define("dojox/lang/functional/scan", ["dojo/_base/kernel", "dojo/_base/lang", "./lambda"], function(kernel, lang, df){ // This module adds high-level functions and related constructs: // - "scan" family of functions // Notes: // - missing high-level functions are provided with the compatible API: // scanl, scanl1, scanr, scanr1 // 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 scanl, and scanl1) var empty = {}; lang.mixin(df, { // classic reduce-class functions scanl: function(/*Array|String|Object*/ a, /*Function|String|Array*/ 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 an array // of values produced by foldl() at that point. if(typeof a == "string"){ a = a.split(""); } o = o || kernel.global; f = df.lambda(f); var t, n, i; if(lang.isArray(a)){ // array t = new Array((n = a.length) + 1); t[0] = z; for(i = 0; i < n; z = f.call(o, z, a[i], i, a), t[++i] = z); }else if(typeof a.hasNext == "function" && typeof a.next == "function"){ // iterator t = [z]; for(i = 0; a.hasNext(); t.push(z = f.call(o, z, a.next(), i++, a))); }else{ // object/dictionary t = [z]; for(i in a){ if(!(i in empty)){ t.push(z = f.call(o, z, a[i], i, a)); } } } return t; // Array }, scanl1: 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 an array of values produced by foldl1() at that // point. if(typeof a == "string"){ a = a.split(""); } o = o || kernel.global; f = df.lambda(f); var t, n, z, first = true; if(lang.isArray(a)){ // array t = new Array(n = a.length); t[0] = z = a[0]; for(var i = 1; i < n; t[i] = z = f.call(o, z, a[i], i, a), ++i); }else if(typeof a.hasNext == "function" && typeof a.next == "function"){ // iterator if(a.hasNext()){ t = [z = a.next()]; for(i = 1; a.hasNext(); t.push(z = f.call(o, z, a.next(), i++, a))); } }else{ // object/dictionary for(i in a){ if(!(i in empty)){ if(first){ t = [z = a[i]]; first = false; }else{ t.push(z = f.call(o, z, a[i], i, a)); } } } } return t; // Array }, scanr: 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 an array // of values produced by foldr() at that point. if(typeof a == "string"){ a = a.split(""); } o = o || kernel.global; f = df.lambda(f); var n = a.length, t = new Array(n + 1), i = n; t[n] = z; for(; i > 0; --i, z = f.call(o, z, a[i], i, a), t[i] = z); return t; // Array }, scanr1: function(/*Array|String*/ a, /*Function|String|Array*/ f, /*Object?*/ o){ // summary: // repeatedly applies a binary function to an array from right // to left; returns an array of values produced by foldr1() at that // point. if(typeof a == "string"){ a = a.split(""); } o = o || kernel.global; f = df.lambda(f); var n = a.length, t = new Array(n), z = a[n - 1], i = n - 1; t[i] = z; for(; i > 0; --i, z = f.call(o, z, a[i], i, a), t[i] = z); return t; // Array } }); });