bind( this, this._returnAttributeValue.bind( this, i ) ) ); //console.warn('starting attribute transform of ' + JSON.stringify( attributes[i].v ) ); pipe.process( cur.v.concat([{type:'END'}]) ); } else { kv.value = cur.v; } } this.outstanding--; if ( this.outstanding === 0 ) { this._returnAttributes(); // synchronous / done return true; } else { // async, will call back this.async = true; return false; } }; AttributeTransformManager.prototype._returnAttributes = function ( ) { // convert attributes var out = []; for ( var i = 0, l = this.kvs.length; i < l; i++ ) { var kv = this.kvs[i]; out.push( new KV( kv.key, kv.value ) ); } // and call the callback with the result //this.manager.env.dp('AttributeTransformManager._returnAttributes: ' + // JSON.stringify( out ) ); this.callback( out, this.async ); }; /** * Collect chunks returned from the pipeline */ AttributeTransformManager.prototype.onChunk = function ( cb, chunk ) { if ( chunk.length && chunk[chunk.length - 1].type === 'END' ) { chunk.pop(); } cb( chunk, true ); }; /** * Empty the pipeline by returning to the parent */ AttributeTransformManager.prototype.onEnd = function ( cb ) { cb( [], false ); }; /** * Callback for async argument value expansions */ AttributeTransformManager.prototype._returnAttributeValue = function ( ref, tokens, notYetDone ) { //console.warn( 'check _returnAttributeValue: ' + JSON.stringify( tokens ) + // ' notYetDone:' + notYetDone ); this.kvs[ref].value = this.kvs[ref].value.concat( tokens ); if ( ! notYetDone ) { this.outstanding--; if ( this.outstanding === 0 ) { // this calls back to frame.cb, so no return here. this._returnAttributes(); } } }; /** * Callback for async argument key expansions */ AttributeTransformManager.prototype._returnAttributeKey = function ( ref, tokens, notYetDone ) { //console.warn( 'check _returnAttributeKey: ' + JSON.stringify( tokens ) + // ' notYetDone:' + notYetDone ); this.kvs[ref].key = this.kvs[ref].key.concat( tokens ); if ( ! notYetDone ) { this.outstanding--; if ( this.outstanding === 0 ) { // this calls back to frame.cb, so no return here. this._returnAttributes(); } } }; /******************************* TokenAccumulator *************************/ /** * Token accumulators buffer tokens between asynchronous processing points, * and return fully processed token chunks in-order and as soon as possible. * They support the AsyncTokenTransformManager. * * @class * @constructor * @param {Object} next TokenAccumulator to link to * @param {Array} (optional) tokens, init accumulator with tokens or [] */ function TokenAccumulator ( manager, parentCB ) { this.manager = manager; this.parentCB = parentCB; this.accum = []; // Wait for child and sibling by default // Note: Need to decrement outstanding on last accum // in a chain. this.outstanding = 2; } /** * Curry a parentCB with the object and reference. * * @method * @param {Object} TokenAccumulator * @param {misc} Reference / key for callback * @returns {Function} */ TokenAccumulator.prototype.getParentCB = function ( reference ) { return this._returnTokens.bind( this, reference ); }; /** * Pass tokens to an accumulator * * @method * @param {Object} token */ TokenAccumulator.prototype._returnTokens = function ( reference, tokens, notYetDone ) { var res, cb, returnTokens = []; if ( ! notYetDone ) { this.outstanding--; } //console.warn( 'TokenAccumulator._returnTokens' ); if ( reference === 'child' ) { tokens = tokens.concat( this.accum ); this.manager.env.dp( 'TokenAccumulator._returnTokens child: ', tokens, ' outstanding: ', this.outstanding ); this.accum = []; this.parentCB( tokens, this.outstanding ); return null; } else { // sibling if ( this.outstanding === 0 ) { tokens = this.accum.concat( tokens ); // A sibling will transform tokens, so we don't have to do this // again. this.manager.env.dp( 'TokenAccumulator._returnTokens: ', 'sibling done and parentCB ', tokens ); this.parentCB( tokens, false ); return null; } else if ( this.outstanding === 1 && notYetDone ) { this.manager.env.dp( 'TokenAccumulator._returnTokens: ', 'sibling done and parentCB but notYetDone ', tokens ); // Sibling is not yet done, but child is. Return own parentCB to // allow the sibling to go direct, and call back parent with // tokens. The internal accumulator is empty at this stage, as its // tokens are passed to the parent when the child is done. return this.parentCB( tokens, true); } else { this.accum = this.accum.concat( tokens ); this.manager.env.dp( 'TokenAccumulator._returnTokens: sibling done, but not overall. notYetDone=', notYetDone, ', this.outstanding=', this.outstanding, ', this.accum=', this.accum, ' manager.title=', this.manager.title ); } } }; /** * Mark the sibling as done (normally at the tail of a chain). */ TokenAccumulator.prototype.siblingDone = function () { //console.warn( 'TokenAccumulator.siblingDone: ' ); this._returnTokens ( 'sibling', [], false ); }; /** * Push a token into the accumulator * * @method * @param {Object} token */ TokenAccumulator.prototype.push = function ( token ) { return this.accum.push(token); }; /** * Append tokens to an accumulator * * @method * @param {Object} token */ TokenAccumulator.prototype.append = function ( token ) { this.accum = this.accum.concat( token ); }; /** * Loop check helper class for AsyncTokenTransformManager. * * We use a bottom-up linked list to allow sharing of paths between async * expansions. * * @class * @constructor */ function LoopAndDepthCheck ( parent, title ) { if ( parent ) { this.depth = parent.depth + 1; this.parent = parent; } else { this.depth = 0; this.parent = null; } this.title = title; } /** * Check if expanding would lead to a loop. * * @method * @param {String} Title to check. */ LoopAndDepthCheck.prototype.check = function ( title, maxDepth ) { // XXX: set limit really low for testing! if ( this.depth > maxDepth ) { // too deep //console.warn( 'Loopcheck: ' + JSON.stringify( this, null, 2 ) ); return 'Error: Expansion depth limit exceeded at '; } var elem = this; do { //console.warn( 'loop check: ' + title + ' vs ' + elem.title ); if ( elem.title === title ) { // Loop detected return 'Error: Expansion loop detected at '; } elem = elem.parent; } while ( elem ); // No loop detected. return false; }; if (typeof module == "object") { module.exports.AsyncTokenTransformManager = AsyncTokenTransformManager; module.exports.SyncTokenTransformManager = SyncTokenTransformManager; module.exports.AttributeTransformManager = AttributeTransformManager; }