//>>built define("dojox/lang/functional/fold", ["dojo/_base/lang", "dojo/_base/array", "dojo/_base/window", "./lambda"], function(lang, arr, win, df){ // This module adds high-level functions and related constructs: // - "fold" family of functions // Notes: // - missing high-level functions are provided with the compatible API: // foldl, foldl1, foldr, foldr1 // - missing JS standard functions are provided with the compatible API: // reduce, reduceRight // - the fold's counterpart: unfold // Defined methods: // - take any valid lambda argument as the functional argument // - operate on dense arrays // - take a string as the array argument // - take an iterator objects as the array argument (only foldl, foldl1, and reduce) var empty = {}; /*===== var df = dojox.lang.functional; =====*/ lang.mixin(df, { // classic reduce-class functions foldl: function(/*Array|String|Object*/ a, /*Function*/ f, /*Object*/ z, /*Object?*/ o){ // summary: repeatedly applies a binary function to an array from left // to right using a seed value as a starting point; returns the final // value. if(typeof a == "string"){ a = a.split(""); } o = o || win.global; f = df.lambda(f); var i, n; if(lang.isArray(a)){ // array for(i = 0, n = a.length; i < n; z = f.call(o, z, a[i], i, a), ++i); }else if(typeof a.hasNext == "function" && typeof a.next == "function"){ // iterator for(i = 0; a.hasNext(); z = f.call(o, z, a.next(), i++, a)); }else{ // object/dictionary for(i in a){ if(!(i in empty)){ z = f.call(o, z, a[i], i, a); } } } return z; // Object }, foldl1: function(/*Array|String|Object*/ a, /*Function|String|Array*/ f, /*Object?*/ o){ // summary: repeatedly applies a binary function to an array from left // to right; returns the final value. if(typeof a == "string"){ a = a.split(""); } o = o || win.global; f = df.lambda(f); var z, i, n; if(lang.isArray(a)){ // array z = a[0]; for(i = 1, n = a.length; i < n; z = f.call(o, z, a[i], i, a), ++i); }else if(typeof a.hasNext == "function" && typeof a.next == "function"){ // iterator if(a.hasNext()){ z = a.next(); for(i = 1; a.hasNext(); z = f.call(o, z, a.next(), i++, a)); } }else{ // object/dictionary var first = true; for(i in a){ if(!(i in empty)){ if(first){ z = a[i]; first = false; }else{ z = f.call(o, z, a[i], i, a); } } } } return z; // Object }, foldr: function(/*Array|String*/ a, /*Function|String|Array*/ f, /*Object*/ z, /*Object?*/ o){ // summary: repeatedly applies a binary function to an array from right // to left using a seed value as a starting point; returns the final // value. if(typeof a == "string"){ a = a.split(""); } o = o || win.global; f = df.lambda(f); for(var i = a.length; i > 0; --i, z = f.call(o, z, a[i], i, a)); return z; // Object }, foldr1: function(/*Array|String*/ a, /*Function|String|Array*/ f, /*Object?*/ o){ // summary: repeatedly applies a binary function to an array from right // to left; returns the final value. if(typeof a == "string"){ a = a.split(""); } o = o || win.global; f = df.lambda(f); var n = a.length, z = a[n - 1], i = n - 1; for(; i > 0; --i, z = f.call(o, z, a[i], i, a)); return z; // Object }, // JS 1.8 standard array functions, which can take a lambda as a parameter. reduce: function(/*Array|String|Object*/ a, /*Function|String|Array*/ f, /*Object?*/ z){ // summary: apply a function simultaneously against two values of the array // (from left-to-right) as to reduce it to a single value. return arguments.length < 3 ? df.foldl1(a, f) : df.foldl(a, f, z); // Object }, reduceRight: function(/*Array|String*/ a, /*Function|String|Array*/ f, /*Object?*/ z){ // summary: apply a function simultaneously against two values of the array // (from right-to-left) as to reduce it to a single value. return arguments.length < 3 ? df.foldr1(a, f) : df.foldr(a, f, z); // Object }, // the fold's counterpart: unfold unfold: function(/*Function|String|Array*/ pr, /*Function|String|Array*/ f, /*Function|String|Array*/ g, /*Object*/ z, /*Object?*/ o){ // summary: builds an array by unfolding a value o = o || win.global; f = df.lambda(f); g = df.lambda(g); pr = df.lambda(pr); var t = []; for(; !pr.call(o, z); t.push(f.call(o, z)), z = g.call(o, z)); return t; // Array } }); });